niacinamide has been researched along with glycogen in 30 studies
Timeframe | Studies, this research(%) | All Research% |
---|---|---|
pre-1990 | 16 (53.33) | 18.7374 |
1990's | 0 (0.00) | 18.2507 |
2000's | 0 (0.00) | 29.6817 |
2010's | 14 (46.67) | 24.3611 |
2020's | 0 (0.00) | 2.80 |
Authors | Studies |
---|---|
Herken, H; Keller, K; Kolbe, H; Lange, K | 1 |
Baba, A; Baba, T; Iwata, H; Matsuda, T | 1 |
Johnson, EC; Kauffman, FC | 1 |
Losert, W; Schacht, U; Schultz, G; Senft, G | 1 |
Kaess, H; Losert, W; Schlutz, G; Senft, G; Sitt, R | 1 |
Bourgeois, JM; Macabies, J; Sassine, A | 1 |
Dallmeier, R; Itzel, W; Jäger, HJ; Siess, M | 1 |
Ofori-Nkansah, N; von Bruchhausen, F | 1 |
Severin, SE | 1 |
Shankaran, R; Venkitasubramanian, TA | 1 |
De Wulf, H; Hers, HG; Stalmans, W | 1 |
FORNAINI, G; MARINELLO, E | 1 |
COLAJACOMO, A | 1 |
MARINELLO, E; QUADRI, G; RICCI, C | 1 |
BALESTRERO, F; COLAJACOMO, A; COLOMBO, L | 1 |
BRAUTIGAM, J; KOCH, R | 1 |
Karthikesan, K; Menon, VP; Pari, L | 1 |
Davey, AK; Li, HT; Wang, J; Wu, XD | 1 |
Diani-Moore, S; Li, X; Mondal, P; Ram, P; Rifkind, AB; Sauve, AA; Youn, DY | 1 |
Cao, Y; Guo, M; Li, CY; Li, D; Liu, XX; Sun, CB; Tian, YJ; Yang, TT; Zhou, SS | 1 |
Cao, Y; Li, D; Li, SZ; Luo, N; Ma, Q; Shi, Q; Zhou, SS | 1 |
Ananda, PK; Kalaichelvan, VK; Kumarappan, CT; Sunil, C | 1 |
Daroji, VK; Hillemane, V; Jayashree, BS; Nayak, Y; Unnikrishnan, MK | 1 |
Al-Obaidi, MM; Ali, HM; Arya, A; Karim, RB; Khan, AK; Looi, CY; Mohd, MA; Mustafa, MR; Sayem, AS; Shahid, N; Taha, H | 1 |
Keough, MJ; Long, SM; Pettigrove, VJ; Vu, HT | 1 |
Chellappan, DR; Krishnasamy, G; Muthusamy, K; Subbiah, N | 1 |
Hu, B; Liu, M; Qi, X; Qian, H; Wang, L; Zhang, H; Zhang, Y | 1 |
Dhananjayan, I; Kathiroli, S; Subramani, S; Veerasamy, V | 1 |
Goodarzi, MT; Hashemnia, M; Karimi, J; Kheiripour, N; Khodadadi, I; Tavilani, H | 1 |
Chen, X; Qi, S; Qian, L; Wang, C; Wu, P; Zhang, J | 1 |
30 other study(ies) available for niacinamide and glycogen
Article | Year |
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Glycolysis and glycogen metabolism after inhibition of hexose monophosphate pathway in C6-GLIAL cells.
Topics: 6-Aminonicotinamide; Animals; Brain; Cells, Cultured; Gluconates; Glycogen; Glycolysis; Hexosephosphates; Neuroglia; Niacinamide; Rats | 1976 |
Centrally mediated hyperglycemia by 6-aminonicotinamide.
Topics: 6-Aminonicotinamide; Adrenalectomy; Animals; Blood Glucose; Brain; Glycogen; Hyperglycemia; Hypoglycemia; Insulin; Liver; Liver Glycogen; Male; Mice; Niacinamide | 1978 |
Cerebral energy reserves and glycolysis in neural tissue of 6-aminonicotinamide-treated mice.
Topics: Adenosine Triphosphate; Amines; Animals; Brain; Brain Chemistry; Cerebellum; Energy Metabolism; Fructosephosphates; Gluconates; Glucose; Glucosephosphates; Glycogen; Hypoxia, Brain; Ischemia; Isocitrates; Lactates; Malates; Mice; NAD; NADP; Niacinamide; Phosphocreatine; Ribose | 1974 |
[On the mechanism of 6-aminonicotinamide hyperglycemia].
Topics: Adrenal Glands; Adrenalectomy; Animals; Blood; Corticosterone; Epinephrine; Ergotamine; Glucose; Glycogen; Hyperglycemia; Insulin; Niacinamide; Rats | 1966 |
[The effect of insulin on the transport of potassium in skeletal muscles].
Topics: Adrenalectomy; Animals; Biological Transport; Diabetes Mellitus, Experimental; Epinephrine; Glycogen; Insulin; Male; Muscles; Niacinamide; Potassium; Rats | 1966 |
[Study of a mechanism of hyperglycemic action of nicotinamide].
Topics: Adrenal Glands; Adrenalectomy; Animals; Blood Glucose; Catecholamines; Diet; Glycogen; Hydrocortisone; Hyperglycemia; Niacinamide; Rabbits; Reserpine | 1970 |
[Differential participation of lipids and glycogen in energy metabolism of the isolated, spontaneously beating guinea pig atria influenced by drugs].
Topics: Animals; Carbohydrate Metabolism; Carbon Isotopes; Cholesterol; Epinephrine; Fatty Acids, Nonesterified; Glucose; Glycerol; Glycogen; Guinea Pigs; Heart Atria; In Vitro Techniques; Insulin; Lipid Metabolism; Myocardium; Niacinamide; Phospholipids; Triglycerides | 1970 |
[The impairment of glycogen metabolism in adipose tissue by 6-aminonicotinamide as influenced by the inhibition of phosphofructokinase].
Topics: Adenosine Diphosphate; Adipose Tissue; Amines; Animals; Carbon Dioxide; Carbon Isotopes; Drug Antagonism; Epididymis; Fructosephosphates; Glucose; Glycogen; Glycogen Storage Disease; Insulin; Male; Muscles; Niacinamide; Phosphofructokinase-1; Rabbits; Radiometry; Rats | 1972 |
[The regulation of myocardial metabolism].
Topics: Adenosine Triphosphate; Animals; Anura; Denervation; Glucosyltransferases; Glycogen; Heart; Myocarditis; Myocardium; NAD; Niacinamide | 1966 |
Effect of cord factor on carbohydrate metabolism in mice.
Topics: Animals; Antitoxins; Carbohydrate Metabolism; Carbon Isotopes; Fructose-Bisphosphatase; Glucose; Glucosephosphate Dehydrogenase; Glucosyltransferases; Glycogen; Glycolipids; Hexokinase; Lactates; Liver; Liver Glycogen; Mice; Muscles; Mycobacterium tuberculosis; N-Glycosyl Hydrolases; NAD; Niacinamide; Oxidoreductases; Proteins; Pyruvates; Toxins, Biological | 1970 |
The effect of glucose and of a treatment by glucocorticoids on the activation in vitro of liver glycogen synthetase.
Topics: Acetates; Adenine Nucleotides; Animals; Caffeine; Chromatography, Gel; Enzyme Activation; Fluorides; Glucose; Glucosyltransferases; Glycogen; Kinetics; Liver; Liver Glycogen; Magnesium; Metabolism; Mice; Niacinamide; Phosphates; Phosphoric Monoester Hydrolases; Prednisolone; Rabbits; Sulfates | 1970 |
[Mechanism of liver glycogenolysis after large doses of nicotinamide. VI. Formation of a phosphoglucomutase activator in the liver of animals treated with nicotinamide].
Topics: Glycogen; Glycogenolysis; Intramolecular Transferases; Liver; Niacin; Niacinamide; Nicotinic Acids; Phosphoglucomutase | 1956 |
[Relation between biosynthesis of pyridine-nucleotides, phosphoglucomutase activity and glycogenolysis in rats treated with nicotinamide].
Topics: Animals; Glycogen; Glycogenolysis; Intramolecular Transferases; Liver; Muscles; Niacin; Niacinamide; Nicotinic Acids; Nucleotides; Phosphoglucomutase; Rats | 1956 |
[Glycogen content and coenzyme biosynthesis in the liver of guinea pigs treated with high doses of nicotinamide].
Topics: Coenzymes; Glycogen; Glycogenolysis; Guinea Pigs; Liver; Niacin; Niacinamide; Nicotinic Acids | 1961 |
[Influence of adrenalectomy and hypophysectomy on the acute biochemical syndrome caused by overdoses of nicotinamide].
Topics: Adrenalectomy; Glycogen; Hypophysectomy; Liver; Niacin; Niacinamide; Nucleotides; Phosphoglucomutase; Pyridines | 1963 |
[The effect of nicotinamide upon glycogenesis and postmortal glycogenolysis].
Topics: Carbohydrate Metabolism; Glycogen; Glycogenolysis; Humans; Niacin; Niacinamide | 1950 |
Combined treatment of tetrahydrocurcumin and chlorogenic acid exerts potential antihyperglycemic effect on streptozotocin-nicotinamide-induced diabetic rats.
Topics: Animals; Chlorogenic Acid; Curcumin; Diabetes Mellitus, Experimental; Drug Combinations; Feasibility Studies; Glycogen; Hypoglycemic Agents; Insulin; Male; Niacinamide; Rats; Rats, Wistar; Signal Transduction; Streptozocin; Treatment Outcome | 2010 |
Antihyperglycemic effects of baicalin on streptozotocin - nicotinamide induced diabetic rats.
Topics: Adiponectin; Animals; Blood Glucose; Diabetes Mellitus, Experimental; Flavonoids; Glycogen; Hexokinase; Hypoglycemic Agents; Insulin; Interleukin-6; Liver; Male; Metformin; Niacinamide; Pancreas; Rats; Rats, Wistar; Streptozocin; Tumor Necrosis Factor-alpha | 2011 |
Identification of the aryl hydrocarbon receptor target gene TiPARP as a mediator of suppression of hepatic gluconeogenesis by 2,3,7,8-tetrachlorodibenzo-p-dioxin and of nicotinamide as a corrective agent for this effect.
Topics: Animals; Chick Embryo; Cytochrome P-450 CYP1A1; Gene Silencing; Glucose; Glycogen; Hepatocytes; Liver; NAD; Niacinamide; Poly(ADP-ribose) Polymerases; Polychlorinated Dibenzodioxins; Receptors, Aryl Hydrocarbon; Sirtuin 1; Transcription Factors | 2010 |
Decreased skin-mediated detoxification contributes to oxidative stress and insulin resistance.
Topics: Animals; Antioxidants; Blood Glucose; Burns; Glycogen; Hydrogen Peroxide; Insulin; Insulin Resistance; Male; Niacinamide; Oxidative Stress; Rats; Rats, Sprague-Dawley; Skin; Xenobiotics | 2012 |
Excessive nicotinic acid increases methyl consumption and hydrogen peroxide generation in rats.
Topics: Animals; Dose-Response Relationship, Drug; Glucose; Glucose Tolerance Test; Glycogen; Hydrogen Peroxide; Insulin Resistance; Liver; Male; Muscle, Skeletal; Niacin; Niacinamide; Rats; Rats, Sprague-Dawley; Reactive Oxygen Species | 2013 |
Effect of Biophytum sensitivum on streptozotocin and nicotinamide-induced diabetic rats.
Topics: Animals; Blood Glucose; Diabetes Mellitus, Experimental; Enzymes; Glycated Hemoglobin; Glycogen; Hypoglycemic Agents; Insulin; Liver; Male; Niacinamide; Oxalidaceae; Plant Extracts; Plant Leaves; Plasma; Rats, Wistar; Streptozocin; Treatment Outcome | 2012 |
Antidiabetic activity of benzopyrone analogues in nicotinamide-streptozotocin induced type 2 diabetes in rats.
Topics: Animals; Biomarkers; Blood Glucose; Coumarins; Creatinine; Diabetes Mellitus, Experimental; Diabetes Mellitus, Type 2; Fasting; Glucose Tolerance Test; Glycation End Products, Advanced; Glycogen; Hyperglycemia; Hypoglycemic Agents; Insulin; Insulin Resistance; Lipids; Liver; Male; Niacinamide; Oxidative Stress; Pancreas; Rats, Wistar; Streptozocin | 2014 |
Extract of Woodfordia fruticosa flowers ameliorates hyperglycemia, oxidative stress and improves β-cell function in streptozotocin-nicotinamide induced diabetic rats.
Topics: Animals; Diabetes Mellitus, Experimental; Flowers; Glucose Transporter Type 2; Glucose Transporter Type 4; Glycogen; Hyperglycemia; Hypoglycemic Agents; Insulin; Kidney; Liver; Male; Niacinamide; Oxidative Stress; Pancreas; Phytochemicals; Plant Extracts; Proto-Oncogene Proteins c-bcl-2; Rats, Sprague-Dawley; Streptozocin; Woodfordia | 2015 |
Effects of the boscalid fungicide Filan® on the marine amphipod Allorchestes compressa at environmentally relevant concentrations.
Topics: Amphipoda; Animals; Aquatic Organisms; Australia; Biphenyl Compounds; Ecosystem; Feeding Behavior; Fungicides, Industrial; Glycogen; Lipid Metabolism; Microbial Consortia; Niacinamide; Reproduction; Water Pollutants, Chemical; Zosteraceae | 2016 |
Antidiabetic, antihyperlipidaemic, and antioxidant activity of Syzygium densiflorum fruits in streptozotocin and nicotinamide-induced diabetic rats.
Topics: Animals; Antioxidants; Biomarkers; Blood Glucose; Cell Proliferation; Diabetes Mellitus, Experimental; Female; Fruit; Glucose Tolerance Test; Glyburide; Glycogen; Hypoglycemic Agents; Hypolipidemic Agents; Insulin-Secreting Cells; Lipid Peroxidation; Lipids; Liver; Male; Niacinamide; Oxidative Stress; Phytotherapy; Plant Extracts; Plants, Medicinal; Rats, Wistar; Regeneration; Streptozocin; Syzygium | 2016 |
The anti-diabetic activity of oat β-d-glucan in streptozotocin-nicotinamide induced diabetic mice.
Topics: Animals; beta-Glucans; Blood Glucose; Body Weight; Diabetes Mellitus, Experimental; Drinking; Fasting; Glucose Tolerance Test; Glycogen; Hypoglycemic Agents; Insulin; Insulin Resistance; Liver; Liver Glycogen; Male; Mice; Molecular Weight; Niacinamide; Pancreas | 2016 |
Ameliorating effect of betanin, a natural chromoalkaloid by modulating hepatic carbohydrate metabolic enzyme activities and glycogen content in streptozotocin - nicotinamide induced experimental rats.
Topics: Animals; Betacyanins; Biomarkers; Blood Glucose; Body Weight; Carbohydrate Metabolism; Diabetes Mellitus, Experimental; Feeding Behavior; Glucose Tolerance Test; Glycated Hemoglobin; Glycogen; Glycolysis; Immunohistochemistry; Insulin; Lipogenesis; Liver; Male; Models, Biological; Niacinamide; Organ Size; Rats, Wistar; Streptozocin | 2017 |
Silymarin prevents lipid accumulation in the liver of rats with type 2 diabetes via sirtuin1 and SREBP-1c.
Topics: Animals; Diabetes Mellitus, Experimental; Diabetes Mellitus, Type 2; Dose-Response Relationship, Drug; Glycogen; Lipid Metabolism; Liver; Male; Niacinamide; Protective Agents; Rats; Rats, Wistar; RNA, Messenger; Silymarin; Sirtuin 1; Sterol Regulatory Element Binding Protein 1; Streptozocin; Up-Regulation | 2018 |
Toxic effects of boscalid in adult zebrafish (Danio rerio) on carbohydrate and lipid metabolism.
Topics: Animals; Aquatic Organisms; Biphenyl Compounds; Carbohydrate Metabolism; Fungicides, Industrial; Glycogen; Lipid Metabolism; Liver; Niacinamide; Oxidation-Reduction; Toxicity Tests; Zebrafish | 2019 |