Hesam Parsa

Research activities

Journal Papers

Therapeutic Effects of High‑Intensity Interval Training Exercise Alone and Its Combination with Ecdysterone Against Amyloid Beta‑Induced Rat Model of Alzheimer’s Disease: A Biochemical, Study , alireza Komaki, Hesam Parsa, Mehdi Ramazani (2022) NEUROCHEMICAL RESEARCH: 397; 19

Effects of the combination of high-intensity interval training and Ecdysterone on learning and memory abilities, antioxidant enzyme activities, and neuronal population in an Amyloid-beta-induced rat model Alzheimer’s disease , alireza Komaki, Mehdi Ramazani, Hesam Parsa (2022) Physiology and Behavior: 251; 12

Swimming training and Plantago psyllium ameliorate cognitive impairment and glucose tolerance in streptozotocin– nicotinamide‑induced type 2 diabetic rats Hesam Parsa, , , kamal ranjbar, alireza Komaki (2021) Journal of Physiological Sciences: 71; 12

Exercise-induced, but not creatine-induced, decrease in intramyocellular lipid content improves insulin sensitivity in rats Hesam Parsa (2010) JOURNAL OF NUTRITIONAL BIOCHEMISTRY: 22; 1178–1185

Hyperglycemic diet and training alter insulin sensitivity, intramyocellular lipid content but not UCP3 protein expression in rat skeletal muscles Hesam Parsa (2010) International Journal of Molecular and Cellular Medicine: 25; 905-913

Conference Papers

Endurance swimming training decrease FGF21 level and improving glucose homeostasis and lipid metabolism in rats fed high-fat diet Hesam Parsa (2023)

Protective effects of ecdysterone alone and in combination with high-intensity interval training exercise against an amyloid beta-induced rat model of Alzheimer’s disease , alireza Komaki, , Hesam Parsa (2021)

Protective Effects of High-Intensity Interval Training Exercise Separately and in Interaction with Ecdysterone against Amyloid BetaInduced Rat Model of Alzheimer’s Disease: A Behavioral, Biochemic , alireza Komaki, , Hesam Parsa (2021)

creatine supplementation reduces intramyocellular lipid durining immobilization Hesam Parsa (2016)

Creatine supplementation reduces intramyocellular lipid during immobilisaion and inactivity Hesam Parsa (2016)

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