Litcius/Paper detail

Cardiovascular positron emission tomography imaging of fibroblast activation: A review of the current literature

Krithika Loganath, Neil Craig, Anna Barton, Shruti Joshi, Constantinos Anagnostopoulos, Paola Anna Erba, Andor W.J.M. Glaudemans, Antti Saraste, Jan Bucerius, Mark Lubberink, Olivier Gheysens, Ronny R. Buechel, Gilbert Habib, Oliver Gaemperli, Alessia Gimelli, Fabien Hyafil, David E. Newby, Riemer H. J. A. Slart, Marc R. Dweck

2024Journal of Nuclear Cardiology18 citationsDOIOpen Access PDF

Abstract

Fibrosis is one of the key healing responses to injury, especially within the heart, where it helps to maintain structural integrity following acute insults such as myocardial infarction. However, if it becomes dysregulated, then fibrosis can become maladaptive, leading to adverse remodelling, impaired cardiac function and heart failure. Fibroblast activation protein is exclusively expressed by activated fibroblasts, the key effector cells of fibrogenesis, and has a unique extracellular domain that is an ideal ligand for novel molecular imaging probes. Fibroblast activation protein inhibitor (FAPI) radiotracers have been developed for positron emission tomography (PET) imaging, demonstrating high selectivity for activated fibroblasts across a range of different pathologies and disparate organ systems. In this review, we will summarise the role of fibroblast activation protein in cardiovascular disease and how FAPI radiotracers might improve the assessment and treatment of patients with cardiovascular diseases.

Topics & Concepts

MedicineFibroblast activation protein, alphaFibroblastHeart failureFibrosisExtracellular matrixEffectorMyocardial infarctionCancer researchPathologyCell biologyInternal medicineImmunologyIn vitroCancerBiologyBiochemistryPeptidase Inhibition and AnalysisCardiac Structural Anomalies and RepairProtease and Inhibitor Mechanisms