( ) 3 1 ( (1 : (3 e-mal: r.alzadeh@lam.ac.r : :. ( ) / ± / ( ) / ± /. ( ) / ± /... / :. P< / (P= / ) (P= / ) (P= / ) :. (P= / ). : 97/3/0 : 97/3/7 : 97/1/0 : 4... 1B. 1. 3. - Peroxsome Prolferator-Actvated Receptor- γ (PPAR γ) - Carntne Palmtoyl Transferase 1B (CPT1B)
, 31. 163/6±4/07 ( ) 5/34±4/1 ( ) 76/98±4/56 ( ).... 48 0..... ( ) x-scane. 0 5. 5 3. 30. 5.. 6 7 16 8 (015) 9. 017. 10.... rmedlam.rec.1396.10 4. - Sanchs-Gomar F, et al 015 - Sato K, et al 017 - FATmax (maxmal fat oxdaton ntensty)
FATmax.. 11 ( ) =1/67 VO 1/67 VCO 11 ( ) = 4/585 VCO 3/6 VO ) (. ( ± ). 87±3. 105/7±15/ 46/13±8/1. 5. EDTA. 4 15. 1600g -70. HB1, (1974) HCT1, 1.. 5. 3.. 5 5 1 %1 9 9 1. 1 1. (Metalyser 3B, Germany). 6-0 1. : 1/15.0 ( =0- ). 1 VCO VO 1 -Rate of Perceved Exerton -Brtsh Assocaton of Sport and Exercse Scences
, 1 (. 00-1 ( ). (HOMA-IR) 13.. 30 /3. -1 71/6±3/9 7/1±4/4 39/1±6/7 84 ±03 3/3±3 HOMA-IR = 71/8±/7 6/1±9/9 36/1±6/ 86 ±04 4/3±01/7 ( ) ( / ) ( ) ( ) WHR ( / / ) (Cusabo Botech Co, Wuhan, CN) ELISA. 39. 100-1/56 ) ELISA ( ) ( ) /5 16-SPSS.... P<05.. 1 - t p t p 1/00 330 /31 030 /31 031-99 331 3/1 008 89/95 ± 6/ 63 93/75 ± 5/ 01 1 77 45 89/74 ±6/ 04 91/6 ± 7/ 3/67 004 184±4/ 15 13/75 ± / 84 43 67 1/77±3/ 74 13/10±3/ 39 3/87 003 /41± 95 3/16± 54 3 60 56 /81± 77 /9± 68 -/46 03 /77± 85 /31± 5 4-1/64 1 /47± 60 /4± 51 -Homeostatc Model Assessment
FATmax. (1 ) p=030) (t = -/31 p=031) (t = -/31. -1. *. ( ) p=330) (t =-1/00 p=37) (t =99 ( ). -. *
, (UCP1) 1 -. ATP.. 0.. ( %60 ). 17... 18..... 14. 0. 10 ( ). (015) 15. (017) / 16. - Fuje S, et al 015 - Yosaee S,et al 017
FATmax 3 4...... :. -Kumar KG, et al 008 (008) Ca +....... 19 19 mrna 0 1. References 1. Aydn S. Three new players n energy regulaton: preptn, adropn and rsn. Peptdes 014; 56: 94-110.. Kumar KG, Trevasks JL, Lam DD, Sutton GM, Koza RA, Chouljenko VN, et al. Identfcaton of adropn as a secreted factor lnkng detary macronutrent ntake wth energy homeostass and lpd metabolsm. Cell Metab 008; 8: 468-81. 3. Aydn S, Kuloglu T, Aydn S, Eren MN, Ylmaz M, Kalayc M, et al. Expresson of adropn n rat bran, cerebellum, kdneys, heart, lver, and pancreas n streptozotocn-nduced dabetes. Mol Cell Bochem 013; 380: 73-81. 4. Gao S, McMllan RP, Jacas J, Zhu Q, L X, Kumar GK, et al. Regulaton of substrate oxdaton preferences n muscle by the peptde hormone adropn. Dabetes 014: 63: 34-5. 5. Butler AA, Tam CS, Stanhope KL, Wolfe BM, Al MR, O'keeffe M, et al. Low crculatng adropn concentratons wth obesty and agng correlate wth rsk factors for metabolc dsease and ncrease after gastrc bypass surgery n humans. J Cln Endocrnol Metab 01; 97: 3783-91. 6. Maarbjerg SJ, Sylow L, Rchter EA. Current understandng of ncreased nsuln senstvty after exercse emergng canddates. Acta Physol (Oxf) 011; 0: 33-35. 7. Fuje S, Hasegawa N, Kurhara T, Sanada K, Hamaoka T, Iemtsu M. Assocaton between aerobc exercse tranng effects of serum adropn level, arteral stffness, and adposty n obese elderly adults. Appl Physol Nutr Metab 016; 4: 8-14. 8. Soor R, Khosrav N, Jafarpour S, Ramezankhan A. Effect of aerobc exercse and calorc restrcton on serum chemern levels and nsuln resstance ndex n women wth type dabetes. Iranan Journal of Dabetes and Metabolsm 017; 16: 111-0. 9. Sanchs-Gomar F, Als R, Rampnn E, Boso A, Ferol D, La Torre A, et al. Adropn and apeln fluctuatons
, throughout a season n professonal soccer players: Are they related wth performance? Peptdes 015; 70: 3-6. 10. Sato K, Nshjma T, Yokokawa T, Fujta S. Acute bout of exercse nduced prolonged muscle glucose transporter-4 translocaton and delayed counter-regulatory hormone response n type 1 dabetes. PloS One 017; 1: e0178505. 11. Wang J, Tan S, Cao L. Exercse tranng at the maxmal fat oxdaton ntensty mproved health-related physcal ftness n overweght mddle-aged women. J Exerc Sc Ft 015; 13: 111-6. 1. Costll D, Fnk WJ. Plasma volume changes followng exercse and thermal dehydraton. J Appl Physol 1974; 37: 51-5. 13. Emoto M, Nshzawa Y, Maekawa K, Hura Y, Kanda H, Kawagsh T, et al. Homeostass model assessment as a clncal ndex of nsuln resstance n type dabetc patents treated wth sulfonylureas. Dabetes Care 1999; : 818-. 14. Pchon C, Hunter G, Morrs M, Bond R, Metz J. Blood pressure and heart rate response and metabolc cost of crcut versus tradtonal weght tranng. The Journal of Strength and Condtonng Research 1996; 10: 153. 15. Fuje S, Hasegawa N, Sato K, Fujta S, Sanada K, Hamaoka T, et al. Aerobc exercse tranng-nduced changes n serum adropn level are assocated wth reduced arteral stffness n mddle-aged and older adults. Am J Physol Heart Crc Physol 015; 309: H164-7. 16. Yosaee S, Khodadost M, Esteghamat A, Speakman JR, Shdfar F, Nazar MN, et al. Metabolc Syndrome Patents Have Lower Levels of Adropn When Compared Wth Healthy Overweght/Obese and Lean Subjects. Am J Mens Health 017; 11: 46-34. 17. Westerterp-Plantenga MS, Verwegen CR, Ijedema MJ, Wjckmans NE, Sars WH. Acute effects of exercse or sauna on appette n obese and nonobese men. Physol Behav 1997; 6: 1345-54. 18. Saltn B. Exercse hyperaema: magntude and aspects on regulaton n humans. J Physol 007; 583: 819-3. 19. Dela F, Ploug T, Handberg A, Petersen LN, Larsen JJ, Mknes KJ, et al. Physcal tranng ncreases muscle GLUT4 proten and mrna n patents wth NIDDM. Dabetes 1994; 43: 86-5. 0. Ebelng P, Bourey R, Korany L, Tuomnen JA, Groop LC, Henrksson J, et al. Mechansm of enhanced nsuln senstvty n athletes. Increased blood flow, muscle glucose transport proten (GLUT-4) concentraton, and glycogen synthase actvty. J Cln Invest 1993; 9: 163-31. 1. Ivy JL, Role of exercse tranng n the preventon and treatment of nsuln resstance and non-nsulndependent dabetes melltus. Sports Med 1997; 4: 31-36.. Andersson A, Sjodn A, Olsson R, Vessby B. Effects of physcal exercse on phospholpd fatty acd composton n skeletal muscle. Am J Physol 1998; 74: E43-8. 3. Krketos AD, Gan SK, Poynten AM, Furler SM, Chsholm DJ, Campbell LV. Exercse ncreases adponectn levels and nsuln senstvty n humans. Dabetes Care 004; 7: 69-30. 4. Hulver MW, Houmard JA. Plasma leptn and exercse: recent fndngs. Sports Med 003; 33: 473-8.
105/Iranan Journal of Endocrnology and Metabolsm Vol 0 No. June-July 018 Orgnal Artcle Effect of Aerobc Exercse wth Maxmal Fat Oxdaton Intensty, on Adropn and Insuln Resstance among Overweght Women Alzadeh R 1, Golestan N, Morad L, Rezaenezhad N 3 1 Department of Sports Scence, School of Lterature and Humantes, Ilam Unversty, Ilam, Iran, Department of Sports Scence, North Tehran Branch, Islamc Azad Unversty, Tehran, Iran, 3 Department of Sports Scence, Mazandaran Unversty, Babolsar, I.R. Iran. e-mal: r.alzadeh@lam.ac.r Receved: 09/04/018 Accepted: 106/018 Abstract Introducton: Adropn plays an mportant role n lpd metabolsm; however, no research seems to have been done on the effect of exercse on serum adropn levels. Therefore, the present study attempted to nvestgate the effect of an aerobc exercse sesson wth FATmax ntensty on adropn levels and nsuln resstance among overweght women. Materals and Methods: The partcpants, who volunteered to take part n the research through announcements, ncluded 4 overweght women wth the means and standard devatons of ther age, heght, and weght beng 5.34±4.1 y, 163.6±4.07 cm, and 76.94±4.56 kg, respectvely. The exercse group performed an acute endurance actvty, whle the control group rested for the same amount of tme. In an acute endurance actvty sesson, the partcpants ran on treadmlls for 30 mnutes at ther FATmax ntenstes. Changes n the data for the two groups were calculated, before and after the actvty sesson and then compared usng ndependent-samples t-tests. The sgnfcance level for all the statstcal analyses was set at p<0.05. Results: Results showed sgnfcant dfferences between the two groups n terms of nsuln (p=0.030) and nsuln resstance (p=0.031), but not such a dfference for glucose (p=0.37) and adropn (p=0.330). Concluson: It seems that ths type of actvty, despte ts largely aerobc nature, smply faled to stmulate adropn, due to the effect of the control group s fastng state on ncreasng adropn levels, and/or the lower duraton and ntensty of the actvty. Keywords: Adropne, Insuln Resstance, Aerobc Exercse, Weght Loss