TY - JOUR
T1 - A 3-Year Single Center Experience With Left Atrial Pressure Remote Monitoring: The Long and Winding Road
AU - Restivo, Attilio
AU - D'AMARIO, DOMENICO
AU - Paglianiti, Donato Antonio
AU - Laborante, Renzo
AU - Princi, Giuseppe
AU - Cappannoli, Luigi
AU - Iaconelli, Antonio
AU - Galli, Mattia
AU - Aspromonte, Nadia
AU - Locorotondo, Gabriella
AU - Burzotta, Francesco
AU - Trani, Carlo
AU - Crea, Filippo
PY - 2022
Y1 - 2022
N2 - BackgroundDespite continuous advancement in the field, heart failure (HF) remains the leading cause of hospitalization among the elderly and the overall first cause of hospital readmission in developed countries. Implantable hemodynamic monitoring is being tested to anticipate the clinical exacerbation onset, potentially preventing an emergent acute decompensation. To date, only pulmonary artery pressure (PAP) sensor received the approval to be implanted in symptomatic heart failure patients with reduced ejection fraction. However, PAP's indirect estimation of left ventricular filling pressure can be inaccurate in some contexts. MethodsThe VECTOR-HF study (NCT03775161) is examining the safety, usability and performance of the V-LAP system, a latest-generation device capable of continuously monitoring left atrial pressure (LAP). In our center, five advanced HF patients have been enrolled. After confirmation of the transmitted data reliability, LAP trends and waveforms have guided therapy optimization. The aim of this work is to share clinical insights from our center preliminary experience with V-LAP application. ResultsOver a median follow-up time of 18 months, LAP-based therapy optimization managed to reduce intracardiac pressure over time and no hospital readmission occurred. This result was paralleled by an improvement in both functional capacity (6MWT distance 352.5 +/- 86.2 meters at baseline to 441.2 +/- 125.2 meters at last follow-up) and quality of life indicators (KCCQ overall score 63.82 +/- 16.36 vs. 81.92 +/- 9.63; clinical score 68.47 +/- 19.48 vs. 83.70 +/- 15.58). ConclusionPreliminary evidence from V-LAP application at our institution support a promising efficacy. However, further study is needed to confirm the technical reliability of the device and to exploit the clinical benefit of left-sided hemodynamic remote monitoring.
AB - BackgroundDespite continuous advancement in the field, heart failure (HF) remains the leading cause of hospitalization among the elderly and the overall first cause of hospital readmission in developed countries. Implantable hemodynamic monitoring is being tested to anticipate the clinical exacerbation onset, potentially preventing an emergent acute decompensation. To date, only pulmonary artery pressure (PAP) sensor received the approval to be implanted in symptomatic heart failure patients with reduced ejection fraction. However, PAP's indirect estimation of left ventricular filling pressure can be inaccurate in some contexts. MethodsThe VECTOR-HF study (NCT03775161) is examining the safety, usability and performance of the V-LAP system, a latest-generation device capable of continuously monitoring left atrial pressure (LAP). In our center, five advanced HF patients have been enrolled. After confirmation of the transmitted data reliability, LAP trends and waveforms have guided therapy optimization. The aim of this work is to share clinical insights from our center preliminary experience with V-LAP application. ResultsOver a median follow-up time of 18 months, LAP-based therapy optimization managed to reduce intracardiac pressure over time and no hospital readmission occurred. This result was paralleled by an improvement in both functional capacity (6MWT distance 352.5 +/- 86.2 meters at baseline to 441.2 +/- 125.2 meters at last follow-up) and quality of life indicators (KCCQ overall score 63.82 +/- 16.36 vs. 81.92 +/- 9.63; clinical score 68.47 +/- 19.48 vs. 83.70 +/- 15.58). ConclusionPreliminary evidence from V-LAP application at our institution support a promising efficacy. However, further study is needed to confirm the technical reliability of the device and to exploit the clinical benefit of left-sided hemodynamic remote monitoring.
KW - device in heart failure
KW - digital health
KW - heart failure
KW - hemodynamic remote monitoring
KW - remote care technologies
KW - telemonitoring
KW - device in heart failure
KW - digital health
KW - heart failure
KW - hemodynamic remote monitoring
KW - remote care technologies
KW - telemonitoring
UR - https://iris.uniupo.it/handle/11579/176222
U2 - 10.3389/fcvm.2022.899656
DO - 10.3389/fcvm.2022.899656
M3 - Article
SN - 2297-055X
VL - 9
JO - Frontiers in Cardiovascular Medicine
JF - Frontiers in Cardiovascular Medicine
ER -