Freyschuss U, Melcher A
Scand J Clin Lab Invest. 1975 Oct;35(6):487-96.
The effect of tidal volume (VT) and of the intrathoracic pressure (Poes) on the respiratory sinus arrhythmia (RSA) was studied in healthy subjects. They breathed into a spirometer with a VT of 1, 1.5, and 2 1, at a standardized, slow respiratory rate, 6-min-1 (A). Poes was varied by (B) adding a negative inspiratory pressure (NIP) of 5 cm of water and by (C) intermittent positive pressure ventilation (IPPV) at identical VT and respiratory frequency. In a separate study (D), intermittent negative pressure ventilation (INPV) was induced by applying negative pressure on the thorax. In A, increasing VT provoked an augmented RSA by a more marked tachycardia as well as bradycardia. On increasing the amplitude of Poes in B, RSA was somewhat more marked due to a lower minimum heart rate. When comparing respiratory cycles that had similar Poes but a different VT, the larger VT caused a slight increase in the RSA amplitude due to a more marked deceleration of the heart rate. IPPV almost abolished RSA, whereas INPV did not reduce the arrhythmia. It is concluded that pulmonary stretch reflexes to a minor extent contribute to RSA, whereas the hypothesis of a central nervous origin does not gain support. Cardiovascular reflexes remain the main possible cause of RSA.
在健康受试者中研究了潮气量(VT)和胸内压(Poes)对呼吸性窦性心律不齐(RSA)的影响。他们以标准化的慢呼吸频率(每分钟6次)向肺活量计中呼气,潮气量分别为1升、1.5升和2升(A)。通过(B)施加5厘米水柱的负压吸气(NIP)以及(C)在相同潮气量和呼吸频率下进行间歇正压通气(IPPV)来改变胸内压。在另一项研究(D)中,通过对胸部施加负压来诱发间歇负压通气(INPV)。在A中,增加潮气量会通过更明显的心动过速和心动过缓引发增强的RSA。在B中增加胸内压的幅度时,由于最低心率较低,RSA会更加明显。当比较具有相似胸内压但潮气量不同的呼吸周期时,较大的潮气量由于心率更明显的减速而导致RSA幅度略有增加。IPPV几乎消除了RSA,而INPV并未减轻心律失常。得出的结论是,肺牵张反射在一定程度上对RSA有影响,而中枢神经起源的假设未得到支持。心血管反射仍然是RSA的主要可能原因。
