Effect of intermittent hypoxia on cardiovascular function, adrenoceptors and muscarinic receptors in Wistar rats

Germack, Renée; León‐Velarde, Fabiola; Barra, Rafael; Farías, Jorge G.; Soto, G Sebastián; Richalet, Jean‐Paul

doi:10.1111/j.1469-445x.2002.tb00058.x

Cited by 36 publications

(39 citation statements)

References 30 publications

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“…Less reproducible findings have been reported for HR changes following CIH. Indeed, both significant increases or no changes of the HR in rats and mice have been described after intermittent hypoxia or sleep apnea (7,17). Tachycardia is a frequent finding in OSA patients (38).…”

Section: Discussionmentioning

confidence: 99%

Chronic intermittent hypoxia impairs baroreflex control of heart rate but enhances heart rate responses to vagal efferent stimulation in anesthetized mice

Lin¹,

Liu²,

Gozal³

et al. 2007

American Journal of Physiology-Heart and Circulatory Physiology

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Z. Chronic intermittent hypoxia impairs baroreflex control of heart rate but enhances heart rate responses to vagal efferent stimulation in anesthetized mice. Am J Physiol Heart Circ Physiol 293: H997-H1006, 2007. First published March 23, 2007; doi:10.1152/ajpheart.01124.2006.-Chronic intermittent hypoxia (CIH) leads to increased sympathetic nerve activity and arterial hypertension. In this study, we tested the hypothesis that CIH impairs baroreflex (BR) control of heart rate (HR) in mice, and that decreased cardiac chronotropic responsiveness to vagal efferent activity contributes to such impairment. C57BL/6J mice were exposed to either room air (RA) or CIH (6-min alternations of 21% O2 and 5.7% O2, 12 h/day) for 90 days. After the treatment period, mice were anesthetized (Avertin) and arterial blood pressure (ABP) was measured from the femoral artery. Mean ABP (MABP) was significantly increased in mice exposed to CIH (98.7 Ϯ 2.5 vs. RA: 78.9 Ϯ 1.4 mmHg, P Ͻ 0.001). CIH increased HR significantly (584.7 Ϯ 8.9 beats/min; RA: 518.2 Ϯ 17.9 beats/min, P Ͻ 0.05). Sustained infusion of phenylephrine (PE) at different doses (0.1-0.4 g/min) significantly increased MABP in both CIH and RA mice, but the ABP-mediated decreases in HR were significantly attenuated in mice exposed to CIH (P Ͻ 0.001). In contrast, decreases in HR in response to electrical stimulation of the left vagus nerve (30 A, 2-ms pulses) were significantly enhanced in mice exposed to CIH compared with RA mice at low frequencies. We conclude that CIH elicits a sustained impairment of baroreflex control of HR in mice. The blunted BR-mediated bradycardia occurs despite enhanced cardiac chronotropic responsiveness to vagal efferent stimulation. This suggests that an afferent and/or a central defect is responsible for the baroreflex impairment following CIH. nucleus ambiguus; obstructive sleep apnea; cardiac ganglia OBSTRUCTIVE SLEEP APNEA (OSA) is associated with substantial morbidities involving the central nervous system and cardiovascular systems (43, 50). Chronic intermittent hypoxia (CIH), which epitomizes one of the characteristics of OSA, has been used as a useful model for OSA (18,41). Regarding the latter, of particular physiological and clinical importance, is baroreflex control of heart rate (HR) (baroreflex sensitivity). Attenuation of baroreflex sensitivity is closely associated with several clinical conditions, including heart failure (16, 25, 44), and is considered as an independent risk factor for cardiac failure and sudden death (22). Therefore, an increased understanding of the physiological and anatomical characteristics of CIHassociated changes of the baroreflex pathways is clearly needed for improved formulation of interventional strategies aimed at reducing the morbidity associated with OSA.Previously, we demonstrated that baroreflex control of the HR was significantly reduced following CIH in Fisher 344 (F344) young adult rats (29). In addition, we showed that vagal cardiac motor neurons in the nucleus ambiguus projecting to cardiac...

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Section: Discussionmentioning

confidence: 99%

Chronic intermittent hypoxia impairs baroreflex control of heart rate but enhances heart rate responses to vagal efferent stimulation in anesthetized mice

Lin¹,

Liu²,

Gozal³

et al. 2007

American Journal of Physiology-Heart and Circulatory Physiology

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“…Male rats have previously been demonstrated to respond to CHH with cardiovascular changes similar to mine workers labouring at high altitude [1]. Exposure of male rats to intermittent hypobaric hypoxia and chronic hypobaric hypoxia produces an increase in haematocrit, decrease in testicular mass, deterioration of interstitial cells, increase of the interstitial space, damage to the germinal epithelium, increase of the seminiferous tubule lumen, a strong metabolic stress and loss of spermatogenic cells [8,9].…”

Section: Discussionmentioning

confidence: 99%

“…This also implies that it is highly likely that the plasma volume would be decreased and that all blood cellular components and protein or protein bound metabolites would be concentrated in rats exposed to CHH. Although part of the increase in haematocrit could be attributed to a decrease in the plasma volume (7-8%), the changes in haematocrit observed previously [1,8,9] should be ascribed to an increase in the number of red blood cell, most likely due to erythropoietin activation of bone marrow in CHH rats (e.g., [14]). The proposed decrease in plasma volume implies that decreases of plasma components would be underestimated, while increases in plasma components could be partly attributed to blood concentration.…”

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Time Course of Endocrine Changes in the Hypophysis-Gonad Axis Induced by Hypobaric Hypoxia in Male Rats

et al. 2008

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Abstract. Chronic hypobaric hypoxia (CHH) induces a decrease in sperm output and spermatogenesis in male rats. The mechanisms that underlie these changes in testicular function are unknown and could involve changes in the hypophysis-gonad axis. We have tested the hypothesis that changes take place in the endocrine status (FSH, follicle stimulating hormone; LH, luteinizing hormone; testosterone) of rats subjected to CHH. Male Wistar rats were maintained under normobaric or hypobaric conditions (428 torr, 4,600 m). On days 0, 5, 15 and 30 post-exposure, 12 rats were anesthetized, their body weights were measured and blood samples were collected. The testicles were fixed in 4% formaldehyde and processed for histological analysis. In this time course, the FSH levels rose by day 5 post-exposure. On subsequent days, the FSH levels decreased in rats subjected to CHH with a tendency to remain higher than the normoxic group. The LH plasma levels decreased in rats exposed to CHH. Consistent with the decrease in LH levels, the plasma testosterone level decreased significantly after 30 days of CHH exposure. Integrated analysis of hormonal changes in rats subjected to CHH and the body dehydration that occurs in HH allows us to conclude that the effects of CHH on spermatogenesis may be partially related to changes in the hypophysis-gonad hormonal axis. Key words: Fertility, High altitude, Hypobaric hypoxia, Testicular function, Testis (J. Reprod. Dev. 54: [18][19][20][21] 2008) hronic hypobaric hypoxia (CHH) is experienced by an increasing number of sea level natives exposed to high altitude because of tourism, border patrol, mining or rural health and education activities [1]. It has been suggested that hypobaric hypoxia reduces fertility in humans. Nonetheless, epidemiological studies of high and low altitude populations have not been able to verify this proposal [2]. Based on the hormonal changes observed in men and rats at high altitude, some authors have proposed that CHH affects the hypothalamic/gonad axis (e.g. [3][4][5]). However, the results in the literature have been controversial. Nelson et al. reported that the plasma levels of GH, LH, FSH and TSH of hypoxic rats did not differ from the control values [3]. These results are in agreement with the reported absence of changes in the testosterone levels of rats exposed to hypoxia compared with sea level controls published by Gonzales et al. [5]. Instead, Sawhaney et al. [4] reported a decrease in the LH and testosterone levels in men exposed to CHH. Exposure of male rats to chronic hypobaric hypoxia and intermittent hypobaric hypoxia induced evident changes in testicular morphology [6][7][8][9], strong metabolic stress and loss of spermatogenic cells [8]. Local changes observed in testicles exposed to hypoxia include neovascularization and an increase in temperature. Thus, local changes that could lead to the observed effects on spermatogenesis do occur. However, it is highly likely that these local changes are also accompanied by changes in the hypophysis-gon...

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“…It is estimated that there is a working population of over 55,000 who are exposed to hypobaric hypoxia (high altitude sickness). Miners work under these conditions for 4 to 20 days, followed by days off at sea level, and this is repeated over several years (Jalil et al, 1994, Germack et al, 2002Richalet et al, 2002). Intermittent exposure to high altitudes is virtually unknown to date; however it is an unusual condition for workers involving a series of changes at the physiological and cellular levels aimed to compensate the decrease in partial oxygen pressure (PO 2 ).…”

Section: Introductionmentioning

confidence: 99%

Melatonin Protects the Heart, Lungs and Kidneys from Oxidative Stress under Intermittent Hypobaric Hypoxia in Rats

2012

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Melatonin (N-acetyl-5-methoxytryptamine) is the main secretory product of the pineal gland in all mammals including humans, but it is also produced in other organs. It has been previously demonstrated to be a powerful organ-protective substance under oxidative stress conditions. The aim of this study was to evaluate the protective effect of melatonin in several organs such as heart, lung, kidney, and of the reproductive system, such as testis and epididymis in animals exposed to intermittent hypobaric hypoxia and therefore exposed to oxidative stress and analyzed by lipid peroxidation. Ten-week-old male Wistar rats were divided into 6 groups for 96 hours during 32 days under: 1) Normobaric conditions, 2) plus physiologic solution, 3) plus melatonin, 4) intermittent hypobaric hypoxia, 5 plus physiologic solution and 6) plus melatonin. The animals were injected with melatonin (10 mg/kg body weight) at an interval of 96 hours during 32 days. Results indicated that melatonin decreased lipid peroxidation in heart, kidneys and lung under intermittent hypobaric hypoxia conditions. However, it did not exhibit any protective effect in liver, testis, epididymis and sperm count.

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Effect of intermittent hypoxia on cardiovascular function, adrenoceptors and muscarinic receptors in Wistar rats

Cited by 36 publications

References 30 publications

Chronic intermittent hypoxia impairs baroreflex control of heart rate but enhances heart rate responses to vagal efferent stimulation in anesthetized mice

Chronic intermittent hypoxia impairs baroreflex control of heart rate but enhances heart rate responses to vagal efferent stimulation in anesthetized mice

Time Course of Endocrine Changes in the Hypophysis-Gonad Axis Induced by Hypobaric Hypoxia in Male Rats

Melatonin Protects the Heart, Lungs and Kidneys from Oxidative Stress under Intermittent Hypobaric Hypoxia in Rats

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