Hedelin Petter1, Agger Erik, Ekmehag Björn, Rådegran Göran. 1. GoRadLab, The Öresund Cardiovascular Research Collaboration, The Clinic for heart Failure and valvular heart disease, Department of Cardiology, Lund University and Skåne University Hospital, Sweden. petter.hedelin@gmail.com
Abstract
BACKGROUND: This study compared the non-invasive thoracic electrical bioimpedance Aesculon technique (TEB(Aesculon) ) with thermodilution (TD) to evaluate whether TEB(Aesculon) may offer a reliable means for estimating cardiac output (CO) in humans. MATERIAL AND METHOD: Cardiac output was measured with TD and TEB(Aesculon) in 33 patients, with a mean age ± SEM of 59 ± 2·7 years, that underwent right heart catheterization for clinical investigation of pulmonary hypertension or severe heart failure. Four to five CO measurements were performed with each technique simultaneously in 33 patients at rest, 11 during exercise and seven during NO inhalation. RESULT: Cardiac output correlated poorly between TEB(Aesculon) and TD at rest (r = 0·46, P<0·001), during exercise (r = 0·35, P<0·013) and NO inhalation (r = 0·41, P<0·017). CO was higher for TEB(Aesculon) than TD with 0·86 ± 0·14 l min(-1) at rest (P<0·001) and 2·95 ± 0·69 l min(-1) during exercise (P< 0·003), but similar during NO inhalation, with a tendency (P< 0·079) to be 0·44 ± 0·19 l min(-1) higher for TEB(Aesculon) than TD. CO increased from rest to exercise for TEB(Aesculon) and TD with 6·11 ± 0·6 l min(-1) (P<0·001) and 3·91 ± 0·36 l min(-1) (P<0·001), respectively; an increase that was higher (P<0·002) for TEB(Aesculon) than TD. During NO inhalation, compared to rest, CO decreased for TEB(Aesculon) with 0·62 ± 0·11 l min(-1) (P<0·002), but not significantly for TD with 0·21 ± 0·12 l min(-1) (P<0·11). Bland-Altman analysis showed a poor agreement between TEB(Aesculon) and TD. CONCLUSION: TEB(Aesculon) overestimated CO compared to TD with ∼17% at rest and ∼34% during exercise, but the techniques showed similar results during NO inhalation. CO, furthermore, correlated poorly between TEB(Aesculon) and TD. TEB(Aesculon) may at present not replace TD for reliable CO measurements in humans.
BACKGROUND: This study compared the non-invasive thoracic electrical bioimpedance Aesculon technique (TEB(Aesculon) ) with thermodilution (TD) to evaluate whether TEB(Aesculon) may offer a reliable means for estimating cardiac output (CO) in humans. MATERIAL AND METHOD: Cardiac output was measured with TD and TEB(Aesculon) in 33 patients, with a mean age ± SEM of 59 ± 2·7 years, that underwent right heart catheterization for clinical investigation of pulmonary hypertension or severe heart failure. Four to five CO measurements were performed with each technique simultaneously in 33 patients at rest, 11 during exercise and seven during NO inhalation. RESULT: Cardiac output correlated poorly between TEB(Aesculon) and TD at rest (r = 0·46, P<0·001), during exercise (r = 0·35, P<0·013) and NO inhalation (r = 0·41, P<0·017). CO was higher for TEB(Aesculon) than TD with 0·86 ± 0·14 l min(-1) at rest (P<0·001) and 2·95 ± 0·69 l min(-1) during exercise (P< 0·003), but similar during NO inhalation, with a tendency (P< 0·079) to be 0·44 ± 0·19 l min(-1) higher for TEB(Aesculon) than TD. CO increased from rest to exercise for TEB(Aesculon) and TD with 6·11 ± 0·6 l min(-1) (P<0·001) and 3·91 ± 0·36 l min(-1) (P<0·001), respectively; an increase that was higher (P<0·002) for TEB(Aesculon) than TD. During NO inhalation, compared to rest, CO decreased for TEB(Aesculon) with 0·62 ± 0·11 l min(-1) (P<0·002), but not significantly for TD with 0·21 ± 0·12 l min(-1) (P<0·11). Bland-Altman analysis showed a poor agreement between TEB(Aesculon) and TD. CONCLUSION: TEB(Aesculon) overestimated CO compared to TD with ∼17% at rest and ∼34% during exercise, but the techniques showed similar results during NO inhalation. CO, furthermore, correlated poorly between TEB(Aesculon) and TD. TEB(Aesculon) may at present not replace TD for reliable CO measurements in humans.
Authors: Frederik Trinkmann; Manuel Berger; Christina Doesch; Theano Papavassiliu; Stefan O Schoenberg; Martin Borggrefe; Jens J Kaden; Joachim Saur Journal: J Clin Monit Comput Date: 2015-06-27 Impact factor: 2.502
Authors: Michael Pienn; Gabor Kovacs; Maria Tscherner; Thorsten R Johnson; Peter Kullnig; Rudolf Stollberger; Andrea Olschewski; Horst Olschewski; Zoltán Bálint Journal: Int J Cardiovasc Imaging Date: 2013-08-23 Impact factor: 2.357
Authors: Saulius Sadauskas; Albinas Naudžiūnas; Alvydas Unikauskas; Edita Mašanauskienė; Giedrė Bakšytė; Andrius Macas Journal: Med Sci Monit Date: 2016-10-09