• World Neurosurg · Nov 2014

    Mechanisms of endothelial cell attachment, proliferation, and differentiation on 4 types of platinum-based endovascular coils.

    • Aditya S Pandey, James D San Antonio, Sankar Addya, Saul Surrey, Paolo Fortina, Elisabeth J Van Bockstaele, and Erol Veznedaroglu.
    • Department of Neurosurgery, University of Michigan, Ann Arbor, Michigan, USA. Electronic address: adityap@med.umich.edu.
    • World Neurosurg. 2014 Nov 1;82(5):684-95.

    ObjectiveA subarachnoid hemorrhage is neurologically devastating, with 50% of patients becoming disabled or deceased. Advent of Guglielmi detachable coils in 1995 permitted endovascular treatment of cerebral aneurysms. Coiling is efficacious and safe, but durability needs improvement, as nearly 20% of patients require further invasive intervention secondary to aneurysm recurrence. The aim of this study is to develop an in vitro model of endothelial cell (EC) proliferation and differentiation on four types of platinum-based coils, using gene expression profiling to understand EC biology as they colonize and differentiate on coils.MethodsHuman umbilical vein ECs were grown in vitro on platinum coil segments. Growth patterns were assessed as a function of coil type. Gene expression profiles for coil attached versus coil unattached ECs were determined using immunohistochemistry and gene array analysis.ResultsECs showed rapid, robust attachment to all coil types. Some detachment occurred within 24-48 hours. Significant growth of remaining attached cells occurred during the next week, creating a confluence on coils and within coil grooves. Similar growth curve results were obtained with human brain ECs on platinum-based coil surfaces. Differentiation markers in attached cells (α(1), α(2), β(1) integrins) were expressed on immunostaining, whereas microarray gene expression revealed 48 up-regulated and 68 down-regulated genes after 24-hour growth on coils. Major pathways affected as a function of time of colonization on coils and coil type included those involved in regulation of cell cycle and cell signaling.ConclusionsWe developed an in vitro model for evaluating endothelialization of platinum coils to optimize coil design to support robust EC colonization and differentiation.Copyright © 2014. Published by Elsevier Inc.

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