Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
about
Role of negative pressure wound therapy in total hip and knee arthroplastyChallenges in the Treatment of Chronic Wounds.Diabetes mellitus and burns. Part II-outcomes from burn injuries and future directionsAsymmetric migration of human keratinocytes under mechanical stretch and cocultured fibroblasts in a wound repair modelThe evidence-based principles of negative pressure wound therapy in trauma & orthopedicsControlled induction of distributed microdeformation in wounded tissue via a microchamber array dressing.Biomechanics: cell research and applications for the next decadeAutomated, contour-based tracking and analysis of cell behaviour over long time scales in environments of varying complexity and cell density.A set of genes previously implicated in the hypoxia response might be an important modulator in the rat ear tissue response to mechanical stretch.No hypoperfusion is produced in the epicardium during application of myocardial topical negative pressure in a porcine model.A compare between myocardial topical negative pressure levels of -25 mmHg and -50 mmHg in a porcine model.Myocardial topical negative pressure increases blood flow in hypothermic, ischemic myocardium.Subatmospheric pressure wound therapy and the vacuum-assisted closure device: basic science and current clinical successes.Negative pressure wound therapy: An update.Negative pressure wound therapy - a review of its uses in orthopaedic trauma.From cellular mechanotransduction to biologically inspired engineering: 2009 Pritzker Award Lecture, BMES Annual Meeting October 10, 2009.Wound contraction and macro-deformation during negative pressure therapy of sternotomy wounds.Can post-sternotomy mediastinitis be prevented by a closed incision management system?Comparison of bacteria and fungus-binding mesh, foam and gauze as fillers in negative pressure wound therapy--pressure transduction, wound edge contraction, microvascular blood flow and fluid retention.Genomic and proteomic evaluation of tissue quality of porcine wounds treated with negative pressure wound therapy in continuous, noncontinuous, and instillation modesSternum wound contraction and distension during negative pressure wound therapy when using a rigid disc to prevent heart and lung rupture.EASEPort NPWT System to Enhance Skin Graft Survival--A Simple Assembly.The use of split-thickness skin grafts on diabetic foot ulcerations: a literature review.Vacuum-assisted closure therapy in reconstructive surgerySystematic review of the negative pressure wound therapy in kidney transplant recipients.Outcomes of skin graft reconstructions with the use of Vacuum Assisted Closure (VAC(R)) dressing for irradiated extremity sarcoma defectsSimplified Negative Pressure Wound Therapy Device for Application in Low-Resource SettingsPoststernotomy mediastinitis: a review of conventional surgical treatments, vacuum-assisted closure therapy and presentation of the Lund University Hospital mediastinitis algorithm.Negative-pressure wound therapy: a snapshot of the evidence.Evidence-based medicine: vacuum-assisted closure in wound care management.Effects of negative pressure wound therapy on healing of free full-thickness skin grafts in dogsResults of vacuum assisted wound closure applicationTopical Administration of Pirfenidone Increases Healing of Chronic Diabetic Foot Ulcers: A Randomized Crossover Study.One wound seen through two pairs of eyes: a case study.Negative pressure wound therapy with instillation: a pilot study describing a new method for treating infected wounds.The hypothesis of 'biophysical matrix contraction': wound contraction revisited.Comparison of the Effects of Different Negative Pressure Wound Therapy Modes-Continuous, Noncontinuous, and With Instillation-on Porcine Excisional WoundsChanges of anabolic processes at the cellular and molecular level in chronic wounds under topical negative pressure can be revealed by transcriptome analysisNegative-pressure wound therapy induces endothelial progenitor cell mobilization in diabetic patients with foot infection or skin defects.Therapy of acute and delayed spinal infections after spinal surgery treated with negative pressure wound therapy in adult patients.
P2860
Q26774915-9A94D15D-2C4F-47E5-9E8B-F804BE077A5BQ26784576-AD30F333-192A-414B-B597-47A8E98B5378Q26864732-3D075FDF-C451-4C60-A26D-F98365D096C1Q27306753-2ABE62B7-DEFB-456F-A75B-751351F4E06CQ28655364-EBAA3F93-6C1A-49B5-8D91-C1CBC2F2C86EQ30429973-325993C1-5094-49B2-9030-6E9FBF2AE331Q30480670-7E439E3B-062B-4C7C-9E09-198D62594281Q30596221-1854FC3D-651C-4EED-B56A-A44B4F090FE8Q33307010-B1A2F746-D6AE-4490-8A92-E91168CD2100Q33308917-7E88C615-73F1-43F8-BF1E-5829E69478CAQ33345604-A7C71AF3-C94E-4651-9E26-F254670A94EBQ33349950-ACFA60E4-8693-4FDB-BFE3-06BEA91CFD03Q33434898-2B7F2828-B463-4AE3-B3EC-2E6A531C6EFDQ33567890-2525B7E4-46A5-4118-8AA7-1C728E6C4872Q33947569-445675D2-4557-4392-9877-B713CC203DFAQ34033718-E3676512-3955-4CEE-BF44-74A4B724D665Q34220799-52404AE8-BF02-4B82-873F-7427D34B34A7Q34284598-A709FFA1-2F43-4F86-B4AA-FD0149948377Q34310718-E0639CD8-92EC-4D5D-A1D0-C7B6BBF557F9Q34650514-1EA21DE8-6757-4D75-9713-7A32F7A32B93Q34778468-E844E7F9-0BC8-4874-968A-168CD755615DQ35208458-4E1C3320-D213-4D35-A8E0-7C9E348493D5Q35991077-DE7AB63B-A235-436D-90E6-47D4F415B7ECQ36063852-1F4DBED2-D5B2-4BF3-BAD1-B9D2D35D4494Q36241659-D866D7B9-92D2-4B54-9099-9B6DA4460C33Q36417329-BEED3CE1-69FB-4F3C-A481-85675E03F3D1Q36516804-2625772A-F88A-4208-829D-A57B860C947BQ36631134-7C69FC8D-931F-4390-9669-7CBB1C7B252EQ36697753-4D8BC23C-A451-4EA3-A2CB-10B9C17AE61AQ36966102-C1F2487F-CBED-40A4-B4BB-FEB94D8DC40EQ37020329-52DFDAE0-9C34-400C-9878-D3E6D5BC0C73Q37054227-B1F17384-8D5F-488F-8F12-598CDD3CDFC4Q37120709-AA8F5F61-D0BA-4C4D-916A-CC6827B5D687Q37181173-27B28178-5B3B-41DF-8422-0BC92F24A74EQ37204350-84DB190A-9E19-45AC-BDCC-67812134FFC8Q37204362-356C08B0-4716-4195-8C43-2FE3DD4A9CF0Q37218663-448DF16C-16F0-4A1D-9938-CD3B48EFD3CEQ37295477-A754BB88-1AEA-43FD-BFF6-ED7365716249Q37361572-E6A36027-4650-4197-AFCB-EF9C38B19DACQ37442610-38B568E2-94C9-40CF-AB4B-A10C08B954ED
P2860
Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
description
2004 nî lūn-bûn
@nan
2004 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
@ast
Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
@en
Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
@nl
type
label
Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
@ast
Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
@en
Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
@nl
prefLabel
Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
@ast
Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
@en
Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
@nl
P2093
P1476
Vacuum-assisted closure: microdeformations of wounds and cell proliferation.
@en
P2093
Chao-Wei Hwang
Dennis P Orgill
Quentin Eichbaum
Vishal Saxena
P304
1086-96; discussion 1097-8
P356
10.1097/01.PRS.0000135330.51408.97
P407
P577
2004-10-01T00:00:00Z