Reduced hypoxic ventilatory response with preserved blood oxygenation in yoga trainees and Himalayan Buddhist monks at altitude: evidence of a different adaptive strategy?

Yoga induces long-term changes in respiratory function and control. We tested whether it represents a successful strategy for high-altitude adaptation. We compared ventilatory, cardiovascular and hematological parameters in: 12 Caucasian yoga trainees and 12 control sea-level residents, at baseline and after 2-week exposure to high altitude (Pyramid Laboratory, Nepal, 5,050 m), 38 active lifestyle high-altitude natives (Sherpas) and 13 contemplative lifestyle high-altitude natives with practice of yoga-like respiratory exercises (Buddhist monks) studied at 5,050 m.

Vasovagal syncope in emergency room patients: analysis of a metropolitan area registry.

The aim of this study was to assess the epidemiology of syncope in unselected patients referred to an emergency room and eventually admitted to the clinical wards to perform a complete work-up, and to analyze the costs of hospitalization. The clinical charts of all patients referred for all causes to the emergency rooms of three hospitals in the Florence area during the year 2000 and of all patients admitted from the emergency rooms to the clinical wards with a diagnosis of lone-related (vasovagal) or disease-related syncope were revised. A total of 1,290 (3.

Effect of rosary prayer and yoga mantras on autonomic cardiovascular rhythms: comparative study.

Objective: To test whether rhythmic formulas such as the rosary and yoga mantras can synchronise and reinforce inherent cardiovascular rhythms and modify baroreflex sensitivity.

Design: Comparison of effects of recitation of the Ave Maria (in Latin) or of a mantra, during spontaneous and metronome controlled breathing, on breathing rate and on spontaneous oscillations in RR interval, and on blood pressure and cerebral circulation.

Setting: Florence and Pavia, Italy.

Peripheral arterial vascular function at altitude: sea-level natives versus Himalayan high-altitude natives.

Objectives: Regulation of the vascular system may limit physical performance and contribute to adaptation to high altitude. We evaluated vascular function in 10 Himalayan high-altitude natives and 10 recently acclimatized sea-level natives at an altitude of 5,050 m.

Methods: We registered electrocardiogram, blood flow velocity in the common femoral artery, and blood pressure in the radial artery using non-invasive methods under baseline conditions, and during maximal vasodilation after 2 min leg occlusion.