Dr. Anand Kar, M.Sc., Ph.D. from Banaras Hindu University, India; is a superannuated Professor from School of Life Sciences, Devi Ahilya University (DAVV.), Indore, India where he served for more than 37 years in different capacities including Professor, HoD, Dean, Chairman Board of studies and Executive Council member. After retirement he also served as Prof. and HoD in Forensic Science, Medi-Caps University, Indore, India. In his early career, he worked as Research Scientist in HNB Garhwal University and as Senior Research Officer, Environmental Planning & Coordination Organization (EPCO), Bhopal, India. He was also member of Committee for Fostering Research, and for Institutional animal Ethical Comm(IAEC) of DA University, India. In addition, he has acted as Chairman or as subject expert in different selection committees and also as judge in different events.

He has been awarded with prestigious Common Wealth Academic Fellowship, UK; U.G.C. Career Research Award; Young Scientist award from ISCA; Best Science Teacher-Researcher award of the University by MPCST, India. He had been felicitated with highest citation of research papers in DAVV, Indore; for his outstanding contribution in Research by Zoological Soc. of India and Life time achievement Award by ESW, India. He has published 176 full length quality research papers, mostly in international journals of repute. In addition, 06 chapters in books and 4 review papers. He had 06 major research projects in hand & has supervised 19 Ph.D. scholars (all most all are NET/GATE qualified, now well settled). His Total research paper Citations is 7402, h-index-46, & i10 index-107 as on 18.4.2026 (https://scholar.google.com/citations?hl=en&user=21nEnu0AAAAJ).He is Editor of 7 different International Journals and 1 Indian journal. In, “Thyroid letter” & “Journal of Stroke Research and Rehabilitation “he is the only editor form India. He also acted as reviewer of papers in a good number of international and national journals.  He has delivered invited talks in many national and some international symposia / conferences including a plenary talk in South Korea & has also chaired many scientific sessions. Dr. Kar is also a regular resource person for training college and university professors in some HRDC/ASC of India. His primary focus of research is on “Endocrinology & Phyto-medicine”, particularly on Thyroid dysfunctions, Diabetes mellitus, Heart / Hypertension & Breast cancer using small laboratory animal models.

He is currently involved in Research councelling, Editing, Proof reading, Research article writing, research planning and delivering popular talks.

• Endocrinology & Phyto-medicine
• Thyroid Dysfunctions
• Diabetes Mellitus
• Heart/Hypertension & Breast Cancer

• Kar, A., Panda, S., Singh, S. et al. (2026). Augmentation of thyroid function in hypothyroid rats by eugenol is mediated through upregulation of thyroid stimulating hormone receptor. J Food Sci Technol. https://doi.org/10.1007/s13197-026-06646-3
• Surbhi Chourasiya S, Anand Kar and Versha Sharma (2025). Unveiling the intriguing potential of Bacopa monnieri extract in alleviating cypermethrin-induced hypothyroidism and oxidative stress in female mice.Toxicological Research. 4;41(6):649-661,Springer Nature• (https://link.springer.com/article/10.1007/s43188-025-00309-9) IF-2.82
• Surbhi Chourasiya S, Versha Sharma and Anand Kar (2025). Elemental mapping of Bacopa monnieri via scanning microscopy with characterization of its extract and validation of its anti-oxidative potential. World journal of Pharmaceutical and Medical Research, 11(2), 182-190.
• Anand Kar and Sunanda Panda (2024). Phytochemicals: Promising Alternatives for Metabolic Regulation in Neurodegenerative Diseases. In “N. Agrawal (ed.), Altered Metabolism: A Major Contributor of Comorbidities in Neurodegenerative Diseases”, springernature.com. https://doi.org/10.1007/978-981-97-4288-2_15
• Kar A, Mahar D, Biswas S, Chakraborty D, Efferth T, Panda S. (2023). Phytochemical profiling of polyphenols and thyroid stimulatory activity of Ficus religiosa leaf extract in 6-propyl-thiouracil-induced hypothyroid rats. J Ethnopharmacol. doi: 10.1016 / j.jep.2023.116479. Epub 2023 Apr 14. PMID: 37062529. IF-5.19
• Mahar D and Kar A (2023). Antioxidant Properties, Total Phenolic and Flavonoid Content of Ethanolic Extract of Saraca asoca Leaf. Curr Trends Pharma Clinical Trials 6(2): 1-5. 180062
• Anand Kar, Sunanda Panda, Meenakshi Singh, Sagarika Biswas , 2022.Regulation of PTU-induced hypothyroidism in rats by caffeic acid primarily by activating thyrotropin receptors and by inhibiting oxidative stress. Phytomedicine Plus, 2, 100298. https://doi.org/10.1016/j.phyplu.2022.100298
• Sharma N, Kar A, Panda S, Yadav D.(2022). Co-administration of Pterocarpus marsupium Extract and Glibenclamide exhibits better effects in regulating hyperglycemia and associated changes in alloxan-induced diabetic mice. Curr Top Med Chem. doi: 10.2174/1568026623666221108125036.
• Panda S, Kar A, Singh M, Singh RK, Ganeshpurkar A (2021). Syringic acid, a novel thyroid hormone receptor-β agonist, ameliorates propylthiouracil-induced thyroid toxicity in rats J Biochem Mol Toxicol . e22814. doi: 10.1002/jbt.22814. IF- 3.642
• Dhingra N, Kar A , Sharma R (2021). Gallic Acid Analogues with Antibreast Cancer and Antioxidant Action: Synthesis and Pharmacological Assessment. Acta Pharmaceutica Hungarica. 91 (2), 53-66165. IF- 0.8
• Agrawal J , Kar A (2021) Long term food restriction and Diabecon administration ameliorates alloxan -induced hyperglycemia . Journal of Pharmacy and Pharmaceutical Sciences, 13(7), 59-62
• S Panda, R Sharma, A Khan, A Kar (2020). Ameliorative effect of Aloe gel against L-T4-induced hyperthyroidism via suppression of thyrotropin receptors, inflammation and oxidative stress. Molecular biology reports. 47, 2801-2810 IF-2.31 cit-3
• Sunhre L, Kar A, Panda S. (2020).Evaluation of antithyroid potential of Luffa acutangula peel extract and its chemical constituents as identified by HR-LC/MS. J Food Sci Technol. 57(8):2819-2827. doi: 10.1007/s13197-020-04313-9. IF-2.70
• Lata Sunhre, Anand Kar and Sunanda Panda (2020). Agnucastoside C, isolated from Moringa oleifera ameliorates thyrotoxicosis and liver abnormalities in female mice Clinical Phytoscience .6:42-49. https://doi.org/10.1186/s40816-020-00165-0. IF= 2.4
• Lata Sunhre, Anand Kar, Sunanda Panda (2020). Peel extract of Trichosanthes dioica has the potential to ameliorate T4‑induced thyrotoxicosis and hyperglycemia in mice. Advances in Traditional Medicine.1. 99-105. https://doi.org/10.1007/s13596-020-00424-y ,
• Panda S, Sikdar M, Biswas S, Sharma R and Kar A(2019). Allylpyrocatechol, Isolated From Betel Leaf Ameliorates Thyrotoxicosis in Rats by Altering Thyroid Peroxidase and Thyrotropin Receptors, Scientific-Reports (Nature.com) , Aug 22;9(1):12276. doi: 10.1038/s41598-019-48653-9. IF= 4.996
• Panda S, Sharma R and Kar A (2019). Chavibetol corrects thyrotoxicosis through alterations in thyroid peroxidase. Naunyn-Schmiedeberg's Archives of Pharmacology.392(5):541-550. doi: 10.1007/s00210-018-01606-x.IF-2,23
• Sunanda Panda, Rajesh Sharma, Anand Kar (2019) Antithyroidic and Hepatoprotective Properties of High‑Resolution Liquid Chromatography–MassSpectroscopy‑Standardized Piper betle Leaf Extract in Rats and Analysis of Its Main Bioactive Constituents, Pharmacog Mag 14 (59): S658-64, IF-0,948
• Goyal P, Belapurkar P and Kar A (2019) . A Review on in vitro and in vivo Bioremediation Potential of Environmental and Probiotic Species of Bacillus and other Probiotic Microorganisms for Two Heavy Metals, Cadmium and Nickel. BIOSCIENCES BIOTECHNOLOGY RESEARCH ASIA, 16(1), 01-13
• Dhingra N, Kar A and Sharma R (2018). Towards further understanding the structural requirements of combretastatin-like chalcones as inhibitors of microtubule polymerization, Curr Comput Aided Drug Des. doi:10.2174/ 157340991566618122111 4107. IF- 1.606,
• Dhingra N, Kar A and Sharma R (2018).Inhibition of Aromatase and Cell Proliferation of Breast Cancer and Human Placenta Choriocarcinoma by Prunus persica Extract, Indian Journal of Pharmaceutical Sciences,80(5):903-910. IF. 0.975
• Panda S and Kar A (2018). Efficacy Study and Safety Evaluation of Isolated Active Compounds of Some Indian Medicinal Plants With Respect to Regulation of Cardiovascular Problems. In “ Recent Progress in Medicinal Plants (RPMP): Metabolic Disorders.” Chapter-19. Vol. 47, Stadium Press, USA
• Belapurkar P, Goyal P, Kar A (2018) .Potential assessment of Genus Bacillus coagulans, for bioremediation of Zn(II) and Ni(II) : An invitro study. European j of Biomedical and Pharmaceutical Sciences, (1), 627-632. ISSN 2349-8870
• Sunhere L, Panda S & Kar A (2017). Protective role of B. vulgaris root extract in T4-induced hyperthyroidism in male mice. Int J Pharma Res Health Sci.,5 (6):1896-03, IF-0.54
• Panda S , Kar A and Biswas S (2017). Preventive effects of Agunocastocude-C against Isoproterenol–induced myocardial injury. Scientific-Reports-Nature.com, 7: (1),16146. Nov 23. doi: 10.1038/s41598-017-16075-0, IF : 4.99
• N. Kumar and Kar A (2017) Effects of Pyrroloquinoline Quinone and Vitamin C on Diabetes Associated Testicular Dysfunction and Oxidative Damages in Testis of Streptozotocin-Induced Diabetic Mice: Histopathological Study. SOJ Pharmacy & Pharmaceutical Science, 4(5): 1-11. IF:3.9
• N. Kumar and Kar A (2017) Comparative Analysis of Free Radical Scavenging Potential of Pyrroloquinoline Quinone (PQQ) and Several Plants Extracts by in-vitro Methods, Advances in Pharmacology and Clinical Trials., 2(1): 000116 IF= 2.1
• Belapurkar P, Goyal P , Kar A (2017) A Comparative Review On Potential Role of Environmental Species and Proven Probiotic Species of Genus Bacillus in Bioremediation of Heavy Metals with Special Emphasis on Chromium and Lead. Int. J. Pharm. Sci. Rev. Res., 43(1): 144-154.
• Panda S & Kar A (2016). Role of a gitogenin-type steroidal saponin (3-O-<beta>-D-glucopyranosyl (1→2)-<beta>-D-glucopyranosyl (1→4)-<beta>-D-galactopyranoside- 25R,5<alpha>-spirostane-2 <alpha>,3 <beta> -diol , isolated from the leaves of Malvastrum coromandelianum in hyperthyroid rats. Bioorganic & Medicinal Chemistry Letters 26 (2016) 4804-4807]. I.F. 2.82
• Belapurkar P, Goyal P , Kar A (2016). In vitro evaluation of bioremediation capacity of a commercial probiotic, Bacillus coagulans, for chromium (VI) and lead (II) toxicity, Journal of Pharmacy and Bioallied Sciences ,8(4),272-276
• Narendra Kumar and Anand Kar(2015).Pyrroloquinoline Quinone (PQQ) has potential to ameliorate streptozotocin-induced diabetes mellitus and oxidative stress in mice: a histopathological and biochemical study. Chem Biol Interact. 2015 Oct 5;240:278-90. doi: 10.1016/j.cbi.2015.08.027. Epub 2015 Sep 4. I.F. 5.192
• Narendra Kumar and Anand Kar(2015)Pyrroloquinoline quinone ameliorates oxidative stress and lipid peroxidation in the brain of streptozotocin-induced diabetic mice. Can. J. Physiol. Pharmacol. 93(1):71-9. doi: 10.1139/cjpp- I.F. 2.27
• Panda S, Kar A(2015) Protective effects of 5,7,4'-trihydroxy-6,3'dimethoxy-flavone 5-O-α-l-rhamnopyranoside, isolated from Annona squamosa leaves in thyrotoxicosis and in hepatic lipid peroxidation in rats. Bioorg Med Chem Lett. 2015 Dec 15;25(24):5726-8. doi: 10.1016/j.bmcl.2015.10.090. I.F. 2.82
• Panda S and Kar A(2015) Combined Effects of Vincristine and Quercetin in Reducing Isoproterenol-Induced cardiac necrosis in Rats, Cardiovasc Toxicol. (4):291-9. doi: 10.1007/s12012-014-9291-x.PMID:25537132 , I.F. 3.239
• Neha Sharma, Anand Kar, Sunanda Panda.(2015)Administration of fenugreek seed extract produces better effects in the glibenclamide-induced inhibition in hepatic lipid peroxidation: An in vitro study. Chin J Integr Med. PMID:25749901, DOI:10.1007/s11655-015-1793-z
• Panda S and Kar A(2014) Antithyroid effects of naringin, hesperidin and rutin in L-T4 induced hyperthyroid Rats: Possible mediation through 5'DI activity. Pharmacological Reports 66 1092–1099. IF- 3.024
• Kumar N, Kar A. Panda S (2014). Pyrroloquinoline quinone ameliorates L-thyroxine-induced hyperthyroidism and associated problems in rats. Cell Biochem Funct, 32(6):538-546. IF-1.85
• Naveen Dhingra, Rajesh Sharma, Anand Kar (2014) Towards further understanding on the antioxidative activities of Prunus persica fruit: a comparative study with four different fractions. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 132,582-587.IF- 4.098
• Naveen Dhingra, Rajesh Sharma, Anand Kar, (2014) Oxidative Stress and Carcinogenesis: Prevention by Antioxidative Phytochemicals Acting on Different Molecular Targets” International Journal of Pharmaceutical Sciences Review and Research, 25(1):236-245.IF- 0.749
• Kumar N and Kar A. (2014b). Ameliorating effects of prrroloquinoline quinine (PQQ) on PTU induced oxidative damage in mice kidney. Asian J Pharm Clin Res, 7, 121-126
• Kumar N and Kar A. (2014a). Pyrroloquinoline quinine has potential to ameliorate PTU induced lipid peroxidation and oxidative damages in mice. Int J Pharm Pharm Sci, 6, 880-885. IF-4.42
• Agrawal Jyoti, Bharihoke N and Kar Anand, 2014 Assessment of association of postprandial blood sugar with lipid parameters in non-diabetic central Indian population OSR Journal of Nursing and Health Science ,3,(2), 64-68. IF-1.85
• Naveen Dhingra, Rajesh Sharma, Anand Kar, (2014) Evaluation of the antioxidant activities of Prunus domestica whole fruit: an in vitro study . Int J Pharm & Pharm Sci, (4), 271-276. IF=4.54
• Thomas A, Kar A , Rebijith KB, Asokan R and Ramamurthy VV. (2014). Bemisia tabaci (Hemiptera: Aleyrodidae) Species Complex From Cotton Cultivars: A Comparative Study of Population Density, Morphology, and Molecular Variations, Annals of the ESA. 107(2), 295-548 . IF. 1.51
• Neha Sharma*, Anand Kar, Sunanda Panda(2014).Trigonella foenum graecum Seed Extract Enhances the Antiperoxidative and Antidiabetic Activities of Glibenclamide, Int. J. Pharm. Sci. Rev. Res., 24(1), 28, 152-156.
• Sharma N, Panda S and Kar A (2014) Momordica Charantia fruit extract and Glybenclamide synergistically ameliorate corticosteroid induced diabetes mellitus in mice. Int J Pharmacy Biosc., 5(1) 23-32
• Panda S., Kar A., Ramamurthy,VV. 2014.Cardio protective effect of vincristine on isoproterenol-induced myocardial necrosis in rats, Europ. J of Pharmacol , pii: S0014-2999(13)00816-9. IF- 4.432
• Kapadia B, Viswakarma N, Parsa KV, Kain V, Behera S, Suraj SK, Babu PP, Kar A, Panda S, Zhu YJ, Jia Y, Thimmapaya B, Reddy JK, Misra P.(2013) ERK2-mediated phosphorylation of transcriptional coactivator binding protein PIMT/NCoA6IP at Ser298 augments hepatic gluconeogenesis. PLoS One. 2013 Dec 17;8(12):e83787. IF-3.752
• Panda S, Kar A, Biswas S ( 2013) Trigonelline, isolated from fenugreek seeds protects against isoproterenol-induced myocardial injury: through down regulation of Hsp27 and <alpha>B-crystallin, Nutrition ,29, 1395-1403. I F 4.281
• Panda S, Kar A, Sharma P & Sharma A( 2013) Cardioprotective potential of N, <alpha>-L-rhamnopyranosyl vincosamide, an indole alkaloid, isolated from the leaves of Moringa olefera in isoproterenol induced cardiotoxic rats: In vivo and in vitro studies . Bioorganic & Medicinal Chemistry Letters. , 15;23(4):959-62.,
• Agrawal Jyoti and Kar Anand, 2013. Concentration dependent anti-oxidative & pro-oxidative effects of Madhumehari in in vitro and in alloxan induced diabetic mice model. Int. J. Pharm. Sci. Rev. Res., 23(2), 33, 185-190.Nov-Dec. IF 0.749
• Kumar N and Kar A(2013) Regulation of oxidative stress and lipid peroxidation in PTU induced mice, treated with Pyrroloquinoline quinone (PQQ) IOSR Journal of Pharmacy and Biological Sciences,8(5)23-31.Nov-Dec. IF 0.888
• Dhingra N, Shrma R and Kar A (2013) Antioxidative and antiproliferative activities of isolated compounds from Prunus domestica: an in vitro study". Internat. J of Phytomedicine, 5(3), 341-346. IF 0.89
• Jyoti Agrawal*, Anand Kar, Sunanda Panda (2013) Synergistic action of phytochemicals augments their antioxidative efficacy: an in vitro comparative study. Asian j. of Pharmaceutical and Clinical Rres.. 6, (l 4), 121-126.,
• Panda S., Kar,A. Banerjee T, Sharma N (2012) Combined Effects of Quercetin and Atenolol in Reducing Isoproterenol Induced Cardiotoxicity in Rats: Possible Mediation Through Scavenging Free Radicals, Cardiovascular Toxicology, 12(3):235-42. I F 3.29
• Thomas A, Chaubey R, Naveen NC, Kar A, Ramamurthy VV (2012). An analysis of leaf trichome density and its influence on the morphology of dorsal setae in the puparia of Bemisia tabaci (Hemiptera: Aleyrodidae) within a single cotton leaf. Journal of Food Agriculture and Environment 9: 214- 219
• Thomas A, R Chaubey R, Naveen NC, Kar A, Ramamurthy VV (2011) Bemisia tabaci (Hemiptera: Aleyrodidae) on Leucaena leucocephala (Fabaceae): a new host record from India and a comparative study with a population from cotton International Journal of Tropical Insect Science .31 (4), 235-241 IF- 1.157
• Panda S, Kar A (2011). Periplogenin, isolated from Lagenaria siceraria, ameliorates L-T4-induced hyperthyroidism and associated cardiovascular problems. Horm Metab Res 43(3):188-93
• Mishra P, Kar A & Kale P (2011). Prepubertal daidzein exposure enhances mammary gland differentiation and regulates the expression of estrogen receptor-alpha and apoptotic proteins. ISRN Oncol. 2011:896826.1-9. doi: 10.5402/2011/896826. Hindawi Limited
• Panda S, Kar A (2012) A Novel Phytochemical, Digoxigenin-3-O-Rutin in the Amelioration of Isoproterenol-Induced Myocardial Infarction in Rat: A Comparison with Digoxin. Cardiovasc Ther. Jun;30(3):125-35. IF-2.09
• Jayasekera S, Thomas A, Kar A and Ramamurthy VV. 2010. Host correlated morphometric variations in the populations of Bemisia tabaci (Gennadius).Oriental Insects 44: 193-204. IF-0.53
• Parmar HS, Dixit Y, Kar A. (2010). Fruit and vegetable peels : Paving the way towards the development of new generation therapeutics. Drug Discoveries & Therapeutics 4: 314-325 (Review). IF- 1.26
• Dixit Y, Kar A. (2010) Protective role of three vegetable peels in alloxan induced diabetes mellitus in male mice. Plant Foods Hum Nutr. 65 (3):284-9. IF- 4.57
• Jatwa R, Kar A(2010). Effect of metformin on renal microsomal proteins, lipid peroxidation and antioxidant status in dexamethasone-induced type-2 diabetic mice. Indian J Biochem Biophys. 47(1):44-8.
• Panda S, Jafri M, Kar A, and Meheta BK (2009) Thyroid inhibitory, anti-peroxidative and hypoglycemic effects of Stigmasterol, isolated from Butea monosperma , Fitoterapia 80(2)123-126. Citn- 363 IF- 3.204
• Sunanda Panda, Anand Kar, Sridhar Patil (2009) Soy sterols in the regulation of thyroid functions, glucose homeostasis and hepatic lipid peroxidation in mice. Food Research International, 42,1087-1092. IF- 7.425. ,Elsevier.
• Jatwa R and Kar A (2009) Amelioration of Metformin-induced hypothyroidism by Withania somnifera and Bauhinia purpurea extracts in Type 2 Diabetic Mice" Phytotherapy Research, 23(8):1140-1145
• Kar A, Panda S and Parmar HS (2009) Some plant extracts may prove to be thyrotoxic and peroxidative in nature, In “ Molecular and Physiological aspects of Toxicology”. Ed. K.Shah, Published by Mahila Mahavidyalaya, B.H.U., Varanasi,ISBN# 81-85403-09-2.(Chapter)
• Panda S and Kar A(2009) Periplogenin-3-O- -D-glucopyranosyl (1→6)- -D- glucopyaranosyl - - (1→4) -D- Cymaropyranoside, Isolated from Aegle marmelos Protects Doxorubicin Induced Cardiovascular Problems and hepatotoxicity in Rats. Cardiovascular therapeutics, 27,108-116 I F-2.09
• Mishra Prachi, Kar Anand and Kale Raosaheb (2009) Prevention of chemically induced mammary tumorigenesis by diaidzein in prepubertal rats: the role of peroxidative damage and antioxidants. Mol Cell Biochem. 325,149-157 IF-3.842
• Parmar HS & Kar A ( 2009b ).Comparative analysis of free radical scavenging potential of several fruit peel extracts by invitro methods. Drug Discovery therapeutics,3 (2)49-55. IF-1.26
• Parmar HS, Kar A (2009a). Protective role of Mangifera indica, Cucumis melo and Citrullus vulgaris peel extracts in chemically induced hypothyroidism. Chemico-Biological Interactions ,177 (3):254-258. IF- 5.12
• Dixit Y and Kar A (2009). Antioxidative activity of some vegetable peels determined in vitro by inducing liver lipid peroxidation. Food Research International 42:1351-54. IF- 7.425 Elsevier
• Mishra P, Kar A & Kale P (2009) Modulatory influence of pre-pubertal Biochanin A exposure on mammary gland differentiation and expression of Estrogen receptor – α and apoptotic proteins. Phytotherapy Research, 23(7):972-9.IF-5.88
• Jatwa R and Kar A( 2009) Anti-inflammatory and anti-peroxidative roles of diacerein re possibly mediated through an alteration in thyroid functions in animal model of inflammation" Fundamental & Clinical Pharmacology."23,465-471.
• Parmar H and Kar A(2008a) Medicinal values of fruit peels from C. sinensis, P .granatum and M .paradisiaca with respect to alteration in tissue lipid peroxidation and serum concentration of glucose , insulin and Thyroid hormones. J. Med. Food 11(2):376-81.
• Jatwa R and Kar A (2008). Protective effect of L-Ornithine-L- Aspertate and Silmarin on Chemically Induced kidney toxicity and thyroid dysfunction in mice. EXCLI Journal,7,139-150. I F-4.068
• Parmar H and Kar A (2008 b). Antidiabetic potential of Citrus sinensis and Punica granatum peel extracts in alloxan treated male mice. Biofactors ,31(1):17-24. IF-6.113
• Parmar H and Kar A (2008c) Possible amelioration of atherogenic diet induced dyslipidemia, hypothyroidism and hyperglycemia by the peel extracts of Mangifera indica, ccucumis melo and Citrullus vulgaris fruits in rtas, Biofactors , 33(1) 13-24. IF-6.113
• Dixit Y, S Panda & Kar A (2008). Lagenaria siceraria Peel Extract in the regulation of Hyperthyroidism, Hyperglycemia and Lipid Peroxidation in Mice. International j of Biomedical and Pharmaceutical Sciences 2 (2), 79-83
• Mishra P, Kale P and Kar A (2008) Chemoprevention of mammary tumorigenesis and chemomodulation of the antioxidative enzymes and peroxidative damage in prepubertal Sprague Dawley rats by Biochanin A. Molecular and Cellular Biochemistry. 312(1-2):1-9. IF-3.842
• Panda S and Kar A (2007) Antidiabetic and antioxidative effects of Annona squamosa leaves are possibly mediated through Quercetin-3-O-glucoside. Biofactors ,31:3,4;201-210. Citn-142 IF-6.113
• Jatwa R and Kar A (2007) Positive influence of Centchroman on cardiovascular system and tissue lipid peroxidation in rats. Contraception. 76(5):408-412. IF-2,335
• Parmar H and Kar A( 2007c) Protective role of Citrus sinensis, Musa paradisiaca and Punica granatum peels against diet induced atherosclerosis and thyroid dysfunctions in rats. Nutrition Research, 27, 11, 710-718 IF-3.315
• Parmar H and Kar A( 2008) Antiperoxidative, antithyroidal, antihyperglycemic and cardioprotective role of Citrus sinensis peel extract in male mice", Phytotherapy Research 22,791-795.
• Panda S and Kar A (2007c) Apigenin (4', 5, 7-Trihydroxyflavone) regulates hyperglycemia , thyroid dysfunctions and lipidperoxidation in Alloxan induced diabetic mice., Journal of Pharm. and Pharmacol., 59(11):1543-1548.
• Panda S and Kar A (2007b). Amelioration of L-thyroxine induced hyperthyroidism by Coumarin (1,2–Benzopyrone) in female rats. Clinical and Experimental Pharmacology and Physiology .34(11):1217-1219. IF-2.372
• Parmar H and Kar A(2007a).Atherogenic diet induced diabetes mellitus: involvement of thyroid hormones.European Journal of Pharmacology ,570,244-248. IF-4.432
• Panda S and Kar A (2007a) Annona squamosa seed extract in the regulation of hyperthyroidism and Lipid peroxidation in mice: possible involvement of quercetin. Phytomedicine 14(12):799-805
• Jatwa R and Kar A (2006 b) Cardio-protective role of terazosin is possibly mediated through alteration in thyroid function. Europ. J. of Pharmacology ,551(1-3), 87-91. IF-4.43
• Jatwa R and Kar A (2006a) Antihyperglycemic and antiperoxidative role of acarbose in type-2 diabetes mellitus is possibly mediated through an alteration in thyroid function. Clinical and Experimental Pharmacology and Physiology ,33;11,1104-1106.
• Panda S and Kar A (2006) Isolation of Scopoletin from Aegle marmelose leaves and Evaluation of its Antithyroidal , Antioxidative and Antihyperglycemic Potential in Hyperthyroid rats , Phytotherapy Research ,20:12 1103-05 Citn- 167 IF-5.992
• Parmar H, Jatwa R, Panda S and Kar A( 2006) Cardio-protective role of T. arjuna is possibly mediated through alterations in thyroid hormones. Pharmazie : 61:97,93-95.
• Gholap S and Kar A (2005) Regulation of cortisol and glucose concentration by some plant extracts in mice. Jour of Medicinal and Aromatic Plant Sciences. 27: 478-482
• Kar, A and Panda, S(2005) Plant Extracts in the Regulation of Hypothyroidism, In SK Sharma , J N Govil and VK Singh eds. Recent Progress in Medicinal Plants, Vol.10, (Phytotherapeutics), Studium Press LLC, Texas, U.S.A.,PP.419-426.
• Panda S and Kar A (2005) Guggulu (Commiphora mukul) Potentially ameliorates hypothyroidism in female mice. Phytotherapy Research , 30;19(1):78-80
• Ghallop S & KarA (2004) Gymnemic acids from Gymnema sylvestre potentially regulate dexamethasone-induced hyperglycemia. Pharmaceutical Biology. 43:2,192-195.
• Panda S and Kar, A (2004) Synergistic interactions of Aegle marmelos leaf, Emblica officinalis fruit and Ocimum sanctum leaf extracts in the regulation of hyperthyroidism and/or hyperglyaemia. Oriental Pharmacy and Experimental Medicine, 4:1,37-43
• Ghallop S & KarA (2004) Hypoglycaemic effects of some plant extracts are possibly mediated through inhibition in corticosteroid concentration. Pharmazie , 59:11,876-878. Citn- 156
• Kar, A and Panda S (2004). Ayurvedic Therapies for Thyroid Dysfunction. In "Scientific Basis of Ayurvedic Therapies”. L.Mishra, Ed,.chapter 8, CRC press, USA
• Panda S and Kar, A (2003 d) Piperine lowers serum concentrations of thyroid hormones , glucose and hepatic 5’ D activity in adult male mice, Hormones and Metabolic Research .35:523-526. Citn- 112
• Panda S and Kar, A (2003c) Fruit extract of Emblica officinalis ameliorates hyperthyroidism and hepatic lipidperoxidation in mice. Pharmazie 58:753-756.
• Panda S. & Kar A (2003b). Effect of water & ethanol extracts of Piper nigrum in regulating the thyroid function & lipid peroxidation in mice. Pharmaceutical Biology.41(7): 479-482.
• Tahiliani P & Kar A (2003b) Combined effects of Trigonella &Allium extracts in the regulation of hyperthyroidism, J. of Phytomedicine , 10:665-668
• Ghallop S & KarA , (2003b) Effects of Inula racemosa root and Gymnema sylvestre leaf extracts in the regulation of corticosteroid induced Diabetes mellitus; involvement of thyroid hormones. Pharmazie, 58,6,413-415
• Tahiliani P & Kar A (2003a) Mitigation of Thyroxine induced hyperglycaemia by two plant extracts. Phytotherapy Research 13:11-15
• Panda S. & Kar A. (2003a) Possible amelioration of hyperthyroidism by the leaf extract of Annona squmosa. Current Science ,84:11, 1402-1404.
• Ghallop S & KarA , (2002b) Relative efficacy of three Indian medicinal plants in the regulation of serum thyroid hormone &glucose concentrations in male & female mice, J of medicinal & Aromatic Plant Sciences JMAPS 24:1002-1005.
• Ghallop S & Kar A (2002a) Efficacy of some plant extracts in regulating corticosteroid induced hyperglycaemia in mice. Pharmaceutical Biology, 40 : 319-324
• Panda S, Kar A & Bharti S, (2002) Regulation of thyroid function by E. officinalis & B. Purpurea in mice. J. of Herbs, Spices &Medicinal Plants.10(1),1-9.
• P & Kar A (2002) Therapeutic efficacy of Aswagandha & Guggulu against cadmium toxicity in mice, (JMAPS ), 24:3,716-720.
• Kar A, Panda S, Tahiliani P & Ghallop S (2002) Possible regulation of Myxedema by some plant extracts, Proc. Int. Symp. On Ayurveda &Natural Medicine, 79-83 ( Proc.).
• Kar A, Panda S & Bharti S (2002) Relative efficacy of three medicinal plant extracts in the alteration of thyroid hormone concentrations in male mice, J. Ethno Pharmacology .81:281-285
• Panda S & Kar, A. (2001) Inhibition of T3 production in L-thyroxine treated female mice by the root extract of C. pluricaulis. Horm. Metab. Res. 33: 16-18. 2000.
• Panda. S & Kar, A. (2000d) Regulation of hyperthyroidism by R. serpentina root extract in mice. Phram Pharmacol Commun. 6; 517-520.
• Panda S & Kar, A (2000b) Combined effects of Ashwagandha, Bauhinia & Guggal in the regulation of thyroid function in mouse. Pharmacy &Pharmacology Communications, 6:141-143.
• Panda. S & Kar, A. (2000c) Excess use of M. charantia extract may not be safe with respect to thyroid function &lipid peroxidation. Current Sc.79: 222-224.
• Tahiliani P & Kar A (2000) Relative roles of some plant extracts in the regulation of serum thyroid hormones &glucose concentration in female rats. JMAPS, 23: 64-69.
• Panda S & Kar, A. (2000a) How safe is Neem extract with respect to thyroid function in male mice. Pharmacological Research 41(4): 419-422
• Tahiliani P & Kar, A. (2000) Achyranthes aspera elevates thyroid hormone levels &decreases hepatic lipid peroxidation in female rats. Journal of Ethno-Pharmacology 71(3): 527-532. Citn-118
• Chaurasia SS, Panda S & Kar A (2000) Withania somnifera root extract in the regulation of lead induced oxidative damage in male mouse. Pharmacological Research 41(6): 663-666.
• Gupta P., Chaurasia, SS, Maiti, P & Kar A. (2000) Cadmium induced inhibition of type I iodothyronine 5’-monodeiodinase in young cockerels: the possible involvement of free radicals. Water Air & Soil Pollution 117: 245-250.
• Tahiliani P. & Kar, A. (2000) Role of Moringa oleifera leaf extract in the regulation of thyroid hormone status in adult male &female rats. Pharmacological Research 41(3): 319-323
• Panda S., Tahiliani P. & Kar, A. (1999) Inhibition of triiodothyronine production by fenugreek extract in mice & rats. Pharmacol Res. 40(5): 405-409. Citn- 76 IF- 10.33
• Panda S & Kar, A (1999b) Guggulu (Commiphora mukul) induces triiodothyronine production: possible involvement of lipid peroxidation. Life Sciences.65 (12): 137-141. Citn- 73 IF-6.78
• Panda S &Kar, A. (1999a) Withania somnifera & Bauhinia purpurea in the regulation of circulating thyroid hormone concentrations in female mice. J. Ethno-pharmacology. 67: 233-239. Citn-153
• Chaurasia S.S. &Kar, A. (1999) An oxidative mechanism for the inhibition of iodothyronine 5’-monodeiodinase activity by lead nitrate in the fish Heteropneustes fossilis. Water, Air & Soil Pollution 111: 417-423. Citn- 21
• Gupta, P & Kar, A (1999b) Cadmium induced thyroid dysfunction in chicken: hepatic type I iodothyronine deiodinase activity &role of lipid peroxidation. Comp. Biochem. & Physiol. Part C: 123: 39-44. Citn- 66
• Panda S & Kar, A (1999a) Fasting alters cadmium induced thyroid dysfunction in mice: Possible role of glutathione. Trace elements & Electrolytes; 16: 151-155.
• Panda S. &Kar, A. (1998a) Changes in thyroid hormone conc. after administration of root extract of Ashwagandha to adult male mice. J. of Pharmacy & Pharmacology. 50(9) 1065-1068. Citn- 172
• Panda S. & Kar, A. (1998b) Betel leaf extract can be both antiperoxidative & peroxidative in nature. Curr Science (74): 284 - 285. Citn-12
• Panda S &Kar, A. (1998c) Ocimum sanctum leaf extract in the regulation of thyroid function in the male mouse. Pharmacological Research 38(2): 107-110. Citn- 99
• Panda S &Kar, A. (1998d) Dual role of betel leaf extract on thyroid function in male mice. Pharmacological Research. 38(6): 493-496. Citn- 43
• Chaurasia S.S. & Kar, A. (1998a) Lead induced oxidative damage to the membrane associated type I iodothyronine 5’- monodeiodinase activity in chicken liver homogenate. Fress. Environ. Bulletin 7(3): 209-215. Citn-6
• Chaurasia S.S., , P., Maiti, P.K. & Kar, A. (1998) Possible involvement of lipid peroxidation inn the inhibition of type 1 iodothyronine 5’ monodeiodinase activity by lead in chicken liver. J. Appl. Toxicol.18, 299-300. Citn-8
• Gupta, P. & Kar, A. (1998) Role of Ascorbic acid in Cadmium induced thyroid dysfunction &lipid peroxidation. J. Appl. Toxicol. 18, 317-320. Citn- 83
• Maiti P. & Kar, A (1998) Is triiodothyronine capable of ameliorating pyrethroid induced thyroid dysfunction &lipid peroxidation. J. Appl. Toxicol. 18: 125-128.
• Panda S & Kar, A. (1997c) Antithyroidal property of Shankpuspi (C. pluricaulis) in mice. Med. Sci. Res. 25: 677-678. Citn- 16 IF-1.77
• Panda S. &Kar, A.(1997b) Effects of root extract of Ashwagandha on the function of thyroid in cockerel. Ind. J. Physiol & Pharmacol. 41(4) 424-426. Citn-9 IF-0.13
• Panda S., Gupta P. & Kar, A. (1997). Protective role of Ashwagandha in cadmium induced hepatotoxicity & nephrotoxicity in male mouse. Curr. Sci. (72): 546-547. Citn-34 ,IF- 1.01
• Panda S. & Kar, A. (1997a) Evidence for the free radical scavenging activity of Ashwagandha in male mice. Indian journal of physiology and pharmacology 41 (4), 424-426. Citn-130, IF- 0.31
• Kar, A. (1997) Radioimmunoassay, The most reliable technique for the estimation of hormones: some findings on the role of temperature &photoperiod in the thyroid functions of C.. versicolor.In "Modern trends in Zoology" Eds. Prakash M.M et. al. Pp.121-128, RBSA Publisher, Jaipur, India.
• Gupta P., Chaurasia S.S., Kar A., Maiti P.K. (1997a) Cadmium induced alterations in extra thyroidal conversion of thyroxine to triiodothyronine by type 1- 5’D in male mouse. Horm. & Metab. Research 29, 151-152. Citn-29, IF-2.81
• Gupta P. & Kar, A. (1997a) Role of testosterone in ameliorating the cadmium induced inhibition of thyroid function in adult mice. Bull. Env. Contam. Toxicol. 58:3 422-428. Citn- 21 IF- 2,65
• Gupta P. &Kar, A. (1997b) Is α Tochopherol effective in amelioration of cadmium induced thyroid dysfunction? Trace Eelements & Electrolytes 14(3):150-153.Ctn-5 IF-3.755
• Gupta P., Chaurasia S.S., Kar A. & Maiti P.K. (1997b) Influence of Cadmium on Thyroid hormone conc. &LPO in a C. batracus. Fresen. Environ. Bull. 6: 355-358.
• Maiti, P.K & Kar, A. (1997a) Dual role of testosterone in fenvalerate treated mice with respect to thyroid function &LPO.J. of Appl.Toxicol. 17(2), 127-131.Citn-21,IF-3.446
• Maiti, P.K.& Kar, A. (1997b )Dimethoate inhibits extra-thyroidal 5’ monodeiodination of T4 to T3 in mice; the possible involvement of LPO. Toxicology Letters. 91: 1-6. Citn- 61 IF. 4.372
• Maiti, PK., P.,Chaurasia, SS.& Kar, A. (1997b) Dimethoate exposure impairs thyroid function &hepatic 5’Dactivity in cockerel. Fresen. Env. Bull. (6)378-382. Citn- 03 IF-0.61
• Chaurasia S.S, Panda S and Kar, A. (1997) Lead inhibits Type-1 5’ D in the Ind. rock pigeon, C. livia: A possible involvement of essential thiol group. J. of Biosc. 22(2) 247-254. Citn- 13 IF-2.41
• Chaurasia, S.S. &Kar, A. (1997a) Influence of lead on type-1 5’D activity in male mouse. Hormones & Metab. Res. 29, 532-533. Citn- 13 IF-2.81
• Chaurasia, S.S. & Kar, A. (1997b) Protective effects of Vit. E against lead induced deterioration of membrane associated type 1 5’D activity in male mice. Toxicology, 124: 203-209
• Chaurasia S.S., ,P.; Kar A., Maiti P.(1996) Lead induced thyroid dysfunction &lipid peroxidation in the fish C. batracus with special reference to hepatic type-1-5’ monodeiodinase activity. Bull. Environ. Contam.Toxicol 56,(4): 649-654 Citn- 48 IF-2.65
• Chaurasia, S.S., P.,Kar A. &Maiti P.K.(1996)Free radical mediated membrane perturbation & inhibition of type-1 5’ D activity by lead & cadmium in rat liver homogenate. Biochem. & Mol. Biol. Internat.(IUBMB Life) 39 (4),765-770,Citn-66, IF 1.61
• Maiti, P. K., , P. Chaurasia, S. S. & Kar A. (1996) Dimethoate induced lipidperoxidation &inhibition of Type-I 5; D enzyme activity in young cockrele. Bull. Environ. Contam. Toxicol , 57(2) 335-340.
• Maiti, P.K., Kar, A., P. & Chaurasia, SS (1995) Loss of membrane intergrety & inhibition of type 1 iodothyronine 5’ monodeidinase enzyme activity by fenvalerate in female mice. Biophy. Biohem Res. Comm. (BBRC) 214 (3); 905-909. Citn-78 IF-3.575
• P, Chaurasia , S.S., Kar A. & Maiti, P. (1995) Chronic cadmium administration in the thyroid hormone concentrations &in the status of reproductive organs in male mouse, Fressen. Environ. Biol. 4 (6) 333-335. Citn- 10 IF-0.489
• Kar, A, Naidu P. & Maiti, P.(1995) Involvement of thyroxine in the regulation of DDT toxicity in spotted munia .Ind. J. of Anim. Sci. 65 (9): 45-47. Citn-03 IF-0.316
• Chaurasia S.S.,,P., Kar A. & Maiti P.K.(1995) Lead impairs hepatic type 1 5’monodeiodinase activity & thyroid function in cockerels .Current Science 69,8-698-700. Citn-09 IF-1.02 1994
• Kar, A. & Sikdar, M (1994a).Light intensity and the seasonal testicular cycle in a male wild bird, Spotted munia. Current science (Bangalore) 67 (3), 199-201
• Sikdar M. & Kar, A (1994b) Evidence for the role of wavelengths of light on the reproduction of wild male bird, black-headed munia Munia malacca Current Science. 66(10) : 775-777. Citn-2 I.F-1.102
• Sikdar, M. & Kar, A (1994c). Evidence for the role of light intensity in the seasonal testicular cycle of a wild bird, black headed munia. Biological Rhythm Research. 25(3): 277-281 Citn-2 .IF-1.10
• Kar, A. & Dulkar, R.K. (1993a).In Pati, A.K. (ed), Chronobiology, Pt. Ravi shankar univ, Raipur, India, pp.51-55.(Proc.)
• Kar, A. (1992) In "Environmeunt, Yesterday, Today & Tomorrow". Eds. P. Bhatt & S. Bhatt, Galgotia publication, N. Delhi., 258-262. (Review/chapter)
• Sikdar, M, Kar, A and Prakash, P.(1992). Role of humidity in the seasonal reproduction of male spotted munia, Lonchura punctulata Journal of Experimental Zoology.264:82-84. Citn-10 IF-2.553
• Chandola-Saklani, A. and Kar, A.(1990) Evidence for the role of thyroxine as a hormone in the physiology of a lizard. Gen. Comp. Endocrinol. 78(2): 173-179. Citan-14 IF-2.823
• Kar, A. (1988), Restriction in feeding time and the gonadal status in spotted munia. Current Science, 57(16) : 913-914. IF-1.102
• Kar, A. (1987) Relative Importance of temperature and Photoperiod in the Physiology of C. versicolor, Current Science. 50(10): 497-99. Citn-1 IF-1.102
• Kar, A. and Chandola-Saklani, A, (1985a) In “The Endocrine system &the Environment”. Follet, B.K., Ishi, S & Chandola-Saklani, A. eds. JSSP, Springer / Verlag,pp.114-126. (Review in book) Citn-21
• Kar, A. and Chandola-Saklani, A. (1985b). Kar A, Chandola-Saklani A. Extrathyroidal conversion of thyroxine to triiodothyronine in Calotes versicolor. Gen Comp Endocrinol. 59(2):214-8. doi: 10.1016/0016-6480(85)90372-7. PMID: 4018560. Citn-17 IF-2.83
• Kar, A. and Chandola-Saklani, A. (1985c) Circulating thyroid hormone concentrations in relation to seasonal events in the male Indian garden lizard, Calotes versicolor. Gen Comp Endocrinol,60(1):14-9. doi: 10.1016/0016-6480(85)90286-2. PMID: 4054585. Citn- 41 IF-2.83
• A Kar, A Chandola (1984).Relative importance of thyroxine and tri-iodothyronine ……in C.versicolor. Annals d endocrinology 45(1), 29-29 Citn-1
• A Chandola, A Kar, (1983).Is thyroxine more effective than tri-iodothyronine in stimulating regeneration and growth of feathers in birds?[wild birds, Lonchura punctulata. Annales d'Endocrinologie

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