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108 related items for PubMed ID: 31331522

  • 1. Spontaneously hypertensive rats have greater impairments in regulating abdominal temperature than brain cortex temperature following physical exercise.
    Drummond LR, Kunstetter AC, Campos HO, Vaz FF, Drummond FR, Andrade AGP, Coimbra CC, Natali AJ, Wanner SP, Prímola-Gomes TN.
    J Therm Biol; 2019 Jul; 83():30-36. PubMed ID: 31331522
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  • 3. Impaired thermoregulation in spontaneously hypertensive rats during physical exercise is related to reduced hypothalamic neuronal activation.
    Drummond LR, Campos HO, de Andrade Lima PM, da Fonseca CG, Kunstetter AC, Rodrigues QT, Szawka RE, Natali AJ, Prímola-Gomes TN, Wanner SP, Coimbra CC.
    Pflugers Arch; 2020 Dec; 472(12):1757-1768. PubMed ID: 33040159
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  • 8. Brain and abdominal temperatures at fatigue in rats exercising in the heat.
    Fuller A, Carter RN, Mitchell D.
    J Appl Physiol (1985); 1998 Mar; 84(3):877-83. PubMed ID: 9480946
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  • 9. Central cholinergic activation induces greater thermoregulatory and cardiovascular responses in spontaneously hypertensive than in normotensive rats.
    da Fonseca SF, Mendonça VA, Silva SB, Domingues TE, Melo DS, Martins JB, Pires W, Santos CFF, de Fátima Pereira W, Leite LHR, Coimbra CC, Leite HR, Lacerda ACR.
    J Therm Biol; 2018 Oct; 77():86-95. PubMed ID: 30196904
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  • 11. The dynamics of physical exercise-induced increases in thalamic and abdominal temperatures are modified by central cholinergic stimulation.
    Damasceno WC, Pires W, Lima MR, Lima NR, Wanner SP.
    Neurosci Lett; 2015 Mar 17; 590():193-8. PubMed ID: 25655022
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  • 12. Effect of p-tyrosol on hemorheological parameters and cerebral capillary network in young spontaneously hypertensive rats.
    Plotnikov MB, Aliev OI, Sidekhmenova AV, Shamanaev AY, Anishchenko AM, Fomina TI, Plotnikova TM, Arkhipov AM.
    Microvasc Res; 2018 Sep 17; 119():91-97. PubMed ID: 29742453
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  • 13. Rats with higher intrinsic exercise capacities exhibit greater preoptic dopamine levels and greater mechanical and thermoregulatory efficiencies while running.
    Rabelo PCR, Cordeiro LMS, Aquino NSS, Fonseca BBB, Coimbra CC, Wanner SP, Szawka RE, Soares DD.
    J Appl Physiol (1985); 2019 Feb 01; 126(2):393-402. PubMed ID: 29927731
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  • 14. Thermoregulation in spontaneously hypertensive rats: effects of antihypertensive treatments.
    O'Donnell A, Volicer L.
    Clin Exp Hypertens (1978); 1981 Feb 01; 3(3):555-67. PubMed ID: 7249878
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  • 15. Pharmacological characterization of apomorphine-induced hypothermia in the spontaneously hypertensive rat.
    Martin JR, Quock RM.
    Life Sci; 1984 Aug 27; 35(9):929-36. PubMed ID: 6472058
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  • 16. The benefits of endurance training in cardiomyocyte function in hypertensive rats are reversed within four weeks of detraining.
    Carneiro-Júnior MA, Quintão-Júnior JF, Drummond LR, Lavorato VN, Drummond FR, da Cunha DN, Amadeu MA, Felix LB, de Oliveira EM, Cruz JS, Prímola-Gomes TN, Mill JG, Natali AJ.
    J Mol Cell Cardiol; 2013 Apr 27; 57():119-28. PubMed ID: 23376037
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  • 18. Increased apomorphine-induced hypothermia precedes development of hypertension in SHRs.
    Quock RM, Vaughn LK.
    Brain Res Bull; 1991 Dec 27; 27(6):857-9. PubMed ID: 1786566
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  • 19. Association between the increase in brain temperature and physical performance at different exercise intensities and protocols in a temperate environment.
    Kunstetter AC, Wanner SP, Madeira LG, Wilke CF, Rodrigues LO, Lima NR.
    Braz J Med Biol Res; 2014 Aug 27; 47(8):679-88. PubMed ID: 25003543
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