[Bernatova I, Conde MV, Kopincova J, Gonzalez MC, Puzserova A, Arribas SM. (2009). Endothelial dysfunction in spontaneously hypertensive rats: focus on methodological aspects. J Hypertens 27: S27-S31.]Search in Google Scholar
[Bernatova I, Csizmadiova Z, Kopincova J, Puzserova A. (2007a). Vascular function and nitric oxide production in chronic social-stress-exposed rats with various family history of hypertension. J Physiol Pharmacol 58: 487-501.]Search in Google Scholar
[Bernatova I, Csizmadiova Z. (2006). Effect of chronic social stress on nitric oxide synthesis and vascular function in rats with family history of hypertension. Life Sci 78: 1726-1732.]Search in Google Scholar
[Bernatova I, Puzserova A, Csizmadiova Z, Andriantsitohaina R, Zeman M. (2007b). Beneficial effect of red wine polyphenols on blood pressure of chronic social stress-exposed hypertensive rats, in Proceedings of Genetic and Environmental Factors in Hypertension 2007 (Bernatova I. ed) pp 23-28, Institute of Normal and Pathological Physiology, Slovak Academy of Sciences, Bratislava.]Search in Google Scholar
[Bernatova I, Puzserova A, Navarova J, Csizmadiova Z, Zeman M. (2007c). Crowding-induced alterations in vascular system of Wistar-Kyoto rats: role of nitric oxide. Physiol Res 56: 667-669.10.33549/physiolres.931386]Search in Google Scholar
[Bugajski J. (1999). Social stress adapts signaling pathways involved in stimulation of the hypothalamic-pituitary-adrenal axis. J Physiol Pharmacol 50: 367-379.]Search in Google Scholar
[Cacanyiova S, Kristek F, Gerova M, Krenek P, Klimas J. (2009). Effect of chronic nNOS inhibition on blood pressure, vasoactivity, and arterial wall structure in Wistar rats. Nitric Oxide 20: 304-310.]Search in Google Scholar
[Cordellini S, Novo R, Lanza Junior U. (2006). Exposure to stress differential vascular adaptive response in spontaneously hypertensive and Wistar rats: Role of nitric oxide, and prehypertensive and hypertensive states. Life Sci 79: 646-653.]Search in Google Scholar
[D'Atri DA, Fitzgerald EF, Kasl SV, Ostfeld AM. (1981). Crowding in prison: the relationship between changes in housing mode and blood pressure. Psychosom Med 43: 95-105.]Search in Google Scholar
[Djordjevic J, Cvijic G, Davidovic V. (2003). Different activation of ACTH and corticosterone release in response to various stressors in rats. Physiol Res 52: 67-72.]Search in Google Scholar
[Dronjak S, Gavrilovic L, Filipovic D, Radojcic MB. (2004). Immobilization and cold stress affect sympatho-adrenomedullary system and pituitary-adrenocortical axis of rats exposed to long-term isolation and crowding. Physiol Behav 81: 409-415.]Search in Google Scholar
[Durackova Z. (2010). Some current insights into oxidative stress. Physiol Res 59: 459-469.]Search in Google Scholar
[Fuchs LC, Hoque AM, Clarke NL. (1998). Vascular and hemodynamic effects of behavioral stress in borderline hypertensive and Wistar-Kyoto rats. Am J Physiol 274: R375-R382.]Search in Google Scholar
[Hansen K, Nedergaard OA. (1999). Methodologic aspects of acetylcholineevoked relaxation of rabbit aorta. J Pharmacol Toxicol Methods 41: 153-159.]Search in Google Scholar
[Harrap SB, Louis WJ, Doyle AE. (1984). Failure of psychosocial stress to induce chronic hypertension in the rat. J Hypertens 2: 653-662.]Search in Google Scholar
[Henry JP, Liu YY, Nadra WE, Qian CG, Mormede P, Lemaire V, Ely D, Hendley ED. (1993). Psychosocial stress can induce chronic hypertension in normotensive strains of rats. Hypertension 21: 714-723.]Search in Google Scholar
[Hu ML, Frankel EN, Leibovitz BE, Tappel AL. (1989). Effect of dietary lipids and vitamin E on in vitro lipid peroxidation in rat liver and kidney homogenates. J Nutr 119: 1574-1582.]Search in Google Scholar
[Kopp MS, Rethelyi J. (2004). Where psychology meets physiology: chronic stress and premature mortality - the Central-Eastern European health paradox. Brain Res Bull 62: 351-367.]Search in Google Scholar
[Kwiecien S, Pawlik MW, Brzozowski T, Konturek PC, Sliwowski Z, Pawlik WW, Konturek SJ. (2008). Nitric oxide (NO)-releasing aspirin and other (NO) donors in protection of gastric mucosa against stress. J Physiol Pharmacol 59: 103-115.]Search in Google Scholar
[Leza JC, Salas E, Sawicki G, Russell JC, Radomski MW. (1998). The effects of stress on homeostasis in JCR-LA-cp rats: the role of nitric oxide. J Pharmacol Exp Ther 286: 1397-1403.]Search in Google Scholar
[Li J, Bukoski RD. (1993). Endothelium-dependent relaxation of hypertensive resistance arteries is not impaired under all conditions. Circ Res 72: 290-296.]Search in Google Scholar
[Malyshev IY, Manukhina EB. (1998). Stress, adaptation, and nitric oxide. Biochemistry (Mosc) 63: 840-853.]Search in Google Scholar
[May JM. (2000). How does ascorbic acid prevent endothelial dysfunction? Free Radic Biol Med 28: 1421-1429.10.1016/S0891-5849(00)00269-0]Search in Google Scholar
[Mulvany MJ, Halpern W. (1977). Contractile properties of small arterial resistance vessels in spontaneously hypertensive and normotensive rats. Circ Res 41: 19-26.]Search in Google Scholar
[Neves VJ, Moura MJ, Tamascia ML, Ferreira R, Silva NS, Costa R, Montemor PL, Narvaes EA, Bernardes CF, Novaes PD, Marcondes FK. (2009). Proatherosclerotic effects of chronic stress in male rats: altered phenylephrine sensitivity and nitric oxide synthase activity of aorta and circulating lipids. Stress 12: 320-327.]Search in Google Scholar
[Paulis L, Zicha J, Kunes J, Hojna S, Behuliak M, Celec P, Kojsova S, Pechanova O, Simko F. (2008). Regression of L-NAME-induced hypertension: the role of nitric oxide and endothelium-derived constricting factor. Hypertens Res 31: 793-803.]Search in Google Scholar
[Pruessner JC, Kirschbaum C, Meinlschmid G, Hellhammer DH. (2003). Two formulas for computation of the area under the curve represent measures of total hormone concentration versus time-dependent change. Psychoneuroendocrinology 28: 916-931.]Search in Google Scholar
[Puzserova A, Csizmadiova Z, Andriantsitohaina R, Bernatova I. (2006). Vascular effects of red wine polyphenols in chronic stress-exposed Wistar-Kyoto rats. Physiol Res 55: S39-S47.]Search in Google Scholar
[Simonsen U, Rodriguez-Rodriguez R, Dalsgaard T, Buus NH, Stankevicius E. (2009). Novel approaches to improving endothelium-dependent nitric oxide-mediated vasodilatation. Pharmacol Rep 61: 105-115.]Search in Google Scholar
[Sivonova M, Zitnanova I, Hlincikova L, Skodacek I, Trebaticka J, Durackova Z. (2004). Oxidative stress in university students during examinations. Stress 7:183-188.]Search in Google Scholar
[Stankevicius E, Kevelaitis E, Vainorius E, Simonsen U. (2003). Role of nitric oxide and other endothelium-derived factors. Medicina (Kaunas) 39: 333-341.]Search in Google Scholar
[Torok J. (2008). Participation of nitric oxide in different models of experimental hypertension. Physiol Res 57: 813-825.]Search in Google Scholar
[Webb RC, Vander AJ, Henry JP. (1987). Increased vasodilator responses to acetylcholine in psychosocial hypertensive mice. Hypertension 9: 268-276.]Search in Google Scholar
[Yamori Y, Matsumoto M, Yamabe H, Okamoto K. (1969). Augmentation of spontaneous hypertension by chronic stress in rats. Jpn Circ J 33: 399-409.]Search in Google Scholar
[Yin FC, Spurgeon HA, Rakusan K, Weisfeldt ML, Lakatta EG. (1982). Use of tibial length to quantify cardiac hypertrophy: application in the aging rat. Am J Physiol 243: H941-H947.]Search in Google Scholar
[Zafir A, Banu N. (2007). Antioxidant potential of fluoxetine in comparison to Curcuma longa in restraint-stressed rats. Eur J Pharmacol 572: 23-31.]Search in Google Scholar
[Zafir A, Banu N. (2009). Modulation of in vivo oxidative status by exogenous corticosterone and restraint stress in rats. Stress 12: 167-177.]Search in Google Scholar