Mastoplastia de aumento via axilar: avaliação da técnica subfascial

Our field study provides novel data on nocturnal oxygen saturation, breathing patterns, and ventilation at very high altitude. It demonstrates that periodic breathing increases during acclimatization over 2 weeks at altitudes greater than 3,730 m, despite improved oxygen saturation consistent with a progressive increase in loop gain of the respiratory control system. Clinical trial registered with www.clinicaltrials.gov (NCT00514826).

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Effect of Acetazolamide and AutoCPAP Therapy on Breathing Disturbances Among Patients With Obstructive Sleep Apnea Syndrome Who Travel to Altitude

Latshang¹,

Nussbaumer-Ochsner²,

Henn³

et al. 2012

JAMA

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Are Nocturnal Breathing, Sleep, and Cognitive Performance Impaired at Moderate Altitude (1,630–2,590 m)?

Latshang¹,

Cascio²,

Stöwhas³

et al. 2013

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Patients With Obstructive Sleep Apnea Syndrome Benefit From Acetazolamide During an Altitude Sojourn

Nussbaumer-Ochsner

Latshang

Ulrich

et al. 2012

Chest

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Sleep at high altitude: guesses and facts

Bloch

Buenzli

Latshang

et al. 2015

Journal of Applied Physiology

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Lowlanders commonly report a poor sleep quality during the first few nights after arriving at high altitude. Polysomnographic studies reveal that reductions in slow wave sleep are the most consistent altitude-induced changes in sleep structure identified by visual scoring. Quantitative spectral analyses of the sleep electroencephalogram have confirmed an altitude-related reduction in the low-frequency power (0.8-4.6 Hz). Although some studies suggest an increase in arousals from sleep at high altitude, this is not a consistent finding. Whether sleep instability at high altitude is triggered by periodic breathing or vice versa is still uncertain. Overnight changes in slow wave-derived encephalographic measures of neuronal synchronization in healthy subjects were less pronounced at moderately high (2,590 m) compared with low altitude (490 m), and this was associated with a decline in sleep-related memory consolidation. Correspondingly, exacerbation of breathing and sleep disturbances experienced by lowlanders with obstructive sleep apnea during a stay at 2,590 m was associated with poor performance in driving simulator tests. These findings suggest that altitude-related alterations in sleep may adversely affect daytime performance. Despite recent advances in our understanding of sleep at altitude, further research is required to better establish the role of gender and age in alterations of sleep at different altitudes, to determine the influence of acclimatization and of altitude-related illness, and to uncover the characteristics of sleep in highlanders that may serve as a study paradigm of sleep in patients exposed to chronic hypoxia due to cardiorespiratory disease.

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Exercise Performance of Lowlanders with COPD at 2,590 m: Data from a Randomized Trial

et al. 2018

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Background: Effects of hypobaric hypoxia at altitude on exercise performance of lowlanders with chronic obstructive pulmonary disease (COPD) have not been studied in detail. Objectives: To quantify changes in exercise performance and associated physiologic responses in lowlanders with COPD travelling to moderate altitude. Methods: A total of 31 COPD patients with a median age (quartiles) of 66 years (59; 69) and FEV₁ of 56% predicted (49; 69) living below 800 m performed a constant-load bicycle exercise to exhaustion at 60% of the maximal work rate at 490 m (Zurich) and at an identical work rate at 2,590 m (Davos) in randomized order. Pulmonary gas exchange, pulse oximetry (SpO₂), cerebral tissue oxygenation (CTO; near-infrared spectroscopy), and middle cerebral artery peak blood flow velocity (MCAv) by Doppler ultrasound during 30 s at end exercise were compared between altitudes. Results: With ascent from 490 to 2,590 m, the median endurance time (quartiles) was reduced from 500 s (256; 795) to 205 s (139; 297) by a median (95% CI) of 303 s (150–420) (p < 0.001). End exercise SpO₂ decreased from 92% (89; 94) to 81% (77; 84) and CTO from 62% (56; 66) to 55% (50; 60); end exercise minute ventilation increased from 40.6 L/min (35.5; 47.8) to 47.2 L/min (39.6; 58.7) (p < 0.05; all comparisons 2,590 vs. 490 m). MCAv increased similarly from rest to end exercise at 490 m (+25% [17; 36]) and at 2,590 m (+21% [14; 30]). However, the ratio of MCAv increase to SpO₂ drop during exercise decreased from +6%/% (3; 12) at 490 m to +3%/% (2; 5) at 2,590 m (p < 0.05). Conclusions: In lowlanders with COPD travelling to 2,590 m, exercise endurance is reduced by more than half compared to 490 m in association with reductions in systemic and cerebral oxygen availability.

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Exacerbations of chronic obstructive pulmonary disease: when are antibiotics indicated? A systematic review

et al. 2007

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Tsogyal D. Latshang

Acquired Resistance to Bedaquiline and Delamanid in Therapy for Tuberculosis

Nocturnal Periodic Breathing during Acclimatization at Very High Altitude at Mount Muztagh Ata (7,546 m)

Effect of Acetazolamide and AutoCPAP Therapy on Breathing Disturbances Among Patients With Obstructive Sleep Apnea Syndrome Who Travel to Altitude

Are Nocturnal Breathing, Sleep, and Cognitive Performance Impaired at Moderate Altitude (1,630–2,590 m)?

Patients With Obstructive Sleep Apnea Syndrome Benefit From Acetazolamide During an Altitude Sojourn

Sleep at high altitude: guesses and facts

Exercise Performance of Lowlanders with COPD at 2,590 m: Data from a Randomized Trial

Exacerbations of chronic obstructive pulmonary disease: when are antibiotics indicated? A systematic review

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