2024
Cellular therapeutics and immunotherapies in wound healing – on the pulse of time?
Huelsboemer L, Knoedler L, Kochen A, Yu C, Hosseini H, Hollmann K, Choi A, Stögner V, Knoedler S, Hsia H, Pomahac B, Kauke-Navarro M. Cellular therapeutics and immunotherapies in wound healing – on the pulse of time? Military Medical Research 2024, 11: 23. PMID: 38637905, PMCID: PMC11025282, DOI: 10.1186/s40779-024-00528-5.Peer-Reviewed Original ResearchConceptsStandard of careChronic wound healing disordersLocal wound irrigationWound healingChronic inflammatory microenvironmentFree flap techniqueWound healing disordersChronic woundsGenetic risk profilesPhysiological wound healingAdequate blood supplySurgical debridementFlap techniqueCellular therapyCurrent therapiesHealing disordersInflammatory microenvironmentWound irrigationNon-healing woundsCellular therapeuticsGeneral anesthesiaFormation of biofilmsWound debridementSkin graftsImmunotherapy
2020
Self-Assembled Nanomaterials for Chronic Skin Wound Healing
Kang HJ, Chen N, Dash BC, Hsia HC, Berthiaume F. Self-Assembled Nanomaterials for Chronic Skin Wound Healing. Advances In Wound Care 2020, 10: 221-233. PMID: 32487014, PMCID: PMC8024239, DOI: 10.1089/wound.2019.1077.Peer-Reviewed Original ResearchConceptsSelf-assembled nanomaterialsDrug delivery capabilityNanomaterialsWound healing applicationsTunable mechanicsExcellent biocompatibilityMultifunctional propertiesPhysiochemical propertiesMultiple functionalitiesDelivery systemComplex multifunctional structuresDelivery capabilityHealing applicationsWound dressingsPropertiesMultifunctional structuresLow costChronic wound healing applicationsBiocompatibilityGrowth factor delivery systemEffective wound therapyMaterialsDegradationMechanismStructure
2018
Myofibroblast proliferation and heterogeneity are supported by macrophages during skin repair
Shook BA, Wasko RR, Rivera-Gonzalez GC, Salazar-Gatzimas E, López-Giráldez F, Dash BC, Muñoz-Rojas AR, Aultman KD, Zwick RK, Lei V, Arbiser JL, Miller-Jensen K, Clark DA, Hsia HC, Horsley V. Myofibroblast proliferation and heterogeneity are supported by macrophages during skin repair. Science 2018, 362 PMID: 30467144, PMCID: PMC6684198, DOI: 10.1126/science.aar2971.Peer-Reviewed Original ResearchConceptsDifferential gene expressionAdipocyte precursorsExtracellular matrix moleculesGene expressionTransplantation assaysMatrix moleculesFactor C.Factor 1Insulin-like growth factor-1Cell populationsTissue resilienceDistinct subpopulationsGrowth factor-1Profibrotic cellsTissue repairMultiple mouse modelsECM depositionSkin repairTissue dysfunctionProliferationMouse modelMyofibroblastsWoundingMacrophagesRepair
2015
SDF‐1 liposomes promote sustained cell proliferation in mouse diabetic wounds
Olekson MA, Faulknor R, Bandekar A, Sempkowski M, Hsia HC, Berthiaume F. SDF‐1 liposomes promote sustained cell proliferation in mouse diabetic wounds. Wound Repair And Regeneration 2015, 23: 711-723. PMID: 26110250, DOI: 10.1111/wrr.12334.Peer-Reviewed Original ResearchConceptsStromal cell-derived factor-1Acellular dermisCell-derived factor-1Cell proliferationRestoration of skinChronic skin woundsImproved wound closurePersistent cell proliferationCommon complicationGranulation tissue thicknessIschemic tissueProper revascularizationDay 28Day 21Diabetic woundsSuch woundsWound closureSkin woundsDermisFactor 1Tissue thicknessWoundsProliferation