Department of Physiology and Pharmacology, Fluminense Federal University, Niterói, Brazil.
Department of Physical Education and Sports, Fluminense Federal University, Niterói, Brazil.
Geriatr Gerontol Int. 2018 May;18(5):692-697. doi: 10.1111/ggi.13231. Epub 2018 Jan 22.
To investigate the influence of breathing patterns and blood pressure behavior postural control in older adults.
A total of 20 older adults carried out spontaneous, controlled (15 cycles/min) and deep (6 cycles/min) breathing trials, in random order. In this session, the heart rate was recorded continuously and blood pressure measured every 3 min. In addition, the challenge from sitting to an active standing position was carried out with eyes closed during 6 min on a baropodometer plate with electromyography recording. The root mean square (RMS) of electromyography was calculated.
There were significant differences in the postural control with spontaneous breathing from the first minute (center of pressure [COP]-area 216.40 ± 116.70 mm ) in comparison with the third minute (COP-area 79.35 ± 68.11 mm ; d = 0.89; P < 0.01) and the sixth minute (COP-area 70.24 ± 41.26 mm ; d = 0.60; P < 0.05) of active standing. Furthermore, deep breathing significantly increases the COP-area (158.50 ± 126.2 mm ) at the sixth minute of active standing in comparison with spontaneous breathing (70.24 ± 41.26 mm ; d = 0.80; P < 0.01). There were also significant differences in systolic blood pressure during spontaneous breathing between the baseline measures (sitting position 123 ± 11 mmHg) and the first minute of active standing (117 ± 13 mmHg; d = 0.24; P < 0.05). Furthermore, electromyography activity of the tibialis anterior increased during the deep (17.52 ± 9.21 RMS) and controlled breathing (16.75 ± 5.26 RMS) compared with the spontaneous condition (14.93 ± 5.56 RMS; d = 0.17; P < 0.05).
The present data provide important insight into the respiratory and hemodynamics effects of postural control in older adults. The current data confirm that deep breathing causes periodic perturbation in the neuromuscular compensation of the lower limbs. Geriatr Gerontol Int 2018; 18: 692-697.
探讨呼吸模式对老年人血压和姿势控制的影响。
共 20 名老年人随机进行自发性、控制性(15 次/分钟)和深呼吸(6 次/分钟)呼吸试验。在此过程中,连续记录心率,每 3 分钟测量 1 次血压。此外,在平衡仪平台上闭眼进行 6 分钟主动站立位挑战,同时记录肌电图。计算肌电图均方根(RMS)。
与主动站立的第 1 分钟(中心压力[COP]-面积 216.40±116.70mm)相比,自主呼吸的姿势控制在第 3 分钟(COP-面积 79.35±68.11mm;d=0.89;P<0.01)和第 6 分钟(COP-面积 70.24±41.26mm;d=0.60;P<0.05)存在显著差异。此外,与自主呼吸相比,深吸气在主动站立的第 6 分钟显著增加了 COP 面积(158.50±126.2mm)(d=0.80;P<0.01)。在自主呼吸期间,收缩压在基线测量(坐姿 123±11mmHg)和主动站立的第 1 分钟(117±13mmHg;d=0.24;P<0.05)之间也存在显著差异。此外,与自主呼吸相比,胫骨前肌的肌电图活动在深吸气(17.52±9.21RMS)和控制性呼吸(16.75±5.26RMS)期间增加(d=0.17;P<0.05)。
本研究数据为老年人呼吸和血液动力学对姿势控制的影响提供了重要的见解。目前的数据证实,深呼吸会导致下肢神经肌肉代偿的周期性波动。老年医学与老年病学杂志 2018;18:692-697。
