Blind method for rescaling detection and rescale factor estimation in digital images using periodic properties of interpolation

Neovascularization is an understudied aspect of calcific aortic valve disease (CAVD). Within diseased valves, cells along the neovessels' periphery stain for pericyte markers, but it is unclear whether valvular interstitial cells (VICs) can demonstrate a pericyte-like phenotype. This investigation examined the perivascular potential of VICs to regulate valve endothelial cell (VEC) organization and explored the role of Angiopoeitin1-Tie2 signaling in this process. Porcine VECs and VICs were fluorescently tracked and co-cultured in Matrigel over 7 days. VICs regulated early VEC network organization in a ROCK-dependent manner, then guided later VEC network contraction through chemoattraction. Unlike vascular control cells, the valve cell cultures ultimately formed invasive spheroids with 3D angiogenic-like sprouts. VECs co-cultured with VICs displayed significantly more invasion than VECs alone; with VICs generally leading and wrapping around VEC invasive sprouts. Lastly, Angiopoietin1-Tie2 signaling was found to regulate valve cell organization during VEC/VIC spheroid formation and invasion. VICs demonstrated pericyte-like behaviors toward VECs throughout sustained co-culture. The change from a vasculogenic network to an invasive sprouting spheroid suggests that both cell types undergo phenotypic changes during long-term culture in the model angiogenic environment. Valve cells organizing into spheroids and undergoing 3D invasion of Matrigel demonstrated several typical angiogenic-like phenotypes dependent on basal levels of Angiopoeitin1-Tie2 signaling and ROCK activation. These results suggest that the ectopic sustained angiogenic environment during the early stages of valve disease promotes organized activity by both VECs and VICs, contributing to neovessel formation and the progression of CAVD.

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Regulation of valve endothelial cell vasculogenic network architectures with ROCK and Rac inhibitors

Arevalos

Walborn

Rupert

et al. 2015

Microvascular Research

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Use of a functionalized introducer sheath and bioimpedance spectroscopy for real-time detection of vascular access complications

Arevalos

Nathan

Razavi³

2015

Journal of Medical Engineering & Technology

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Internal bleeding complications (IBCs) occurring at vascular access sites are associated with worsening patient outcomes and increased costs. This study assessed the IBC detection capabilities of a bioimpedance spectroscopy (BS) monitoring system that uses a novel functionalized introducer sheath. The device was tested in three large animal models of a clinical IBC. A 120-mL perivascular saline injection after sheath insertion, a slow continuous perivascular saline injection of 2.6 mL min(-1) of saline and a vessel-puncture model were tested. In each case, a significant change in normalized impedance was detected compared to the controls. This study provides evidence that a functionalized vascular access sheath using BS can detect an intraprocedural vascular access IBC. Clinical use of the device could help guide patient care by directly detecting vascular access complications early, thereby preventing unnecessary diagnostic scans to rule out the presence of IBCs.

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404

Daileda¹,

John²,

Chen³

et al. 2015

Critical Care Medicine

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Christopher Arevalos

Extracellular Matrix Organization, Structure, and Function

Valve Interstitial Cells Act in a Pericyte Manner Promoting Angiogensis and Invasion by Valve Endothelial Cells

Regulation of valve endothelial cell vasculogenic network architectures with ROCK and Rac inhibitors

Use of a functionalized introducer sheath and bioimpedance spectroscopy for real-time detection of vascular access complications

404

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