奇脈(呼吸によって脈拍が変化する症候)
出典(authority):フリー百科事典『ウィキペディア(Wikipedia)』「2015/01/15 21:45:19」(JST)
Pulsus Paradoxus | |
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Classification and external resources | |
DiseasesDB | 11041 |
Pulsus paradoxus (PP), also paradoxic pulse or paradoxical pulse, is an abnormally large decrease in systolic blood pressure and pulse wave amplitude during inspiration. The normal fall in pressure is less than 10 mmHg or 10 torr. When the drop is more than 10mm Hg, it is referred to as pulsus paradoxus. Pulsus paradoxus is not related to pulse rate or heart rate. The normal variation of blood pressure during breathing/respiration is a decline in blood pressure during inhalation and an increase during exhalation. Pulsus paradoxus is a sign that is indicative of several conditions, including cardiac tamponade, pericarditis, chronic sleep apnea, croup, and obstructive lung disease (e.g. asthma, COPD).[1]
The paradox in pulsus paradoxus is that, on clinical examination, one can detect beats on cardiac auscultation during inspiration that cannot be palpated at the radial pulse.[1] It results from an accentuated decrease of the blood pressure, which leads to the (radial) pulse not being palpable and may be accompanied by an increase in the jugular venous pressure height (Kussmaul's sign). As is usual with inspiration, the heart rate is slightly increased,[2] due to decreased left ventricular output.[3]
Normally during inspiration, systolic blood pressure decreases ≤10 mmHg.,[1] and pulse rate goes up slightly. This is because inspiration makes intrathoracic pressure more negative relative to atmospheric pressure. The negative pressure in the thorax increases venous return, so more blood flows into the right side of the heart. However, the decrease in intrathoracic pressure also expands the compliant pulmonary vasculature. This increase in pulmonary blood capacity pools the blood in the lungs, and decreases pulmonary venous return, so flow is reduced to the left side of the heart. Also the increased systemic venous return to the right side of the heart expands the right heart and directly compromises filling of the left side of the heart. Reduced left-heart filling leads to a reduced stroke volume which manifests as a decrease in systolic blood pressure. The decrease in systolic blood pressure leads to a faster heart rate due to the baroreceptor reflex, which stimulates sympathetic outflow to the heart.
Although it might be tempting to expect during inspiration that the increased volume of the right ventricle causes the septum to bulge dramatically into the left ventricle, this is unlikely, as there is still a large pressure gradient between the right and left ventricles during inspiration. However, during cardiac tamponade, this is the case. Here, pressure equalizes between all of the chambers of the heart.[4] This means that there is a zero-sum gain and as the right ventricle gets more volume, it can push the septum into the left ventricle and therefore reduce the volume of the left ventricle. This additional loss of volume of the left ventricle that only occurs with equalization of the pressures (as in tamponade) allows for the further reduction in volume, so cardiac output is reduced, leading to a further decline in BP. However, in situations where the left ventricular pressure remains higher than the pericardial sac (most frequently from coexisting disease with an elevated left ventricular diastolic pressure), there is no pulsus paradoxus.[5]
Although one or both of these mechanisms may occur, a third may additionally contribute. The large negative intrathoracic pressure increases the pressure across the wall of the left ventricle (increased transmural pressure, equivalent to [pressure within ventricle] - [pressure outside of ventricle]). This pressure gradient, resisting the contraction of the left ventricle, causes an increase in afterload. This results in a decrease in stroke volume, contributing to the decreased pulse pressure and increased heart rate as described above.
Pulsus paradoxus occurs not only with severe cardiac tamponade, but also with asthma, obstructive sleep apnea and croup. The mechanism, at least with severe tamponade, is likely very similar to those of hypertrophic and restrictive cardiomyopathies (diastolic dysfunction), where a decrease in Left Ventricular (LV) filling corresponds to an increasingly reduced stroke volume. In other words, with these cardiomyopathies, as LV filling decreases, ejection fraction decreases directly, yet non-linearly and with a negative concavity (negative first and second derivatives). Similarly with tamponade, the degree of diastolic dysfunction is inversely proportional to the LV end-diastolic volume. So during inspiration, since LV filling is lesser relative to that during expiration, the diastolic dysfunction is also proportionally greater, so the systolic pressure drops >10 mm Hg. This mechanism is also likely with pericarditis, where diastolic function is chastened.
PP is quantified using a blood pressure cuff and stethoscope (Korotkoff sounds), by measuring the variation of the systolic pressure during expiration and inspiration. Inflate cuff until no sounds (as is normally done when taking a BP) slowly decrease cuff pressure until systolic sounds are first heard during expiration but not during inspiration, (note this reading), slowly continue decreasing the cuff pressure until sounds are heard throughout the respiratory cycle, (inspiration and expiration)(note this second reading). If the pressure difference between the two readings is >10mmHg, it can be classified as pulsus paradoxus.
PP has been shown to be predictive of the severity of cardiac tamponade.[6]
Pulsus paradoxus can be caused by several physiologic mechanisms. Anatomically, these can be grouped into:[1]
Considered physiologically, PP is caused by:
Cardiac:
Pulmonary:
Non-pulmonary and non-cardiac:
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リンク元 | 「脈拍」「奇脈」 |
関連記事 | 「paradoxical」「paradoxic」「pulse」 |
脈拍数 | |
新生児 | 120 |
乳児 | 120 |
幼児 | 90 |
学童 | 80 |
中高生 | 70 |
収縮性心膜炎 | 心タンポナーデ | |
奇脈 | + | +++ |
クスマウル徴候 | +++ | - |
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