BACKGROUND: Acute heart failure (AHF) evolves through two phases. In the first phase, there is interstitial congestion with no clinical sign of edema (preclinical phase); the second, during which lung alveoli begin to fill with fluid, manifests as clinically overt alveolar edema. Treatment of AHF at its preclinical phase can alleviate its clinical impact. Presently, there is no technique that detects the interstitial phase of AHF. We used a device based on a new method of lung bioimpedance measurement. The device measures internal thoracic impedance (ITI), which nearly equals inherent lung bioimpedance. This method can detect small changes in lung fluid that occur during the interstitial stage of AHF. AIM: The objective of this study was to assess the feasibility and efficacy of the said new method in detecting preclinical AHF. METHODS: Internal thoracic impedance and pertinent clinical parameters were monitored for 72 h in 403 patients hospitalized for an acute coronary syndrome without evidence of AHF at study entry. RESULTS: Seventy patients developed AHF during monitoring. Internal thoracic impedance decreased in these patients by 16.4% (95% CI=-12.2% to -20.6%; P<.0001) from the baseline level at 44+/-15.1 min prior to the onset of lung rales. The other 333 patients had no clinical sign of AHF, and their ITI declined only by 4.5% (95% CI=2.5% to -11.5%; P=.3) compared with the baseline level. CONCLUSION: The new method for ITI measurement is sufficiently sensitive in detecting AHF at its preclinical stage. An ITI decrease of more than 12% heralds the appearance of clinically overt AHF and, thus, allows earlier therapy.
BACKGROUND: Acute heart failure (AHF) evolves through two phases. In the first phase, there is interstitial congestion with no clinical sign of edema (preclinical phase); the second, during which lung alveoli begin to fill with fluid, manifests as clinically overt alveolar edema. Treatment of AHF at its preclinical phase can alleviate its clinical impact. Presently, there is no technique that detects the interstitial phase of AHF. We used a device based on a new method of lung bioimpedance measurement. The device measures internal thoracic impedance (ITI), which nearly equals inherent lung bioimpedance. This method can detect small changes in lung fluid that occur during the interstitial stage of AHF. AIM: The objective of this study was to assess the feasibility and efficacy of the said new method in detecting preclinical AHF. METHODS: Internal thoracic impedance and pertinent clinical parameters were monitored for 72 h in 403 patients hospitalized for an acute coronary syndrome without evidence of AHF at study entry. RESULTS: Seventy patients developed AHF during monitoring. Internal thoracic impedance decreased in these patients by 16.4% (95% CI=-12.2% to -20.6%; P<.0001) from the baseline level at 44+/-15.1 min prior to the onset of lung rales. The other 333 patients had no clinical sign of AHF, and their ITI declined only by 4.5% (95% CI=2.5% to -11.5%; P=.3) compared with the baseline level. CONCLUSION: The new method for ITI measurement is sufficiently sensitive in detecting AHF at its preclinical stage. An ITI decrease of more than 12% heralds the appearance of clinically overt AHF and, thus, allows earlier therapy.
Authors: Sean Collins; Alan B Storrow; Nancy M Albert; Javed Butler; Justin Ezekowitz; G Michael Felker; Gregory J Fermann; Gregg C Fonarow; Michael M Givertz; Brian Hiestand; Judd E Hollander; David E Lanfear; Phillip D Levy; Peter S Pang; W Frank Peacock; Douglas B Sawyer; John R Teerlink; Daniel J Lenihan Journal: J Card Fail Date: 2014-07-18 Impact factor: 5.712
Authors: Sean P Collins; Alan B Storrow; Phillip D Levy; Nancy Albert; Javed Butler; Justin A Ezekowitz; G Michael Felker; Gregory J Fermann; Gregg C Fonarow; Michael M Givertz; Brian Hiestand; Judd E Hollander; David E Lanfear; Peter S Pang; W Frank Peacock; Douglas B Sawyer; John R Teerlink; Daniel J Lenihan Journal: Acad Emerg Med Date: 2014-11-25 Impact factor: 3.451
Authors: Michael Shochat; Avraham Shotan; David S Blondheim; Mark Kazatsker; Iris Dahan; Aya Asif; Ilia Shochat; Aaron Frimerman; Yoseph Rozenman; Simcha R Meisel Journal: J Clin Monit Comput Date: 2014-09-06 Impact factor: 2.502
Authors: Michael Kleiner Shochat; Marat Fudim; Avraham Shotan; David S Blondheim; Mark Kazatsker; Iris Dahan; Aya Asif; Yoseph Rozenman; Ilia Kleiner; Jean Marc Weinstein; Gurusher Panjrath; Paul A Sobotka; Simcha R Meisel Journal: ESC Heart Fail Date: 2018-08-10
Authors: Gideon Charach; Olga Rubalsky; Lior Charach; Alexander Rabinovich; Ori Argov; Ori Rogowski; Jacob George Journal: PLoS One Date: 2015-04-28 Impact factor: 3.240