The pericyte: cellular regulator of microvascular blood flow
about
Blood-CNS Barrier Impairment in ALS patients versus an animal modelIlluminating viral infections in the nervous systemTargeting pericytes for angiogenic therapies.Therapeutic strategies to improve drug delivery across the blood-brain barrier.The CNS microvascular pericyte: pericyte-astrocyte crosstalk in the regulation of tissue survival.Pericytes support neutrophil subendothelial cell crawling and breaching of venular walls in vivo.Calpain- and talin-dependent control of microvascular pericyte contractility and cellular stiffness.Endothelial Fli1 deficiency impairs vascular homeostasis: a role in scleroderma vasculopathy.Satellite cells and the muscle stem cell nicheBlood-brain barrier impairment in an animal model of MPS III BManipulating the microvasculature and its microenvironment.Plexiform lesions in pulmonary arterial hypertension composition, architecture, and microenvironmentRenal blood flow and oxygenation drive nephron progenitor differentiation.New vessel formation in peritumoral area of squamous cell carcinoma of the head and neck.Pericyte contractility controls endothelial cell cycle progression and sprouting: insights into angiogenic switch mechanics.Efficient in vivo vascularization of tissue-engineering scaffoldsA new dynamic in vitro modular capillaries-venules modular system: cerebrovascular physiology in a box.Targeting the neurovascular unit for treatment of neurological disorders.Rat choroidal pericytes as a target of the autonomic nervous system.Granulocyte/macrophage colony-stimulating factor influences angiogenesis by regulating the coordinated expression of VEGF and the Ang/Tie system.Pericytes, microvasular dysfunction, and chronic rejection.Pericyte chemomechanics and the angiogenic switch: insights into the pathogenesis of proliferative diabetic retinopathy?The evolving roles of pericyte in early brain injury after subarachnoid hemorrhage.Pericyte regulation of vascular remodeling through the CXC receptor 3VEGF-directed blood vessel patterning: from cells to organism.Vasoregression: A Shared Vascular Pathology Underlying Macrovascular And Microvascular Pathologies?A novel and simple method for culturing pericytes from mouse brain.Enhancing microvascular formation and vessel maturation through temporal control over multiple pro-angiogenic and pro-maturation factors.The origin, molecular regulation and therapeutic potential of myogenic stem cell populations.Pericyte-endothelial crosstalk: implications and opportunities for advanced cellular therapies.Cellular and molecular aspects of vascular dysfunction in systemic sclerosis.Dynamic reciprocity in the wound microenvironment.Microvascular modifications in diabetic retinopathy.Vascular complications and diabetes: current therapies and future challenges.Microvascular remodeling and wound healing: a role for pericytes.Focus on cardiac pericytes.Epigenetic control of skeletal muscle regeneration: Integrating genetic determinants and environmental changesRecruitment and retention: factors that affect pericyte migration.The complexity of cell composition of the intima of large arteries: focus on pericyte-like cells.The blood-brain barrier: structure, function and therapeutic approaches to cross it.
P2860
Q27026792-C4818AB6-AE29-4AA2-B3AB-28F85EBD7F48Q27310280-AA16E997-023E-43B5-AFEF-2A808383535AQ30355907-5D80646C-48D2-4588-96E2-855BC164EBD4Q30407443-83954F6C-9C10-4F24-91FA-732437BF7DAFQ30476883-5AD609AC-E182-4613-9098-5BA09BFD7100Q30515728-0237C71F-E1B0-42AF-96BA-6861D219F3DAQ33657916-6D73BC24-340D-4F9C-A61D-CE156201A6E2Q33745284-E2968A40-D6E8-41F6-BF74-0EF6BD885AABQ33816665-D127B1BA-2040-400B-82E1-05F1AA38439EQ33847821-E95B7F9F-611D-46D7-BCA8-C1F59771D0BAQ33893860-AE74C583-F32B-42F4-9507-1654CCB7BAE6Q33942620-AE97A62A-C4A7-42A9-AFA2-E9FECC0F5F27Q34001282-1E64A750-D4C3-4B1F-B3EA-FDC283EAAEDDQ34086332-495F7372-11CD-4326-A6CF-186F791EE3D6Q34439465-9ED316E6-0E4F-40D9-A51F-AAA58ADE5D3FQ34441892-7C81428F-8EF3-4D3A-90F1-E46802E4F0A4Q34578713-51B24C80-9598-42DE-B68F-5D2BB971F028Q34974827-13F1F704-28D9-4043-9E01-916F693740BEQ35066730-296EFADA-1064-40D5-ACB5-C1D9A5378581Q35128068-2D724E0E-017B-4234-986C-7051F21B8FABQ35681643-E02E635F-8F16-4962-91DC-0CFBBCD4CDDFQ35724475-B7D3CE3A-5437-4B20-932A-AD7A0207CC19Q36058921-DC798D6A-6B6A-4046-9A11-9BE690FD60CEQ36112820-6D9E4BD0-07CF-4941-A4E7-D69850345048Q36186517-39C6F865-45B2-4300-B68F-E689BCAD21F1Q36384149-85E00B6A-7D96-48E9-B6EA-055E3CD7A7ECQ37106956-33208E29-3E9E-418E-B1BF-D4386C6E42ABQ37262654-5530A647-098C-439C-91AC-AF2AE1E09706Q37585530-6EA4E9CB-2C5F-4D7F-8434-D9A4E2EE5BD2Q37686482-73946BFB-C269-4B13-BB95-219FE0C45206Q37768336-5E71BA96-3B33-4E23-81DB-77C05AD565E0Q37848470-27EB3BB9-E50F-4395-A54F-DD851D0F37CFQ37879581-C722F427-1E88-4C38-A0A8-1EC8ACB18190Q37978317-30551CDB-2CE7-4615-B543-F4522112317BQ38023082-CE46807A-CE8D-4746-A932-B10FB9B06F9FQ38084912-E65D9E36-39BC-4812-8702-DFD84B3C96F3Q38112733-A4B675EE-B5F6-4487-920F-CD14429C2FD8Q38126398-627FF27A-CC15-44B0-B7BB-A4C4998943AAQ38228732-66EA3FFB-77B0-41FD-B07E-E7F863A192B0Q38232202-5C4ECCE5-37FE-4306-A272-F573E812C1A8
P2860
The pericyte: cellular regulator of microvascular blood flow
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 07 February 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
The pericyte: cellular regulator of microvascular blood flow
@en
The pericyte: cellular regulator of microvascular blood flow.
@nl
type
label
The pericyte: cellular regulator of microvascular blood flow
@en
The pericyte: cellular regulator of microvascular blood flow.
@nl
prefLabel
The pericyte: cellular regulator of microvascular blood flow
@en
The pericyte: cellular regulator of microvascular blood flow.
@nl
P2860
P1476
The pericyte: cellular regulator of microvascular blood flow
@en
P2093
Ira M Herman
Matthew E Kutcher
P2860
P304
P356
10.1016/J.MVR.2009.01.007
P577
2009-02-07T00:00:00Z