BACKGROUND: Current evaluation of pulmonary hypertension (PH) in children involves measurement of pulmonary vascular resistance (PVR); however, PVR neglects important pulsatile components. Pulmonary artery (PA) input impedance and ventricular power (VP) include mean and pulsatile effects and have shown promise as alternative measures of vascular function. Here we report the utility of pulsed-wave (PW) Doppler-measured instantaneous flow and pressure measurements for estimation of input impedance and VP and use this method to develop a novel parameter: reactivity in compliance. METHODS AND RESULTS: An in vitro model of the general pulmonary vasculature was used to obtain impedance and VP, measured by PW Doppler and a reference flow meter. The method was then tested in a preliminary clinical study in subjects with normal PA hemodynamics (n=4) and patients with PH undergoing reactivity evaluation (8 patients; 23 data points). In vitro results showed good agreement between the impedance spectra computed from both flow-measurement methods. Excellent correlation was seen in vitro between actual resistance and the zero-frequency (Z(o)) impedance value (r2=0.984). Excellent agreement was also found between Z(o) and PVR in the clinical measurements (y=1.075x+0.73; r=0.993). Furthermore, total VP and VP/cardiac output increased significantly with hypertension (128.73 to 365.91 mW and 2.42 to 6.69 mW x mL(-1) x s(-1), respectively). The first-harmonic value of impedance (Z1) was used as a measure of compliance reactivity; older patients exhibited markedly less compliance reactivity than did younger patients. CONCLUSIONS: Input impedance and VP calculated from Doppler measurements and a single-catheter pressure measurement provide comprehensive characterization of PH and reactivity.
BACKGROUND: Current evaluation of pulmonary hypertension (PH) in children involves measurement of pulmonary vascular resistance (PVR); however, PVR neglects important pulsatile components. Pulmonary artery (PA) input impedance and ventricular power (VP) include mean and pulsatile effects and have shown promise as alternative measures of vascular function. Here we report the utility of pulsed-wave (PW) Doppler-measured instantaneous flow and pressure measurements for estimation of input impedance and VP and use this method to develop a novel parameter: reactivity in compliance. METHODS AND RESULTS: An in vitro model of the general pulmonary vasculature was used to obtain impedance and VP, measured by PW Doppler and a reference flow meter. The method was then tested in a preliminary clinical study in subjects with normal PA hemodynamics (n=4) and patients with PH undergoing reactivity evaluation (8 patients; 23 data points). In vitro results showed good agreement between the impedance spectra computed from both flow-measurement methods. Excellent correlation was seen in vitro between actual resistance and the zero-frequency (Z(o)) impedance value (r2=0.984). Excellent agreement was also found between Z(o) and PVR in the clinical measurements (y=1.075x+0.73; r=0.993). Furthermore, total VP and VP/cardiac output increased significantly with hypertension (128.73 to 365.91 mW and 2.42 to 6.69 mW x mL(-1) x s(-1), respectively). The first-harmonic value of impedance (Z1) was used as a measure of compliance reactivity; older patients exhibited markedly less compliance reactivity than did younger patients. CONCLUSIONS: Input impedance and VP calculated from Doppler measurements and a single-catheter pressure measurement provide comprehensive characterization of PH and reactivity.
Authors: Steven R Lammers; Phil H Kao; H Jerry Qi; Kendall Hunter; Craig Lanning; Joseph Albietz; Stephen Hofmeister; Robert Mecham; Kurt R Stenmark; Robin Shandas Journal: Am J Physiol Heart Circ Physiol Date: 2008-07-25 Impact factor: 4.733
Authors: Kendall S Hunter; Justin K Gross; Craig J Lanning; K Scott Kirby; Karrie L Dyer; D Dunbar Ivy; Robin Shandas Journal: Congenit Heart Dis Date: 2008 Mar-Apr Impact factor: 2.007
Authors: Fei Liu; Christina Mallarino Haeger; Paul B Dieffenbach; Delphine Sicard; Izabela Chrobak; Anna Maria F Coronata; Margarita M Suárez Velandia; Sally Vitali; Romain A Colas; Paul C Norris; Aleksandar Marinković; Xiaoli Liu; Jun Ma; Chase D Rose; Seon-Jin Lee; Suzy A A Comhair; Serpil C Erzurum; Jacob D McDonald; Charles N Serhan; Stephen R Walsh; Daniel J Tschumperlin; Laura E Fredenburgh Journal: JCI Insight Date: 2016-06-02