Direct Detection of Pulmonary Fibrosis by Near-Infrared-Responsive Biomimetic Platelets

Abstract: Background: Pulmonary fibrosis (PF) is a fatal lung disease and affects over 5 million patients worldwide. Precise and early detection of PF is of pivotal importance to slow the disease progression. However, there are currently no effective tools to detect PF directly. Purpose: This study aimed to develop an imaging modality to detect PF directly. Excessive collagen deposition is the hallmark of PF. Herein, we developed a novel PF diagnostic agent, namely PVD (platelets-derived nanovesicles labeled with dye), … Show more

“…Platelet-derived nanovesicles labeled with dye (PVD) represent a biomimetic platelet platform that is designed to evade immune recognition and retain native binding properties by preserving the platelet adhesion molecules. It was developed for detecting pulmonary fibrosis utilizing near-infrared fluorescence (NIRF) imaging [ 91 ]. In an IPF and hypertension rat model induced by monocrotaline (MCT), PVD was capable of specifically binding collagen and directly detect IPF in the early stage.…”

Molecular Imaging of Fibrosis in Benign Diseases: An Overview of the State of the Art

“…Platelet-derived nanovesicles labeled with dye (PVD) represent a biomimetic platelet platform that is designed to evade immune recognition and retain native binding properties by preserving the platelet adhesion molecules. It was developed for detecting pulmonary fibrosis utilizing near-infrared fluorescence (NIRF) imaging [ 91 ]. In an IPF and hypertension rat model induced by monocrotaline (MCT), PVD was capable of specifically binding collagen and directly detect IPF in the early stage.…”

Molecular Imaging of Fibrosis in Benign Diseases: An Overview of the State of the Art

Megakaryocytes in pulmonary diseases