3-hydroxybutyric acid and Acetonemia studies

3-Hydroxybutyric Acid: BUTYRIC ACID substituted in the beta or 3 position. It is one of the ketone bodies produced in the liver.
3-hydroxybutyric acid : A straight-chain 3-hydroxy monocarboxylic acid comprising a butyric acid core with a single hydroxy substituent in the 3- position; a ketone body whose levels are raised during ketosis, used as an energy source by the brain during fasting in humans. Also used to synthesise biodegradable plastics.

Research Excerpts

Excerpt	Relevance	Reference
" However, no studies have been published examining the effect of ketosis on the onset of general isoflurane induced anesthesia."	7.88	Nutritional ketosis delays the onset of isoflurane induced anesthesia. ( Ari, C; D'Agostino, DP; Diamond, D; Goldhagen, CR; Koutnik, AP; Kovács, Z; Murdun, C; Rogers, C, 2018)
"The purpose of this study was to test the hypothesis that a ketogenic diet would increase the resistance of rats to pentylenetetrazole (PTZ)-induced seizures and to understand the relation of ketonemia to seizure resistance."	7.70	A ketogenic diet increases the resistance to pentylenetetrazole-induced seizures in the rat. ( Bough, KJ; Eagles, DA, 1999)
" Seizure threshold was tested by intravenous infusion of pentylenetetrazole (PTZ) whereas seizure severity was determined from measuring the hindlimb extension to flexion (E/F) ratio after seizures were evoked by maximal electroshock stimulation (MES)."	7.70	A ketogenic diet has different effects upon seizures induced by maximal electroshock and by pentylenetetrazole infusion. ( Bough, KJ; Eagles, DA; Matthews, PJ, 2000)
"The objective of this study was to assess the effects of treatment with propylene glycol (PG) and cyanocobalamin (B12) on health, milk production, and reproductive outcomes of cows diagnosed with hyperketonemia (HK), hypoglycemia (HG), or concurrent HKHG."	5.51	A randomized controlled trial examining the effects of treatment with propylene glycol and injectable cyanocobalamin on naturally occurring disease, milk production, and reproductive outcomes of dairy cows diagnosed with concurrent hyperketonemia and hypo ( Aldridge, BM; Canisso, IF; Coelho, WM; Hubner, AM; Lima, FS; Peixoto, PM; Ribeiro, L, 2022)
"Insulin resistance was evaluated using an intravenous glucose tolerance test and intravenous insulin challenge test (IVICT) in a subgroup of cows (n = 20/treatment) at 10 and 11 DIM, respectively."	5.51	Effects of recombinant bovine interleukin-8 (rbIL-8) treatment on health, metabolism, and lactation performance in Holstein cattle IV: Insulin resistance, dry matter intake, and blood parameters. ( Batista, CP; Bicalho, RC; Bringhenti, L; Lima, FS; McDonough, SP; Meira, EBS; Zinicola, M, 2019)
"Euglycaemic ketoacidosis has been reported after sodium-glucose cotransporter 2 (SGLT2) inhibitor treatment."	5.48	Degree of ketonaemia and its association with insulin resistance after dapagliflozin treatment in type 2 diabetes. ( Baek, SI; Choi, SH; Jang, HC; Kim, KM; Lee, DH; Lim, S; Min, SH; Moon, JH; Oh, TJ; Park, KS, 2018)
"To test glucagon as a treatment for fatty liver, either glucagon at 10 mg/d or excipient was infused via the jugular vein from 21 to 35 d postpartum."	5.30	Alleviation of fatty liver in dairy cows with 14-day intravenous infusions of glucagon. ( Beitz, DC; Hippen, AR; Lindberg, GL; Richardson, LF; She, P; Tucker, RW; Young, JW, 1999)
"The sympathoadrenal counterregulatory response to hypoglycemia is critical for individuals with type 1 diabetes due to impaired ability to produce glucagon."	4.02	Slow but Steady-The Responsiveness of Sympathoadrenal System to a Hypoglycemic Challenge in Ketogenic Diet-Fed Rats. ( Cohen, M; Farnham, MM; Nedoboy, PE, 2021)
" Plasma β-hydroxybutyrate concentration, on-farm cow data (milk yield, percentage of fat, protein and lactose, fat- and protein-corrected milk yield, body weight, body weight change, dry period length, parity, and somatic cell count), and NEI of 424 individual cows were available weekly through lactation wk 1 to 5 postpartum."	3.96	Short communication: Prediction of hyperketonemia in dairy cows in early lactation using on-farm cow data and net energy intake by partial least square discriminant analysis. ( Bruckmaier, RM; Kemp, B; Saccenti, E; van Knegsel, ATM; Vervoort, J; Xu, W, 2020)
" However, no studies have been published examining the effect of ketosis on the onset of general isoflurane induced anesthesia."	3.88	Nutritional ketosis delays the onset of isoflurane induced anesthesia. ( Ari, C; D'Agostino, DP; Diamond, D; Goldhagen, CR; Koutnik, AP; Kovács, Z; Murdun, C; Rogers, C, 2018)
" The method quantifies glycolic acid, beta-hydroxybutyric acid with good linearity and pyroglutamic acid with a reproducible curvature relation between 1 and 20 mmol/L and can help the clinician distinguish effectively between ethylene glycol poisoning, alcoholic and diabetic ketoacidosis and cysteine deficiency so early that it will have clinical consequences."	3.85	Beta-hydroxybutyrate and pyroglutamate can be included in a rapid GC-MS screening method for differential diagnosis of metabolic acidosis. ( Føreid, S; Gadeholt, G, 2017)
" Alcoholism may cause hypoglycemia accompanying with AKA, due to a low carbohydrate intake, the inhibition of gluconeogenesis, and reduced hepaticglycogen storage as seen in this case."	3.81	Case of alcoholic ketoacidosis accompanied with severe hypoglycemia. ( Iwanaga, Y; Matsuzaki, T; Shiraishi, W; Yamamoto, A, 2015)
" Following weight loss, circulating concentrations of glucose, insulin, non-esterified fatty acids (NEFA), β-hydroxybutyrate (BHB), leptin, gastrointestinal hormones and subjective ratings of appetite were compared when subjects were ketotic, and after refeeding."	3.79	Ketosis and appetite-mediating nutrients and hormones after weight loss. ( Delbridge, E; Kriketos, A; Prendergast, LA; Proietto, J; Purcell, K; Shulkes, A; Sumithran, P, 2013)
"Data from 191 post-mortem cases where post-mortem blood beta-hydroxybutyrate (βHB) and acetone concentrations and vitreous humor glucose concentrations (where available) had been measured were retrospectively investigated to determine the markers required to identify and distinguish between Alcoholic Ketoacidosis (AKA), Diabetic Ketoacidosis (DKA) and Hyperosmolar Hyperglycemic State (HHS)."	3.78	Investigation of markers to indicate and distinguish death due to alcoholic ketoacidosis, diabetic ketoacidosis and hyperosmolar hyperglycemic state using post-mortem samples. ( Andrews, R; Dhillo, W; Hockenhull, J; Paterson, S, 2012)
" Seizures were induced by the volatile convulsant agent flurothyl."	3.77	Antiepileptic effects of endogenous beta-hydroxybutyrate in suckling infant rats. ( Khazipov, R; Minlebaev, M, 2011)
" On day 140 of pregnancy the ewes were sampled for determination of betaOH-butyrate (BHB), AST, glucose, non-esterified fatty acids (NEFA), total cholesterol (TCH), insulin, T4, T3, cortisol, IGF-1 and leptin."	3.73	Endocrine characteristics of late pregnant hyperketonaemic ewes and their reproductive performance following the induction of ovarian cyclicity out of the breeding season. ( Cernescu, H; Chilliard, Y; Cseh, S; Dankó, G; Delavaud, C; Gáspárdy, A; Huszenicza, G; Kulcsár, M; Mircu, C; Nikolic, AJ; Rudas, P, 2006)
"The purpose of this study was to test the hypothesis that a ketogenic diet would increase the resistance of rats to pentylenetetrazole (PTZ)-induced seizures and to understand the relation of ketonemia to seizure resistance."	3.70	A ketogenic diet increases the resistance to pentylenetetrazole-induced seizures in the rat. ( Bough, KJ; Eagles, DA, 1999)
"The present study was designed to evaluate the effects of age on the efficacy of the ketogenic diet in suppressing seizures evoked by tail-vein infusion of pentylenetetrazole (PTZ)."	3.70	Seizure resistance is dependent upon age and calorie restriction in rats fed a ketogenic diet. ( Bough, KJ; Eagles, DA; Han, FT; Valiyil, R, 1999)
" Results also showed that the animals fed calorie-restricted high-fat diets exhibited significant ketonemia and protection from pentylenetetrazole (PTZ)-induced seizures."	3.70	Higher ketogenic diet ratios confer protection from seizures without neurotoxicity. ( Bough, KJ; Eagles, DA; Yao, SG, 2000)
" Seizure threshold was tested by intravenous infusion of pentylenetetrazole (PTZ) whereas seizure severity was determined from measuring the hindlimb extension to flexion (E/F) ratio after seizures were evoked by maximal electroshock stimulation (MES)."	3.70	A ketogenic diet has different effects upon seizures induced by maximal electroshock and by pentylenetetrazole infusion. ( Bough, KJ; Eagles, DA; Matthews, PJ, 2000)
"Erythrocytes were washed, suspended in buffers containing 5 mM glucose (simulates euglycemia) or 25 mM glucose (simulates hyperglycemia), and incubated with acetone (5 and 10 mM, acetoacetate (5 and 10 mM), or beta-hydroxybutyrate (5 and 25 mM) for 24 hours at 37 C."	3.69	In vitro effect of ketones and hyperglycemia on feline hemoglobin oxidation and D- and L-lactate production. ( Christopher, MM; Fallin, CW, 1996)
"Ketosis has been reported to benefit healthspan and resilience, which has driven considerable interest in development of exogenous ketones to induce ketosis without dietary changes."	3.30	Bis Hexanoyl (R)-1,3-Butanediol, a Novel Ketogenic Ester, Acutely Increases Circulating r- and s-ß-Hydroxybutyrate Concentrations in Healthy Adults. ( Anthony, JC; Blade, T; Buga, A; Crabtree, CD; Hyde, PN; Kackley, ML; Newman, JC; Panda, O; Roa-Diaz, S; Sapper, TN; Stubbs, BJ; Volek, JS, 2023)
"Acute ketosis consistently does not affect both objective and subjective parameters of appetite regulation in prediabetes."	3.30	Effect of d-β-Hydroxybutyrate-(R)-1,3 Butanediol on Appetite Regulation in People with Prediabetes. ( Bharmal, SH; Kimita, W; Liu, Y; Petrov, MS, 2023)
"Rather than during illness while diabetic ketoacidosis (DKA) is developing, we aimed to determine if levels of routine point-of-care capillary blood ketones could predict future DKA."	3.30	Point-of-Care Capillary Blood Ketone Measurements and the Prediction of Future Ketoacidosis Risk in Type 1 Diabetes. ( Bakhsh, A; Bapat, P; Budhram, D; Cherney, DZI; Dhaliwal, S; Fralick, M; Ivers, NM; Lovblom, LE; Mumford, D; Perkins, BA; Scarr, D; Song, C; Tomlinson, G; Verhoeff, NJ; Weisman, A, 2023)
"To detect ketosis [blood β-hydroxybutyrate (BHB) ≥1."	3.11	Reducing milking frequency from twice to once daily as an adjunct treatment for ketosis in lactating dairy cows-A randomized controlled trial. ( Couto Serrenho, R; DeVries, TJ; Duffield, TF; LeBlanc, SJ; McBride, BW; Williamson, M, 2022)
"Acute ketosis resulted in significantly lower AUCs for remnant cholesterol (p = 0."	3.11	Effect of acute ketosis on lipid profile in prediabetes: findings from a cross-over randomized controlled trial. ( Bharmal, SH; Kimita, W; Liu, Y; Petrov, MS, 2022)
" We conclude that supplementing with exogenous beta-hydroxybutyrate salts is safe and well-tolerated by healthy adolescents."	3.01	The Effect of Exogenous Beta-Hydroxybutyrate Salt Supplementation on Metrics of Safety and Health in Adolescents. ( Gheith, R; Lowery, R; Sharp, M; Stefan, M; Wilson, J, 2021)
"Effect of treatment on ketonemia and prevalence of HYK were evaluated for 4 specific time periods: 1 to 3, 4 to 7, 8 to 17, and 18 to 26 DIM."	2.87	A randomized controlled trial on the effect of incomplete milking during early lactation on ketonemia and body condition loss in Holstein dairy cows. ( Chorfi, Y; Dubuc, J; Dufour, S; Krug, C; Lacasse, P; Morin, PA; Roy, JP; Santschi, DE, 2018)
"Outcomes of interest on all farms were ketosis cure (blood BHB <1."	2.84	Effects of a combination butaphosphan and cyanocobalamin product and insulin on ketosis resolution and milk production. ( Duffield, TF; Gordon, JL; Herdt, TH; Kelton, DF; LeBlanc, SJ; Neuder, L, 2017)
"Ketosis was defined as blood β-hydroxybutyrate (BHB) ≥1."	2.84	Randomized clinical field trial on the effects of butaphosphan-cyanocobalamin and propylene glycol on ketosis resolution and milk production. ( Duffield, TF; Gordon, JL; Herdt, TH; Kelton, DF; LeBlanc, SJ; Neuder, L, 2017)
" Concentrations of BHB in vivo during subclinical ketosis did not alter the proliferative capability of bovine PBMC in vitro, which was first significantly decreased at a dosage of 5 mM BHB."	2.80	Effects of elevated parameters of subclinical ketosis on the immune system of dairy cows: in vivo and in vitro results. ( Dänicke, S; Frahm, J; Kersten, S; Meyer, U; Reiche, D; Sauerwein, H; Schulz, K, 2015)
"Propylene glycol was not different from GPG for glucose, insulin, or BHBA responses."	2.80	Evaluation of propylene glycol and glycerol infusions as treatments for ketosis in dairy cows. ( Allen, MS; Piantoni, P, 2015)
"Subclinical ketosis was defined as a β-hydroxybutyrate (BHBA) concentration of 1."	2.76	A field trial on the effect of propylene glycol on milk yield and resolution of ketosis in fresh cows diagnosed with subclinical ketosis. ( McArt, JA; Nydam, DV; Oetzel, GR; Ospina, PA, 2011)
"It is widely accepted that ketosis (increased blood ketone body levels, e."	2.72	Beneficial Effects of Exogenous Ketogenic Supplements on Aging Processes and Age-Related Neurodegenerative Diseases. ( Ari, C; Brunner, B; Kovács, Z, 2021)
"Cows treated with monensin were 0."	2.72	Incidence of subclinical ketosis in cows supplemented with a monensin controlled-release capsule in Holstein cattle, Florida, USA. ( Archbald, LF; Donovan, GA; Goff, JP; Littell, R; Melendez, P; Risco, CA, 2006)
"Urea was higher at wk 6 compared with wk -1."	2.71	Effects of monensin and stage of lactation on variation of blood metabolites within twenty-four hours in dairy cows. ( Azevedo, PA; Bagg, R; Crow, GH; Dick, P; Duffield, TF; Fairfield, AM; McBride, BW; Nikkhah, A; Plaizier, JC, 2005)
"Urea and BCS were not significantly associated with LDA in any of the weeks examined."	2.69	The association between selected metabolic parameters and left abomasal displacement in dairy cows. ( Duffield, T; Edge, V; Geishauser, T; Leslie, K; Sandals, D, 1998)
"Monensin treatment significantly reduced the incidence of subclinical ketosis when the threshold was defined using higher concentrations of serum beta-hydroxybutyrate (1400 and 2000 mumol/L)."	2.69	Efficacy of monensin for the prevention of subclinical ketosis in lactating dairy cows. ( Bagg, R; Dick, P; Duffield, TF; Leslie, KE; Lissemore, K; Lumsden, JH; McBride, BW; Sandals, D, 1998)
"To compare relative efficacy of dexamethasone and flumethasone alone or in combination with rapid IV infusion of glucose for treatment of ketosis in cattle."	2.68	Use of corticosteroids alone or combined with glucose to treat ketosis in dairy cows. ( Avidar, Y; Bogin, E; Chen, R; Shpigel, NY, 1996)
"In diabetes, mainly type-1, ketoacidosis is the pathological response to glucose malabsorption."	2.66	Modulation of Cellular Biochemistry, Epigenetics and Metabolomics by Ketone Bodies. Implications of the Ketogenic Diet in the Physiology of the Organism and Pathological States. ( Balcerczyk, A; Dąbek, A; Pirola, L; Wojtala, M, 2020)
"However, the exact threshold of ketosis needed to induce appetite suppression, as well as the exact mechanisms that mediate such an effect, has yet to be elucidated."	2.66	Impact of ketosis on appetite regulation-a review. ( Deemer, SE; Martins, C; Plaisance, EP, 2020)
"In cases of ketosis, a decrease in activity may be observed 5 days before the clinical diagnosis is made."	2.61	[Overview on the relationship between changes in activity and ketosis in dairy cows]. ( Hajek, F; Mansfeld, R, 2019)
"Hyperketonemia has been associated with greater milk fat content, fat-to-protein ratio and energy-corrected milk, and lower protein and urea nitrogen in milk."	2.61	Invited review: β-hydroxybutyrate concentration in blood and milk and its associations with cow performance. ( Benedet, A; De Marchi, M; Manuelian, CL; Penasa, M; Zidi, A, 2019)
"Subclinical ketosis (serum BHB >1200 to 1400 micromol/l) in the first or second week after calving is associated with increased risk of DA, metritis, clinical ketosis, endometritis, prolonged postpartum anovulation, increased severity of mastitis, and lower milk production in early lactation."	2.46	Monitoring metabolic health of dairy cattle in the transition period. ( LeBlanc, S, 2010)
"Normally, the presence of ketosis implies 2 things: that lipid energy metabolism has been activated and that the entire pathway of lipid degradation is intact."	2.39	Medical aspects of ketone body metabolism. ( Ashmarina, L; Boukaftane, Y; Kassovska-Bratinova, S; Lambert, M; Lapierre, P; Mitchell, GA; Potier, E; Robert, MF; Wang, SP, 1995)
"Alcoholic ketoacidosis (AKA) is an important and probably underdiagnosed differential diagnosis for metabolic acidosis with an increased anion gap."	2.38	[Alcoholic ketoacidosis]. ( Caspar, CB; Iten, PX; Jost, R; Risti, B; Russi, EW; Speich, R, 1993)
"The LI of clinical ketosis was 3."	1.91	Associations of parity with health disorders and blood metabolite concentrations in Holstein cows in different production systems. ( Duffield, T; Golder, HM; Lean, IJ; LeBlanc, SJ; Santos, JEP; Sheedy, DB, 2023)
"Ketosis is a metabolic disease of dairy cows in the perinatal period, β-hydroxybutyrate (β-HB) is the main component of ketosis."	1.91	Forsythin inhibits β-hydroxybutyrate-induced oxidative stress in bovine macrophages by regulating p38/ERK, PI3K/Akt, and Nrf2/HO-1 signaling pathways. ( Chen, M; Gao, X; Hong, H; Jiang, L; Jiang, Y; Jin, Q; Jin, Z; Liu, W; Qian, Y; Wei, Z; Xu, J; Yang, Z; Zhang, H; Zhang, X, 2023)
"Metabolic disorders as ketosis are manifestations of the animal's inability to manage the increase in energy requirement during early lactation."	1.91	Serum metabolomics assessment of etiological processes predisposing ketosis in water buffalo during early lactation. ( Alterisio, MC; Ciaramella, P; Contiero, B; Faillace, V; Fiore, E; Guccione, J; Harvatine, KJ; Laghi, L; Lisuzzo, A; Mazzotta, E; Zhu, C, 2023)
"Distinguishing physiologic ketosis from pathologic over-production/underutilization of ketones is critical as part of the diagnostic evaluation of disorders of carbohydrate metabolism, but there is limited literature on normal ketone production with fasting."	1.91	Fasting ketone levels vary by age: implications for differentiating physiologic from pathologic ketotic hypoglycemia. ( Mosha, M; Parmar, K; Riba-Wolman, R; Weinstein, DA, 2023)
"Although there is evidence that ketosis negatively affects fertility, the effect of late and early ketosis on the reproductive performance of lactating cows has not been systematically investigated."	1.91	Reproductive performance of lactating dairy cows with elevated milk β-hydroxybutyrate levels during first 6 weeks of lactation. ( Alemu, TW; Cue, RI; Duggavathi, R; Santschi, DE, 2023)
"Ketosis is a common nutritional metabolic disease during the perinatal period in dairy cows."	1.91	Gene co-expression network and differential expression analyses of subcutaneous white adipose tissue reveal novel insights into the pathological mechanisms underlying ketosis in dairy cows. ( Cao, J; Dai, D; Fang, L; Liu, H; Ning, M; Wang, B; Yao, C; Zhang, Y; Zhao, Y, 2023)
"Originally described in diabetic ketoacidosis, renal vacuoles can be found in other ketogenic states such as alcoholic ketoacidosis (AKA), starvation, and hypothermia, underpinned by deranged fatty acid metabolism."	1.91	Subnuclear renal tubular vacuoles in alcohol use disorder. ( Auld, FM; Milroy, CM; Parai, JL, 2023)
"The diagnosis of alcoholic ketoacidosis (AKA) has traditionally been made based only on clinical history and the presence of severe metabolic acidosis with a high anion gap (AG); however, the concentration of beta-hydroxybutyrate (BOHB), a pivotal ketone body in AKA, is not evaluated in most cases."	1.91	Alcoholic ketoacidosis evaluated with a point-of-care capillary beta-hydroxybutyrate measurement device. ( Matsumoto, T; Nishizawa, T; Sasano, M; Todaka, T, 2023)
"However, there is little data about the ketoacidosis risk and the level of physiological nutritional ketosis in individuals following these diets."	1.91	Type 1 diabetes and low carbohydrate diets-Defining the degree of nutritional ketosis. ( Dyson, P; Karpe, F; Matheou, M; Ozoran, H; Tan, GD, 2023)
"Hyperketonemia was diagnosed in wk1 and wk2 of lactation based on the blood concentration of beta-hydroxybutyrate (BHB > 1."	1.91	Evaluating variations in metabolic profiles during the dry period related to the time of hyperketonemia onset in dairy cows. ( Caixeta, L; Cramer, G; Gaire, TN; Nakagawa, K; Noyes, N; Picasso-Risso, C; Rodriguez, Z, 2023)
"Cows with ketosis most often had the CC genotype, while cows with the TT genotype had the lowest incidence of ketosis."	1.91	Gene association analysis of an osteopontin polymorphism and ketosis resistance in dairy cattle. ( Bauer, EA; Kułaj, D; Pokorska, J; Sawicki, S, 2023)
"The main background of ketoacidosis was considered as alcohol abuse in 6 cases, diabetes in 5, malnutrition in 3, and hypothermia and infection in 1 case each."	1.72	Clinicopathologic Appearance of Advanced Ketoacidosis With Basal Vacuolation in Renal Tubules. ( Hata, Y; Ichimata, S; Nishida, N, 2022)
"Previously, ketosis was reported to be associated with hematological and serum biochemical parameters."	1.72	Predicting ketosis during the transition period in Holstein Friesian cows using hematological and serum biochemical parameters on the calving date. ( Chung, H; Ha, S; Han, M; Kang, S; Kim, S; Lee, J; Oh, SI; Park, J, 2022)
"For cows diagnosed with a lesion (digital dermatitis, corkscrew, toe, foot rot, or other lesion) at their precalving hoof trim (n = 199), the odds of having SUWL for HYK+ cows were 0."	1.72	Using a target trial approach to evaluate the role of hyperketonemia in sole ulcer and white line hoof lesion development. ( Caixeta, LS; Cramer, G; Wynands, EM, 2022)
"When ketosis occurs, supraphysiological levels of free fatty acids (FFA) can cause oxidative injury to the mammary gland and autophagy can regulate the cellular oxidative status."	1.72	Impaired autophagy aggravates oxidative stress in mammary gland of dairy cows with clinical ketosis. ( Dong, J; Du, X; Gao, W; Jiang, Q; Lei, L; Li, G; Li, X; Liu, G; Loor, JJ; Pu, X; Shen, T; Song, Y; Yue, K, 2022)
"The median time to diagnosis of ketosis in blood was 5 DIM (95% CI 5 to 7 DIM); moreover, MT and UT had 2 d greater median time to diagnosis of ketosis compared with the BT [7 DIM (6 to 11 d); and 7 DIM (6 to 13 d), respectively]."	1.72	An investigation of blood, milk, and urine test patterns for the diagnosis of ketosis in dairy cows in early lactation. ( Berke, O; DeVries, TJ; Duffield, TF; LeBlanc, SJ; McBride, BW; Serrenho, RC; Williamson, M, 2022)
"Ketosis is a common metabolic disorder in peripartal dairy cows that is caused by excessive mobilization of fat and incomplete hepatic metabolism of fatty acids (FFA)."	1.72	Role of sortilin 1 (SORT1) on fatty acid-mediated cholesterol metabolism in primary calf hepatocytes. ( Fan, W; Gao, C; Jiang, Q; Li, M; Loor, JJ; Tian, Y; Wang, S; Xu, C; Yang, M; Yang, W; Zhang, B, 2022)
"Ketosis is one of the most important health problems in dairy sheep."	1.72	Evaluation of the metabolomic profile through ( Faillace, V; Fiore, E; Fiore, F; Harvatine, K; Laghi, L; Lisuzzo, A; Mazzotta, E; Moscati, L; Spissu, N; Zhu, C, 2022)
"Subclinical ketosis (SCK) in dairy cows, a common metabolic disorder during the perinatal period, is accompanied by systemic inflammation and a high concentration of blood β-hydroxybutyrate (BHB)."	1.72	β-hydroxybutyrate enhances bovine neutrophil adhesion by inhibiting autophagy. ( Batbaatar, T; Du, X; He, J; Lei, L; Li, D; Li, Y; Liu, G; Liu, M; Liu, S; Majigsuren, Z; Song, Y; Wang, K; Zeng, W, 2022)
"KEKS-supplemented food-generated ketosis may increase adenosine levels, and may thus modulate both neuroinflammatory processes and epileptic activity through adenosine receptors (such as A1Rs and A2ARs)."	1.62	Adenosine Receptors Modulate the Exogenous Ketogenic Supplement-Evoked Alleviating Effect on Lipopolysaccharide-Generated Increase in Absence Epileptic Activity in WAG/Rij Rats. ( Ari, C; Brunner, B; D'Agostino, DP; Kovács, Z, 2021)
"The ketosis has negative effects on the high-yielding dairy cows during early lactation."	1.62	Effect of functional single nucleotide polymorphism g.-572 A > G of apolipoprotein A1 gene on resistance to ketosis in Chinese Holstein cows. ( Bai, J; Gao, Y; Huang, J; Jiang, Q; Ju, Z; Wang, J; Wei, X; Yang, L; Zhang, Y, 2021)
"Subclinical or clinical ketosis also led to greater activity of caspase 1 and protein abundance of caspase 1, NLRP3, Bax, caspase 3, and caspase 9."	1.62	Oxidative stress, NF-κB signaling, NLRP3 inflammasome, and caspase apoptotic pathways are activated in mammary gland of ketotic Holstein cows. ( Cao, Z; Jia, H; Jiang, C; Liang, Y; Loor, JJ; Luo, S; Shao, G; Sun, X; Tang, Y; Xu, C; Xu, Q; Zhao, C, 2021)
"Cows with ketosis had also greater postpartum serum concentrations of NEFA, BHB, GGT and aspartate transaminase (AST) when compared with control cows."	1.62	Common and specific mineral and metabolic features in dairy cows with clinical metritis, hypocalcaemia or ketosis. ( Colazo, M; Dervishi, E; Hoff, B; Plastow, G, 2021)
"Subclinical ketosis (serum β-hydroxybutyrate≥1."	1.62	Subclinical hypocalcaemia follows specific time-related and severity patterns in post-partum Holstein cows. ( Arsenos, G; Banos, G; Gelasakis, AI; Kougioumtzis, A; Panousis, N; Siachos, N; Tsiamadis, V; Valergakis, GE, 2021)
"Clinical ketosis is common during the dairy cows' transition period and is responsible for considerable economic loss."	1.62	[Validation of a cow-side blood test for beta-hydroxybutyrate concentration in dairy cows]. ( Bannert, E; Baumgartner, W; Kadáši, M; Kaiser, A; Klein, R; Köller, G; Leonhardt, AS; Pietsch, F; Rachidi, F; Schären, M; Snedec, T; Spilke, J; Starke, A; Theile, S; Theinert, K, 2021)
"Ketosis is a common metabolic disorder in high-producing dairy cows during the peripartal period."	1.62	Enhanced mitochondrial dysfunction and oxidative stress in the mammary gland of cows with clinical ketosis. ( Du, X; Feng, X; Li, C; Li, N; Li, X; Liang, Y; Liu, G; Loor, JJ; Shu, X; Song, Y; Wang, Z; Yang, Y, 2021)
"Furthermore, dairy cows with ketosis had greater protein abundance of ER stress markers in liver tissue, including protein kinase RNA-like ER kinase (PERK), inositol-requiring protein-1α (IRE1α), and cleaved activating transcription factor-6 (ATF6)."	1.62	Disruption of endoplasmic reticulum homeostasis exacerbates liver injury in clinically ketotic cows. ( Aboragah, A; Du, X; Fang, Z; Gao, W; Gao, X; Li, X; Liu, G; Loor, JJ; Shi, Z; Song, Y; Yu, H; Zhu, Y, 2021)
"Ketosis is one of the most frequent metabolic diseases in high-yielding dairy cows and is characterized by high concentrations of ketone bodies in blood, urine, and milk, causing high economic losses."	1.62	Genome-wide association study and functional analyses for clinical and subclinical ketosis in Holstein cattle. ( Duffield, T; Schenkel, F; Soares, RAN; Squires, EJ; Vargas, G, 2021)
"Cases with moderate ketosis had a lower BMI than controls (P<0."	1.62	Characteristics of post-mortem beta-hydroxybutyrate-positivet cases - A retrospective study on age, sex and BMI in 1407 forensic autopsies. ( Ahlström, S; Green, H; Jönsson, AK; Thiblin, I, 2021)
"During ketosis, high concentrations of β-hydroxybutyrate (BHBA) in follicular, uterine and oviductal fluid have been considered to cause subfertility in cows."	1.62	High concentrations of β-hydroxybutyrate alter the kinetics of bovine spermatozoa. ( Dalle Laste Dacampo, L; Dias Gonçalves, PB; Dos Santos Brum, D; Ferreira, R; Fiordalisi, G; Germano Ferst, J; Missio, D; Silveira Mesquita, F; Weber Santos Cibin, F, 2021)
"Ketoacidosis is a dangerous complication of diabetes mellitus in which plasma levels of ketone bodies can reach 20-25 mM."	1.56	High Concentration of Ketone Body β-Hydroxybutyrate Modifies Synaptic Vesicle Cycle and Depolarizes Plasma Membrane of Rat Brain Synaptosomes. ( Adamovich, KV; Adamovich, TV; Dubouskaya, TG; Fedorovich, SV; Hrynevich, SV; Voronina, PP; Waseem, TV, 2020)
"Hyperketonemia is a metabolic disease in dairy cows, associated with negative nutrition balance (NNB) induced by low dry matter intake (DMI) and increased nutrient requirements."	1.56	Increased autophagy mediates the adaptive mechanism of the mammary gland in dairy cows with hyperketonemia. ( Abdelatty, AM; Du, X; Li, G; Li, X; Liu, G; Mohamed, FF; Peng, Z; Sun, X; Wang, Z; Xu, Q; Zhao, C, 2020)
"Ketosis is a metabolic disorder often triggered by anorexia in animals fed on high energy diets."	1.56	Development, diagnosis and therapy of ketosis in non-gravid and non-lactating Guinea pigs. ( Bochmann, M; Clauss, M; Hatt, JM; Hetzel, U; Riond, B; Schmid, NS, 2020)
"Subclinical metabolic disorders such as ketosis cause substantial economic losses for dairy farmers in addition to the serious welfare issues they pose for dairy cows."	1.56	Predictive ability of host genetics and rumen microbiome for subclinical ketosis. ( Buitenhuis, B; Difford, GF; Gebreyesus, G; Højberg, O; Lassen, J; Løvendahl, P; Noel, SJ; Plichta, DR; Poulsen, NA; Sahana, G; Sundekilde, UK; Zhu, Z, 2020)
"Subclinical (SCK) and clinical (CK) ketosis are metabolic disorders responsible for big losses in dairy production."	1.56	Opportunities and limitations of milk mid-infrared spectra-based estimation of acetone and β-hydroxybutyrate for the prediction of metabolic stress and ketosis in dairy cows. ( Bruckmaier, RM; Caldeira, MO; Dan, D; Glauser, DL; Gross, JJ; Moll, J; Neuheuser, AL; Schuler, U; Stierli, M; Stürmlin, R; Weber, C; Wegmann, S, 2020)
"Positive BHB is proof of endogenous ketoacidosis, whereas negative BHB indicates isopropanol intoxication or postmortem acetone/isopropanol formation by microorganisms in cases of decomposition."	1.56	Postmortem diagnosis of ketoacidosis: Levels of beta-hydroxybutyrate, acetone and isopropanol in different causes of death. ( Eriksson Hydara, Y; Zilg, B, 2020)
"Ketosis or blood values associated with ketosis such as β-hydroxybutyrate >1."	1.56	Relationship between milk constituents from milk testing and health, feeding, and metabolic data of dairy cows. ( Boldt, A; Glatz-Hoppe, J; Losand, B; Mohr, E; Spiekers, H, 2020)
"Ketosis is a metabolic disorder of increasing importance in high-yielding dairy cows, but accurate population-wide binary health trait recording is difficult to implement."	1.56	Genetic and nongenetic profiling of milk β-hydroxybutyrate and acetone and their associations with ketosis in Holstein cows. ( Klein, SL; König, S; May, K; Scheper, C, 2020)
"Subclinical ketosis (SCK) causes economic losses in the dairy industry because it reduces the milk production and reproductive performance of cows."	1.56	Metabolic alterations in dairy cows with subclinical ketosis after treatment with carboxymethyl chitosan-loaded, reduced glutathione nanoparticles. ( Bai, Y; Fu, S; Wu, L; Xia, C; Xu, C; Zhao, C, 2020)
"However, cows with ketosis showed higher concentrations of BHBA and NEFA which restored later."	1.56	Characterization of serum adiponectin and leptin in healthy perinatal dairy cows or cows with ketosis, and their effectson ketosis involved indices. ( Cai, D; Cao, S; Deng, J; Hu, Y; Hussain, S; Liu, H; Ma, X; Peng, G; Qian, B; Ren, Z; Shen, L; Wang, Y; Xiao, J; Yu, S; Zhong, Z; Zhou, Z; Zhu, Y; Zong, X; Zou, L; Zuo, Z, 2020)
"Growth of primary breast tumors and lung metastases were inhibited, and lifespans were longer in the KD mice compared to mice on the SD (p<0."	1.56	The effect of a ketogenic diet and synergy with rapamycin in a mouse model of breast cancer. ( Feinman, RD; Fine, EJ; Fineberg, S; Pearlman, A; Zou, Y, 2020)
"Insulin resistance was evaluated using an intravenous glucose tolerance test and intravenous insulin challenge test (IVICT) in a subgroup of cows (n = 20/treatment) at 10 and 11 DIM, respectively."	1.51	Effects of recombinant bovine interleukin-8 (rbIL-8) treatment on health, metabolism, and lactation performance in Holstein cattle IV: Insulin resistance, dry matter intake, and blood parameters. ( Batista, CP; Bicalho, RC; Bringhenti, L; Lima, FS; McDonough, SP; Meira, EBS; Zinicola, M, 2019)
"Cows with ketosis had triacylglycerol accumulation in the liver."	1.51	Hepatic nuclear factor kappa B signaling pathway and NLR family pyrin domain containing 3 inflammasome is over-activated in ketotic dairy cows. ( Du, X; Fang, Z; Li, X; Liu, G; Loor, JJ; Shen, T; Shi, Z; Wang, X; Xing, D; Zhu, Y, 2019)
"Severe hypertriglyceridemia was considered to have been a consequence of impaired insulin action and his apolipoprotein E4/2 phenotype."	1.51	Eruptive xanthomas in a patient with soft-drink diabetic ketosis and apolipoprotein E4/2. ( Aiba, S; Imai, J; Katagiri, H; Kikuchi, K; Kohata, M; Kurosawa, S; Nakajima, T; Satake, C; Sawada, S; Takahashi, K; Takeda, K; Tsuchiya, S, 2019)
"Subclinical ketosis is a common metabolic disorder affecting dairy cattle that results in a greater risk for the development of subsequent metabolic and infectious disease."	1.51	Short communication: Validation of a test-day milk test for β-hydroxybutyrate for identifying cows with hyperketonemia. ( Duffield, TF; Kelton, DF; Renaud, DL, 2019)
"Whether ketosis alters the expression of CIDEA in mammary gland tissue and the extent to which it may contribute to regulation of milk fat synthesis and secretion are unknown."	1.51	High expression of cell death-inducing DFFA-like effector a (CIDEA) promotes milk fat content in dairy cows with clinical ketosis. ( Bucktrout, R; Dong, J; Jia, H; Li, X; Liu, G; Loor, JJ; Shu, X; Sun, X; Wang, Y; Zuo, R, 2019)
"Ketosis is a metabolic disorder that has an important impact on health and productivity in dairy cattle during early lactation."	1.51	Incidence and risk factors for ketosis in grazing dairy cattle in the Cundi-Boyacencian Andean plateau, Colombia. ( Garzón-Audor, A; Oliver-Espinosa, O, 2019)
"Dairy cows with ketosis display severe oxidative stress as well as high blood concentrations of non-esterified fatty acids (NEFA) and β-hydroxybutyrate (BHB)."	1.51	The effects of non-esterified fatty acids and β-hydroxybutyrate on the hepatic CYP2E1 in cows with clinical ketosis. ( Li, X; Liu, G; Peng, Z; Wang, Z, 2019)
"Dairy cows with ketosis display excessive lipolysis in adipose tissue."	1.51	Effect of heat-shock protein B7 on oxidative stress in adipocytes from preruminant calves. ( Bucktrout, R; Dong, J; Jia, H; Li, X; Liu, G; Loor, JJ; Shu, X; Sun, X; Wang, Y; Xu, Q; Yang, L; Zuo, R, 2019)
"Diabetic ketoacidosis is defined as hyperglycemia >250 mg/dL with metabolic acidosis of arterial pH <7."	1.51	Ketoacidosis in Euglycemic Patients With Type 2 Diabetes After Abdominal Surgery. ( Bennett, A; Geehan, D; Moncure, M; Segebrecht, R; Van Way, CW; Weide, L, 2019)
"In this study, we examined the anti-ketosis effects of silibinin, a major active component of silymarin."	1.51	Silibinin inhibits in vitro ketosis by regulating HMGCS2 and NF-kB: elucidation of signaling molecule relationship under ketotic conditions. ( Do Park, K; Kang, DY; Lee, HK; Song, KD; Sp, N; Yang, YM, 2019)
"The top pathways differing between ketosis and control cows were glycolysis/gluconeogenesis, glucagon signaling pathway, cysteine and methionine metabolism, biosynthesis of amino acids, and the cGMP-PKG signaling pathway."	1.51	Adipose tissue proteomic analysis in ketotic or healthy Holstein cows in early lactation1. ( Coleman, DN; Jia, H; Li, X; Liu, G; Loor, JJ; Ma, L; Wang, Y; Xu, C; Xu, Q, 2019)
"Subclinical ketosis (SCK) may impair white blood cell (WBC) function and thus contribute to the risk of disease postpartum."	1.51	The role of altered immune function during the dry period in promoting the development of subclinical ketosis in early lactation. ( Amadori, M; Bionaz, M; Mezzetti, M; Minuti, A; Piccioli-Cappelli, F; Trevisi, E, 2019)
"Last, subclinical ketosis (SCK) was diagnosed 1×/wk; cows with at least one blood sample with β-hydroxybutyrate ≥1."	1.48	Association of rumination time and health status with milk yield and composition in early-lactation dairy cows. ( Asselstine, VH; DeVries, TJ; Duffield, TF; Kaufman, EI; LeBlanc, SJ, 2018)
"Euglycaemic ketoacidosis has been reported after sodium-glucose cotransporter 2 (SGLT2) inhibitor treatment."	1.48	Degree of ketonaemia and its association with insulin resistance after dapagliflozin treatment in type 2 diabetes. ( Baek, SI; Choi, SH; Jang, HC; Kim, KM; Lee, DH; Lim, S; Min, SH; Moon, JH; Oh, TJ; Park, KS, 2018)
"Hyperketonemia was defined as β-hydroxybutyrate ≥1."	1.48	Short communication: Cow- and herd-level prevalence of hypoglycemia in hyperketonemic postpartum dairy cows. ( Buczinski, S; Dubuc, J, 2018)
"Systemic ketosis (approx."	1.48	Exogenous β-Hydroxybutyrate Treatment and Neuroprotection in a Suckling Rat Model of Hypoxic-Ischemic Encephalopathy. ( Kim, KS; Lee, BS; Woo, CW; Woo, DC, 2018)
"The major cause of ketosis is a negative energy balance."	1.48	The concentration of free amino acids in blood serum of dairy cows with primary ketosis. ( Brodzki, A; Brodzki, P; Kurek, Ł; Marczuk, J, 2018)
"Hyperketonemia was successfully achieved, demonstrated by serum BHB concentrations of 3."	1.48	Potential prophylactic effect of recombinant bovine somatotropin (rbST) in sheep with experimentally induced hyperketonemia. ( Araújo, CASC; Minervino, AHH; Monteiro, BM; Mori, CS; Oliveira, FLC; Ortolani, EL; Rodrigues, FAML; Sousa, RS; Vale, RG, 2018)
"Dairy cows with clinical ketosis display a negative energy balance and high blood concentrations of non-esterified fatty acids (NEFAs), the latter of which is an important pathological factor of ketosis in cows."	1.48	Non-Esterified Fatty Acids Over-Activate the TLR2/4-NF-Κb Signaling Pathway to Increase Inflammatory Cytokine Synthesis in Neutrophils from Ketotic Cows. ( Li, X; Liu, G; Peng, Z; Wang, Z; Zhang, H; Zhang, Y; Zhao, Z, 2018)
"Fetal ketoacidosis with hypoxic-ischemic brain damage was determined to be the cause of death."	1.48	Detection of elevated ketone bodies by postmortem 1H-MRS in a case of fetal ketoacidosis. ( Fliss, B; Gascho, D; Heimer, J; Martinez, RM; Zoelch, N, 2018)
"We hypothesised that ketosis in postparturient dairy cows would result in altered levels on inflammation-related proteins not only in plasma but also in the milk fat globule membranes (MFGM)."	1.46	Significant changes in ITIH4, AHSG, ORM1, and CD46 content in milk fat globule membrane proteins of ketotic dairy cows. ( Dong, Z; Gao, S; Liu, R; Xia, C; Xu, C; Yang, W; Yu, H; Zhang, H, 2017)
"Ketosis is a very frequent metabolic disease in dairy cows, resulting in lower milk production, impaired fertility and increased frequency of other diseases."	1.46	Beta-hydroxybutyrate in milk as screening test for subclinical ketosis in dairy cows. ( Belić, B; Cincović, MR; Djoković, R; Ježek, J; Klinkon, M; Nemec, M; Starič, J, 2017)
"Fatal ketoacidosis due to diabetes mellitus, alcoholism, and starvation may produce characteristic basal vacuolization of renal tubular epithelial cells (RTEC)."	1.46	Septic Ketoacidosis-A Potentially Lethal Entity with Renal Tubular Epithelial Vacuolization. ( Byard, RW; Zhou, C, 2017)
"The resulting hyperglycemia is very difficult to treat, and patients are at risk for early morbidity and mortality from complications of diabetes."	1.46	Glucagon receptor inhibition normalizes blood glucose in severe insulin-resistant mice. ( Cavino, K; Cheng, X; Gromada, J; Kim, SY; Krumm, E; Murphy, AJ; Na, E; Okamoto, H; Yancopoulos, GD, 2017)
"Metabolic diseases included clinical ketosis (KET) and displaced abomasum (DA); fertility disorders were metritis (MET) and retained placenta (RP); and disease indicators were fat-to-protein ratio, milk β-hydroxybutyrate, and body condition score (BCS) in the first lactation."	1.43	Multiple-trait estimates of genetic parameters for metabolic disease traits, fertility disorders, and their predictors in Canadian Holsteins. ( Jamrozik, J; Kistemaker, GJ; Koeck, A; Miglior, F, 2016)
"To manage negative energy balance and ketosis in dairy farms, rapid and cost-effective detection is needed."	1.43	Development of Fourier transform mid-infrared calibrations to predict acetone, β-hydroxybutyrate, and citrate contents in bovine milk through a European dairy network. ( Bastin, C; Colinet, FG; Dardenne, P; Davière, JB; Dehareng, F; Fernandez Pierna, JA; Gelé, M; Gengler, N; Grelet, C; Johan, M; Reding, R; Soyeurt, H; Werner, A, 2016)
"Starvation ketoacidosis is a rare cause of metabolic acidosis and is a phenomenon that occurs normally during fasting, as the body switches from carbohydrate to lipid energy sources."	1.43	Postmortem biochemistry in suspected starvation-induced ketoacidosis. ( Augsburger, M; Burkhardt, S; Lardi, C; Palmiere, C; Sabatasso, S; Tettamanti, C; Werner, D, 2016)
"Results showed that cows with ketosis had greater concentrations of serum β-hydroxybutyric acid (BHBA), interleukin (IL)-6, tumor necrosis factor (TNF), serum amyloid A (SAA), and lactate in comparison with the CON animals."	1.43	Dairy cows affected by ketosis show alterations in innate immunity and lipid and carbohydrate metabolism during the dry off period and postpartum. ( Ametaj, BN; Deng, Q; Dervishi, E; Dunn, SM; Goldansaz, SA; Hailemariam, D; Zhang, G, 2016)
"Dairy cows with ketosis display oxidative stress that may be associated with high levels of BHB."	1.43	β-Hydroxybutyrate induces bovine hepatocyte apoptosis via an ROS-p38 signaling pathway. ( Fu, S; Gu, J; Li, N; Li, X; Liu, G; Peng, Z; Song, Y; Wang, Z; Zhang, Y; Zhao, C, 2016)
"KME-induced hyperketonemia is robust, convenient, and safe, and the ester can be taken as an oral supplement without changing the habitual diet."	1.42	A new way to produce hyperketonemia: use of ketone ester in a case of Alzheimer's disease. ( Kashiwaya, Y; King, MT; Newport, MT; VanItallie, TB; Veech, RL, 2015)
"Subclinical ketosis is one of the most prevalent metabolic disorders in high-producing dairy cows during early lactation."	1.42	Short communication: Use of genomic and metabolic information as well as milk performance records for prediction of subclinical ketosis risk via artificial neural networks. ( Ehret, A; Gronwald, W; Hochstuhl, D; Klein, MS; Krattenmacher, N; Tetens, J; Thaller, G, 2015)
"Retrospectively, 15 cows with clinical ketosis (3 consecutive BHBA samples >1."	1.42	Clinical ketosis and standing behavior in transition cows. ( Huzzey, JM; Itle, AJ; von Keyserlingk, MA; Weary, DM, 2015)
"Subclinical ketosis and CK were associated with a higher milk yield, a higher milk fat percentage, and a lower milk protein percentage at first DHI test day."	1.42	Risk factors for subclinical and clinical ketosis and association with production parameters in dairy cows in the Netherlands. ( Bemers, R; Berge, AC; Papen, J; Vanholder, T; Vertenten, G, 2015)
"Subclinical ketosis is common and is significantly associated with reproductive performance in mainly pasture-fed New Zealand dairy cattle."	1.42	Subclinical ketosis in post-partum dairy cows fed a predominantly pasture-based diet: defining cut-points for diagnosis using concentrations of beta-hydroxybutyrate in blood and determining prevalence. ( Compton, CW; McDougall, S; Young, L, 2015)
"Clinical endometritis was diagnosed by observation of vaginal discharges (>50% pus), and subclinical endometritis was diagnosed by evaluation of uterine cytology (>18% neutrophils) at 4 weeks postpartum."	1.42	Relationships among ketosis, serum metabolites, body condition, and reproductive outcomes in dairy cows. ( Choi, IS; Hur, TY; Jeong, JK; Jung, YH; Kang, HG; Kim, IH; Shin, EK, 2015)
"The model predicted clinical ketosis with a sensitivity of 100% and a specificity of 100%."	1.40	(1)H-Nuclear magnetic resonance-based plasma metabolic profiling of dairy cows with clinical and subclinical ketosis. ( Shu, S; Sun, LW; Wu, L; Xia, C; Xu, C; Zhang, HY; Zheng, JS, 2014)
"Subclinical ketosis (SCK), an important disease in lactating dairy cows, is defined as the presence of elevated concentrations of circulating ketone bodies without the development of clinical signs."	1.40	[Evaluation of a new electronic handheld meter for measurement of β-hydroxybutyric acid in dairy cows]. ( Burfeind, O; Heuwieser, W; Mahrt, A; Müller, A; Voigtsberger, R, 2014)
"Subclinical ketosis is a metabolic disorder which often goes undiagnosed and leads to constricted performance and an impairment of general condition."	1.40	Effects of prepartal body condition score and peripartal energy supply of dairy cows on postpartal lipolysis, energy balance and ketogenesis: an animal model to investigate subclinical ketosis. ( Dänicke, S; Frahm, J; Kersten, S; Meyer, U; Rehage, J; Reiche, D; Schulz, K, 2014)
"Hyperketonemia was defined by a blood BHBA concentration ≥ 1."	1.40	Accuracy of milk ketone bodies from flow-injection analysis for the diagnosis of hyperketonemia in dairy cows. ( Denis-Robichaud, J; DesCôteaux, L; Dubuc, J; Lefebvre, D, 2014)
"Fasting ketoacidosis was postulated to have precipitated the Addisonian crisis."	1.40	Ketoacidosis and adrenocortical insufficiency. ( de Froidmont, S; Lobrinus, JA; Mangin, P; Palmiere, C; Werner, D, 2014)
"Data on clinical ketosis and displaced abomasum recorded by producers were available from the national dairy cattle health system in Canada."	1.40	Genetic analysis of milk β-hydroxybutyrate and its association with fat-to-protein ratio, body condition score, clinical ketosis, and displaced abomasum in early first lactation of Canadian Holsteins. ( Jamrozik, J; Kelton, DF; Koeck, A; Lefebvre, DM; Miglior, F; Moore, RK; Schenkel, FS, 2014)
"Subclinical ketosis (SCK) is defined as concentrations of β-hydroxybutyrate (BHBA) ≥ 1."	1.39	Prevalence of subclinical ketosis and relationships with postpartum diseases in European dairy cows. ( Canelas-Raposo, J; Deniz, A; Heuwieser, W; Suthar, VS, 2013)
"Ketonuria was defined as a urine ketone value of 3+ or 4+ and was analyzed as a dichotomous, categorical variable."	1.39	Diagnostic accuracy of fingerstick β-hydroxybutyrate for ketonuria in pregnant women with nausea and vomiting. ( Ferguson, I; Mullins, ME, 2013)
"Based on thresholds for subclinical ketosis of 1."	1.39	Comparison of 2 electronic cowside tests to detect subclinical ketosis in dairy cows and the influence of the temperature and type of blood sample on the test results. ( Drillich, M; Fidlschuster, B; Iwersen, M; Klein-Jöbstl, D; Pichler, M; Roland, L; Schwendenwein, I, 2013)
"Hyperketonemia was defined as a blood BHBA concentration of ≥1."	1.39	Dry period and parturient predictors of early lactation hyperketonemia in dairy cattle. ( McArt, JA; Nydam, DV; Oetzel, GR, 2013)
"Alcohol ketoacidosis is a frequently missed diagnosis, but is well described in the literature."	1.39	Ketoacidosis and trace amounts of isopropanol in a chronic alcoholic patient. ( Dwyer, JB; Tamama, K, 2013)
"This degree of ketonemia is estimated to contribute up to 8% to 9% of brain energy metabolism."	1.39	Stimulation of mild, sustained ketonemia by medium-chain triacylglycerols in healthy humans: estimated potential contribution to brain energy metabolism. ( Castellano, CA; Chouinard-Watkins, R; Courchesne-Loyer, A; Cunnane, SC; Fortier, M; Nugent, S; Roy, M; Tremblay-Mercier, J, 2013)
"Ketosis is estimated to affect 15% of early lactation dairy cows."	1.39	Short communication: the effect of temperature on performance of milk ketone test strips. ( Gordon, JL; Karcher, EL; Shire, J, 2013)
"To examine the effect of ketoacidosis on renal cells in isolation, five cases of lethal alcoholic ketoacidosis without hyperglycemia were examined (vitreous humor β-hydroxybutyrate: 6."	1.38	Basal renal tubular epithelial cell vacuolization and alcoholic ketoacidosis. ( Byard, RW; Zhou, C, 2012)
"However, in ketosis, acetone can be reduced to IPA."	1.38	Blood, urine and vitreous isopropyl alcohol as biochemical markers in forensic investigations. ( Augsburger, M; Bardy, D; Mangin, P; Palmiere, C; Sporkert, F; Werner, D, 2012)
"Vitreous BHB was a marker of diabetic ketoacidosis when above 6."	1.38	Postmortem vitreous beta-hydroxybutyrate: interpretation in a forensic setting. ( Heninger, M, 2012)
"Dairy cows are highly susceptible to ketosis after parturition."	1.38	Alterations of fatty acid β-oxidation capability in the liver of ketotic cows. ( Fu, SX; Li, P; Li, XB; Liu, GW; Long, M; Wang, XX; Wang, Z; Wu, CC; Yu, GJ, 2012)
" The diagnostic model is, in our opinion, valuable for herd-level monitoring of hyperketonemia, especially when the model is combined with wet chemistry analysis of milk acetone or milk BHBA concentrations."	1.38	Routine detection of hyperketonemia in dairy cows using Fourier transform infrared spectroscopy analysis of β-hydroxybutyrate and acetone in milk in combination with test-day information. ( Jorritsma, R; Knijn, HM; Schonewille, JT; Stegeman, JA; van der Drift, SGA, 2012)
"Subclinical ketosis was defined as a BHBA concentration of 1."	1.38	Epidemiology of subclinical ketosis in early lactation dairy cattle. ( McArt, JAA; Nydam, DV; Oetzel, GR, 2012)
"Severe ketoacidosis induces heart failure and cardiac arrest, but its mechanism is unknown."	1.38	Inhibitory effect of β-hydroxybutyric acid on L-type Ca(2+) current under β-adrenergic stimulation in guinea pig cardiac ventricular myocytes. ( Akama, Y; Kimura, J; Kurihara, M, 2012)
"The odds of clinical ketosis were 6."	1.37	Metabolic predictors of post-partum disease and culling risk in dairy cattle. ( Duffield, TF; Leblanc, SJ; Leslie, KE; Seifi, HA, 2011)
"Acetone was about 16-fold higher with LC-75/10 only (P < 0."	1.37	Induction of ketosis in rats fed low-carbohydrate, high-fat diets depends on the relative abundance of dietary fat and protein. ( Bidlingmaier, M; Bielohuby, M; Christ, B; Hempel, M; Kienzle, E; Kirchner, H; Menhofer, D; Müller, TD; Pfluger, PT; Stemmer, K; Stock, P; Stoehr, BJ; Tschöp, MH, 2011)
"Hyperketonemia is increasingly being identified in type 2 diabetic patients in addition to those with type 1 diabetes."	1.37	Hyperketonemia decreases mitochondrial membrane potential and its normalization with chromium (III) supplementation in monocytes. ( Jain, SK; Rains, JL, 2011)
"The patient was lethargic."	1.37	Beta-ketothiolase deficiency brought with lethargy: case report. ( Arica, SG; Arica, V; Dag, H; Gülbayzar, S; Obut, O; Onur, H, 2011)
"Subclinical ketosis (SCK) is simply a condition marked by increased levels of circulating ketone bodies without the presence of the clinical signs of ketosis."	1.37	Prevalence of subclinical ketosis in dairy cattle in the Southwestern Iran and detection of cutoff point for NEFA and glucose concentrations for diagnosis of subclinical ketosis. ( Asl, AN; Ghasrodashti, AR; Nazifi, S; Olyaee, A, 2011)
"However, chronic in vitro ketosis abolished hippocampal network hyperexcitability following a metabolic insult, hypoxia, demonstrating for the first time a direct link between metabolic resistance and better control of excessive, synchronous, abnormal electrical activity."	1.36	Chronic in vitro ketosis is neuroprotective but not anti-convulsant. ( Abdelmalik, P; Carlen, PL; Samoilova, M; Velumian, AA; Weisspapir, M, 2010)
"Biochemically, in clinical ketosis compared with subclinical and control cases, there was a significant increase (p<0."	1.36	Ketosis in buffalo (Bubalus bubalis): clinical findings and the associated oxidative stress level. ( Abou El-Amaiem, WE; El-deeb, WM; El-Khodery, SA; Youssef, MA, 2010)
"Niacin has showed an increase in the level of plasma glucose and a notable decrease in the amount of blood triglyceride, beta-hydroxy butyrate and total protein, which may be due to the effect of this vitamin on the energy metabolism in cows."	1.35	Effects of niacin on milk production and blood parameters in early lactation of dairy cows. ( Ghorbani, B; Vahdani, N; Zerehdaran, S, 2008)
"Sensitivity and specificity are excellent for a cowside test and higher than 2 commonly used chemical dipsticks (Ketostix and Ketolac)."	1.35	Evaluation of an electronic cowside test to detect subclinical ketosis in dairy cows. ( Falkenberg, U; Forderung, D; Heuwieser, W; Iwersen, M; Voigtsberger, R, 2009)
"Cows diagnosed with subclinical ketosis (SCK) after calving are at increased risk of developing other diseases and compromised reproductive performance."	1.35	Prepartum feeding behavior is an early indicator of subclinical ketosis. ( Chapinal, N; Goldhawk, C; Veira, DM; von Keyserlingk, MA; Weary, DM, 2009)
"Ketosis is a common metabolic disease, and affected dairy cows are known to have increased risk for mastitis and other infectious conditions."	1.35	Beta-hydroxybutyrate abrogates formation of bovine neutrophil extracellular traps and bactericidal activity against mammary pathogenic Escherichia coli. ( Elazar, S; Grinberg, N; Rosenshine, I; Shpigel, NY, 2008)
"A consistently strong ketosis (beta-hydroxybutyrate of >3 mmol/L) seemed to be important for maintaining the efficacy of the diet therapy."	1.34	Use of a modified Atkins diet in intractable childhood epilepsy. ( Kang, du C; Kang, HC; Kim, HD; Ko, TS; Lee, HS; You, SJ, 2007)
"These data suggest that diet-induced ketosis results in increased vascular density at the blood-brain barrier without changes in blood flow."	1.34	Diet-induced ketosis increases capillary density without altered blood flow in rat brain. ( Emancipator, D; Ivy, A; LaManna, JC; Puchowicz, MA; Sun, X; Xu, K, 2007)
"Subclinical ketosis (SCK) is defined as elevated concentrations of ketone bodies in the absence of clinical signs of ketosis."	1.34	Bovine subclinical ketosis in dairy herds in Iran. ( Ameri, M; Sakha, M; Sharifi, H; Taheri, I, 2007)
"Subclinical ketosis is a metabolic disorder in high-producing dairy cattle that can be detected by ketone bodies in milk: acetone (Ac), acetoacetate (AcAc), and beta-hydroxybutyrate (BHBA)."	1.34	Screening for subclinical ketosis in dairy cattle by Fourier transform infrared spectrometry. ( de Jong, G; de Roos, AP; Hørlyk, J; van den Bijgaart, HJ, 2007)
"Outputs of the model are the risk of ketosis (value between 0 and 1, where 0 = no risk and 1 = clinical ketosis) and how many days until the next milk sample should be taken and analyzed for BHBA."	1.33	Predicting risk of ketosis in dairy cows using in-line measurements of beta-hydroxybutyrate: a biological model. ( Chagunda, MG; Friggens, NC; Ingvartsen, KL; Nielsen, NI, 2005)
"All subjects were seizure tested by using the PTZ infusion test."	1.33	A comparison of the ability of a 4:1 ketogenic diet and a 6.3:1 ketogenic diet to elevate seizure thresholds in adult and young rats. ( Abdelmalik, PA; Burnham, WM; Clarke, J; Likhodii, S; Nylen, K, 2005)
"During the ketosis induction period, KI cows had lower intake, milk yield, and serum glucose concentration but higher concentrations of nonesterified fatty acids and beta-hydroxybutyrate in serum as well as total lipid and triacylglycerol in liver than did control cows."	1.33	Prepartum intake, postpartum induction of ketosis, and periparturient disorders affect the metabolic status of dairy cows. ( Bollero, GA; Dann, HM; Drackley, JK; Morin, DE; Murphy, MR, 2005)
"Subclinical/clinical ketosis was quantitatively determined using a plasma BHBA threshold of 1,200 microM."	1.33	Plasma vitamin C concentration is not related to the incidence of ketosis in dairy cows during the early lactation period. ( Inoue, J; Matsui, T; Padilla, L; Shibano, K; Yano, H, 2005)
"PD), or ketosis induction status (control vs."	1.33	Carnitine palmitoyltransferase I in liver of periparturient dairy cows: effects of prepartum intake, postpartum induction of ketosis, and periparturient disorders. ( Dann, HM; Drackley, JK, 2005)
"Acetone has been shown to have broad-spectrum anticonvulsant actions in animal seizure models and has been hypothesized to play a role in the anticonvulsant mechanism of the ketogenic diet (KD)."	1.33	A ketogenic diet and diallyl sulfide do not elevate afterdischarge thresholds in adult kindled rats. ( Burnham, WM; Hum, KM; Likhodii, SS; Nylen, K, 2006)
"Hemolysis is a common artifact in samples submitted to diagnostic laboratories."	1.33	Effect of hemolysis on nonesterified fatty acid and beta-hydroxybutyrate concentrations in bovine blood. ( Nydam, DV; Stokol, T, 2006)
"Diabetic ketoacidosis, alcoholic ketoacidosis, starvation ketosis and hypoglycaemic ketoacidosis were all ruled out, and his toxin screen was negative for salicylates."	1.32	An unusual cause for ketoacidosis. ( Brunengraber, H; Davids, MR; Halperin, ML; Segal, AS, 2004)
"The sample proportion of subclinical ketosis was 7."	1.32	Evaluation and use of three cowside tests for detection of subclinical ketosis in early postpartum cows. ( Carrier, J; Fetrow, J; Godden, S; Rapnicki, P; Stewart, S, 2004)
"The level of ketosis, however, was not predictive of seizure protection in EL mice."	1.31	The ketogenic diet inhibits epileptogenesis in EL mice: a genetic model for idiopathic epilepsy. ( Madore, RA; Seyfried, TN; Stafstrom, CE; Tandon, P; Todorova, MT, 2000)
"For the detection of subclinical ketosis, the best sensitivity-specificity combination was obtained with the determination of acetoacetate in blood or milk, with threshold concentrations of 125 and 50 micromol/L, respectively."	1.31	Ketone bodies in milk and blood of dairy cows: relationship between concentrations and utilization for detection of subclinical ketosis. ( Bayourthe, C; Enjalbert, F; Moncoulon, R; Nicot, MC, 2001)
"To understand how ketosis and seizure protection are related, a reliable, noninvasive measure of ketosis that can be performed frequently with minimal discomfort is needed."	1.31	Breath acetone is a reliable indicator of ketosis in adults consuming ketogenic meals. ( Cunnane, SC; Likhodii, SS; Musa-Veloso, K, 2002)
"These data suggest that severe CHF is a ketosis-prone state."	1.30	Heart failure ketosis. ( Härkönen, M; Koskinen, P; Kupari, M; Lommi, J; Näveri, H, 1997)
"When subclinical ketosis was defined as a serum BHB level of 1200 mumol/L or higher, the prevalence of ketosis for cows in early lactation (< 65 days in milk (DIM)) was 14."	1.30	Use of test day milk fat and milk protein to detect subclinical ketosis in dairy cattle in Ontario. ( Duffield, TF; Kelton, DF; Leslie, KE; Lissemore, KD; Lumsden, JH, 1997)
"The prevalence of subclinical ketosis was highest during the first 6 wk of lactation, and a peak was detected during the 2nd wk of lactation."	1.30	Evaluation of five cowside tests for use with milk to detect subclinical ketosis in dairy cows. ( Duffield, T; Geishauser, T; Kelton, D; Leslie, K, 1998)
"In the latter the onset of ketosis was earlier in pregnancy (day 143 +/- 7 vs."	1.30	Spontaneous pregnancy toxaemia (ketosis) in sheep and the role of insulin. ( Bickhardt, K; Fuhrmann, H; Henze, P; Sallmann, HP, 1998)
"This apparent ketosis resistance is similar to that observed in some forms of human diabetes."	1.30	Ketosis resistance in the male offspring of protein-malnourished rat dams. ( Hales, CN; Ozanne, SE; Petry, CJ; Smith, JM; Wang, CL, 1998)
"The mechanism by which ketosis causes accelerated cellular damage and vascular disease in diabetes is not known."	1.30	Ketosis (acetoacetate) can generate oxygen radicals and cause increased lipid peroxidation and growth inhibition in human endothelial cells. ( Jain, SK; Kannan, K; Lim, G, 1998)
"Subclinical ketosis was induced through a 10% feed restriction and was quantitatively determined using a blood beta-hydroxybutyrate (BHBA) threshold of 1200 mumol/L."	1.30	The impact of a monensin controlled-release capsule on subclinical ketosis in the transition dairy cow. ( Bagg, R; Dick, P; Green, BL; Leslie, KE; McBride, BW; Sandals, D, 1999)
"To test glucagon as a treatment for fatty liver, either glucagon at 10 mg/d or excipient was infused via the jugular vein from 21 to 35 d postpartum."	1.30	Alleviation of fatty liver in dairy cows with 14-day intravenous infusions of glucagon. ( Beitz, DC; Hippen, AR; Lindberg, GL; Richardson, LF; She, P; Tucker, RW; Young, JW, 1999)
"Results indicate that seizure threshold was significantly elevated with increasing ketogenic ratios (i."	1.30	Path analysis shows that increasing ketogenic ratio, but not beta-hydroxybutyrate, elevates seizure threshold in the Rat. ( Bough, KJ; Chen, RS; Eagles, DA, 1999)
"To achieve this aim, one would need ketosis, severe hypoglycemia, and low lactatemia."	1.29	Model of extreme hypoglycemia in dogs made ketotic with (R,S)-1,3-butanediol acetoacetate esters. ( Agarwal, KC; Ciraolo, ST; David, F; Fernandez, CA; Koshy, J; Lucas, D; Previs, SF; Stevens, MP; Tammaro, A; Tserng, KY, 1995)
"Subclinical ketosis was defined with serum beta-hydroxybutyrate measurements."	1.29	Evaluation of two cowside tests for the detection of subclinical ketosis in dairy cows. ( Aarts, MG; Jonkers, AG; Nielen, M; Schukken, YH; Wensing, T, 1994)
"Alcoholic ketoacidosis is rare and must be considered in the differential diagnosis of any alcoholic patient with acidosis."	1.29	[Alcoholic ketoacidosis. Apropos of a case with coma]. ( Jobard, JM, 1993)
"Forensic pathologists are familiar with alcohol abusers, who are found dead and in whom the cause of death cannot be ascertained."	1.29	Alcoholic ketoacidosis as a cause of death in forensic cases. ( Felby, S; Nielsen, E; Theilade, P; Thomsen, JL, 1995)
"Susceptibility to clinical ketosis, therefore, may be indicated by increased hepatic triglyceride to glycogen ratios during the peripartal period."	1.28	Metabolic changes in dairy cows with ketonemia in response to feed restriction and dietary 1,3-butanediol. ( Beitz, DC; Drackley, JK; Richard, MJ; Young, JW, 1992)
"Results indicate that experimental ketosis was preceded by metabolic abnormalities up to 2 wk before clinical ketosis occurred."	1.28	Metabolic changes in blood and liver during development and early treatment of experimental fatty liver and ketosis in cows. ( Drackley, JK; Miller, LD; Richard, MJ; Sanderson, TP; Veenhuizen, JJ; Young, JW, 1991)
"Post-exercise ketosis is known to be suppressed by physical training and by a high carbohydrate diet."	1.28	Post-exercise ketosis and the glycogen content of liver and muscle in rats on a high carbohydrate diet. ( Adams, JH; Koeslag, JH, 1989)
"Metoclopramide has previously been shown to inhibit the ketosis of starvation in rats and humans."	1.28	D2-dopaminergic blockade does not influence post-exercise ketosis in non-athletes. ( Koeslag, JH; Lochner, JV; Vahed, YA, 1989)
"Propionic acid was used as a possible preventive agent against ketogenesis."	1.27	Effect of propionic acid on ketogenesis in lactating sheep fed restricted rations or deprived of food. ( Emmanuel, B; Kennelly, JJ, 1984)
"Systemic ketosis was induced in first-parity gilts by the isocaloric substitution of glucose with 1,3-butylene glycol to supply 20% of the total dietary energy beginning on d 23 (23 BG) or d 60 (60 BG) of gestation."	1.27	Fetal hepatic and neural substrate utilization as affected by induced nutritional ketosis in swine. ( McMurtry, JP; Rosebrough, RW; Steele, NC, 1984)
"Post-exercise ketosis is not abolished by glucose ingestion immediately after exercise but is counteracted by simultaneous beta-adrenergic blockade."	1.27	beta-Adrenergic blockade counteracts starvational ketosis, but aggravates post-exercise ketosis in non-athletes. ( J de V Lochner, J; Koeslag, JH; Vahed, YA, 1988)
"Alcoholic ketosis occurs in alcoholics, who have been shown also to be more predisposed than normal to post-exercise ketosis (Chalmers, Sulaiman & Johnson, 1977)."	1.27	Ethanol ingestion and the development of post-exercise ketosis in non-alcoholic human subjects. ( Hadley, W; Koeslag, JH; Lochner, JD, 1988)
"3."	1.27	The effects of post-exercise glucose and alanine ingestion on plasma carnitine and ketosis in humans. ( Carlin, JI; Olson, EB; Peters, HA; Reddan, WG, 1987)
"The ketosis was reversed by glucagon administration."	1.27	Clinical and laboratory observations in a child with hepatic phosphorylase kinase deficiency. ( Brown, BI; Burke, BA; Tuchman, M; Ulstrom, RA, 1986)
"Diabetic ketoacidosis is often associated with a temporary increase in protein excretion, but the mechanisms are not completely known."	1.27	Effect of 3-hydroxybutyrate infusion on urinary protein excretion in healthy man. ( Alberti, KG; Christensen, CK; Mogensen, CE; Pedersen, EB; Schmitz, O, 1986)
"A mild ketosis is known to prevail in the mother, fetus, and newborn infant during the 3rd trimester and in the early neonatal period."	1.27	Medium-chain triglycerides in infant formulas and their relation to plasma ketone body concentrations. ( Auestad, N; Benson, J; Edmond, J; Picone, T; Rambathla, S; Wu, PY, 1986)
"Both patients had episodic ketosis and metabolic acidosis."	1.27	3-Ketothiolase deficiency. ( Bartlett, K; Cannon, RA; Conde, C; Gomez Vazquez, J; Lipson, M; Middleton, B; Nyhan, WL; Romanos, A; Sweetman, L, 1986)
"This study examined ketosis in response to 90 min of running before and after the ingestion of 50 g glucose or 50 g L-alanine in thirty-three athletes."	1.27	Post-exercise ketosis in post-prandial exercise: effect of glucose and alanine ingestion in humans. ( Koeslag, JH; Levinrad, LI; Lochner, JD; Sive, AA, 1985)
"The effects of ketosis on the norepinephrine-induced high rates of cardiac uptake of non-esterified fatty acids (NEFA = free fatty acids = FFA) and oxygen consumption were studied in anesthetized intact dogs."	1.27	Inhibitory effects of the D(-)isomer of 3-hydroxybutyrate on cardiac non-esterified fatty acid uptake and oxygen demand induced by norepinephrine in the intact dog. ( Huynh-Thu, T; Kolanowski, J; Lammerant, J, 1985)
"Experimental ketosis was induced by feeding calves a diet containing 1,3 butanediol for 9 or 10 days."	1.27	Suppression of mitogenic response of bovine lymphocytes during experimental ketosis in calves. ( Hoy, DA; Klucinski, W; Littledike, ET; Targowski, SP, 1985)
"Maternal ketosis was induced in sows by feeding 20% of the dietary energy as 1,3-butylene glycol (BG), medium-chain triglycerides (MCT), or a combination of the two."	1.26	Effect of ketogenic diets in gestation on some characteristics of carbohydrate metabolism in fetal pig brain and liver. ( Frobish, LT; Rosebrough, RW; Steele, NC, 1981)
"Hyperketonemia was induced by 3 days of starvation or by infusion of 3-hydroxybutyrate in fed rats."	1.26	No effect of hyperketonemia on local cerebral glucose utilization in conscious rats. ( Corddry, DH; London, ED; Rapoport, SI, 1982)

Timeframe	Studies, this research(%)	All Research%
pre-1990	44 (9.71)	18.7374
1990's	46 (10.15)	18.2507
2000's	67 (14.79)	29.6817
2010's	179 (39.51)	24.3611
2020's	117 (25.83)	2.80

Trial	Phase	Enrollment	Study Type	Start Date	Status
A Randomized, Double-blind, Placebo-controlled, Parallel Group, Feasibility Pilot Study to Evaluate the Tolerability and Safety of a Novel Ketone Ester Ingredient in Healthy Older Men and Women.[NCT05585762]		30 participants (Actual)	Interventional	2022-11-28	Active, not recruiting
Cross-over, Placebo-controlled, Randomized Trial of β-hydroxybutyrate in Prediabetes[NCT03889210]		18 participants (Actual)	Interventional	2019-04-01	Completed
Short Term Induction of Ketosis in PKD[NCT04472624]		10 participants (Actual)	Interventional	2020-07-01	Completed
Ketosis and Appetite Suppression - What is the Maximum Carbohydrate Intake That is Still Associated With Appetite Suppression in a Low Energy Diet?[NCT02944253]		100 participants (Actual)	Interventional	2017-05-01	Completed
Metabolic Differences of an Oral and Intravenous Dose of 3-hydroxybutyrate (3-OHB).[NCT03935841]		8 participants (Actual)	Interventional	2019-06-07	Completed
A Pilot Study Evaluating a Ketogenic Diet Concomitant to Nivolumab and Ipilimumab in Patients With Metastatic Renal Cell Carcinoma[NCT05119010]		60 participants (Anticipated)	Interventional	2023-03-24	Recruiting
Markers of Appetite Regulation During Exogenous Ketosis - a Placebo Controlled Randomized Study of Appetite Regulatory and Metabolic Markers After Intake of a Keto- or Glucogenic Drink.[NCT04156477]		10 participants (Actual)	Interventional	2019-10-24	Active, not recruiting
Optimisation of Acute Medium Chain Triglycerides Intake Characteristics on Different Plasma Metabolites in Young and Older Participants[NCT03830268]		20 participants (Actual)	Interventional	2017-06-02	Completed
Effect of a Ketogenic Supplement on Brain Energy Metabolism Measured by Neuroimaging in Mild Cognitive Impairment[NCT02551419]		82 participants (Actual)	Interventional	2015-06-30	Completed
The Role of ATGL and G0/G1 Switch Gene Complex in Lipopolysaccaride (LPS) Induced Ketosis - a Controlled, Randomised, Clinical Experimental Study[NCT02157155]		9 participants (Actual)	Interventional	2014-06-30	Completed
Ketogenic Diet Interventions in Parkinson's Disease: Safeguarding the Gut Microbiome[NCT05469997]		50 participants (Anticipated)	Interventional	2023-01-31	Not yet recruiting
A Randomised Controlled Trial Evaluating the Efficacy and Mechanisms of a Ketogenic Diet as an Adjunctive Treatment for People With Treatment-resistant Depression[NCT06091163]		100 participants (Anticipated)	Interventional	2024-01-31	Not yet recruiting
Development of Ketoacidosis During the Perioperative Period: an Observational Study 'The DKAP Study'[NCT05225467]		58 participants (Actual)	Observational [Patient Registry]	2022-03-15	Completed
Efficacy of Exogenous Ketone Esters for Children With Refractory Convulsive Status Epileptics[NCT05674552]	Phase 2/Phase 3	50 participants (Anticipated)	Interventional	2023-01-10	Recruiting
Efficacy of Ketone Esters for Children With Drug Resistant Epilepsy[NCT05670847]	Phase 2/Phase 3	60 participants (Anticipated)	Interventional	2023-01-10	Recruiting
Characterization of a Portable Solid-State Breath Acetone Testing Device for Real-Time Ketosis Status and Comparison to Blood Ketone Testing[NCT04130724]		21 participants (Actual)	Observational	2019-10-16	Completed
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Article	Year
Global prevalence of subclinical ketosis in dairy cows: A systematic review and meta-analysis. Research in veterinary science, 2022, Volume: 144 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Female; Ketosis; Lactation; Milk; Pregnancy	2022
Exogenous Ketone Supplements in Athletic Contexts: Past, Present, and Future. Sports medicine (Auckland, N.Z.), 2022, Volume: 52, Issue:Suppl 1 Topics: 3-Hydroxybutyric Acid; Acetoacetates; Dietary Supplements; Humans; Ketone Bodies; Ketones; Ketosis	2022
Activation of G protein-coupled receptors by ketone bodies: Clinical implication of the ketogenic diet in metabolic disorders. Frontiers in endocrinology, 2022, Volume: 13 Topics: 3-Hydroxybutyric Acid; Acetoacetates; Carbohydrates; Diet, Ketogenic; Humans; Ketone Bodies; Ketones	2022
Ketones and the Heart: Metabolic Principles and Therapeutic Implications. Circulation research, 2023, 03-31, Volume: 132, Issue:7 Topics: 3-Hydroxybutyric Acid; Epigenesis, Genetic; Heart Failure; Humans; Ketone Bodies; Ketones; Ketosis	2023
Hyperketonemia: A Marker of Disease, a Sign of a High-Producing Dairy Cow, or Both? The Veterinary clinics of North America. Food animal practice, 2023, Volume: 39, Issue:2 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Female; Ketones; Ketosis; Lactation; Milk	2023
What is the utility of blood beta-hydroxybutyrate measurements in emergency department in patients without diabetes: a systematic review. Systematic reviews, 2023, 04-28, Volume: 12, Issue:1 Topics: 3-Hydroxybutyric Acid; Adult; Child; Diabetes Mellitus; Emergency Service, Hospital; Gastroenteritis	2023
β-hydroxybutyrate: A crucial therapeutic target for diverse liver diseases. Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie, 2023, Volume: 165 Topics: 3-Hydroxybutyric Acid; Diet, Ketogenic; Humans; Ketone Bodies; Ketosis; Liver Diseases	2023
Utility of Ketone Supplementation to Enhance Physical Performance: A Systematic Review. Advances in nutrition (Bethesda, Md.), 2020, 03-01, Volume: 11, Issue:2 Topics: 3-Hydroxybutyric Acid; Adult; Dietary Supplements; Female; Gastrointestinal Diseases; Humans; Ketone	2020
[Overview on the relationship between changes in activity and ketosis in dairy cows]. Tierarztliche Praxis. Ausgabe G, Grosstiere/Nutztiere, 2019, Volume: 47, Issue:6 Topics: 3-Hydroxybutyric Acid; Acetoacetates; Animals; Behavior, Animal; Cattle; Cattle Diseases; Diagnosis,	2019
Symposium review: Big data, big predictions: Utilizing milk Fourier-transform infrared and genomics to improve hyperketonemia management. Journal of dairy science, 2020, Volume: 103, Issue:4 Topics: 3-Hydroxybutyric Acid; Animals; Big Data; Cattle; Cattle Diseases; Female; Genomics; Humans; Ketosis	2020
Modulation of Cellular Biochemistry, Epigenetics and Metabolomics by Ketone Bodies. Implications of the Ketogenic Diet in the Physiology of the Organism and Pathological States. Nutrients, 2020, Mar-17, Volume: 12, Issue:3 Topics: 3-Hydroxybutyric Acid; Acetoacetates; Animals; Diabetes Mellitus, Type 1; Diet, Ketogenic; Epigenesi	2020
Impact of ketosis on appetite regulation-a review. Nutrition research (New York, N.Y.), 2020, Volume: 77 Topics: 3-Hydroxybutyric Acid; Animals; Appetite Regulation; Body Weight; Diet, Ketogenic; Diet, Reducing; D	2020
The use of point-of-care testing to establish cause of death in the autopsy setting. Journal of forensic and legal medicine, 2020, Volume: 71 Topics: 3-Hydroxybutyric Acid; Autopsy; Bacteria; Blood Alcohol Content; Blood Glucose; C-Reactive Protein;	2020
Beneficial Effects of Exogenous Ketogenic Supplements on Aging Processes and Age-Related Neurodegenerative Diseases. Nutrients, 2021, Jun-26, Volume: 13, Issue:7 Topics: 3-Hydroxybutyric Acid; Aging; Alzheimer Disease; Diet, Ketogenic; Dietary Supplements; Epigenomics;	2021
Anticatabolic Effects of Ketone Bodies in Skeletal Muscle. Trends in endocrinology and metabolism: TEM, 2019, Volume: 30, Issue:4 Topics: 3-Hydroxybutyric Acid; Acetoacetates; Diet, Ketogenic; Humans; Inflammation; Ketone Bodies; Ketosis;	2019
Invited review: β-hydroxybutyrate concentration in blood and milk and its associations with cow performance. Animal : an international journal of animal bioscience, 2019, Volume: 13, Issue:8 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Female; Ketosis; Milk; Pregnancy	2019
Review: Metabolic challenges in lactating dairy cows and their assessment via established and novel indicators in milk. Animal : an international journal of animal bioscience, 2019, Volume: 13, Issue:S1 Topics: 3-Hydroxybutyric Acid; Acidosis; Animals; Biomarkers; Cattle; Cattle Diseases; Diet; Fatty Acids; Fe	2019
Elevated non-esterified fatty acids and β-hydroxybutyrate and their association with transition dairy cow performance. Veterinary journal (London, England : 1997), 2013, Volume: 198, Issue:3 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Dairying; Energy Metabolism; Fatty Acids, N	2013
Diseases, reproductive performance, and changes in milk production associated with subclinical ketosis in dairy cows: a meta-analysis and review. Journal of dairy science, 2014, Volume: 97, Issue:12 Topics: 3-Hydroxybutyric Acid; Animals; Asymptomatic Infections; Cattle; Cattle Diseases; Fatty Acids, Nones	2014
A systematic review and meta-analysis of the diagnostic accuracy of point-of-care tests for the detection of hyperketonemia in dairy cows. Preventive veterinary medicine, 2016, Aug-01, Volume: 130 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Diagnostic Tests, Routine; Female; Ketosis;	2016
Role of beta-hydroxybutyric acid in the central regulation of energy balance. Appetite, 2010, Volume: 54, Issue:3 Topics: 3-Hydroxybutyric Acid; Adenosine Triphosphate; Animals; Animals, Suckling; Biological Transport; Bra	2010
Monitoring metabolic health of dairy cattle in the transition period. The Journal of reproduction and development, 2010, Volume: 56 Suppl Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Dairying; Diet; Early Diagnosis; Energy Met	2010
Ketoacids? Good medicine? Transactions of the American Clinical and Climatological Association, 2003, Volume: 114 Topics: 3-Hydroxybutyric Acid; Animals; Cerebral Cortex; Diet; Epilepsy; Fasting; Humans; Ketone Bodies; Ket	2003
Fuel metabolism in starvation. Annual review of nutrition, 2006, Volume: 26 Topics: 3-Hydroxybutyric Acid; Blood Glucose; Brain; Energy Metabolism; Fatty Acids, Nonesterified; Humans;	2006
Fuel metabolism in starvation. Annual review of nutrition, 2006, Volume: 26 Topics: 3-Hydroxybutyric Acid; Blood Glucose; Brain; Energy Metabolism; Fatty Acids, Nonesterified; Humans;	2006
Fuel metabolism in starvation. Annual review of nutrition, 2006, Volume: 26 Topics: 3-Hydroxybutyric Acid; Blood Glucose; Brain; Energy Metabolism; Fatty Acids, Nonesterified; Humans;	2006
Fuel metabolism in starvation. Annual review of nutrition, 2006, Volume: 26 Topics: 3-Hydroxybutyric Acid; Blood Glucose; Brain; Energy Metabolism; Fatty Acids, Nonesterified; Humans;	2006
Ketotic hypoglycaemia. Clinics in endocrinology and metabolism, 1983, Volume: 12, Issue:2 Topics: 3-Hydroxybutyric Acid; Acetoacetates; Acidosis; Adolescent; Adrenocorticotropic Hormone; Adult; Alan	1983
Ketosis of starvation: a revisit and new perspectives. Clinics in endocrinology and metabolism, 1983, Volume: 12, Issue:2 Topics: 3-Hydroxybutyric Acid; Acetoacetates; Acidosis; Animals; Gluconeogenesis; Humans; Hydrogen; Hydroxyb	1983
Acid-base aspects of ketoacidosis. American journal of nephrology, 1984, Volume: 4, Issue:3 Topics: 3-Hydroxybutyric Acid; Acid-Base Equilibrium; Acidosis; Acidosis, Respiratory; Alcoholism; Alkalosis	1984
Medical aspects of ketone body metabolism. Clinical and investigative medicine. Medecine clinique et experimentale, 1995, Volume: 18, Issue:3 Topics: 3-Hydroxybutyric Acid; Acetoacetates; Acetone; Biological Evolution; Brain; Humans; Hydroxybutyrates	1995
[Alcoholic ketoacidosis]. Schweizerische medizinische Wochenschrift, 1993, Oct-16, Volume: 123, Issue:41 Topics: 3-Hydroxybutyric Acid; Acetoacetates; Acidosis; Alcoholism; Diagnosis, Differential; Ethanol; Female	1993
Metabolic and endocrine aspects of the ketogenic diet. Epilepsy research, 1999, Volume: 37, Issue:3 Topics: 3-Hydroxybutyric Acid; Anticonvulsants; Carnitine; Dietary Fats; Energy Metabolism; Epilepsy; Fatty	1999
Treatment of acquired epileptic aphasia with the ketogenic diet. Journal of child neurology, 1999, Volume: 14, Issue:11 Topics: 3-Hydroxybutyric Acid; Adolescent; Anticonvulsants; Aphasia; Child; Combined Modality Therapy; Dieta	1999
Ketone bodies, potential therapeutic uses. IUBMB life, 2001, Volume: 51, Issue:4 Topics: 3-Hydroxybutyric Acid; Animals; Brain; Energy Metabolism; Epilepsy; Fasting; Humans; Ketone Bodies;	2001

Article	Year
Reducing milking frequency from twice to once daily as an adjunct treatment for ketosis in lactating dairy cows-A randomized controlled trial. Journal of dairy science, 2022, Volume: 105, Issue:2 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Dairying; Female; Ketosis; Lactation; Milk; Milk Proteins	2022
Bis Hexanoyl (R)-1,3-Butanediol, a Novel Ketogenic Ester, Acutely Increases Circulating r- and s-ß-Hydroxybutyrate Concentrations in Healthy Adults. Journal of the American Nutrition Association, 2023, Volume: 42, Issue:2 Topics: 3-Hydroxybutyric Acid; Adult; Esters; Humans; Hydroxybutyrates; Ketone Bodies; Ketones; Ketosis	2023
Effect of acute ketosis on lipid profile in prediabetes: findings from a cross-over randomized controlled trial. Cardiovascular diabetology, 2022, 07-23, Volume: 21, Issue:1 Topics: 3-Hydroxybutyric Acid; Adult; Cholesterol; Cholesterol, HDL; Cholesterol, LDL; Cross-Over Studies; F	2022
A randomized controlled trial examining the effects of treatment with propylene glycol and injectable cyanocobalamin on naturally occurring disease, milk production, and reproductive outcomes of dairy cows diagnosed with concurrent hyperketonemia and hypo Journal of dairy science, 2022, Volume: 105, Issue:11 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Female; Glucose; Hypoglycemia; Ketosis; Lac	2022
Effect of d-β-Hydroxybutyrate-(R)-1,3 Butanediol on Appetite Regulation in People with Prediabetes. Molecular nutrition & food research, 2023, Volume: 67, Issue:4 Topics: 3-Hydroxybutyric Acid; Adult; Appetite; Appetite Regulation; Ghrelin; Humans; Ketosis; Peptide YY; P	2023
Point-of-Care Capillary Blood Ketone Measurements and the Prediction of Future Ketoacidosis Risk in Type 1 Diabetes. Diabetes care, 2023, 11-01, Volume: 46, Issue:11 Topics: 3-Hydroxybutyric Acid; Diabetes Mellitus, Type 1; Diabetic Ketoacidosis; Humans; Ketones; Ketosis; P	2023
Effects of recombinant bovine interleukin-8 (rbIL-8) treatment on health, metabolism, and lactation performance in Holstein cattle II: Postpartum uterine health, ketosis, and milk production. Journal of dairy science, 2019, Volume: 102, Issue:11 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Chemotaxis; Endometritis; Female; Fermentat	2019
Oral D/L-3-Hydroxybutyrate Stimulates Cholecystokinin and Insulin Secretion and Slows Gastric Emptying in Healthy Males. The Journal of clinical endocrinology and metabolism, 2020, 10-01, Volume: 105, Issue:10 Topics: 3-Hydroxybutyric Acid; Administration, Oral; Adult; C-Peptide; Cholecystokinin; Cross-Over Studies;	2020
The Effect of Blood Ketone Concentration and Exercise Intensity on Exogenous Ketone Oxidation Rates in Athletes. Medicine and science in sports and exercise, 2021, 03-01, Volume: 53, Issue:3 Topics: 3-Hydroxybutyric Acid; Athletes; Cross-Over Studies; Energy Metabolism; Exercise; Exercise Test; Fem	2021
Effects of prepartum stocking density and a blind on physiological biomarkers, health, and hygiene of transition Holstein dairy cows. Journal of dairy science, 2021, Volume: 104, Issue:1 Topics: 3-Hydroxybutyric Acid; Animals; Biomarkers; Cattle; Cattle Diseases; Dairying; Fatty Acids, Nonester	2021
A randomized controlled trial to evaluate propylene glycol alone or in combination with dextrose as a treatment for hyperketonemia in dairy cows. Journal of dairy science, 2021, Volume: 104, Issue:2 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Diagnostic Tests, Routine; Female; Glucose;	2021
Reliability and diagnostic performance of a new blood ketone and glucose meter in humans. Journal of the International Society of Sports Nutrition, 2021, Jan-07, Volume: 18, Issue:1 Topics: 3-Hydroxybutyric Acid; Area Under Curve; Athletes; Blood Glucose; Cross-Over Studies; Diagnostic Equ	2021
Acute Nutritional Ketosis and Its Implications for Plasma Glucose and Glucoregulatory Peptides in Adults with Prediabetes: A Crossover Placebo-Controlled Randomized Trial. The Journal of nutrition, 2021, 04-08, Volume: 151, Issue:4 Topics: 3-Hydroxybutyric Acid; Adult; Aged; Blood Glucose; C-Peptide; Cross-Over Studies; Dietary Supplement	2021
Comparison between two preventive treatments for hyperketonaemia carried out The Journal of dairy research, 2021, Volume: 88, Issue:1 Topics: 3-Hydroxybutyric Acid; Amino Acids; Animals; Blood Proteins; Cattle; Cattle Diseases; Fatty Acids, N	2021
The Effect of Exogenous Beta-Hydroxybutyrate Salt Supplementation on Metrics of Safety and Health in Adolescents. Nutrients, 2021, Mar-05, Volume: 13, Issue:3 Topics: 3-Hydroxybutyric Acid; Adolescent; Diet, Ketogenic; Dietary Supplements; Fasting; Female; Healthy Vo	2021
Association between ketosis and metabolic adaptation at the level of resting metabolic rate. Clinical nutrition (Edinburgh, Scotland), 2021, Volume: 40, Issue:8 Topics: 3-Hydroxybutyric Acid; Adaptation, Physiological; Adult; Basal Metabolism; Caloric Restriction; Fema	2021
Effect of two treatment protocols for ketosis on the resolution, postpartum health, milk yield, and reproductive outcomes of dairy cows. Theriogenology, 2018, Jan-15, Volume: 106 Topics: 3-Hydroxybutyric Acid; Animals; Carnitine; Cattle; Cattle Diseases; Female; Haptoglobins; Ketosis; L	2018
The effect of different treatments for early-lactation hyperketonemia on liver triglycerides, glycogen, and expression of key metabolic enzymes in dairy cattle. Journal of dairy science, 2018, Volume: 101, Issue:2 Topics: 3-Hydroxybutyric Acid; Animals; Blood Glucose; Cattle; Cattle Diseases; Female; Gene Expression Regu	2018
Effect of acute ingestion of β-hydroxybutyrate salts on the response to graded exercise in trained cyclists. European journal of sport science, 2018, Volume: 18, Issue:3 Topics: 3-Hydroxybutyric Acid; Adult; Bicycling; Blood Glucose; Cross-Over Studies; Eating; Ergometry; Femal	2018
A randomized controlled trial on the effect of incomplete milking during early lactation on ketonemia and body condition loss in Holstein dairy cows. Journal of dairy science, 2018, Volume: 101, Issue:5 Topics: 3-Hydroxybutyric Acid; Animals; Body Composition; Cattle; Cattle Diseases; Dairying; Female; Ketosis	2018
The effect of 1,3-butanediol and carbohydrate supplementation on running performance. Journal of science and medicine in sport, 2019, Volume: 22, Issue:6 Topics: 3-Hydroxybutyric Acid; Adult; Athletic Performance; Blood Glucose; Butylene Glycols; Cross-Over Stud	2019
Effects of folic acid and vitamin B12 supplementation on culling rate, diseases, and reproduction in commercial dairy herds. Journal of dairy science, 2014, Volume: 97, Issue:4 Topics: 3-Hydroxybutyric Acid; Animal Culling; Animals; Cattle; Cattle Diseases; Dietary Supplements; Female	2014
Hyperketonemia during lipopolysaccharide-induced mastitis affects systemic and local intramammary metabolism in dairy cows. Journal of dairy science, 2014, Volume: 97, Issue:6 Topics: 3-Hydroxybutyric Acid; Acetyl-CoA Carboxylase; Animals; Blood Glucose; Cattle; Citrate (si)-Synthase	2014
Effects of elevated parameters of subclinical ketosis on the immune system of dairy cows: in vivo and in vitro results. Archives of animal nutrition, 2015, Volume: 69, Issue:2 Topics: 3-Hydroxybutyric Acid; Animal Feed; Animals; Body Composition; Body Weight; Cattle; Cattle Diseases;	2015
Dry period plane of energy: Effects on feed intake, energy balance, milk production, and composition in transition dairy cows. Journal of dairy science, 2015, Volume: 98, Issue:5 Topics: 3-Hydroxybutyric Acid; Animal Feed; Animals; Cattle; Diet; Dietary Fiber; Energy Metabolism; Fatty A	2015
Effect of administration of recombinant bovine somatotropin on health and performance of lactating dairy cows diagnosed with hyperketonemia. Journal of dairy science, 2015, Volume: 98, Issue:7 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Fatty Acids, Nonesterified; Female; Growth	2015
Evaluation of propylene glycol and glycerol infusions as treatments for ketosis in dairy cows. Journal of dairy science, 2015, Volume: 98, Issue:8 Topics: 3-Hydroxybutyric Acid; Abomasum; Animals; Blood Glucose; Cattle; Cattle Diseases; Cross-Over Studies	2015
Effects of direct-fed Bacillus pumilus 8G-134 on feed intake, milk yield, milk composition, feed conversion, and health condition of pre- and postpartum Holstein cows. Journal of dairy science, 2015, Volume: 98, Issue:9 Topics: 3-Hydroxybutyric Acid; Animal Feed; Animals; Bacillus; Body Weight; Cattle; Diet; Dietary Fats; Fema	2015
A randomized controlled trial of dexamethasone as an adjunctive therapy to propylene glycol for treatment of hyperketonemia in postpartum dairy cattle. Journal of dairy science, 2016, Volume: 99, Issue:11 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Dairying; Dexamethasone; Female; Ketones; K	2016
Effects of a combination butaphosphan and cyanocobalamin product and insulin on ketosis resolution and milk production. Journal of dairy science, 2017, Volume: 100, Issue:4 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Female; Insulin; Ketosis; Lactation; Milk;	2017
Randomized clinical field trial on the effects of butaphosphan-cyanocobalamin and propylene glycol on ketosis resolution and milk production. Journal of dairy science, 2017, Volume: 100, Issue:5 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Drug Combinations; Female; Ketosis; Lactati	2017
Metabolic response to a ketogenic breakfast in the healthy elderly. The journal of nutrition, health & aging, 2009, Volume: 13, Issue:4 Topics: 3-Hydroxybutyric Acid; Acetone; Adolescent; Adult; Aged; Aged, 80 and over; Aging; Apolipoprotein E4	2009
A field trial on the effect of propylene glycol on milk yield and resolution of ketosis in fresh cows diagnosed with subclinical ketosis. Journal of dairy science, 2011, Volume: 94, Issue:12 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Female; Ketosis; Lactation; Milk; Propylene	2011
Differential metabolic effects of saturated versus polyunsaturated fats in ketogenic diets. The Journal of clinical endocrinology and metabolism, 2004, Volume: 89, Issue:4 Topics: 3-Hydroxybutyric Acid; Adult; Cholesterol, LDL; Diet; Dietary Fats; Fatty Acids; Fatty Acids, Unsatu	2004
Point of care blood ketone testing of diabetic patients in the emergency department. Endocrine research, 2004, Volume: 30, Issue:3 Topics: 3-Hydroxybutyric Acid; Adolescent; Adult; Aged; Critical Illness; Diabetes Complications; Diabetes M	2004
Effects of monensin and stage of lactation on variation of blood metabolites within twenty-four hours in dairy cows. Journal of dairy science, 2005, Volume: 88, Issue:10 Topics: 3-Hydroxybutyric Acid; Animals; Blood Glucose; Canada; Cattle; Circadian Rhythm; Delayed-Action Prep	2005
Incidence of subclinical ketosis in cows supplemented with a monensin controlled-release capsule in Holstein cattle, Florida, USA. Preventive veterinary medicine, 2006, Jan-16, Volume: 73, Issue:1 Topics: 3-Hydroxybutyric Acid; Administration, Oral; Animals; Cattle; Cattle Diseases; Delayed-Action Prepar	2006
Effect of isoflupredone acetate with or without insulin on energy metabolism, reproduction, milk production, and health in dairy cows in early lactation. Journal of dairy science, 2007, Volume: 90, Issue:9 Topics: 3-Hydroxybutyric Acid; Animals; Blood Glucose; Body Composition; Calcium; Cattle; Cattle Diseases; D	2007
Bovine ketosis and somatotrophin: risk factors for ketosis and effects of ketosis on health and production. Research in veterinary science, 1994, Volume: 57, Issue:2 Topics: 3-Hydroxybutyric Acid; Aging; Analysis of Variance; Animals; Blood Glucose; Body Weight; Cattle; Cat	1994
Use of corticosteroids alone or combined with glucose to treat ketosis in dairy cows. Journal of the American Veterinary Medical Association, 1996, May-15, Volume: 208, Issue:10 Topics: 3-Hydroxybutyric Acid; Acetoacetates; Animals; Blood Glucose; Cattle; Cattle Diseases; Dexamethasone	1996
The association between selected metabolic parameters and left abomasal displacement in dairy cows. Zentralblatt fur Veterinarmedizin. Reihe A, 1998, Volume: 45, Issue:8 Topics: 3-Hydroxybutyric Acid; Abomasum; Animals; Aspartate Aminotransferases; Blood Glucose; Calcium; Cattl	1998
Efficacy of monensin for the prevention of subclinical ketosis in lactating dairy cows. Journal of dairy science, 1998, Volume: 81, Issue:11 Topics: 3-Hydroxybutyric Acid; Animals; Cattle; Cattle Diseases; Female; Ketosis; Monensin; Placebos; Pregna	1998
Effect of acute hyperketonemia on the cerebral uptake of ketone bodies in nondiabetic subjects and IDDM patients. American journal of physiology. Endocrinology and metabolism, 2002, Volume: 283, Issue:1 Topics: 3-Hydroxybutyric Acid; Acute Disease; Adult; Brain; Carbon Radioisotopes; Diabetes Mellitus, Type 1;	2002
Mood and appetite during minimal-carbohydrate and carbohydrate-supplemented hypocaloric diets. The American journal of clinical nutrition, 1985, Volume: 42, Issue:3 Topics: 3-Hydroxybutyric Acid; Adult; Appetite; Diet, Reducing; Dietary Carbohydrates; Dietary Proteins; Emo	1985

3-hydroxybutyric acid and Acetonemia

Research Excerpts

Research

Studies (453)

Authors

Clinical Trials (16)

Trial Overview

Reviews

Trials

Other Studies

Authors	Studies
Akturk, HK	1
Snell-Bergeon, J	1
Pyle, L	1
Fivekiller, E	1
Garg, S	1
Cobry, E	1
Lei, L	4
Gao, W	4
Loor, JJ	19
Aboragah, A	3
Fang, Z	6
Du, X	13
Zhang, M	1
Song, Y	11
Liu, G	21
Li, X	30
Yang, Y	4
Zeng, W	2
Jiang, Q	8
Peng, Z	6
Li, Y	4
Jiang, S	2
Feng, X	3
Williamson, M	2
Couto Serrenho, R	1
McBride, BW	8
LeBlanc, SJ	18
DeVries, TJ	10
Duffield, TF	23
Brunner, B	2
Ari, C	3
D'Agostino, DP	3
Kovács, Z	3
Mank, MM	1
Reed, LF	1
Walton, CJ	1
Barup, MLT	1
Ather, JL	1
Poynter, ME	1
Ichimata, S	1
Hata, Y	1
Nishida, N	1
Ha, S	1
Kang, S	1
Han, M	1
Lee, J	1
Chung, H	1
Oh, SI	1
Kim, S	1
Park, J	1
Loiklung, C	1
Sukon, P	1
Thamrongyoswittayakul, C	1
Wang, K	2
Liu, S	2
He, J	2
Lisuzzo, A	3
Laghi, L	3
Faillace, V	3
Zhu, C	3
Contiero, B	3
Morgante, M	3
Mazzotta, E	3
Gianesella, M	3
Fiore, E	5
Rodriguez, Z	2
Shepley, E	1
Endres, MI	1
Cramer, G	3
Caixeta, LS	4
Wang, S	2
Jiang, X	2
Ju, L	2
Yu, H	4
Shen, T	6
Chen, M	5
Wang, Z	17
Bjerg, LN	1
Thomsen, HH	2
Madsen, JB	1
Sandfeld-Paulsen, B	1
Kerwin, AL	1
Burhans, WS	1
Mann, S	8
Nydam, DV	10
Wall, SK	1
Schoenberg, KM	1
Perfield, KL	1
Overton, TR	7
Crabtree, CD	1
Blade, T	1
Hyde, PN	1
Buga, A	1
Kackley, ML	1
Sapper, TN	1
Panda, O	1
Roa-Diaz, S	1
Anthony, JC	1
Newman, JC	1
Volek, JS	1
Stubbs, BJ	1
Wynands, EM	1
Yue, K	1
Pu, X	1
Dong, J	3
Li, G	2
Seely, CR	2
Bach, KD	5
Barbano, DM	3
McArt, JAA	13
Fan, M	1
Chen, X	1
Zhang, C	1
Bai, H	1
Xiang, K	1
Li, S	1
Tuniyazi, M	1
Mu, R	1
Wang, Y	5
Zhang, N	1
Hu, X	1
Fu, Y	1
Liu, Y	2
Bharmal, SH	3
Kimita, W	2
Petrov, MS	3
Serrenho, RC	2
Berke, O	1
Gao, C	1
Yang, M	1
Tian, Y	1
Fan, W	1
Zhang, B	1
Li, M	1
Xu, C	9
Yang, W	2
Puppel, K	2
Slósarz, J	2
Grodkowski, G	2
Solarczyk, P	2
Kostusiak, P	1
Kunowska-Slósarz, M	2
Grodkowska, K	1
Zalewska, A	1
Kuczyńska, B	2
Gołębiewski, M	2
Hubner, AM	1
Canisso, IF	2
Peixoto, PM	2
Coelho, WM	2
Ribeiro, L	2
Aldridge, BM	2
Lima, FS	3
Hubner, A	1
Menta, P	1
Machado, VS	2
Xu, Q	5
Fan, Y	1
Zheng, X	1
Yang, T	1
Sun, X	6
Jia, H	5
Fiore, F	1
Harvatine, K	1
Spissu, N	1
Moscati, L	1
Wehrle-Martinez, A	1
Dittmer, KE	1
Back, PJ	1
Rogers, CW	1
Lawrence, K	1
Evans, M	2
McClure, TS	1
Koutnik, AP	3
Egan, B	3
Lean, IJ	2
Sheedy, DB	1
Duffield, T	7
Santos, JEP	1
Golder, HM	1
Spigoni, V	1
Cinquegrani, G	1
Iannozzi, NT	1
Frigeri, G	1
Maggiolo, G	1
Maggi, M	1
Parello, V	1
Dei Cas, A	1
Mandujano Reyes, JF	3
Walleser, E	4
Sawalski, A	3
Anklam, K	4
Döpfer, D	5
Miles, AM	3
Lima, SF	3
Neves, RC	3
Ganda, E	3
Gao, X	4
Zhang, X	3
Jiang, L	3
Xu, J	3
Liu, W	3
Qian, Y	3
Jiang, Y	3
Jin, Q	3
Hong, H	3
Jin, Z	3
Wei, Z	3
Yang, Z	3
Zhang, H	5
Liu, M	1
Li, D	1
Majigsuren, Z	1
Batbaatar, T	1
Reyes, JFM	1
Pralle, RS	7
White, HM	7
Unger, S	1
Panne, N	1
Kammer, M	2
Plattner, S	2
Church, C	1
McGee, D	1
Harvatine, KJ	1
Alterisio, MC	1
Ciaramella, P	1
Guccione, J	1
Matsuura, TR	1
Puchalska, P	1
Crawford, PA	1
Kelly, DP	1
Huang, Y	1
Kong, Y	1
Shen, B	1
Li, B	1
Tan, P	1
Wei, B	1
Mei, L	1
Zhang, Z	3
Zhao, C	5
Zhu, X	1
Qi, S	1
Wang, J	3
Hui, SA	1
Chiew, AL	1
Depczynski, B	1
Parmar, K	1
Mosha, M	1
Weinstein, DA	1
Riba-Wolman, R	1
Alemu, TW	1
Santschi, DE	3
Cue, RI	1
Duggavathi, R	1
Ning, M	1
Zhao, Y	1
Dai, D	1
Yao, C	1
Liu, H	2
Fang, L	1
Wang, B	1
Zhang, Y	6
Cao, J	1
Avila, A	1
Málaga, I	1
Sirsi, D	1
Kayani, S	1
Primeaux, S	1
Kathote, GA	1
Jakkamsetti, V	1
Kallem, RR	1
Putnam, WC	1
Park, JY	1
Shinnar, S	1
Pascual, JM	1
Wang, Q	1
Cui, Y	2
Indugu, N	1
Yu, Z	1
Baker, L	1
Pitta, D	1
Deng, Z	1
Zhang, MQ	1
Heirbaut, S	1
Jing, XP	1
Stefańska, B	1
Vandaele, L	1
De Neve, N	1
Fievez, V	3
Auld, FM	1
Parai, JL	2
Milroy, CM	2
Nishizawa, T	1
Matsumoto, T	1
Todaka, T	1
Sasano, M	1
Ozoran, H	1
Matheou, M	1
Dyson, P	1
Karpe, F	1
Tan, GD	1
Li, K	1
Wang, WH	1
Wu, JB	1
Xiao, WH	1
Picasso-Risso, C	1
Gaire, TN	1
Nakagawa, K	1
Noyes, N	1
Caixeta, L	1
Song, C	1
Dhaliwal, S	1
Bapat, P	1
Scarr, D	1
Bakhsh, A	1
Budhram, D	1
Verhoeff, NJ	1
Weisman, A	1
Fralick, M	1
Ivers, NM	1
Cherney, DZI	1
Tomlinson, G	1
Lovblom, LE	1
Mumford, D	1
Perkins, BA	1
Jurado-Aguirre, MA	1
Pérez-Verdín, AE	1
Valergakis, GE	2
Siachos, N	2
Kougioumtzis, A	2
Banos, G	2
Panousis, N	3
Tsiamadis, V	2
Bauer, EA	1
Kułaj, D	1
Sawicki, S	1
Pokorska, J	1
Zinicola, M	3
Bicalho, MLS	1
Santin, T	1
Marques, EC	1
Bisinotto, RS	1
Bicalho, RC	3
Batista, CP	1
Bringhenti, L	1
Meira, EBS	1
McDonough, SP	1
Zhu, Y	5
Wang, X	2
Xing, D	1
Shi, Z	4
Khol, JL	1
Freigassner, K	1
Stanitznig, A	1
Tichy, A	1
Wittek, T	1
Margolis, LM	1
O'Fallon, KS	1
Torres, JA	1
Kruger, SL	1
Broderick, C	1
Amarlkhagva, T	1
Agrawal, S	1
Dodam, JR	1
Mrug, M	1
Lyons, LA	1
Weimbs, T	1
Voronina, PP	1
Adamovich, KV	1
Adamovich, TV	1
Dubouskaya, TG	1
Hrynevich, SV	1
Waseem, TV	1
Fedorovich, SV	1
Balcerak, M	1
Przysucha, T	1
Kalińska, A	1
Sahar, MW	1
Beaver, A	1
Weary, DM	6
von Keyserlingk, MAG	3
Daros, RR	1
Eriksson, HK	1
Hajek, F	2
Mansfeld, R	2
Norgren, J	1
Sindi, S	1
Sandebring-Matton, A	1
Kåreholt, I	1
Akenine, U	1
Nordin, K	1
Rosenborg, S	1
Ngandu, T	1
Kivipelto, M	1
Edwards, KH	1
Elliott, BT	1
Kitic, CM	1
Thiruvengadam, M	2
Venkidasamy, B	2
Subramanian, U	2
Selvaraj, D	1
Samynathan, R	1
Fukumori, R	1
Elsayed, HK	1
Oba, M	1
Tachibana, Y	1
Nakada, K	1
Oikawa, S	2
Abdelatty, AM	1
Mohamed, FF	1
Schmid, NS	1
Clauss, M	1
Hetzel, U	1
Riond, B	1
Bochmann, M	1
Hatt, JM	1
Dąbek, A	1
Wojtala, M	1
Pirola, L	1
Balcerczyk, A	1
Deemer, SE	1
Plaisance, EP	1
Martins, C	2
Gebreyesus, G	1
Difford, GF	1
Buitenhuis, B	1
Lassen, J	1
Noel, SJ	1
Højberg, O	1
Plichta, DR	1
Zhu, Z	1
Poulsen, NA	1
Sundekilde, UK	1
Løvendahl, P	1
Sahana, G	1
Caldeira, MO	1
Dan, D	1
Neuheuser, AL	1
Stürmlin, R	1
Weber, C	1
Glauser, DL	1
Stierli, M	1
Schuler, U	1
Moll, J	1
Wegmann, S	1
Bruckmaier, RM	6
Gross, JJ	3
Zamuner, F	1
DiGiacomo, K	1
Cameron, AWN	1
Leury, BJ	1
Ginn, C	1
Ateh, D	1
Martin, J	1
Klaric, KA	1
Benedet, A	2
Costa, A	1
De Marchi, M	2
Penasa, M	2
Xu, W	1
Saccenti, E	1
Vervoort, J	1
Kemp, B	2
van Knegsel, ATM	1
Blasi, F	1
Cossignani, L	1
Badon, T	1
Berlanda, M	1
Alkhayat, A	1
Arao, K	1
Minami, T	1
Manzoor, K	1
Schultz, NE	1
Weigel, KA	2
Eriksson Hydara, Y	1
Zilg, B	1
Rittig, N	1
Svart, M	1
Vestergaard, ET	1
Rehfeld, JF	1
Hartmann, B	1
Holst, JJ	1
Johannsen, M	1
Møller, N	1
Jessen, N	1
Reus, A	1
Gruber, S	1
Baumgartner, C	1
Smink, M	1
Hachenberg, S	1
Glatz-Hoppe, J	1
Boldt, A	1
Spiekers, H	1
Mohr, E	1
Losand, B	1
Dearlove, DJ	1
Harrison, OK	1
Hodson, L	1
Jefferson, A	1
Clarke, K	1
Cox, PJ	1
Klein, SL	1
Scheper, C	1
May, K	1
König, S	1
Bai, Y	1
Fu, S	2
Wu, L	2
Xia, C	3
Shen, L	1
Qian, B	1
Xiao, J	1
Hussain, S	1
Deng, J	1
Peng, G	1
Zuo, Z	1
Zou, L	1
Yu, S	1
Ma, X	1
Zhong, Z	1
Ren, Z	1
Zhou, Z	1
Cai, D	1
Hu, Y	1
Zong, X	1
Cao, S	1
Yang, L	2
Bai, J	1
Ju, Z	1
Gao, Y	1
Wei, X	1
Huang, J	1
Tang, Y	1
Jiang, C	1
Luo, S	1
Liang, Y	3
Cao, Z	1
Shao, G	1
Dervishi, E	2
Plastow, G	1
Hoff, B	2
Colazo, M	1
Creutzinger, KC	1
Dann, HM	3
Moraes, LE	1
Krawczel, PD	1
Proudfoot, KL	1
Zou, Y	1
Fineberg, S	1
Pearlman, A	1
Feinman, RD	1
Fine, EJ	1
Capel, MB	2
Moore, AR	1
Holland-Winkler, AM	1
Ansley, JK	1
Boone, EDH	1
Schulte, MKO	1
Gelasakis, AI	1
Arsenos, G	1
Xu, F	1
Ouyang, H	1
Jin, B	1
Cho, J	1
Alarcon Ramos, GC	1
Ko, J	1
Cameron-Smith, D	1
Snedec, T	1
Theinert, K	1
Pietsch, F	1
Leonhardt, AS	1
Kadáši, M	1
Klein, R	1
Spilke, J	1
Bannert, E	1
Schären, M	1
Köller, G	1
Baumgartner, W	1
Theile, S	1
Kaiser, A	1
Rachidi, F	1
Starke, A	1
Perillo, L	1
Giannetto, C	1
Giudice, E	1
Piccione, G	1
Li, C	2
Li, N	2
Shu, X	3
Stefan, M	1
Sharp, M	1
Gheith, R	1
Lowery, R	1
Wilson, J	1
Soares, RAN	1
Vargas, G	1
Schenkel, F	1
Squires, EJ	1
Ahlström, S	1
Thiblin, I	1
Jönsson, AK	1
Green, H	1
Missio, D	1
Dos Santos Brum, D	1
Dalle Laste Dacampo, L	1
Weber Santos Cibin, F	1
Silveira Mesquita, F	1
Germano Ferst, J	1
Fiordalisi, G	1
Dias Gonçalves, PB	1
Ferreira, R	1
Stokes, J	1
Freed, A	1
Bornstein, R	1
Su, KN	1
Snell, J	1
Pan, A	1
Sun, GX	1
Park, KY	1
Jung, S	1
Worstman, H	1
Johnson, BM	1
Morgan, PG	1
Sedensky, MM	1
Johnson, SC	1
Swartz, TH	1
Bradford, BJ	1
Mamedova, LK	1
Roekenes, J	1
Hunter, GR	1
Gower, BA	1
Nedoboy, PE	1
Cohen, M	1
Farnham, MM	1
Zakian, A	1
Tehrani-Sharif, M	1
Mokhber-Dezfouli, MR	1
Nouri, M	1
Constable, PD	1
Iwersen, M	7
Thiel, A	2
Süss, D	2
Klein-Jöbstl, D	4
Wagener, K	2
Drillich, M	6
Adams, H	1
Cho, K	1
Do, C	1
Yepes, FAL	2
Behling-Kelly, E	2
Belay, TK	1
Svendsen, M	1
Kowalski, ZM	1
Ådnøy, T	1
Macmillan, K	1
López Helguera, I	1
Behrouzi, A	1
Gobikrushanth, M	1
Colazo, MG	1
Tuteja, SK	1
Neethirajan, S	3
Jeong, JK	2
Choi, IS	2
Moon, SH	1
Lee, SC	1
Kang, HG	2
Jung, YH	2
Park, SB	1
Kim, IH	2
Kaufman, EI	3
Asselstine, VH	1
Min, SH	1
Oh, TJ	1
Baek, SI	1
Lee, DH	1
Kim, KM	1
Moon, JH	1
Choi, SH	1
Park, KS	1
Jang, HC	1
Lim, S	1
Urh, C	1
Sauerwein, H	2
Wakshlag, JJ	3
Gao, S	1
Liu, R	1
Dong, Z	1
Ježek, J	1
Cincović, MR	1
Nemec, M	1
Belić, B	1
Djoković, R	1
Klinkon, M	1
Starič, J	1
Sailer, KJ	1
Oliveira, RC	1
Erb, SJ	1
Oetzel, GR	6
Leal Yepes, FA	1
Chandler, TL	1
Dórea, JRR	1
Poock, SE	1
Fourdraine, RH	1
Patchett, E	1
Nally, R	1
Kearns, R	1
Larney, M	1
Zhang, Q	1
Guan, Y	1
Sha, X	1
Dubuc, J	5
Buczinski, S	3
Lee, BS	1
Woo, DC	1
Woo, CW	1
Kim, KS	1
Weigel, KW	1
Morin, PA	1
Krug, C	1
Chorfi, Y	1
Lacasse, P	1
Roy, JP	1
Dufour, S	1
Ruprechter, G	1
Adrien, ML	1
Larriestra, A	1
Meotti, O	1
Batista, C	1
Meikle, A	1
Noro, M	2
Marczuk, J	1
Brodzki, P	1
Brodzki, A	1
Kurek, Ł	1
Mellado, M	1
Dávila, A	1
Gaytán, L	1
Macías-Cruz, U	1
Avendaño-Reyes, L	1
García, E	1
Jones, AK	1
Gately, RE	1
Kellogg, TD	1
Zinn, SA	1
Govoni, KE	1
Reed, SA	1
Rodriguez-Jimenez, S	1
Haerr, KJ	1
Trevisi, E	2
Cardoso, FC	3
Osorio, JS	1
Dai, S	1
Lu, J	1
Zhao, B	1
Li, P	3
Wu, Z	1
Mu, Y	1
Feng, C	1
Dong, Q	1
Araújo, CASC	1
Sousa, RS	1
Monteiro, BM	1
Oliveira, FLC	1
Minervino, AHH	1
Rodrigues, FAML	1
Vale, RG	1
Mori, CS	1
Ortolani, EL	1
Murdun, C	1
Goldhagen, CR	1
Rogers, C	1
Diamond, D	1
Zhao, Z	1
Heimer, J	1
Gascho, D	1
Fliss, B	1
Martinez, RM	1
Zoelch, N	1
King, MTM	2
Sparkman, KJ	1
Tsuchiya, S	1
Sawada, S	1
Takeda, K	1
Takahashi, K	1
Nakajima, T	1
Kohata, M	1
Kurosawa, S	1
Satake, C	1
Imai, J	1
Kikuchi, K	1
Aiba, S	1
Katagiri, H	1
Renaud, DL	1
Kelton, DF	7
Ratanapob, N	1
VanLeeuwen, J	1
McKenna, S	1
Wichtel, M	1
Rodriguez-Lecompte, JC	1
Menzies, P	1
Wichtel, J	1
Scott, BE	1
Laursen, PB	1
James, LJ	1
Boxer, B	1
Chandler, Z	1
Lam, E	1
Gascoyne, T	1
Messenger, J	1
Mears, SA	1
Bucktrout, R	2
Zuo, R	2
Garzón-Audor, A	1
Oliver-Espinosa, O	1
Piñeiro, JM	1
Menichetti, BT	1
Barragan, AA	1
Relling, AE	1
Weiss, WP	1
Bas, S	1
Schuenemann, GM	1
Manuelian, CL	1
Zidi, A	1
Segebrecht, R	1
Moncure, M	1
Bennett, A	1
Geehan, D	1
Van Way, CW	1
Weide, L	1
Kang, DY	1
Sp, N	1
Do Park, K	1
Lee, HK	1
Song, KD	1
Yang, YM	1
Thapa, SS	1
Lal, A	1
Omer, A	1
Trivedi, N	1
Ma, L	1
Coleman, DN	1
Mezzetti, M	1
Minuti, A	1
Piccioli-Cappelli, F	1
Amadori, M	1
Bionaz, M	1
Zhou, C	6
Yool, A	2
Byard, RW	6
Suthar, VS	1
Canelas-Raposo, J	1
Deniz, A	1
Heuwieser, W	7
Gilbert, JD	1
Doré, V	2
Bélanger, AM	2
Sumithran, P	1
Prendergast, LA	1
Delbridge, E	1
Purcell, K	1
Shulkes, A	1
Kriketos, A	1
Proietto, J	1
Ferguson, I	1
Mullins, ME	1
McArt, JA	3
Ospina, PA	3
Pichler, M	3
Roland, L	1
Fidlschuster, B	1
Schwendenwein, I	5
Ho, CF	1
Chan, KW	1
Yeh, HI	1
Kuo, J	1
Liu, HJ	1
Wang, CY	1
Mahrt, A	3
Burfeind, O	3
Zarrin, M	2
Wellnitz, O	2
van Dorland, HA	2
Sun, LW	1
Zhang, HY	1
Shu, S	1
Zheng, JS	1
Damberger, A	2
Gasteiner, J	2
Duplessis, M	1
Girard, CL	1
Laforest, JP	1
Durocher, J	1
Pellerin, D	1
Voigtsberger, R	2
Müller, A	1
Schulz, K	2
Frahm, J	2
Meyer, U	2
Kersten, S	2
Reiche, D	2
Rehage, J	1
Dänicke, S	2
Denis-Robichaud, J	1
Lefebvre, D	1
DesCôteaux, L	1
Palmiere, C	3
de Froidmont, S	1
Mangin, P	2
Werner, D	3
Lobrinus, JA	1
Korb, AS	1
Cooper, G	1
Koeck, A	2
Jamrozik, J	2
Schenkel, FS	1
Moore, RK	1
Lefebvre, DM	1
Miglior, F	2
Arnholdt, T	1
Newport, MT	1
VanItallie, TB	1
Kashiwaya, Y	2
King, MT	1
Veech, RL	3
Raboisson, D	1
Mounié, M	1
Maigné, E	1
Ehret, A	1
Hochstuhl, D	1
Krattenmacher, N	1
Tetens, J	1
Klein, MS	1
Gronwald, W	1
Thaller, G	1
Itle, AJ	1
Huzzey, JM	1
von Keyserlingk, MA	3
Vanholder, T	1
Papen, J	1
Bemers, R	1
Vertenten, G	1
Berge, AC	1
Compton, CW	1
Young, L	1
McDougall, S	1
Yepes, FA	1
Lock, AL	2
Ryan, CM	1
Matsuzaki, T	1
Shiraishi, W	1
Iwanaga, Y	1
Yamamoto, A	1
Oikonomou, G	2
Ganda, EK	1
Stephens, L	1
Milhomem, M	1
Freitas, GL	1
Pearson, J	1
Wieland, M	1
Guard, C	1
Gilbert, RO	1
Sepúlveda-Varas, P	1
Shin, EK	1
Hur, TY	1
Weng, X	2
Zhao, W	1
Reynen, JL	1
Newby, NC	1
Tatone, EH	4
Gordon, JL	7
Gohary, K	1
Leslie, KE	8
Ford, J	1
Capel, M	1
Chen, L	1
Piantoni, P	1
Allen, MS	1
Jorjong, S	1
van Knegsel, AT	2
Verwaeren, J	1
De Baets, B	1
Kanz, P	1
Mair, B	1
Borchardt, S	2
Meyer, L	2
Luan, S	1
Duersteler, M	1
Galbraith, EA	1
Pineda, A	1
Roberts, MD	1
Holland, AM	1
Kephart, WC	1
Mobley, CB	1
Mumford, PW	1
Lowery, RP	1
Fox, CD	1
McCloskey, AE	1
Shake, JJ	1
Mesquita, P	1
Patel, RK	1
Martin, JS	1
Young, KC	1
Kavazis, AN	1
Wilson, JM	1
Kistemaker, GJ	1
Rutherford, AJ	1
Smith, RF	1
Grelet, C	1
Bastin, C	1
Gelé, M	1
Davière, JB	1
Johan, M	1
Werner, A	1
Reding, R	1
Fernandez Pierna, JA	1
Colinet, FG	1
Dardenne, P	1
Gengler, N	1
Soyeurt, H	1
Dehareng, F	1
Ding, HY	1
Wang, XC	1
Feng, SB	1
Li, XB	4
Liu, GW	4
Li, XW	1
Viña, C	1
Fouz, R	1
Camino, F	1
Sanjuán, ML	1
Yus, E	1
Diéguez, FJ	1
Tettamanti, C	1
Augsburger, M	2
Burkhardt, S	1
Sabatasso, S	1
Lardi, C	1
Krieger, S	1
Stangaferro, ML	2
Wijma, R	2
Al-Abri, MA	2
Giordano, JO	2
Hubbs, J	1
Zhang, G	1
Hailemariam, D	1
Goldansaz, SA	1
Deng, Q	1
Dunn, SM	1
Ametaj, BN	1
Schirmann, K	1
Chapinal, N	2
Cerri, RLA	1
Gu, J	1
Yool, AJ	2
Sadones, N	1
Lambert, WE	1
Stove, CP	1
Okamoto, H	1
Cavino, K	1
Na, E	1
Krumm, E	1
Kim, SY	1
Cheng, X	1
Murphy, AJ	1
Yancopoulos, GD	1
Gromada, J	1
Føreid, S	1
Gadeholt, G	1
Herdt, TH	3
Neuder, L	2
Studzinski, CM	1
MacKay, WA	1
Beckett, TL	1
Henderson, ST	1
Murphy, MP	1
Sullivan, PG	1
Burnham, WM	4
Stengärde, L	1
Tråvén, M	1
Emanuelson, U	1
Holtenius, K	1
Hultgren, J	1
Niskanen, R	1
Ghorbani, B	1
Vahdani, N	1
Zerehdaran, S	1
Van Haelst, YN	1
Beeckman, A	1
Lissemore, KD	2
Freemantle, E	1
Vandal, M	1
Tremblay Mercier, J	1
Plourde, M	1
Poirier, J	1
Cunnane, SC	5
Falkenberg, U	1
Forderung, D	1
Ghanem, MM	1
El-Deeb, WM	2
Goldhawk, C	1
Veira, DM	1
Hassan, HM	1
Cooper, GA	1
Gao, L	4
Guo, C	2
Wang, H	2
Samoilova, M	1
Weisspapir, M	1
Abdelmalik, P	1
Velumian, AA	1
Carlen, PL	1
Rollin, E	1
Berghaus, RD	1
Rapnicki, P	2
Godden, SM	1
Overton, MW	1
Laeger, T	1
Metges, CC	1
Kuhla, B	1
Seifi, HA	2
Voyvoda, H	1
Erdogan, H	1
Forslund, KB	1
Ljungvall, OA	1
Jones, BV	1
Youssef, MA	1
El-Khodery, SA	1
Abou El-Amaiem, WE	1
Prevost, M	1
Sun, Y	1
Servilla, KS	1
Massie, L	1
Glew, RH	1
Tzamaloukas, AH	1
LeBlanc, S	1
Stokol, T	2
Samiei, A	1
Liang, JB	1
Ghorbani, GR	1
Hirooka, H	1
Yaakub, H	1
Tabatabaei, M	1
Bielohuby, M	1
Menhofer, D	1
Kirchner, H	1
Stoehr, BJ	1
Müller, TD	1
Stock, P	1
Hempel, M	1
Stemmer, K	1
Pfluger, PT	1
Kienzle, E	1
Christ, B	1
Tschöp, MH	1
Bidlingmaier, M	1
Henderson, DW	1
Schlesinger, DP	1
Rains, JL	2
Jain, SK	3
Arica, V	1
Arica, SG	1
Dag, H	1
Onur, H	1
Obut, O	1
Gülbayzar, S	1
Zhang, ZG	2
Li, YF	2
Wang, HB	2
Al-Qudah, KM	1
Asl, AN	1
Nazifi, S	1
Ghasrodashti, AR	1
Olyaee, A	1
Minlebaev, M	1
Khazipov, R	1
Krogh, MA	1
Toft, N	1
Enevoldsen, C	1
Pifferi, F	1
Tremblay, S	1
Croteau, E	1
Fortier, M	2
Tremblay-Mercier, J	2
Lecomte, R	1
Meier, H	1
Gschwend, S	1
Raimondi, S	1
Giambarba, C	1
Liu, L	1
Gao, R	1
Brozos, Ch	1
Karagiannis, I	1
Giadinis, ND	1
Lafi, S	1
Kritsepi-Konstantinou, M	1
Hockenhull, J	1
Dhillo, W	1
Andrews, R	1
Paterson, S	1
González, FD	1
Muiño, R	1
Pereira, V	1
Campos, R	1
Benedito, JL	1
Sporkert, F	1
Bardy, D	1
Rehman, HU	1
Heninger, M	1
Fu, SX	1
Wu, CC	1
Wang, XX	1
Yu, GJ	1
Long, M	1
Staufenbiel, R	1
van der Drift, SGA	2
Jorritsma, R	4
Schonewille, JT	2
Knijn, HM	1
Stegeman, JA	2
Houweling, M	2
Tielens, AGM	1
van der Drift, SG	2
van Hulzen, KJ	1
Teweldemedhn, TG	1
Nielen, M	3
Heuven, HC	1
Dwyer, JB	1
Tamama, K	1
Kanikarla-Marie, P	1
Kurihara, M	1
Akama, Y	1
Kimura, J	1
Everts, RR	1
van Leengoed, LA	1
Tielens, AG	1
Courchesne-Loyer, A	1
Chouinard-Watkins, R	1
Roy, M	1
Nugent, S	1
Castellano, CA	1
Shire, J	1
Karcher, EL	1
Giannessi, F	1
Pessotto, P	1
Tassoni, E	1
Chiodi, P	1
Conti, R	1
De Angelis, F	1
Dell'Uomo, N	1
Catini, R	1
Deias, R	1
Tinti, MO	1
Carminati, P	1
Arduini, A	1
Reist, M	1
Erdin, DK	1
von Euw, D	1
Tschümperlin, KM	1
Leuenberger, H	1
Hammon, HM	1
Künzi, N	1
Blum, JW	1
Cahill, GF	3
Jánosi, S	1
Kulcsár, M	2
Kóródi, P	1
Kátai, L	1
Reiczigel, J	1
Dieleman, SJ	2
Nikolic, JA	1
Sályi, G	1
Ribiczey-Szabó, P	1
Huszenicza, G	2
Fuehrlein, BS	1
Rutenberg, MS	1
Silver, JN	1
Warren, MW	1
Theriaque, DW	1
Duncan, GE	1
Stacpoole, PW	1
Brantly, ML	1
Davids, MR	1
Segal, AS	1
Brunengraber, H	1
Halperin, ML	1
Noh, HS	1
Lee, HP	1
Kim, DW	2
Kang, SS	1
Cho, GJ	1
Rho, JM	2
Choi, WS	1
Carrier, J	1
Stewart, S	1
Godden, S	1
Fetrow, J	1
Bektas, F	1
Eray, O	1
Sari, R	1
Akbas, H	1
Murphy, P	1
Likhodii, S	2
Nylen, K	3
Nielsen, NI	1
Friggens, NC	1
Chagunda, MG	1
Ingvartsen, KL	1
Abdelmalik, PA	1
Clarke, J	1
Morin, DE	1
Bollero, GA	1
Murphy, MR	1
Drackley, JK	6
Plaizier, JC	1
Fairfield, AM	1
Azevedo, PA	1
Nikkhah, A	1
Crow, GH	1
Bagg, R	3
Dick, P	3
Melendez, P	1
Goff, JP	1
Risco, CA	1
Archbald, LF	1
Littell, R	1
Donovan, GA	1
Padilla, L	1
Shibano, K	1
Inoue, J	1
Matsui, T	1
Yano, H	1
Nocek, JE	1
Kautz, WP	1
Waldron, MR	1
Kulick, AE	1
Bell, AW	1
Likhodii, SS	3
Hum, KM	1
Dankó, G	1
Delavaud, C	1
Mircu, C	1
Nikolic, AJ	1
Gáspárdy, A	1
Cernescu, H	1
Chilliard, Y	1
Cseh, S	1
Rudas, P	1
Phiri, IK	1
Phiri, AM	1
Harrison, LJ	1
Kang, HC	1
Lee, HS	1
You, SJ	1
Kang, du C	1
Ko, TS	1
Kim, HD	1
Puchowicz, MA	1
Xu, K	1
Ivy, A	1
Emancipator, D	1
LaManna, JC	2
Sakha, M	1
Ameri, M	1
Sharifi, H	1
Taheri, I	1
de Roos, AP	1
van den Bijgaart, HJ	1
Hørlyk, J	1
de Jong, G	1
Walsh, RB	1
Walton, JS	1
Cerone, SI	1
Sansinanea, AS	1
García, MC	1
Vernooy, E	1
Raffo, E	1
François, J	1
Ferrandon, A	1
Koning, E	1
Nehlig, A	1
Chutkow, WA	1
Patwari, P	1
Yoshioka, J	1
Lee, RT	1
Hartman, AL	1
Lyle, M	1
Rogawski, MA	1
Gasior, M	1
Grinberg, N	1
Elazar, S	1
Rosenshine, I	1
Shpigel, NY	2
Beattie, MA	2
Winder, WW	2
Kauppinen, K	1
Haymond, MW	1
Pagliara, AS	1
Owen, OE	1
Caprio, S	1
Reichard, GA	1
Mozzoli, MA	1
Boden, G	1
Owen, RS	1
Oster, JR	1
Epstein, M	1
Targowski, SP	2
Klucinski, W	2
Rice, DA	2
McMurray, CH	2
Davidson, JF	1
Gröhn, Y	2
Lindberg, LA	1
Bruss, ML	2
Farver, TB	2
Dufva, GS	1
Bartley, EE	1
Dayton, AD	1
Riddell, DO	1
Blanchflower, WJ	1
Emmanuel, B	1
Kennelly, JJ	1
Buttery, JE	1
Chamberlain, BR	1
Pannall, PR	1
Steele, NC	2
Rosebrough, RW	2
McMurtry, JP	1
Frobish, LT	1
Hoerstke, M	1
Dirksen, G	1
Harmeyer, J	1
von Grabe, C	1
Adibi, SA	1
Stanko, RT	1
Morse, EL	1
Corddry, DH	1
Rapoport, SI	1
London, ED	1
Stevens, JB	1
Olson, WG	1
Larson, V	1
Mitchell, GA	1
Kassovska-Bratinova, S	1
Boukaftane, Y	1
Robert, MF	1
Wang, SP	1
Ashmarina, L	1
Lambert, M	1
Lapierre, P	1
Potier, E	1
Morris, AA	1
Deshphande, S	1
Ward-Platt, MP	1
Whitfield, AE	1
Aynsley-Green, A	1
Leonard, JV	1
Pourfarzam, M	1
Bartlett, K	2
Ciraolo, ST	1
Previs, SF	1
Fernandez, CA	1
Agarwal, KC	1
David, F	1
Koshy, J	1
Lucas, D	1
Tammaro, A	1
Stevens, MP	1
Tserng, KY	1
Sato, S	1
Suzuki, T	1
Okada, K	1
Troutt, HF	1
Galland, JC	1
Rostami, J	1
Holmberg, CA	1
Weaver, LD	1
Hooper, RJ	1
Aarts, MG	1
Jonkers, AG	1
Wensing, T	1
Schukken, YH	3
Metzner, M	1
Hofmann, W	1
Laiblin, C	1
Jobard, JM	1
Caspar, CB	1
Risti, B	1
Iten, PX	1
Jost, R	1
Russi, EW	1
Speich, R	1
Ohkawa, H	1
Iwakawa, T	1
Ohtomo, N	1
Kitayama, M	1
Miyahara, A	1
Ishihara, H	1
Matsuki, A	1
Thomsen, JL	1
Felby, S	1
Theilade, P	1
Nielsen, E	1
Teraki, Y	1
Teraki, E	1
Kawashima, M	1
Nagashima, M	1
Shiohara, T	1
Chen, R	1
Avidar, Y	1
Bogin, E	1
Fallin, CW	1
Christopher, MM	1
Dobbelaar, P	1
Mottram, T	1
Nyabadza, C	1
Hobbs, P	1
Elliott-Martin, RJ	1
Katoh, N	1
Kawawa, F	1
Ono, Y	1
Lommi, J	1
Koskinen, P	1
Näveri, H	1
Härkönen, M	1
Kupari, M	1
Lumsden, JH	2
Gutzwiller, A	1
Geishauser, T	3
Leslie, K	3
Kelton, D	1
Oshida, Y	1
Iwao, N	1
Ohsawa, I	1
Sato, J	1
Nakao, T	1
Sato, Y	1
Harik, SI	1
al-Mudallal, AS	1
Lust, WD	1
Levin, BE	1
Pounder, DJ	1
Stevenson, RJ	1
Taylor, KK	1
Henze, P	1
Bickhardt, K	1
Fuhrmann, H	1
Sallmann, HP	1
Sandals, D	3
Edge, V	1
Lissemore, K	1
Ozanne, SE	1
Wang, CL	1
Petry, CJ	1
Smith, JM	1
Hales, CN	1
Kannan, K	1
Lim, G	1
Bough, KJ	5
Eagles, DA	5
Green, BL	1
Valiyil, R	1
Han, FT	1
Chavko, M	1
Braisted, JC	1
Harabin, AL	1
Al-Rawashdeh, OF	1
Hippen, AR	2
She, P	2
Young, JW	6
Beitz, DC	3
Lindberg, GL	2
Richardson, LF	1
Tucker, RW	1
Suriyasathaporn, W	1
Daemen, AJ	1
Noordhuizen-Stassen, EN	1
Chen, RS	1
Sankar, R	1
Sotero de Menezes, M	1
Robbins, CA	1
Anderson, GD	1
Schwartzkroin, PA	1
Bergqvist, AG	1
Chee, CM	1
Lutchka, LM	1
Brooks-Kayal, AR	1
Yao, SG	1
Matthews, PJ	1
Thio, LL	1
Wong, M	1
Yamada, KA	1
Tenhag, J	1
Bashiri, A	1
Todorova, MT	2
Tandon, P	1
Madore, RA	1
Stafstrom, CE	1
Seyfried, TN	2
Pan, JW	2
Rothman, TL	1
Behar, KL	1
Stein, DT	2
Hetherington, HP	2
Haas, MJ	1
Reinacher, D	1
Pun, K	1
Wong, NC	1
Mooradian, AD	1
Carpente, KH	1
Wilcken, B	1
Christodoulou, J	1
Thorburn, DR	1
Gilbert, DL	1
Pyzik, PL	1
Freeman, JM	1
Enjalbert, F	1
Nicot, MC	1
Bayourthe, C	1
Moncoulon, R	1
Ogilvy-Stuart, AL	1
Soos, MA	1
Hands, SJ	1
Anthony, MY	1
Dunger, DB	1
O'Rahilly, S	1
Cook, NB	1
Ward, WR	1
Dobson, H	1
Fritzsche, I	1
Bührdel, P	1
Melcher, R	1
Böhme, HJ	1
Chance, B	1
Lardy, HA	1
Telang, FW	1
Lee, JH	1
de Graaf, RA	1
Rothman, DL	1
Musa, K	1
Blanchard, G	1
Paragon, BM	1
Milliat, F	1
Lutton, C	1
Greene, AE	1
McGowan, R	1
Blomqvist, G	1
Alvarsson, M	1
Grill, V	1
Von Heijne, G	1
Ingvar, M	1
Thorell, JO	1
Stone-Elander, S	1
Widén, L	1
Ekberg, K	1
Harney, JP	1
Madara, J	2
I'Anson, H	1
Lane, MA	1
Baldwin, RL	1
Jesse, BW	1
Musa-Veloso, K	1
Inokuchi, T	1
Orita, M	1
Imamura, K	1
Takao, T	1
Isogai, S	1
Richard, MJ	2
Bertics, SJ	1
Grummer, RR	1
Cadorniga-Valino, C	1
Stoddard, EE	1
Veenhuizen, JJ	1
Sanderson, TP	1
Miller, LD	1
Shum, L	1
Sadler, TW	1
Adams, JH	2
Koeslag, JH	6
Kim, YK	1
Strang, BD	1
Amaral, DM	1
Kawai, K	1
Ohmori, H	1
Okuda, Y	1
Yamashita, K	1
Vahed, YA	2
Lochner, JV	1
Paton, JB	1
Levitsky, LL	1
Fisher, DE	1
J de V Lochner, J	1
Hadley, W	1
Lochner, JD	2
Sorisky, A	1
Devlin, JT	1
Mamer, OA	1
Carlin, JI	1
Olson, EB	1
Peters, HA	1
Reddan, WG	1
Zusman, I	1
Ornoy, A	1
Tuchman, M	1
Brown, BI	1
Burke, BA	1
Ulstrom, RA	1
Christensen, CK	1
Schmitz, O	1
Pedersen, EB	1
Alberti, KG	1
Mogensen, CE	1
Wu, PY	1
Edmond, J	1
Auestad, N	1
Rambathla, S	1
Benson, J	1
Picone, T	1
Middleton, B	1
Romanos, A	1
Gomez Vazquez, J	1
Conde, C	1
Cannon, RA	1
Lipson, M	1
Sweetman, L	1
Nyhan, WL	1
Levinrad, LI	1
Sive, AA	1
Lammerant, J	1
Huynh-Thu, T	1
Kolanowski, J	1
Féry, F	1
Balasse, EO	1
Barac-Nieto, M	1
Littledike, ET	1
Hoy, DA	1
Rosen, JC	1
Gross, J	1
Loew, D	1
Sims, EA	1