Compounds > chloroquine
Page last updated: 2024-10-24

chloroquine and Alloxan Diabetes

chloroquine has been researched along with Alloxan Diabetes in 16 studies

Chloroquine: The prototypical antimalarial agent with a mechanism that is not well understood. It has also been used to treat rheumatoid arthritis, systemic lupus erythematosus, and in the systemic therapy of amebic liver abscesses.
chloroquine : An aminoquinoline that is quinoline which is substituted at position 4 by a [5-(diethylamino)pentan-2-yl]amino group at at position 7 by chlorine. It is used for the treatment of malaria, hepatic amoebiasis, lupus erythematosus, light-sensitive skin eruptions, and rheumatoid arthritis.

Research Excerpts

ExcerptRelevanceReference
"The proliferation of aortic smooth muscle cells (ASMC) of Wistar rats, impaired by risk factors such as arterial hypertension, diabetes mellitus, atherogenic diet and staphylolysin injections and of normal Wistar rats treated with antirheumatic drugs such as prednisolone and acetylsalicylic acid was investigated."3.66Effect of risk factors and antirheumatic drugs on the proliferation of aortic wall cells. ( Hauss, WH; Mey, J; Schulte, H, 1979)
" In conclusion, the CQ dosage and regimen used to treat COVID-19 induced adverse effects in diabetic rats, suggesting the need to reevaluate the effective dose of CQ in humans."1.72Safety considerations of chloroquine in the treatment of patients with diabetes and COVID-19. ( Gao, X; Guo, D; Ji, H; Jiang, S; Jing, X; Peng, L; Qiu, Y; Wang, J; Wu, W; Zheng, Y, 2022)
" The effect of chronic administration of chloroquine on glucose homoeostasis was investigated in normal and diabetic rats by determining fasting plasma glucose, glycated plasma protein, plasma immunoreactive insulin, plasma protein and glycated haemoglobin."1.28Attenuation of streptozotocin-induced diabetes in rats by pretreatment with chloroquine. ( Asamoah, KA; Furman, BL; Robb, DA, 1989)
"Chloroquine was found to markedly decrease insulin degradation with concomitant increase in net insulin uptake by isolated myocytes."1.27Energy dependent insulin binding, internalization and degradation in isolated cardiac myocytes from normal and diabetic rats. ( Bowdon, HR; Frangakis, CJ; Im, JH; Kim, HD; Meezan, E; Puckett, SW; Rackley, CE; Rogers, WJ, 1986)
"Pretreatment with chloroquine resulted in a smaller increase in intracellular [125I]monoiodoinsulin in cells isolated from streptozotocin injected rats than for control cells."1.27Insulin binding and degradation in isolated hepatocytes from streptozotocin injected rats. ( Bonser, AM; Garcia-Webb, P, 1985)

Research

Studies (16)

TimeframeStudies, this research(%)All Research%
pre-19906 (37.50)18.7374
1990's1 (6.25)18.2507
2000's1 (6.25)29.6817
2010's2 (12.50)24.3611
2020's6 (37.50)2.80

Authors

AuthorsStudies
Gao, X1
Jing, X1
Wang, J5
Zheng, Y2
Qiu, Y1
Ji, H2
Peng, L1
Jiang, S1
Wu, W2
Guo, D1
Tuohetaerbaike, B1
Zhang, Y8
Tian, Y1
Zhang, NN1
Kang, J2
Mao, X1
Li, X11
Liu, X2
Zhao, X1
Cheng, R1
Huang, Y2
Nguépy Keubo, FR1
Mboua, PC1
Djifack Tadongfack, T1
Fokouong Tchoffo, E1
Tasson Tatang, C1
Ide Zeuna, J1
Noupoue, EM1
Tsoplifack, CB1
Folefack, GO1
Kettani, M1
Bandelier, P1
Huo, J1
Li, H4
Yu, D1
Arulsamy, N1
AlAbbad, S1
Sardot, T1
Lekashvili, O1
Decato, D1
Lelj, F1
Alexander Ross, JB1
Rosenberg, E1
Nazir, H1
Muthuswamy, N1
Louis, C1
Jose, S1
Prakash, J1
Buan, MEM1
Flox, C1
Chavan, S1
Shi, X1
Kauranen, P1
Kallio, T1
Maia, G1
Tammeveski, K1
Lymperopoulos, N1
Carcadea, E1
Veziroglu, E1
Iranzo, A1
M Kannan, A1
Arunamata, A1
Tacy, TA1
Kache, S1
Mainwaring, RD1
Ma, M1
Maeda, K1
Punn, R1
Noguchi, S1
Hahn, S3
Iwasa, Y3
Ling, J2
Voccio, JP2
Kim, Y3
Song, J3
Bascuñán, J2
Chu, Y1
Tomita, M1
Cazorla, M1
Herrera, E1
Palomeque, E1
Saud, N1
Hoplock, LB1
Lobchuk, MM1
Lemoine, J1
Henson, MA1
Unsihuay, D1
Qiu, J1
Swaroop, S1
Nagornov, KO1
Kozhinov, AN1
Tsybin, YO1
Kuang, S1
Laskin, J1
Zin, NNINM1
Mohamad, MN1
Roslan, K1
Abdul Wafi, S1
Abdul Moin, NI1
Alias, A1
Zakaria, Y1
Abu-Bakar, N1
Naveed, A1
Jilani, K1
Siddique, AB1
Akbar, M1
Riaz, M1
Mushtaq, Z1
Sikandar, M1
Ilyas, S1
Bibi, I1
Asghar, A1
Rasool, G1
Irfan, M1
Li, XY1
Zhao, S1
Fan, XH1
Chen, KP1
Hua, W1
Liu, ZM1
Xue, XD1
Zhou, B1
Zhang, S2
Xing, YL1
Chen, MA1
Sun, Y1
Neradilek, MB1
Wu, XT1
Zhang, D2
Huang, W1
Cui, Y1
Yang, QQ1
Li, HW1
Zhao, XQ1
Hossein Rashidi, B1
Tarafdari, A1
Ghazimirsaeed, ST1
Shahrokh Tehraninezhad, E1
Keikha, F1
Eslami, B1
Ghazimirsaeed, SM1
Jafarabadi, M1
Silvani, Y1
Lovita, AND1
Maharani, A1
Wiyasa, IWA1
Sujuti, H1
Ratnawati, R1
Raras, TYM1
Lemin, AS1
Rahman, MM1
Pangarah, CA1
Kiyu, A1
Zeng, C2
Du, H1
Lin, D1
Jalan, D1
Rubagumya, F1
Hopman, WM1
Vanderpuye, V1
Lopes, G1
Seruga, B1
Booth, CM1
Berry, S1
Hammad, N1
Sajo, EA1
Okunade, KS1
Olorunfemi, G1
Rabiu, KA1
Anorlu, RI1
Xu, C2
Xiang, Y1
Xu, X1
Zhou, L2
Dong, X1
Tang, S1
Gao, XC1
Wei, CH1
Zhang, RG1
Cai, Q1
He, Y1
Tong, F1
Dong, JH1
Wu, G1
Dong, XR1
Tang, X1
Tao, F1
Xiang, W1
Zhao, Y2
Jin, L1
Tao, H1
Lei, Y1
Gan, H1
Chen, Y3
Chen, L3
Shan, A1
Zhao, H2
Wu, M2
Ma, Q1
Zhang, E1
Zhang, J3
Li, Y5
Xue, F1
Deng, L1
Liu, L2
Yan, Z2
Wang, Y2
Meng, J1
Chen, G2
Anastassiadou, M1
Bernasconi, G1
Brancato, A1
Carrasco Cabrera, L1
Greco, L1
Jarrah, S1
Kazocina, A1
Leuschner, R1
Magrans, JO1
Miron, I1
Nave, S1
Pedersen, R1
Reich, H1
Rojas, A1
Sacchi, A1
Santos, M1
Theobald, A1
Vagenende, B1
Verani, A1
Du, L1
Ren, Y1
Li, J7
Li, P1
Jiao, Q1
Meng, P1
Wang, F2
Wang, YS1
Wang, C3
Zhou, X2
Wang, W1
Wang, S2
Hou, J1
Zhang, A1
Lv, B1
Gao, C1
Pang, D1
Lu, K1
Ahmad, NH1
Wang, L1
Zhu, J2
Zhang, L2
Zhuang, T1
Tu, J1
Zhao, Z1
Qu, Y1
Yao, H1
Wang, X5
Lee, DF1
Shen, J3
Wen, L1
Huang, G2
Xie, X1
Zhao, Q1
Hu, W1
Wu, X1
Lu, J2
Li, M1
Li, W2
Du, F1
Yang, X2
Xu, Z1
Wan, L1
Wen, Q1
Cho, CH1
Zou, C1
Xiao, Z1
Liao, J1
Su, X1
Bi, Z1
Su, Q1
Huang, H1
Wei, Y2
Gao, Y2
Na, KJ1
Choi, H1
Oh, HR1
Kim, YH1
Lee, SB1
Jung, YJ1
Koh, J1
Park, S1
Lee, HJ1
Jeon, YK1
Chung, DH1
Paeng, JC1
Park, IK1
Kang, CH1
Cheon, GJ1
Kang, KW1
Lee, DS1
Kim, YT1
Pajuelo-Lozano, N1
Alcalá, S1
Sainz, B1
Perona, R1
Sanchez-Perez, I1
Logotheti, S1
Marquardt, S1
Gupta, SK1
Richter, C1
Edelhäuser, BAH1
Engelmann, D1
Brenmoehl, J1
Söhnchen, C1
Murr, N1
Alpers, M1
Singh, KP1
Wolkenhauer, O1
Heckl, D1
Spitschak, A1
Pützer, BM1
Liao, Y1
Cheng, J1
Kong, X1
Li, S1
Zhang, M4
Zhang, H1
Yang, T2
Dong, Y1
Xu, Y1
Yuan, Z1
Cao, J1
Luo, Z1
Mei, Z1
Yao, Y1
Liu, Z2
Liang, C1
Yang, H1
Song, Y1
Yu, K1
Zhu, C1
Huang, Z1
Qian, J1
Ge, J1
Hu, J2
Wang, H2
Liu, Y4
Mi, Y1
Kong, H1
Xi, D1
Yan, W1
Luo, X1
Ning, Q1
Chang, X2
Zhang, T2
Wang, Q2
Rathore, MG1
Reddy, K1
Chen, H1
Shin, SH1
Ma, WY1
Bode, AM1
Dong, Z1
Mu, W1
Liu, C3
Gao, F1
Qi, Y1
Lu, H1
Zhang, X4
Cai, X1
Ji, RY1
Hou, Y3
Tian, J2
Shi, Y1
Ying, S1
Tan, M1
Feng, G1
Kuang, Y1
Chen, D1
Wu, D3
Zhu, ZQ1
Tang, HX1
Shi, ZE1
Liu, Q1
Qi, J2
Mu, J1
Cong, Z1
Chen, S2
Fu, D1
Li, Z2
Celestrin, CP1
Rocha, GZ1
Stein, AM1
Guadagnini, D1
Tadelle, RM1
Saad, MJA1
Oliveira, AG1
Bianconi, V1
Bronzo, P1
Banach, M1
Sahebkar, A1
Mannarino, MR1
Pirro, M1
Patsourakos, NG1
Kouvari, M1
Kotidis, A1
Kalantzi, KI1
Tsoumani, ME1
Anastasiadis, F1
Andronikos, P1
Aslanidou, T1
Efraimidis, P1
Georgiopoulos, A1
Gerakiou, K1
Grigoriadou-Skouta, E1
Grigoropoulos, P1
Hatzopoulos, D1
Kartalis, A1
Lyras, A1
Markatos, G1
Mikrogeorgiou, A1
Myroforou, I1
Orkopoulos, A1
Pavlidis, P1
Petras, C1
Riga, M1
Skouloudi, M1
Smyrnioudis, N1
Thomaidis, K1
Tsikouri, GE1
Tsikouris, EI1
Zisimos, K1
Vavoulis, P1
Vitali, MG1
Vitsas, G1
Vogiatzidis, C1
Chantanis, S1
Fousas, S1
Panagiotakos, DB1
Tselepis, AD1
Jungen, C1
Alken, FA1
Eickholt, C1
Scherschel, K1
Kuklik, P1
Klatt, N1
Schwarzl, J1
Moser, J1
Jularic, M1
Akbulak, RO1
Schaeffer, B1
Willems, S1
Meyer, C1
Nowak, JK1
Szczepanik, M1
Trypuć, M1
Pogorzelski, A1
Bobkowski, W1
Grytczuk, M1
Minarowska, A1
Wójciak, R1
Walkowiak, J1
Lu, Y1
Xi, J1
Li, C1
Chen, W2
Hu, X1
Zhang, F1
Wei, H1
Wang, Z1
Gurzu, S1
Jung, I1
Sugimura, H2
Stefan-van Staden, RI1
Yamada, H1
Natsume, H1
Iwashita, Y1
Szodorai, R1
Szederjesi, J1
Yari, D1
Ehsanbakhsh, Z1
Validad, MH1
Langroudi, FH1
Esfandiari, H1
Prager, A1
Hassanpour, K1
Kurup, SP1
Mets-Halgrimson, R1
Yoon, H1
Zeid, JL1
Mets, MB1
Rahmani, B1
Araujo-Castillo, RV1
Culquichicón, C1
Solis Condor, R1
Efendi, F1
Sebayang, SK1
Astutik, E1
Hadisuyatmana, S1
Has, EMM1
Kuswanto, H1
Foroutan, T1
Ahmadi, F1
Moayer, F1
Khalvati, S1
Zhang, Q2
Lyu, Y1
Huang, J1
Yu, N1
Wen, Z1
Hou, H1
Zhao, T1
Gupta, A1
Khosla, N1
Govindasamy, V1
Saini, A1
Annapurna, K1
Dhakate, SR1
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Chandgude, AL1
Dömling, A1
Harnett, J1
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Brown, D1
Cramer, H1
Pinder, TA1
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Anheyer, D1
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Gonzalez, D1
Valdes, C1
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Padilla, V1
Alcoutlabi, M1
Parsons, J1
Núñez, K1
Hamed, M1
Fort, D1
Bruce, D1
Thevenot, P1
Cohen, A1
Weber, P1
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Gonçalves, H1
Perez-Padilla, R1
Jarvis, D1
de Oliveira, PD1
Wehrmeister, FC1
Mir, S1
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Waseem, R1
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Chung, F1
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Ploutz-Snyder, LL1
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Clinical Trials (1)

Trial Overview

TrialPhaseEnrollmentStudy TypeStart DateStatus
Hydroxychloroquine to Improve Insulin Sensitivity in Rheumatoid Arthritis[NCT01132118]Phase 330 participants (Actual)Interventional2010-06-30Completed
[information is prepared from clinicaltrials.gov, extracted Sep-2024]

Trial Outcomes

HDL Cholesterol

mg/dL (NCT01132118)
Timeframe: Baseline and Week 8

,
Interventionmg/dL (Mean)
BaselinePeriodChange
Hydroxychloroquine58.159.41.3
Placebo58.160.32.2

HOMA-B

HOMA-B = (360 x Insulin)/(Glucose - 63) (NCT01132118)
Timeframe: Baseline and Week 8

,
Intervention(mIU x dL)/(L x mg) (Mean)
BaselinePeriodChange
Hydroxychloroquine116.5110.8-5.8
Placebo116.5109.7-6.8

HOMA-IR

"We will examine the effect of HCQ on HOMA-IR during the active treatment phase compared with placebo phase.~HOMA-IR = (Glucose x insulin)/405" (NCT01132118)
Timeframe: Baseline and Week 8

,
Intervention(mg x mIU)/(dL*L) (Mean)
BaselinePeriodChange
Hydroxychloroquine2.01.7-0.3
Placebo2.01.6-0.42

Insulin Sensitivity Index

"We will examine the effect of HCQ on the Matsuda Insulin Sensitivity Index (ISI) during the active treatment phase compared with placebo phase.~ISI is based on insulin and glucose levels in a fasting state during an oral glucose tolerance test (OGTT) and is calculated as follows:~ISI (Matsuda) = 10000/√ G0 X I0 X Gmean X Imean~G0 - fasting plasma glucose (mg/dL) I0 - fasting plasma insulin (mIU/L) Gmean - mean plasma glucose during OGTT (mg/dL) Imean - mean plasma insulin during OGTT (mIU/L)" (NCT01132118)
Timeframe: Baseline and Week 8

,
Intervention(dL x L)/(mg x mIU) (Mean)
BaselinePeriod ValueChange
Hydroxychloroquine7.78.10.4
Placebo7.77.80.14

LDL Cholesterol

mg/dL (NCT01132118)
Timeframe: Baseline and Week 8

,
Interventionmg/dL (Mean)
BaselinePeriodChange
Hydroxychloroquine114.1101.7-12.4
Placebo114.1109.9-4.2

Total Cholesterol

mg/dL (NCT01132118)
Timeframe: Baseline and Week 8

,
Interventionmg/dL (Mean)
BaselinePeriodChange
Hydroxychloroquine192.4179.7-12.7
Placebo192.4189.4-3.0

Triglycerides

mg/dL (NCT01132118)
Timeframe: Baseline and Week 8

,
Interventionmg/dL (Mean)
BaselinePeriodChange
Hydroxychloroquine100.692.4-8.2
Placebo100.695.6-5.0

Reviews

1 review available for chloroquine and Alloxan Diabetes

ArticleYear
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors.
    Annales medico-psychologiques, 2021, Volume: 179, Issue:2

    Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli

2021

Trials

1 trial available for chloroquine and Alloxan Diabetes

ArticleYear
Psychological distress among health care professionals of the three COVID-19 most affected Regions in Cameroon: Prevalence and associated factors.
    Annales medico-psychologiques, 2021, Volume: 179, Issue:2

    Topics: 3' Untranslated Regions; 5'-Nucleotidase; A549 Cells; Accidental Falls; Acetylcholinesterase; Acryli

2021

Other Studies

15 other studies available for chloroquine and Alloxan Diabetes

ArticleYear
Safety considerations of chloroquine in the treatment of patients with diabetes and COVID-19.
    Chemico-biological interactions, 2022, Jul-01, Volume: 361

    Topics: Animals; Chloroquine; COVID-19 Drug Treatment; Diabetes Mellitus, Experimental; Diabetes Mellitus, T

2022
Pancreas protective effects of Urolithin A on type 2 diabetic mice induced by high fat and streptozotocin via regulating autophagy and AKT/mTOR signaling pathway.
    Journal of ethnopharmacology, 2020, Mar-25, Volume: 250

    Topics: Animals; Autophagy; Blood Glucose; Chloroquine; Coumarins; Diabetes Mellitus, Experimental; Diabetes

2020
Autophagy attenuates high glucose-induced oxidative injury to lens epithelial cells.
    Bioscience reports, 2020, 04-30, Volume: 40, Issue:4

    Topics: Animals; Autophagy; Cataract; Cells, Cultured; Chloroquine; Culture Media; Diabetes Mellitus, Experi

2020
Beneficial Effect of Chloroquine and Amodiaquine on Type 1 Diabetic Tubulopathy by Attenuating Mitochondrial Nox4 and Endoplasmic Reticulum Stress.
    Journal of Korean medical science, 2020, Sep-14, Volume: 35, Issue:36

    Topics: Amodiaquine; Animals; Apoptosis; Cells, Cultured; Chloroquine; Diabetes Mellitus, Experimental; Diab

2020
Urolithin A, a pomegranate metabolite, protects pancreatic β cells from apoptosis by activating autophagy.
    Journal of ethnopharmacology, 2021, May-23, Volume: 272

    Topics: Animals; Apoptosis; Autophagy; Cell Line; Cell Survival; Chloroquine; Coumarins; Diabetes Mellitus,

2021
Chloroquine and amodiaquine enhance AMPK phosphorylation and improve mitochondrial fragmentation in diabetic tubulopathy.
    Scientific reports, 2018, 06-08, Volume: 8, Issue:1

    Topics: Amodiaquine; AMP-Activated Protein Kinases; Animals; Antimalarials; Cell Line; Chloroquine; Diabetes

2018
Chloroquine improves left ventricle diastolic function in streptozotocin-induced diabetic mice.
    Drug design, development and therapy, 2016, Volume: 10

    Topics: Animals; Chloroquine; Diabetes Mellitus, Experimental; Diabetic Cardiomyopathies; Heart Ventricles;

2016
Vascular reactivity in diabetes mellitus: possible role of insulin on the endothelial cell.
    British journal of pharmacology, 1984, Volume: 83, Issue:3

    Topics: Adrenalectomy; Animals; Arachidonic Acid; Arachidonic Acids; Blood Pressure; Bradykinin; Capillary P

1984
The inhibition of gluconeogenesis by chloroquine contributes to its hypoglycaemic action.
    European journal of pharmacology, 2001, Oct-12, Volume: 428, Issue:3

    Topics: Alloxan; Animals; Chloroquine; Diabetes Mellitus, Experimental; Dose-Response Relationship, Drug; Gl

2001
Effect of risk factors and antirheumatic drugs on the proliferation of aortic wall cells.
    Atherosclerosis, 1979, Volume: 34, Issue:2

    Topics: Animals; Aorta; Arteriosclerosis; Aspirin; Cell Division; Cells, Cultured; Chloroquine; Diabetes Mel

1979
Chronic chloroquine treatment enhances insulin release in rats.
    Diabetes research and clinical practice, 1990, Volume: 9, Issue:3

    Topics: Animals; Cell Separation; Chloroquine; Diabetes Mellitus, Experimental; Dose-Response Relationship,

1990
Attenuation of streptozotocin-induced diabetes in rats by pretreatment with chloroquine.
    Clinical science (London, England : 1979), 1989, Volume: 76, Issue:2

    Topics: Animals; Blood Glucose; Blood Proteins; Body Weight; Chloroquine; Diabetes Mellitus, Experimental; F

1989
Energy dependent insulin binding, internalization and degradation in isolated cardiac myocytes from normal and diabetic rats.
    Journal of molecular and cellular cardiology, 1986, Volume: 18, Issue:2

    Topics: Adenosine Triphosphate; Animals; Binding Sites; Cell Separation; Chloroquine; Diabetes Mellitus, Exp

1986
Insulin binding and degradation in isolated hepatocytes from streptozotocin injected rats.
    Biochemical and biophysical research communications, 1985, Apr-30, Volume: 128, Issue:2

    Topics: Ammonium Chloride; Animals; Chloroquine; Diabetes Mellitus, Experimental; In Vitro Techniques; Insul

1985
The effects of diabetes and insulin on glycoprotein metabolism by rat liver.
    Journal of hepatology, 1985, Volume: 1, Issue:6

    Topics: Animals; Biological Transport, Active; Chloroquine; Diabetes Mellitus, Experimental; Glycoproteins;

1985