about
Improvement of human keratinocyte migration by a redox active bioelectric dressingSuppression of Induced microRNA-15b Prevents Rapid Loss of Cardiac Function in a Dicer Depleted Model of Cardiac DysfunctionHypoxia inducible microRNA 210 attenuates keratinocyte proliferation and impairs closure in a murine model of ischemic wounds.Loss of miR-29b following acute ischemic stroke contributes to neural cell death and infarct size.Does oral supplementation of a fermented papaya preparation correct respiratory burst function of innate immune cells in type 2 diabetes mellitus patients?MicroRNAs in skin and wound healing.Silver-zinc redox-coupled electroceutical wound dressing disrupts bacterial biofilmMitochondrially targeted α-tocopheryl succinate is antiangiogenic: potential benefit against tumor angiogenesis but caution against wound healingBarrier Function of the Repaired Skin Is Disrupted Following Arrest of Dicer in KeratinocytesmiR-210: the master hypoxamir.microRNA and Wound Healing.Can Imaging Put the "Advanced" Back in Advanced Wound Care?MicroRNA Regulation of Oxidative Stress.Transforming growth factor-β in liver cancer stem cells and regeneration.Biological Efficacy of Medicinal Plant Extracts in Preventing Oxidative DamageTissue microarray analysis delineate potential prognostic role of Annexin A7 in prostate cancer progressionA Porcine Wound Model of InfectionDelivery of silver sulfadiazine and adipose derived stem cells using fibrin hydrogel improves infected burn wound regeneration.Redox Control of Vascular Biology
P50
Q21090652-6EDD8B33-57BE-496D-82BC-C855EDF3BAC2Q27313741-4A584102-6368-4ABD-B82D-D79E468C9C8AQ33544133-0EFB84C8-CE17-4921-BB3D-E8EC7FD80317Q34697381-A3B54AA1-5CDE-4630-BE42-5D582ED5F18DQ34981734-279AFDD1-9B28-4FF0-A1BD-F2691673058FQ35033659-DBD61F42-7BBF-4043-B1F0-7F4D7FCA725DQ35213801-D98839B4-422C-45C1-8817-7B16F16393DCQ35445080-261FF04B-5588-4E16-96E7-224518F5F97BQ36756789-1BDFF758-03C0-407B-802C-782A3573CA12Q37968614-7BB36115-4531-47C0-838A-5A86D967627CQ41676741-1566A46E-A8AA-4B59-945E-A44CB4121015Q42344630-71ED1729-9B99-472F-9A71-9188C320812BQ48292232-E84FD926-8CBC-4A66-871A-0A6967BF3C9BQ52699075-30E0136D-BF1B-4391-BCE9-168B33B752A4Q57300423-8EF8C485-B099-49C4-83F4-244831884652Q57465557-B7FC1D3D-6243-488A-A3DF-7AAE13927892Q61805238-EA6F15E6-79CB-4C34-9E4C-51E9CC1B6DE3Q64926786-F23FCB4C-69BF-45AA-9F4A-F718E9525CA0Q92713408-E7DECA48-12B0-42E9-BEA6-4BF98C4208B0
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Jaideep Banerjee
@ast
Jaideep Banerjee
@en
Jaideep Banerjee
@es
Jaideep Banerjee
@nl
Jaideep Banerjee
@sl
type
label
Jaideep Banerjee
@ast
Jaideep Banerjee
@en
Jaideep Banerjee
@es
Jaideep Banerjee
@nl
Jaideep Banerjee
@sl
prefLabel
Jaideep Banerjee
@ast
Jaideep Banerjee
@en
Jaideep Banerjee
@es
Jaideep Banerjee
@nl
Jaideep Banerjee
@sl
P106
P1153
36128348000
P31
P496
0000-0002-8688-7137
P569
2000-01-01T00:00:00Z