MONITORING OF VOLUME STATUS USING A NOVEL SENSOR FOR THE ASSESSMENT OF INFERIOR VENA CAVA AREA AND COLLAPSIBILITY IN A PATIENT WITH HFREF RECEIVING ADVANCED HEART FAILURE THERAPIES
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Málek, F., Doškář, P., Wetterling, F., Marešová, Z., Reddy, V., Neužil, P., MONITORING OF VOLUME STATUS USING A NOVEL SENSOR FOR THE ASSESSMENT OF INFERIOR VENA CAVA AREA AND COLLAPSIBILITY IN A PATIENT WITH HFREF RECEIVING ADVANCED HEART FAILURE THERAPIES, Czech Cardiovascular Research and Innovation Days 2023, Prague, Czech Republic, 20-21 November 2023, 2023, 1Download Item:
Abstract:
Background: A novel sensor designed to measure infe-
rior vena cava (IVC) area over time was used in this study
(FIRE1). The system consists of the implantable sensor and
an external belt, which is worn around the patient’s ab-
domen for a minute per day. The resonant frequency of
the sensor is detected externally by the belt. The results
provide an accurate measurement of IVC area and col-
lapsibility index.
Case study: A patient, 48-year-old male, had six years his-
tory of chronic HFrEF due to idiopathic dilated cardiomy-
opathy. The patient had stable NYHA class III symptoms at
the time of enrolment in the study. The patient met the
criteria for the study using this novel sensor, which was
implanted in January 2020 and the system measured the
changes in the patient’s IVC area over time on a daily basis.
The patient was admitted to hospital because of worsening of heart failure with symptoms and signs of low cardiac
output and congestion due to slow ventricular tachycardia
under the ICD detection in September 2021. The patient
was dependent on inotropes and referred to an advanced
heart failure therapy centre. Finally, the patient received
an LVAD (HeartMate 3) as a bridge to heart transplant in
October 2021. The patient stayed in the study and has con-
tinued to acquire daily sensor readings. The patient under-
went successfull heart tranplantation on 26th March 2023.
Results: We report the changes of IVC area and collaps
ibility index as assessed at time of worsening of heart
failure, after LVAD implantation and after heart transplantation.
Conclusion: In this case study, the changes in IVC area and
collapsibility index as assessed by a novel sensor system
appeared to have predictive value of the subject’s deterioration towards advanced therapies, and subsequently
responded positively post LVAD implantation and heart
transplant.
Author's Homepage:
http://people.tcd.ie/wetterf
Author: Wetterling, Friedrich
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