Percutaneous reduction of septal-to-lateral mitral annular distance to increase mitral leaflet coaptation length: Preclinical study results.

Percutaneous indirect annuloplasty has emerged as a treatment strategy for functional/ischemic mitral regurgitation. This study sought to evaluate the feasibility of percutaneous indirect annuloplasty technique using a new device. The device has 3 components: the "saddle" inserted into the great cardiac vein, the "plug" positioned in the left ventricular outflow tract, and the "bridge," a transatrial suture connecting the 2 holding elements. The aim was to shorten the septal-to-lateral distance of the mitral annulus by pulling on the saddle element. The procedure was performed through venous access in healthy adult sheep. A dedicated catheter holding a needle was used to deploy the saddle into the great cardiac vein and pierce its wall toward the left atrium to deploy the expanded polytetrafluoroethylene suture that is part of the bridge. A catheter for transseptal puncture was inserted for crossing the interatrial septum and piercing the aortic-mitral curtain, thereby allowing the plug to be deployed. The plug was held in place by the second part of the expanded polytetrafluoroethylene bridge. The 2 parts of the bridge were then joined to reduce the septal-to-lateral mitral annular distance. The septal-to-lateral distance and the coaptation length at P2 level were measured before and after the procedure using echocardiography. Overall, 10 animals were treated, 7 successfully. The mean procedure duration was 110 ± 81 minutes. Septal-to-lateral distance decreased from 3.8 mm to 2.6 mm (30%), and maximum increase of mitral leaflet coaptation was 4 mm. This new approach seems promising for percutaneous treatment of functional mitral regurgitation

IgA Vasculitis With Henoch-Schönlein Purpura as an Immune Complication Associated With Left Ventricle Assist Device Insertion.

The implantation of left ventricular assist devices (LVADs) in patients with end-stage heart failure can be associated with some forms of immune dysregulation and systemic inflammatory response. These abnormalities may be related to impaired T-lymphocyte-dependent immunity and B-lymphocyte hyper-reactivity and may lead to the development of autoimmune processes and the occurrence of severe infections. We present here the first observation of a peculiar immune complication associated with the implantation of an LVAD, characterized by an IgA vasculitis clinically manifested as Henoch-Schönlein purpura. The vasculitis was biologically associated with a significant increase of the plasma levels of C-X-C motif chemokine ligand (CXCL)13, a CXC motif chemokine produced by follicular dendritic cells, which targets CXCR5, a receptor primarily expressed by B lymphocytes, to promote their chemotaxis and expansion. Spontaneous resolution of the vasculitis occurred over time, concomitantly to a decrease of CXCL13 expression. These findings suggest that CXCL13 might be an interesting biomarker to detect auto-antigen sampling and the risk of secondary immune complications following LVAD implantation