Results 151 to 160 of about 29,720 (220)

M2 Tumor-Associated Macrophages and Microvessel Density at the Invasive Front of Resected Gastric Adenocarcinoma: A Clinicopathological Study. [PDF]

open access: yesCancers (Basel)
Szajewski M   +9 more
europepmc   +1 more source

Quantifying skin microvascular function responses to distinct forms of heat stress in humans using optical coherence tomography

open access: yesExperimental Physiology, EarlyView.
Abstract Optical coherence tomography (OCT) enables visualization and quantification of the cutaneous microvasculature, yet no study has compared responses to distinct forms of heating in humans. We hypothesized that local skin heating (LH) would evoke larger responses in microvascular diameter, velocity, flow and density than passive whole‐body ...
Kristanti W. Wigati   +5 more
wiley   +1 more source

Endoglin Expression and Microvessel Density as Prognostic Factors in Pediatric Rhabdomyosarcoma. [PDF]

open access: yesJ Clin Med, 2021
Radzikowska J   +10 more
europepmc   +1 more source

Calcium‐activated chloride channels in pericytes and their role in regulating organ blood flow

open access: yesThe Journal of Physiology, EarlyView.
Abstract figure legend Pericytes are microvascular mural cells with diverse roles. Contractile pericytes directly regulate local perfusion, while non‐contractile pericytes coordinate upstream vascular contractility via propagating electrical signals.
Paolo Tammaro, Hikaru Hashitani
wiley   +1 more source

Angiogensis in bladder cancer: Relationship between microvessel density and tumor prognosis

open access: yes, 2018
[[abstract]]Background : Tumor stage, histologic grade, and regional lymph node status are currently used to obtain prognostic information about bladder cancers. However, additional prognostic indicators are needed to aid clinicians in selecting patients
Bernard, H.Bochner;Richard, J.Cote;Weidner, Noel;Groshen, Susan;Chen, Su-Chiu;Donald, G.Skinner;Peter, W.Nichols
core  

Energetic microdomains and the vascular control of neuronal and muscle excitability: Toward a unified model

open access: yesThe Journal of Physiology, EarlyView.
Abstract figure legend The capillary–mitochondria–ion channel (CMIC) axis scales structural resources to match functional workload. (Left) In settings of restricted energetic capacity (e.g. cortical neurons), sparse capillary networks and modest mitochondrial pools set a lower energetic ceiling, sufficient to support phasic, low‐workload excitability. (
L. Fernando Santana, Scott Earley
wiley   +1 more source

Home - About - Disclaimer - Privacy