Bryan J Taylor, Thomas P Olson, Chul-Ho-Kim, Dean Maccarter, Bruce D Johnson
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引用次数: 21
摘要
我们确定了基于肺血管(PV)电容估算的无创气体交换[PVCAP =卒中容积(SV) ×肺动脉压(Ppa)] (GXCAP)是否追踪心力衰竭(HF)患者运动后的PV反应。对42例行右心导管置入术的心衰患者进行循环运动,同时测量肺楔压(Ppw)、Ppa、PV阻力(PVR)和气体交换。运动时,PETCO2与VE/VCO2相互相关(r = -0.93, P < 0.01),与平均Ppa (mPpa)相似(r = -0.39和0.36;P < 0.05);PETCO2随后被用作mPpa的度量。氧脉冲(O2脉冲)跟踪SV对运动的反应(r = 0.91, P < 0.01)。因此,GXCAP计算为O2脉冲× PETCO2。运动时,有创测定PVCAP与无创测定GXCAP相关(r = 0.86, P < 0.01), GXCAP与mPpa、PVR相关(r = -0.46、-0.54;P < 0.01)。总之,无创气体交换措施可能是追踪HF患者运动后PV反应的一种简单方法。
Use of noninvasive gas exchange to track pulmonary vascular responses to exercise in heart failure.
We determined whether a non-invasive gas exchange based estimate of pulmonary vascular (PV) capacitance [PVCAP = stroke volume (SV) × pulmonary arterial pressure (Ppa)] (GXCAP) tracked the PV response to exercise in heart-failure (HF) patients. Pulmonary wedge pressure (Ppw), Ppa, PV resistance (PVR), and gas exchange were measured simultaneously during cycle exercise in 42 HF patients undergoing right-heart catheterization. During exercise, PETCO2 and VE/VCO2 were related to each other (r = -0.93, P < 0.01) and similarly related to mean Ppa (mPpa) (r = -0.39 and 0.36; P < 0.05); PETCO2 was subsequently used as a metric of mPpa. Oxygen pulse (O2 pulse) tracked the SV response to exercise (r = 0.91, P < 0.01). Thus, GXCAP was calculated as O2 pulse × PETCO2. During exercise, invasively determined PVCAP and non-invasive GXCAP were related (r = 0.86, P < 0.01), and GXCAP correlated with mPpa and PVR (r = -0.46 and -0.54; P < 0.01). In conclusion, noninvasive gas exchange measures may represent a simple way to track the PV response to exercise in HF.
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