ethylene glycol and Urinary Lithiasis studies

Ethylene Glycol: A colorless, odorless, viscous dihydroxy alcohol. It has a sweet taste, but is poisonous if ingested. Ethylene glycol is the most important glycol commercially available and is manufactured on a large scale in the United States. It is used as an antifreeze and coolant, in hydraulic fluids, and in the manufacture of low-freezing dynamites and resins.
ethanediol : Any diol that is ethane or substituted ethane carrying two hydroxy groups.
ethylene glycol : A 1,2-glycol compound produced via reaction of ethylene oxide with water.

Research Excerpts

Excerpt	Relevance	Reference
" The in vivo anti-urolithiatic action was evaluated using ethylene glycol (EG)-induced urolithiasis in rats by studying their mitigating effects on the antioxidant machinery, serum toxicity markers (i."	8.31	In vivo investigation of the inhibitory effect of Peganum harmala L. and its major alkaloids on ethylene glycol-induced urolithiasis in rats. ( Abdel Bar, FM; Alqarni, MH; Rashid, S; Sameti, M, 2023)
" Based on the antioxidant, antispasmodic and nephroprotective potential, the essential oil of Mentha piperita was evaluated for its preventive and curative effects against ethylene glycol induced urolithiasis."	8.02	Prophylactic and curative potential of peppermint oil against calcium oxalate kidney stones. ( Jabeen, Q; Jamshed, A, 2021)
" With this in mind, the present study was designed to assess the antiurolithic effect of olive oil in a mouse model of ethylene glycol (EG)-induced urolithiasis."	7.85	Antiurolithic effect of olive oil in a mouse model of ethylene glycol-induced urolithiasis. ( Alenzi, M; Rahiman, S; Tantry, BA, 2017)
" The present work investigated the effect of methanolic and aqueous extracts of leaves of Chenopodium album on experimentally-induced urolithiasis in rats to substantiate its traditional use as antilithiatic agent."	7.85	Chenopodium album Linn. leaves prevent ethylene glycol-induced urolithiasis in rats. ( Dey, YN; Gaidhani, SN; Jadhav, AD; Sharma, A; Sikarwar, I; Wanjari, MM, 2017)
"Context There have not been any conclusive studies of the effects of diosmin, a modified flavanone glycoside obtained from Teucrium gnaphalodes L'Her (Lamiaceae), on urolithiasis."	7.83	Evaluation of protective effects of diosmin (a citrus flavonoid) in chemical-induced urolithiasis in experimental rats. ( Anuradha, M; Das, S; Pachiappan, S; Prabhu, VV; Ramasamy, A; Sathyamurthy, D, 2016)
"L-Arginine exerts its nephro- and cardio-protective potential in EG-induced urolithiasis in uninephrectomized hypertensive rats via modulation of KIM-1, NGAL, eNOS, and iNOs mRNA expression."	7.81	L-Arginine attenuates the ethylene glycol induced urolithiasis in ininephrectomized hypertensive rats: role of KIM-1, NGAL, and NOs. ( Bodhankar, SL; Kandhare, AD; Patil, MV, 2015)
"To evaluate the effect of L-arginine against EG-induced urolithiasis in uninephrectomized hypertensive rats."	7.81	L-Arginine attenuates the ethylene glycol induced urolithiasis in ininephrectomized hypertensive rats: role of KIM-1, NGAL, and NOs. ( Bodhankar, SL; Kandhare, AD; Patil, MV, 2015)
"The effect of 5 mg/kg amlodipine was studied in rats that were first treated with 1% ethylene glycol and 1% ammonium chloride for 21 days to induce urolithiasis."	7.79	The biochemical and histopathological investigation of amlodipine in ethylene glycol-induced urolithiasis rat model. ( Albayrak, A; Bayir, Y; Colak, S; Dorman, E; Gulcan, E; Halici, Z; Karakus, E; Keles, MS; Oral, A; Uludag, K; Yayla, N; Zipak, T, 2013)
"Our objective was to determine whether hypothyroidism protects against ethylene glycol (EG)-induced renal damage and whether the redox environment participates in the protection process."	7.79	Hypothyroidism maintained reactive oxygen species-steady state in the kidney of rats intoxicated with ethylene glycol: effect related to an increase in the glutathione that maintains the redox environment. ( Cano-Europa, E; Estévez-Carmona, MM; Franco-Colin, M; Meléndez-Camargo, E; Ortiz-Butron, R; Pineda-Reynoso, M, 2013)
"We showed that amlodipine may increase susceptibility to urolithiasis by raising hyperoxaluria and hypercalciuria."	7.79	The biochemical and histopathological investigation of amlodipine in ethylene glycol-induced urolithiasis rat model. ( Albayrak, A; Bayir, Y; Colak, S; Dorman, E; Gulcan, E; Halici, Z; Karakus, E; Keles, MS; Oral, A; Uludag, K; Yayla, N; Zipak, T, 2013)
"Urinary calculi are a common and severe problem, which are formed by urolithiasis or by the formation of calcium oxalate (CaOx) crystals in the kidneys."	7.79	The biochemical and histopathological investigation of amlodipine in ethylene glycol-induced urolithiasis rat model. ( Albayrak, A; Bayir, Y; Colak, S; Dorman, E; Gulcan, E; Halici, Z; Karakus, E; Keles, MS; Oral, A; Uludag, K; Yayla, N; Zipak, T, 2013)
"Oral administration of ethylene glycol resulted in hyperoxaluria and increased renal excretion of calcium and phosphate."	7.78	Curative treatment with extracts of Bombax ceiba fruit reduces risk of calcium oxalate urolithiasis in rats. ( Gadge, NB; Jalalpure, SS, 2012)
"Several animal species are used to study calcium oxalate urolithiasis; however, an ideal model has yet to be identified."	7.77	Ethylene glycol induces calcium oxalate crystal deposition in Malpighian tubules: a Drosophila model for nephrolithiasis/urolithiasis. ( Chang, CH; Chen, HY; Chen, WC; Chen, YH; Lee, YJ; Lin, WY; Liu, HP; Tsai, FJ, 2011)
"Indicate that the HARC can protect against ethylene glycol induced urolithiasis as it reduced and prevented the growth of urinary stones."	7.76	Protective effect of the hydro-alcoholic extract of Rubia cordifolia roots against ethylene glycol induced urolithiasis in rats. ( Chandrasekhar, SB; Dighe, SB; Divakar, G; Divakar, K; Pawar, AT, 2010)
" (HARC) against ethylene glycol induced urolithiasis and its possible underlying mechanisms using male Wistar albino rats."	7.76	Protective effect of the hydro-alcoholic extract of Rubia cordifolia roots against ethylene glycol induced urolithiasis in rats. ( Chandrasekhar, SB; Dighe, SB; Divakar, G; Divakar, K; Pawar, AT, 2010)
"The present study was undertaken to explore the efficiency of the pentacyclic triterpene lupeol (1) and its ester derivative, lupeol linoleate (2), in experimental hyperoxaluria."	7.74	Antiurolithic effect of lupeol and lupeol linoleate in experimental hyperoxaluria. ( Sudhahar, V; Varalakshmi, P; Veena, CK, 2008)
" Ethylene glycol feeding resulted in hyperoxaluria as well as increased renal excretion of calcium and phosphate."	7.73	Effect of Moringa oleifera Lam. root-wood on ethylene glycol induced urolithiasis in rats. ( Alagawadi, KR; Gadge, NB; Karadi, RV; Savadi, RV, 2006)
"Urolithiasis is a common urological disorder, which causes considerable morbidity in both genders at all age groups worldwide."	5.91	Anti-urolithiatic Activity of Daidzin in Ethylene Glycol-Induced Urolithiasis in Rats. ( Ibrahim, IAA; Ren, R; Yuan, S, 2023)
"Urolithiasis was developed in male rats by the administration of ammonium chloride and ethylene glycol in drinking water."	5.62	Prophylactic and curative potential of peppermint oil against calcium oxalate kidney stones. ( Jabeen, Q; Jamshed, A, 2021)
"Urolithiasis is a disorder of kidneys in which stones formation occur due to the excessive deposition of minerals in the urinary tract."	5.56	Anti-urolithiatic activity of Salvia hispanica L. seeds in ethylene glycol induced urolithiasis rat's model. ( Ahmad, B; Ahmad, N; Anwar, F; Saleem, U; Shah, MA, 2020)
"Urolithiasis was induced in rats by administration of 0."	5.46	Chenopodium album Linn. leaves prevent ethylene glycol-induced urolithiasis in rats. ( Dey, YN; Gaidhani, SN; Jadhav, AD; Sharma, A; Sikarwar, I; Wanjari, MM, 2017)
"Hypothyroidism is a protective state against EG because the changes in the renal function were smaller than in the euthyroid state."	5.39	Hypothyroidism maintained reactive oxygen species-steady state in the kidney of rats intoxicated with ethylene glycol: effect related to an increase in the glutathione that maintains the redox environment. ( Cano-Europa, E; Estévez-Carmona, MM; Franco-Colin, M; Meléndez-Camargo, E; Ortiz-Butron, R; Pineda-Reynoso, M, 2013)
"Drawbacks of presently available treatments for urolithiasis necessitate finding the treatment of hyperoxaluria specifically aimed at reduction in oxalate excretion."	5.38	Curative treatment with extracts of Bombax ceiba fruit reduces risk of calcium oxalate urolithiasis in rats. ( Gadge, NB; Jalalpure, SS, 2012)
"Calcium oxalate lithiasis was induced in rats by oral administration of 0."	5.38	Curative treatment with extracts of Bombax ceiba fruit reduces risk of calcium oxalate urolithiasis in rats. ( Gadge, NB; Jalalpure, SS, 2012)
"Hyperoxaluria was induced in male Wistar rats with 0."	5.35	Antiurolithic effect of lupeol and lupeol linoleate in experimental hyperoxaluria. ( Sudhahar, V; Varalakshmi, P; Veena, CK, 2008)
" The in vivo anti-urolithiatic action was evaluated using ethylene glycol (EG)-induced urolithiasis in rats by studying their mitigating effects on the antioxidant machinery, serum toxicity markers (i."	4.31	In vivo investigation of the inhibitory effect of Peganum harmala L. and its major alkaloids on ethylene glycol-induced urolithiasis in rats. ( Abdel Bar, FM; Alqarni, MH; Rashid, S; Sameti, M, 2023)
" Based on the antioxidant, antispasmodic and nephroprotective potential, the essential oil of Mentha piperita was evaluated for its preventive and curative effects against ethylene glycol induced urolithiasis."	4.02	Prophylactic and curative potential of peppermint oil against calcium oxalate kidney stones. ( Jabeen, Q; Jamshed, A, 2021)
"A high-salt diet increased crystal deposition in Dahl salt-sensitive rats with hypertension, and eplerenone administration significantly suppressed it."	3.91	High-salt diet promotes crystal deposition through hypertension in Dahl salt-sensitive rat model. ( Iida, Y; Inoue, S; Ishigaki, Y; Miyazawa, K; Nakamura, Y; Nakazawa, Y, 2019)
"We performed morphological analysis of the effect of the peptide complex from porcine kidneys on the course of experimental urolithiasis modeled in rats by treatment with 1% ethylene glycol solution (in drinking water) for 6 weeks."	3.85	Morphological Evaluation of the Influence of the Peptide Complex from Tissue of Porcine Kidneys on the Experimental Urolithiasis. ( Bobrov, IP; Kiselev, VI; Lepilov, AV; Saldan, IP; Zharikov, AY; Zharikova, GV, 2017)
" With this in mind, the present study was designed to assess the antiurolithic effect of olive oil in a mouse model of ethylene glycol (EG)-induced urolithiasis."	3.85	Antiurolithic effect of olive oil in a mouse model of ethylene glycol-induced urolithiasis. ( Alenzi, M; Rahiman, S; Tantry, BA, 2017)
" The present work investigated the effect of methanolic and aqueous extracts of leaves of Chenopodium album on experimentally-induced urolithiasis in rats to substantiate its traditional use as antilithiatic agent."	3.85	Chenopodium album Linn. leaves prevent ethylene glycol-induced urolithiasis in rats. ( Dey, YN; Gaidhani, SN; Jadhav, AD; Sharma, A; Sikarwar, I; Wanjari, MM, 2017)
" He was found to have high anion gap metabolic acidosis with significantly elevated lactate along with an elevated osmolal gap and calcium oxalate crystals in his urine."	3.85	Two gaps too many, three clues too few? Do elevated osmolal and anion gaps with crystalluria always mean ethylene glycol poisoning? ( Abu Sitta, E; Gaddam, M; Kanzy, A; Velagapudi, RK, 2017)
"Context There have not been any conclusive studies of the effects of diosmin, a modified flavanone glycoside obtained from Teucrium gnaphalodes L'Her (Lamiaceae), on urolithiasis."	3.83	Evaluation of protective effects of diosmin (a citrus flavonoid) in chemical-induced urolithiasis in experimental rats. ( Anuradha, M; Das, S; Pachiappan, S; Prabhu, VV; Ramasamy, A; Sathyamurthy, D, 2016)
"L-Arginine exerts its nephro- and cardio-protective potential in EG-induced urolithiasis in uninephrectomized hypertensive rats via modulation of KIM-1, NGAL, eNOS, and iNOs mRNA expression."	3.81	L-Arginine attenuates the ethylene glycol induced urolithiasis in ininephrectomized hypertensive rats: role of KIM-1, NGAL, and NOs. ( Bodhankar, SL; Kandhare, AD; Patil, MV, 2015)
"To evaluate the effect of L-arginine against EG-induced urolithiasis in uninephrectomized hypertensive rats."	3.81	L-Arginine attenuates the ethylene glycol induced urolithiasis in ininephrectomized hypertensive rats: role of KIM-1, NGAL, and NOs. ( Bodhankar, SL; Kandhare, AD; Patil, MV, 2015)
"Our objective was to determine whether hypothyroidism protects against ethylene glycol (EG)-induced renal damage and whether the redox environment participates in the protection process."	3.79	Hypothyroidism maintained reactive oxygen species-steady state in the kidney of rats intoxicated with ethylene glycol: effect related to an increase in the glutathione that maintains the redox environment. ( Cano-Europa, E; Estévez-Carmona, MM; Franco-Colin, M; Meléndez-Camargo, E; Ortiz-Butron, R; Pineda-Reynoso, M, 2013)
"The effect of 5 mg/kg amlodipine was studied in rats that were first treated with 1% ethylene glycol and 1% ammonium chloride for 21 days to induce urolithiasis."	3.79	The biochemical and histopathological investigation of amlodipine in ethylene glycol-induced urolithiasis rat model. ( Albayrak, A; Bayir, Y; Colak, S; Dorman, E; Gulcan, E; Halici, Z; Karakus, E; Keles, MS; Oral, A; Uludag, K; Yayla, N; Zipak, T, 2013)
"We showed that amlodipine may increase susceptibility to urolithiasis by raising hyperoxaluria and hypercalciuria."	3.79	The biochemical and histopathological investigation of amlodipine in ethylene glycol-induced urolithiasis rat model. ( Albayrak, A; Bayir, Y; Colak, S; Dorman, E; Gulcan, E; Halici, Z; Karakus, E; Keles, MS; Oral, A; Uludag, K; Yayla, N; Zipak, T, 2013)
"Urinary calculi are a common and severe problem, which are formed by urolithiasis or by the formation of calcium oxalate (CaOx) crystals in the kidneys."	3.79	The biochemical and histopathological investigation of amlodipine in ethylene glycol-induced urolithiasis rat model. ( Albayrak, A; Bayir, Y; Colak, S; Dorman, E; Gulcan, E; Halici, Z; Karakus, E; Keles, MS; Oral, A; Uludag, K; Yayla, N; Zipak, T, 2013)
"Animals model of calcium oxalate urolithiasis was developed in male rats by adding ethylene glycol 0."	3.78	Anti-urolithiatic effects of Punica granatum in male rats. ( Biswas, D; Chandra, R; Chitme, HR; Muchandi, IS; Rathod, NR; Ratna, S, 2012)
"Oral administration of ethylene glycol resulted in hyperoxaluria and increased renal excretion of calcium and phosphate."	3.78	Curative treatment with extracts of Bombax ceiba fruit reduces risk of calcium oxalate urolithiasis in rats. ( Gadge, NB; Jalalpure, SS, 2012)
"Several animal species are used to study calcium oxalate urolithiasis; however, an ideal model has yet to be identified."	3.77	Ethylene glycol induces calcium oxalate crystal deposition in Malpighian tubules: a Drosophila model for nephrolithiasis/urolithiasis. ( Chang, CH; Chen, HY; Chen, WC; Chen, YH; Lee, YJ; Lin, WY; Liu, HP; Tsai, FJ, 2011)
" (HARC) against ethylene glycol induced urolithiasis and its possible underlying mechanisms using male Wistar albino rats."	3.76	Protective effect of the hydro-alcoholic extract of Rubia cordifolia roots against ethylene glycol induced urolithiasis in rats. ( Chandrasekhar, SB; Dighe, SB; Divakar, G; Divakar, K; Pawar, AT, 2010)
"Indicate that the HARC can protect against ethylene glycol induced urolithiasis as it reduced and prevented the growth of urinary stones."	3.76	Protective effect of the hydro-alcoholic extract of Rubia cordifolia roots against ethylene glycol induced urolithiasis in rats. ( Chandrasekhar, SB; Dighe, SB; Divakar, G; Divakar, K; Pawar, AT, 2010)
"The present study was undertaken to explore the efficiency of the pentacyclic triterpene lupeol (1) and its ester derivative, lupeol linoleate (2), in experimental hyperoxaluria."	3.74	Antiurolithic effect of lupeol and lupeol linoleate in experimental hyperoxaluria. ( Sudhahar, V; Varalakshmi, P; Veena, CK, 2008)
" Ethylene glycol feeding resulted in hyperoxaluria as well as increased renal excretion of calcium and phosphate."	3.73	Effect of Moringa oleifera Lam. root-wood on ethylene glycol induced urolithiasis in rats. ( Alagawadi, KR; Gadge, NB; Karadi, RV; Savadi, RV, 2006)
"Urolithiasis is a common urological disorder, which causes considerable morbidity in both genders at all age groups worldwide."	1.91	Anti-urolithiatic Activity of Daidzin in Ethylene Glycol-Induced Urolithiasis in Rats. ( Ibrahim, IAA; Ren, R; Yuan, S, 2023)
"Urolithiasis is a common urologic disease."	1.72	Vinegar reduced renal calcium oxalate stones by regulating acetate metabolism in gut microbiota and crystal adhesion in rats. ( Jin, X; Li, H; Liu, Y; Ma, Y; Sun, Q; Wang, K, 2022)
"Urolithiasis was developed in male rats by the administration of ammonium chloride and ethylene glycol in drinking water."	1.62	Prophylactic and curative potential of peppermint oil against calcium oxalate kidney stones. ( Jabeen, Q; Jamshed, A, 2021)
"Urolithiasis is a disorder of kidneys in which stones formation occur due to the excessive deposition of minerals in the urinary tract."	1.56	Anti-urolithiatic activity of Salvia hispanica L. seeds in ethylene glycol induced urolithiasis rat's model. ( Ahmad, B; Ahmad, N; Anwar, F; Saleem, U; Shah, MA, 2020)
"Hypertension was induced by a high-salt diet."	1.51	High-salt diet promotes crystal deposition through hypertension in Dahl salt-sensitive rat model. ( Iida, Y; Inoue, S; Ishigaki, Y; Miyazawa, K; Nakamura, Y; Nakazawa, Y, 2019)
"Urolithiasis was induced in rats by administration of 0."	1.46	Chenopodium album Linn. leaves prevent ethylene glycol-induced urolithiasis in rats. ( Dey, YN; Gaidhani, SN; Jadhav, AD; Sharma, A; Sikarwar, I; Wanjari, MM, 2017)
" In summary, pAA is a potent anti-urolithic agent in rats and we can propose that 10 mg/kg body weight is the effective dosage of pAA and this concentration can be used for further studies."	1.43	Polyacrylic acid attenuates ethylene glycol induced hyperoxaluric damage and prevents crystal aggregation in vitro and in vivo. ( Ganesh, RN; Sridharan, B; Viswanathan, P, 2016)
"Hypothyroidism is a protective state against EG because the changes in the renal function were smaller than in the euthyroid state."	1.39	Hypothyroidism maintained reactive oxygen species-steady state in the kidney of rats intoxicated with ethylene glycol: effect related to an increase in the glutathione that maintains the redox environment. ( Cano-Europa, E; Estévez-Carmona, MM; Franco-Colin, M; Meléndez-Camargo, E; Ortiz-Butron, R; Pineda-Reynoso, M, 2013)
"Calcium oxalate lithiasis was induced in rats by oral administration of 0."	1.38	Curative treatment with extracts of Bombax ceiba fruit reduces risk of calcium oxalate urolithiasis in rats. ( Gadge, NB; Jalalpure, SS, 2012)
"Drawbacks of presently available treatments for urolithiasis necessitate finding the treatment of hyperoxaluria specifically aimed at reduction in oxalate excretion."	1.38	Curative treatment with extracts of Bombax ceiba fruit reduces risk of calcium oxalate urolithiasis in rats. ( Gadge, NB; Jalalpure, SS, 2012)
"Hyperoxaluria was induced in male Wistar rats with 0."	1.35	Antiurolithic effect of lupeol and lupeol linoleate in experimental hyperoxaluria. ( Sudhahar, V; Varalakshmi, P; Veena, CK, 2008)
"Hyperoxaluria is a major risk factor for recurrent urolithiasis and nephrocalcinosis."	1.35	Hyperoxaluria is reduced and nephrocalcinosis prevented with an oxalate-degrading enzyme in mice with hyperoxaluria. ( Grujic, D; Jung, CW; Langman, CB; Mandapati, S; Margolin, AL; McGrath, ME; Patel, RJ; Rashid, A; Salido, EC; Shenoy, BC, 2009)

Timeframe	Studies, this research(%)	All Research%
pre-1990	0 (0.00)	18.7374
1990's	0 (0.00)	18.2507
2000's	3 (7.14)	29.6817
2010's	29 (69.05)	24.3611
2020's	10 (23.81)	2.80

Article	Year
Nephroprotective effect of Bryophyllum pinnatum-mediated silver nanoparticles in ethylene glycol-induced urolithiasis in rat. IET nanobiotechnology, 2021, Volume: 15, Issue:3 Topics: Animals; Ethylene Glycol; Kalanchoe; Metal Nanoparticles; Plant Extracts; Rats; Rats, Wistar; Silver	2021
Prophylactic and curative potential of peppermint oil against calcium oxalate kidney stones. Pakistan journal of pharmaceutical sciences, 2021, Volume: 34, Issue:5(Suppleme Topics: Ammonium Chloride; Animals; Antioxidants; Biphenyl Compounds; Calcium Oxalate; Dose-Response Relatio	2021
Vinegar reduced renal calcium oxalate stones by regulating acetate metabolism in gut microbiota and crystal adhesion in rats. International urology and nephrology, 2022, Volume: 54, Issue:10 Topics: Acetic Acid; Animals; Calcium Oxalate; Ethylene Glycol; Gastrointestinal Microbiome; Kidney; Kidney	2022
In vivo investigation of the inhibitory effect of Peganum harmala L. and its major alkaloids on ethylene glycol-induced urolithiasis in rats. Journal of ethnopharmacology, 2023, Jan-10, Volume: 300 Topics: 1-Butanol; Alkaloids; Animals; Antioxidants; Calcium; Calcium Oxalate; Catalase; Creatinine; Ethers;	2023
Discerning Comparison of 1 and 0.5% Ethylene Glycol in Sprague-Dawley Rats with Modeled Urolithiasis. Bulletin of experimental biology and medicine, 2022, Volume: 173, Issue:5 Topics: Animals; Creatinine; Ethylene Glycol; Ketones; Kidney; Rats; Rats, Sprague-Dawley; Triglycerides; Ur	2022
Anti-urolithiatic Activity of Daidzin in Ethylene Glycol-Induced Urolithiasis in Rats. Applied biochemistry and biotechnology, 2023, Volume: 195, Issue:2 Topics: Antioxidants; Calcium; Creatinine; Ethylene Glycol; Female; Kidney; Magnesium; Male; Oxalates; Plant	2023
iTRAQ-Based Comparative Proteomics Analysis of Urolithiasis Rats Induced by Ethylene Glycol. BioMed research international, 2020, Volume: 2020 Topics: Animals; Disease Models, Animal; Ethylene Glycol; Kidney; Male; Protein Interaction Maps; Proteome;	2020
Anti-urolithiatic activity of Salvia hispanica L. seeds in ethylene glycol induced urolithiasis rat's model. Anais da Academia Brasileira de Ciencias, 2020, Volume: 92, Issue:4 Topics: Animals; Ethylene Glycol; Plant Extracts; Rats; Salvia; Seeds; Uric Acid; Urolithiasis	2020
Antioxidant and Polyphenol-Rich Ethanolic Extract of Molecules (Basel, Switzerland), 2021, Feb-14, Volume: 26, Issue:4 Topics: Acetates; Ammonium Chloride; Animals; Antioxidants; Body Weight; Disease Models, Animal; Ethanol; Et	2021
Protective effect of apigenin on ethylene glycol-induced urolithiasis via attenuating oxidative stress and inflammatory parameters in adult male Wistar rats. Life sciences, 2021, Aug-15, Volume: 279 Topics: Animals; Apigenin; Ethylene Glycol; Inflammation; Male; Oxidative Stress; Protective Agents; Rats; R	2021
Antiurolithic effect of olive oil in a mouse model of ethylene glycol-induced urolithiasis. Investigative and clinical urology, 2017, Volume: 58, Issue:3 Topics: Animals; Calcium; Creatinine; Disease Models, Animal; Dose-Response Relationship, Drug; Ethylene Gly	2017
Anti-Inflammatory and Anti-Urolithiasis Effects of Polyphenolic Compounds from Quercus gilva Blume. Molecules (Basel, Switzerland), 2017, Jul-05, Volume: 22, Issue:7 Topics: Animals; Anti-Inflammatory Agents; Antioxidants; Cytokines; Disease Models, Animal; Ethylene Glycol;	2017
Two gaps too many, three clues too few? Do elevated osmolal and anion gaps with crystalluria always mean ethylene glycol poisoning? BMJ case reports, 2017, Oct-15, Volume: 2017 Topics: Acid-Base Equilibrium; Acidosis; Anticonvulsants; Brain Diseases; Calcium Oxalate; Cognitive Dysfunc	2017
Morphological Evaluation of the Influence of the Peptide Complex from Tissue of Porcine Kidneys on the Experimental Urolithiasis. Bulletin of experimental biology and medicine, 2017, Volume: 164, Issue:2 Topics: Animals; Complex Mixtures; Ethylene Glycol; Kidney; Male; Peptides; Rats; Rats, Wistar; Swine; Uroli	2017
High-salt diet promotes crystal deposition through hypertension in Dahl salt-sensitive rat model. International journal of urology : official journal of the Japanese Urological Association, 2019, Volume: 26, Issue:8 Topics: Animals; Blood Pressure; Calcium; Disease Models, Animal; Eplerenone; Ethylene Glycol; Humans; Hydro	2019
L-Arginine attenuates the ethylene glycol induced urolithiasis in ininephrectomized hypertensive rats: role of KIM-1, NGAL, and NOs. Renal failure, 2015, Volume: 37, Issue:4 Topics: Acute-Phase Proteins; Animals; Arginine; Cell Adhesion Molecules; Ethylene Glycol; Lipocalin-2; Lipo	2015
Antilithic effects of extracts from different polarity fractions of Desmodium styracifolium on experimentally induced urolithiasis in rats. Urolithiasis, 2015, Volume: 43, Issue:5 Topics: Animals; Antioxidants; Calcium Oxalate; Ethylene Glycol; Fabaceae; Male; Phytotherapy; Plant Extract	2015
Beneficial effect of Citrus limon peel aqueous methanol extract on experimentally induced urolithic rats. Pharmaceutical biology, 2016, Volume: 54, Issue:5 Topics: Animals; Citrus; Ethylene Glycol; Female; Fruit; Methanol; Plant Extracts; Rats; Rats, Wistar; Treat	2016
Evaluation of protective effects of diosmin (a citrus flavonoid) in chemical-induced urolithiasis in experimental rats. Pharmaceutical biology, 2016, Volume: 54, Issue:9 Topics: Ammonium Chloride; Animals; Biomarkers; Cytoprotection; Diosmin; Disease Models, Animal; Ethylene Gl	2016
Polyacrylic acid attenuates ethylene glycol induced hyperoxaluric damage and prevents crystal aggregation in vitro and in vivo. Chemico-biological interactions, 2016, May-25, Volume: 252 Topics: Acrylic Resins; Animals; Calcium Oxalate; Ethylene Glycol; Female; Hyperoxaluria; Kidney; Liver; Mal	2016
The protective effects of an herbal agent tutukon on ethylene glycol and zinc disk induced urolithiasis model in a rat model. Urolithiasis, 2016, Volume: 44, Issue:6 Topics: Animals; Disease Models, Animal; Ethylene Glycol; Female; Phytotherapy; Plant Extracts; Rats; Rats,	2016
Regulation of urinary crystal inhibiting proteins and inflammatory genes by lemon peel extract and formulated citrus bioflavonoids on ethylene glycol induced urolithic rats. Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association, 2016, Volume: 94 Topics: Animals; Citrus; Ethylene Glycol; Flavonoids; Inflammation; Kidney; Male; Plant Extracts; Proteinuri	2016
Chenopodium album Linn. leaves prevent ethylene glycol-induced urolithiasis in rats. Journal of ethnopharmacology, 2017, Jan-04, Volume: 195 Topics: Animals; Biomarkers; Chenopodium album; Chromatography, High Pressure Liquid; Crystallization; Disea	2017
Alteration in Oxidative/nitrosative imbalance, histochemical expression of osteopontin and antiurolithiatic efficacy of Xanthium strumarium (L.) in ethylene glycol induced urolithiasis. Biomedicine & pharmacotherapy = Biomedecine & pharmacotherapie, 2016, Volume: 84 Topics: Animals; Ethylene Glycol; Male; Nitrosation; Osteopontin; Oxidative Stress; Plant Extracts; Rats; Ra	2016
Hyperoxaluria is reduced and nephrocalcinosis prevented with an oxalate-degrading enzyme in mice with hyperoxaluria. American journal of nephrology, 2009, Volume: 29, Issue:2 Topics: Administration, Oral; Amino Acid Transport Systems; Animals; Carboxy-Lyases; Chemistry, Pharmaceutic	2009
Antiurolithic effect of lupeol and lupeol linoleate in experimental hyperoxaluria. Journal of natural products, 2008, Volume: 71, Issue:9 Topics: Administration, Oral; Animals; Disease Models, Animal; Ethylene Glycol; Hyperoxaluria; Kidney Calcul	2008
Protective effect of the hydro-alcoholic extract of Rubia cordifolia roots against ethylene glycol induced urolithiasis in rats. Food and chemical toxicology : an international journal published for the British Industrial Biological Research Association, 2010, Volume: 48, Issue:4 Topics: Animals; Antioxidants; Calcium; Disease Models, Animal; Ethanol; Ethylene Glycol; Hyperoxaluria; Kid	2010
Pyrrolidine dithiocarbamate treatment prevents ethylene glycol-induced urolithiasis through inhibition of NF-kappaB and p38-MAPK signaling pathways in rat kidney. Archivio italiano di urologia, andrologia : organo ufficiale [di] Societa italiana di ecografia urologica e nefrologica, 2010, Volume: 82, Issue:2 Topics: Animals; Antioxidants; Ethylene Glycol; Male; NF-kappa B; p38 Mitogen-Activated Protein Kinases; Pyr	2010
Phenotypic correction of a mouse model for primary hyperoxaluria with adeno-associated virus gene transfer. Molecular therapy : the journal of the American Society of Gene Therapy, 2011, Volume: 19, Issue:5 Topics: Animals; Blotting, Western; Capsid Proteins; Dependovirus; Disease Models, Animal; Ethylene Glycol;	2011
Antiurolithiatic activity of Pinus eldarica medw: fruits aqueous extract in rats. Urology journal, 2010,Fall, Volume: 7, Issue:4 Topics: Animals; Calcium; Ethylene Glycol; Female; Fruit; Kidney Tubules; Male; Phytotherapy; Pinaceae; Plan	2010
Control of urinary risk factors of stone formation by Salvadora persica in experimental hyperoxaluria. Methods and findings in experimental and clinical pharmacology, 2010, Volume: 32, Issue:9 Topics: Animals; Creatinine; Disease Models, Animal; Ethylene Glycol; Female; Kidney Calculi; Male; Mice; Ox	2010
Ethylene glycol induces calcium oxalate crystal deposition in Malpighian tubules: a Drosophila model for nephrolithiasis/urolithiasis. Kidney international, 2011, Volume: 80, Issue:4 Topics: Aging; Animals; Calcium Oxalate; Crystallization; Disease Models, Animal; Drosophila melanogaster; E	2011
Drosophila: a fruitful model for calcium oxalate nephrolithiasis? Kidney international, 2011, Volume: 80, Issue:4 Topics: Animals; Calcium Oxalate; Drosophila melanogaster; Ethylene Glycol; Female; Male; Malpighian Tubules	2011
Inhibition of calcium oxalate crystal deposition on kidneys of urolithiatic rats by Hibiscus sabdariffa L. extract. Urological research, 2012, Volume: 40, Issue:3 Topics: Animals; Calcium Oxalate; Ethylene Glycol; Hibiscus; Kidney; Male; Plant Extracts; Rats; Urolithiasi	2012
Anti-urolithiatic effects of Punica granatum in male rats. Journal of ethnopharmacology, 2012, Mar-27, Volume: 140, Issue:2 Topics: Animals; Calcium; Calcium Oxalate; Creatinine; Ethylene Glycol; Kidney; Kidney Calculi; Lythraceae;	2012
Curative treatment with extracts of Bombax ceiba fruit reduces risk of calcium oxalate urolithiasis in rats. Pharmaceutical biology, 2012, Volume: 50, Issue:3 Topics: Animals; Bombax; Calcium; Calcium Oxalate; Disease Models, Animal; Ethylene Glycol; Female; Fruit; H	2012
Protective effect of Flos carthami extract against ethylene glycol-induced urolithiasis in rats. Urological research, 2012, Volume: 40, Issue:6 Topics: Animals; Carthamus tinctorius; Ethylene Glycol; Male; Phytotherapy; Plant Extracts; Rats; Rats, Spra	2012
Hypothyroidism maintained reactive oxygen species-steady state in the kidney of rats intoxicated with ethylene glycol: effect related to an increase in the glutathione that maintains the redox environment. Toxicology and industrial health, 2013, Volume: 29, Issue:6 Topics: Analysis of Variance; Animals; Antioxidants; Ethylene Glycol; Glutathione; Histocytochemistry; Hypot	2013
Antiurolithiatic activity of saponin rich fraction from the fruits of Solanum xanthocarpum Schrad. & Wendl. (Solanaceae) against ethylene glycol induced urolithiasis in rats. Journal of ethnopharmacology, 2012, Oct-31, Volume: 144, Issue:1 Topics: Animals; Calcium Oxalate; Crystallization; Disease Models, Animal; Ethylene Glycol; Female; Fruit; M	2012
The biochemical and histopathological investigation of amlodipine in ethylene glycol-induced urolithiasis rat model. Renal failure, 2013, Volume: 35, Issue:1 Topics: Amlodipine; Ammonium Chloride; Animals; Calcium Channel Blockers; Calcium Oxalate; Disease Models, A	2013
Efficacy of Adiantum capillus veneris Linn in chemically induced urolithiasis in rats. Journal of ethnopharmacology, 2013, Mar-07, Volume: 146, Issue:1 Topics: Adiantum; Ammonium Chloride; Animals; Ethylene Glycol; Kidney; Male; Phytotherapy; Plant Extracts; P	2013
Effect of Moringa oleifera Lam. root-wood on ethylene glycol induced urolithiasis in rats. Journal of ethnopharmacology, 2006, Apr-21, Volume: 105, Issue:1-2 Topics: Animals; Ethylene Glycol; Female; Hyperoxaluria; Male; Moringa oleifera; Plant Roots; Rats; Rats, Wi	2006

ethylene glycol and Urinary Lithiasis

Research Excerpts

Research

Studies (42)

Authors

Other Studies

Authors	Studies
Dighade, R	1
Ingole, R	1
Ingle, P	1
Gade, A	1
Hajare, S	1
Ingawale, M	1
Jamshed, A	1
Jabeen, Q	1
Liu, Y	1
Jin, X	1
Ma, Y	1
Sun, Q	1
Li, H	1
Wang, K	1
Rashid, S	1
Sameti, M	1
Alqarni, MH	1
Abdel Bar, FM	1
Bervinova, AV	1
Borozdina, NA	1
Palikov, VA	1
Palikova, YA	1
Mikhailov, ES	1
Kravchenko, IN	1
Rykov, VA	1
Ponomareva, TI	1
Semushina, SG	1
Pakhomova, IA	1
Dyachenko, IA	1
Murashev, AN	1
Yuan, S	1
Ibrahim, IAA	1
Ren, R	1
Cao, Y	1
Duan, B	1
Gao, X	1
Wang, E	1
Dong, Z	1
Saleem, U	1
Ahmad, N	1
Shah, MA	1
Anwar, F	1
Ahmad, B	1
Marhoume, FZ	1
Aboufatima, R	1
Zaid, Y	1
Limami, Y	1
Duval, RE	1
Laadraoui, J	1
Belbachir, A	1
Chait, A	1
Bagri, A	1
Azimi, A	1
Eidi, A	1
Mortazavi, P	1
Rohani, AH	1
Alenzi, M	1
Rahiman, S	1
Tantry, BA	1
Youn, SH	1
Kwon, JH	1
Yin, J	1
Tam, LT	1
Ahn, HS	1
Myung, SC	1
Lee, MW	1
Gaddam, M	1
Velagapudi, RK	1
Abu Sitta, E	1
Kanzy, A	1
Zharikov, AY	1
Kiselev, VI	1
Saldan, IP	1
Zharikova, GV	1
Lepilov, AV	1
Bobrov, IP	1
Nakazawa, Y	1
Inoue, S	1
Nakamura, Y	1
Iida, Y	1
Ishigaki, Y	1
Miyazawa, K	1
Kandhare, AD	1
Patil, MV	1
Bodhankar, SL	1
Xiang, S	1
Zhou, J	1
Li, J	1
Wang, Q	1
Zhang, Q	1
Zhao, Z	1
Zhang, L	1
Chen, Z	1
Wang, S	1
Sridharan, B	3
Michael, ST	1
Arya, R	1
Mohana Roopan, S	1
Ganesh, RN	3
Viswanathan, P	3
Prabhu, VV	1
Sathyamurthy, D	1
Ramasamy, A	1
Das, S	1
Anuradha, M	1
Pachiappan, S	1
Yuruk, E	1
Tuken, M	1
Sahin, C	1
Kaptanagasi, AO	1
Basak, K	1
Aykan, S	1
Muslumanoglu, AY	1
Sarica, K	1
Mehra, Y	1
Sikarwar, I	1
Dey, YN	1
Wanjari, MM	1
Sharma, A	1
Gaidhani, SN	1
Jadhav, AD	1
Panigrahi, PN	1
Dey, S	1
Sahoo, M	1
Choudhary, SS	1
Mahajan, S	1
Grujic, D	1
Salido, EC	1
Shenoy, BC	1
Langman, CB	1
McGrath, ME	1
Patel, RJ	1
Rashid, A	1
Mandapati, S	1
Jung, CW	1
Margolin, AL	1
Sudhahar, V	1
Veena, CK	1
Varalakshmi, P	1
Divakar, K	1
Pawar, AT	1
Chandrasekhar, SB	1
Dighe, SB	1
Divakar, G	1
Ilbey, YO	1
Ozbek, E	1
Simşek, A	1
Cekmen, M	1
Somay, A	1
Tasci, AI	1
Salido, E	1
Rodriguez-Pena, M	1
Santana, A	1
Beattie, SG	1
Petry, H	1
Torres, A	1
Hosseinzadeh, H	1
Khooei, AR	1
Khashayarmanesh, Z	1
Motamed-Shariaty, V	1
Geetha, K	1
Manavalan, R	1
Venkappayya, D	1
Chen, YH	2
Liu, HP	1
Chen, HY	2
Tsai, FJ	2
Chang, CH	1
Lee, YJ	2
Lin, WY	1
Chen, WC	2
Knauf, F	1
Preisig, PA	1
Laikangbam, R	1
Damayanti Devi, M	1
Rathod, NR	1
Biswas, D	1
Chitme, HR	1
Ratna, S	1
Muchandi, IS	1
Chandra, R	1
Gadge, NB	2
Jalalpure, SS	1
Lin, WC	1
Lai, MT	1
Ho, CY	1
Man, KM	1
Shen, JL	1
Estévez-Carmona, MM	1
Meléndez-Camargo, E	1
Ortiz-Butron, R	1
Pineda-Reynoso, M	1
Franco-Colin, M	1
Cano-Europa, E	1
Patel, PK	1
Patel, MA	1
Vyas, BA	1
Shah, DR	1
Gandhi, TR	1
Albayrak, A	1
Bayir, Y	1
Halici, Z	1
Karakus, E	1
Oral, A	1
Keles, MS	1
Colak, S	1
Zipak, T	1
Dorman, E	1
Uludag, K	1
Yayla, N	1
Gulcan, E	1
Ahmed, A	1
Wadud, A	1
Jahan, N	1
Bilal, A	1
Hajera, S	1
Karadi, RV	1
Alagawadi, KR	1
Savadi, RV	1