Litcius/Paper detail

Improving Diuretic Response in Heart Failure by Implementing a Patient-Tailored Variability and Chronotherapy-Guided Algorithm

Ariel Kenig, Yotam Kolben, Rabea Asleh, Offer Amir, Yaron Ilan

2021Frontiers in Cardiovascular Medicine51 citationsDOIOpen Access PDF

Abstract

Heart failure is a major public health problem, which is associated with significant mortality, morbidity, and healthcare expenditures. A substantial amount of the morbidity is attributed to volume overload, for which loop diuretics are a mandatory treatment. However, the variability in response to diuretics and development of diuretic resistance adversely affect the clinical outcomes. Morevoer, there exists a marked intra- and inter-patient variability in response to diuretics that affects the clinical course and related adverse outcomes. In the present article, we review the mechanisms underlying the development of diuretic resistance. The role of the autonomic nervous system and chronobiology in the pathogenesis of congestive heart failure and response to therapy are also discussed. Establishing a novel model for overcoming diuretic resistance is presented based on a patient-tailored variability and chronotherapy-guided machine learning algorithm that comprises clinical, laboratory, and sensor-derived inputs, including inputs from pulmonary artery measurements. Inter- and intra-patient signatures of variabilities, alterations of biological clock, and autonomic nervous system responses are embedded into the algorithm; thus, it may enable a tailored dose regimen in a continuous manner that accommodates the highly dynamic complex system.

Topics & Concepts

Chronotherapy (sleep phase)DiureticHeart failureMedicineLoop diureticIntensive care medicineAutonomic nervous systemRegimenCardiologyInternal medicineCircadian rhythmHeart rateBlood pressureHeart Rate Variability and Autonomic ControlReceptor Mechanisms and SignalingCardiac electrophysiology and arrhythmias