2025
Single cell RNA seq reveals the pro-regenerative phenotype of thrombospondin-2 deficient dermal fibroblasts
Huang Y, Wang N, Xing H, Gao D, Hsia H, Raredon M, Kyriakides T. Single cell RNA seq reveals the pro-regenerative phenotype of thrombospondin-2 deficient dermal fibroblasts. Scientific Reports 2025, 15: 32304. PMID: 40897801, PMCID: PMC12405501, DOI: 10.1038/s41598-025-15839-3.Peer-Reviewed Original ResearchConceptsSingle cell RNA-seqSingle-cell RNA sequencingIn silico analysisThrombospondin-2Gene expression profilesDifferential signaling pathwaysDermal fibroblastsRNA-seqKO fibroblastsScRNA-seqSilico analysisRNA sequencingPro-survivalSignaling pathwayExpression profilesCell communicationTissue developmentCell heterogeneityPro-regenerative phenotypeSkin fibroblastsPro-regenerative featuresSOX10Schwann precursor cellsFibroblastsCellsPhyto-Fabrication Tribulus terrestris Mediated Iron Oxide Nanoparticles: A Promising Approach of Antioxidant and Anticancer Activities via in vitro and in silico Studies
Renugopal R, Palaniyandi T, Rajendran B, Kaliamoorthy S, Ravi M, Baskar G, Wahab M, Surendran H, Nannan M, Govindaraj M, Sivaji A, Al-Qahtani W, Ayub R. Phyto-Fabrication Tribulus terrestris Mediated Iron Oxide Nanoparticles: A Promising Approach of Antioxidant and Anticancer Activities via in vitro and in silico Studies. Frontiers In Bioscience-Landmark 2025, 30: 25164. PMID: 40613274, DOI: 10.31083/fbl25164.Peer-Reviewed Original ResearchConceptsAdenomatous polyposis coliRegulation of cell migrationColon cancer cellsInhibit cancer cell proliferationHCT-116Cancer cell proliferationBinding affinityVibrating sample magnetometryIron nanoparticlesColon cancerWound pathogensCell migrationInhibitory zoneMolecular docking studiesIn silico studiesCancer cellsDenaturation studiesPolyposis coliHydrogen peroxideScanning electron microscopyDocking studiesAntimicrobial activityEffect of anticancerProteinMG-63Linear and Area Coverage With Closed Incision Negative Pressure Therapy Management: International Multidisciplinary Consensus Recommendations
Singh D, Alton T, Alvand A, de Toledo P, Chatterjee A, Dillavou E, Djohan R, Ortega A, Pieri A, Sumpio B, Willy C, Zelle B, Cooper H. Linear and Area Coverage With Closed Incision Negative Pressure Therapy Management: International Multidisciplinary Consensus Recommendations. International Wound Journal 2025, 22: e70677. PMID: 40432310, PMCID: PMC12117191, DOI: 10.1111/iwj.70677.Peer-Reviewed Original ResearchConceptsClosed incision negative pressure therapyReticulated open cell foamReticulated open cell foam dressingConsensus statementMultidisciplinary consensus recommendationsImprove surgical outcomesNegative pressure therapyMultidisciplinary panel of expertsIncision typeSurgical outcomesPressure therapyIncision healingSurgical proceduresClinician decision-makingConsensus recommendationsRisk factorsConsensus panelPanel of expertsMultidisciplinary panelFoam dressingTherapy managementIncisionMultidisciplinary collaborationPatient careLearning-based inference of longitudinal image changes: Applications in embryo development, wound healing, and aging brain
Kim H, Karaman B, Zhao Q, Wang A, Sabuncu M, Initiative F, Weiner M, Aisen P, Petersen R, Jack C, Jagust W, Landau S, Rivera-Mindt M, Okonkwo O, Shaw L, Lee E, Toga A, Beckett L, Harvey D, Green R, Saykin A, Nho K, Perrin R, Tosun D, Sachdev P, Green R, Drake E, Montine T, Conti C, Weiner M, Nosheny R, Sacrey D, Fockler J, Miller M, Kwang W, Jin C, Diaz A, Ashford M, Flenniken D, Kormos A, Petersen R, Aisen P, Rafii M, Raman R, Jimenez G, Donohue M, Salazar J, Fidell A, Boatwright V, Robison J, Zimmerman C, Cabrera Y, Walter S, Clanton T, Shaffer E, Webb C, Hergesheimer L, Smith S, Ogwang S, Adegoke O, Mahboubi P, Pizzola J, Jenkins C, Beckett L, Harvey D, Donohue M, Saito N, Diaz A, Hussen K, Okonkwo O, Rivera-Mindt M, Amaza H, Thao M, Parkins S, Ayo O, Glittenberg M, Hoang I, Germano K, Strong J, Weisensel T, Magana F, Thomas L, Guzman V, Ajayi A, Di Benedetto J, Talavera S, Jack C, Felmlee J, Fox N, Thompson P, DeCarli C, Forghanian-Arani A, Borowski B, Reyes C, Hedberg C, Ward C, Schwarz C, Reyes D, Gunter J, Moore-Weiss J, Kantarci K, Matoush L, Senjem M, Vemuri P, Reid R, Malone I, Thomopoulos S, Nir T, Jahanshad N, Knaack A, Fletcher E, Harvey D, Tosun-Turgut D, Chen S, Choe M, Crawford K, Yushkevich P, Das S, Jagust W, Landau S, Koeppe R, Rabinovici G, Villemagne V, LoPresti B, Perrin R, Morris J, Franklin E, Bernhardt H, Cairns N, Taylor-Reinwald L, Shaw L, Lee E, Lee V, Korecka M, Brylska M, Wan Y, Trojanowki J, Toga A, Crawford K, Neu S, Saykin A, Nho K, Foroud T, Jo T, Risacher S, Craft H, Apostolova L, Nudelman K, Faber K, Potter Z, Lacy K, Kaddurah-Daouk R, Shen L, Karlawish J, Erickson C, Grill J, Largent E, Harkins K, Weiner M, Thal L, Kachaturian Z, Frank R, Snyder P, Buckholtz N, Hsiao J, Ryan L, Molchan S, Khachaturian Z, Carrillo M, Potter W, Barnes L, Bernard M, González H, Ho C, Hsiao J, Jackson J, Masliah E, Masterman D, Okonkwo O, Perrin R, Ryan L, Silverberg N, Silbert L, Kaye J, White S, Pierce A, Thomas A, Clay T, Schwartz D, Devereux G, Taylor J, Ryan J, Nguyen M, DeCapo M, Shang Y, Schneider L, Munoz C, Ferman D, Conant C, Martin K, Oleary K, Pawluczyk S, Trejo E, Dagerman K, Teodoro L, Becerra M, Fairooz M, Garrison S, Boudreau J, Avila Y, Brewer J, Jacobson A, Gama A, Kim C, Little E, Frascino J, Ferng N, Trujillo S, Heidebrink J, Koeppe R, MacDonald S, Malyarenko D, Ziolkowski J, O’Connor J, Robert N, Lowe S, Rogers V, Clinic M, Petersen R, Hackenmiller B, Boeve B, Albers C, Kreuger C, Jones D, Knopman D, Botha H, Magnuson J, Graff-Radford J, Crawley K, Schumacher M, McKinzie S, Smith S, Helland T, Lowe V, Ramanan V, Pavlik V, Faircloth J, Bishop J, Nath J, Chaudhary M, Kataki M, Yu M, Pacini N, Barker R, Brooks R, Aggarwal R, Honig L, Stern Y, Mintz A, Cordona J, Hernandez M, Long J, Arnold A, Groves A, Middleton A, Vogler B, McCurry C, Mayo C, Raji C, Amtashar F, Klemp H, Ruszkiewicz J, Kusuran J, Stewart J, Horenkamp J, Greeson J, Wever K, Vo K, Larkin K, Rao L, Schoolcraft L, Gallagher L, Paczynski M, McMillan M, Holt M, Gagliano N, Henson R, LaBarge R, Swarm R, Munie S, Cepeda S, Winterton S, Hegedus S, Wilson T, Harte T, Bonacorsi Z, Geldmacher D, Watkins A, Barger B, Smelser B, Bates C, Stover C, McKinley E, Ikner G, Hendrix H, Cooper H, Mahaffey J, Robbins L, Ashley L, Natelson-Love M, Carter, Solomon V, Grossman H, Groome A, Ardolino A, Kaplan A, Sheppard F, Burgos-Rivera G, Garcia-Camilo G, Lim J, Neugroschl J, Jackson K, Evans K, Soleimani L, Sano M, Ghesani N, Binder S, Apuango X, Sood A, Troutman A, Blanchard K, Richards A, Nelson G, Hendrickson K, Yurko E, Plenge J, Rufo V, Shah R, Duara R, Lynch B, Chirinos C, Dittrich C, Campbell D, Mejia D, Perez G, Colvee H, Gonzalez J, Gondrez J, Knaack J, Acevedo M, Cereijo M, Greig-Custo M, Villar M, Wishnia M, Detling S, Barker W, Albert M, Moghekar A, Rodzon B, Demsky C, Pontone G, Pekar J, Farrington L, Pomper M, Johnson N, Alo T, Sadowski M, Ulysse A, Masurkar A, Marti B, Mossa D, Geesey E, Petrocca E, Schulze E, Wong J, Boonsiri J, Kenowsky S, Martinez T, Briglall V, Doraiswamy P, Nwosu A, Adhikari A, Hellegers C, Petrella J, James O, Wong T, Hawk T, Vaishnavi S, McCoubrey H, Nasrallah I, Rovere R, Maneval J, Robinson E, Rivera F, Uffelman J, Combs M, O’Donnell P, Manning S, King R, Nieto A, Glueck A, Mandal A, Swain A, Gamble B, Meacham B, Forenback D, Ross D, Cheatham E, Hartman E, Cornell G, Harp J, Ashe L, Goins L, Watts L, Yazell M, Mandal P, Buckler R, Vincent S, Rudd T, Lopez O, Malia A, Chiado C, Zik C, Ruszkiewicz J, Savage K, Fenice L, Oakley M, Tacey P, Berman S, Bowser S, Hegedus S, Saganis X, Porsteinsson A, Mathewson A, Widman A, Holvey B, Clark E, Morales E, Young I, Ruszkiewicz J, Hopkins K, Martin K, Kowalski N, Hunt R, Calzavara R, Kurvach R, D’Ambrosio S, Thai G, Vides B, Lieb B, McAdams-Ortiz C, Toso C, Mares I, Moorlach K, Liu L, Corona M, Nguyen M, Tallakson M, McDonnell M, Rangel M, Basheer N, Place P, Romero R, Tam S, Nguyen T, Thomas A, Frolov A, Khera A, Browning A, Kelley B, Dawson C, Mathews D, Most E, Phillips E, Nguyen L, Nunez M, Miller M, Jones M, Martinez N, Logan R, McColl R, Pham S, Fox T, Moore T, Levey A, Brown A, Kippels A, Ellison A, Lyons C, Hales C, Parry C, Williams C, McCorkle E, Harris G, Rose H, Jooma I, Al-Amin J, Lah J, Webster J, Swiniarski J, Chapman L, Donnelly L, Mariotti L, Locke M, Vaughn P, Penn R, Carpentier S, Yeboah S, Basadre S, Malakauskas S, Lyron S, Villinger T, Burney T, Burns J, Abusalim A, Dahlgren A, Montero A, Arthur A, Dooly H, Kreszyn K, Berner K, Gillen L, Scanlan M, Madison M, Mathis N, Switzer P, Townley R, Fikru S, Sullivan S, Wright E, Beigi M, Daley A, Ko A, Luong B, Nyborg G, Morales J, Durbin K, Garcia L, Parand L, Macias L, Monserratt L, Farchi M, Wu P, Hernandez R, Rodriguez T, Clinic M, Graff-Radford N, Marolt A, Thomas A, Aloszka D, Moncayo E, Westerhold E, Day G, Chrestensen K, Imhansiemhonehi M, McKinzie S, Stephens S, Grant S, Brosch J, Perkins A, Saunders A, Kovac D, Polson H, Mwaura I, Mejia K, Britt K, King K, Nichols K, Lawrence K, Rankin L, Farlow M, Wiesenauer P, Bryant R, Herring S, Lynch S, Wilson S, Day T, Korst W, van Dyck C, Mecca A, Miller A, Brennan A, Khan A, Ruan A, Gunnoud C, Mendonca C, Raynes-Goldfinger D, Salardini E, Hidalgo E, Cooper E, Singh E, Murphy E, May J, Stanhope J, Lam J, Waszak J, Nelsen K, Sacaza K, Hasbani M, Donahue M, Chen M, Barcelos N, Eigenberger P, Bonomi R, O’Dell R, Jefferson S, Khasnavis S, Smilowitz S, DeStefano S, Good S, Camarro T, Clayton V, Cavrel Y, Lu Y, Chertkow H, Bergman H, Hosein C, Black S, Kapadia A, Bhan A, Lam B, Scott C, Gabriel G, Bray J, Zotovic L, Gutierrez M, Masellis M, Farshadi M, Gui M, Mitchell M, Taylor R, Endre R, Taghi-Zada Z, Hsiung R, English C, Kim E, Yau E, Tong H, Barlow L, Jennings L, Assaly M, Nunes P, Marian T, Kertesz A, Rogers J, Trost D, Wint D, Bernick C, Munic D, Grant I, Korkoyah A, Raja A, Lapins A, Ryan C, Pejic J, Basham K, Lukose L, Haddad L, Quinlan L, Houghtaling N, Sadowsky C, Martinez W, Villena T, Reynolds B, Forero A, Ward C, Brennan E, Figueroa E, Esposito G, Mallory J, Johnson K, Turner K, Seidenberg K, McCann K, Bassett M, Chadwick M, Turner R, Bean R, Sharma S, Marshall G, Haviari A, Pietras A, Wallace B, Munro C, Rivera-Delpin G, Hustead H, Levesque I, Ramirez J, Nolan K, Glennon K, Palou M, Erkkinen M, DaSilva N, Friedman P, Silver R, Salazar R, Polleys R, McGinnis S, Gale S, Hall T, Luu T, Chao S, Lin E, Coleman J, Epperson K, Vasanawala M, Atri A, Rangel A, Evans B, Monarrez C, Cline C, Liebsack C, Bandy D, Goldfarb D, Intorcia D, Olgin J, Clark K, King K, York K, Reade M, Callan M, Glass M, Johnson M, Gutierrez M, Goddard M, Trncic N, Choudhury P, Reyes P, Lowery S, Hall S, Olgin S, de Santiago S, Alosco M, Ton A, Jimenez A, Ellison A, Tran A, Anderson B, Carter D, Veronelli D, Lenio S, Steinberg E, Mez J, Weller J, Johns J, Mez J, Harkins J, Puleio A, Hoti I, Mwicigi J, Puleio A, Alosco M, Schultz O, Lauture M, Steinberg E, Denis R, Killiany R, Singh S, Lenio S, Qiu W, Devis Y, Obisesan T, Stone A, Ordor D, Udodong I, Okonkwo I, Khan J, Turner J, Hughes K, Kadiri O, Duffy C, Moss A, Stapleton K, Toth M, Sanders M, Ayres M, Hamski M, Fatica P, Ogrocki P, Ash S, Pot S, Chen D, Soto A, Tanase C, Bissig D, Vanya H, Russell H, Patel H, Zhang H, Wallace K, Ayers K, Gallegos M, Forloines M, Sinn M, Kahulugan Q, Isip R, Calderon S, Hamm T, Borrie M, Lee T, Bartha R, Johnson S, Asthana S, Carlsson C, Perrin A, Tariot P, Fleisher A, Reeder S, Capote H, Emborsky A, Mattle A, Ajtai B, Wagner B, Myers B, Slazyk D, Fragale D, Fransen E, Macnamara H, Falletta J, Hirtreiter J, Mechtler L, King M, Asbach M, Rainka M, Zawislak R, Wisniewski S, O’Malley S, Jimenez-Knight T, Peehler T, Aladeen T, Bates V, Wenner V, Elmalik W, Scharre D, Ramamurthy A, Bouchachi S, Kataki M, Tarawneh R, Kelley B, Celmins D, Leader A, Figueroa C, Bauerle H, Patterson K, Reposa M, Presto S, Ahmed T, Stewart W, Hosp H, Pearlson G, Blank K, Anderson K, Santulli R, Schwartz E, Williamson J, Jessup A, Williams A, Duncan C, O’Connell A, Gagnon K, Zamora E, Bateman J, Crawford F, Thompson D, Walker E, Rowell J, White M, Ledford P, Bohlman S, Henkle S, Bottoms J, Moretz L, Hoover B, Shannon M, Rogers S, Baker W, Harrison W, Wu C, DeMarco A, Stipanovich A, Arcuri D, Clark J, Davis J, Doyon K, Amoyaw M, Acosta M, Bailey R, Warren S, Fogerty T, Sanborn V, Riddle M, Salloway S, Malloy P, Correia S, Windon C, Blackburn M, Rosen H, Miller B, Smith A, Mba I, Echevarria J, Janavs J, Roglaski E, Yong M, Devine R, Okhravi H, Rivera E, Kalowsky T, Smith C, Rosario C, Masdeu J, Le R, Gurung M, Sabbagh M, Garcia A, Slaughter M, Elayan N, Acothley S, Pomara N, Hernando R, Pomara V, Reichert C, Brawman-Mintzer O, Acree A, Williams A, Long C, Long R, Newhouse P, Hill S, Boegel A, Seshadri S, Saklad A, Jones F, Hu W, Sotelo V, Rojas Y, Mintzer J, Longmire C, Spicer K. Learning-based inference of longitudinal image changes: Applications in embryo development, wound healing, and aging brain. Proceedings Of The National Academy Of Sciences Of The United States Of America 2025, 122: e2411492122. PMID: 39977323, PMCID: PMC11873959, DOI: 10.1073/pnas.2411492122.Peer-Reviewed Original ResearchConceptsFully connected layerLearning-based methodsMachine learning-based methodsSignal-of-interestImage dataSiamese architectureLongitudinal imaging dataBaseline methodsFeature pairsTime-varying signalsImage differencesSquare errorPatient monitoringRoot mean square errorTraditional methodsOrder accuracyTime differenceCustom pipelineIrrelevant changesTemporal orderEmpirical resultsImagesArchitectureIndividual-level changeMachine
2024
Foxp3+ regulatory T cells reside within the corneal epithelium and co-localize with limbal stem cells
Tahvildari M, Me R, Setia M, Gao N, Suvas P, McClellan S, Suvas S. Foxp3+ regulatory T cells reside within the corneal epithelium and co-localize with limbal stem cells. Experimental Eye Research 2024, 249: 110123. PMID: 39396695, PMCID: PMC11622170, DOI: 10.1016/j.exer.2024.110123.Peer-Reviewed Original ResearchConceptsLimbal stem cellsRegulatory T cellsResident TregsT cellsFoxp3<sup>+</sup> regulatory T cellsLimbal stem cell functionMouse modelCorneal epithelial wound healingModel of mechanical injuryStem cellsDepletion of TregsCell functionEpithelial wound healingEpithelial cell functionWound healingStem cell functionMechanical injuryAnti-CD25Epithelial healingSubconjunctival injectionCorneal epitheliumCorneal stromaTregsCornealCorneaTargeting hypoxia and thrombospondin‐2 in diabetic wound healing
Huang Y, Xing H, Naud S, Kyriakides T. Targeting hypoxia and thrombospondin‐2 in diabetic wound healing. The FASEB Journal 2024, 38: e70091. PMID: 39383062, PMCID: PMC11486302, DOI: 10.1096/fj.202302429rrr.Peer-Reviewed Original ResearchConceptsThrombospondin-2Diabetic miceWound healingHIF-1aMatricellular protein thrombospondin-2Diabetic woundsImpaired wound healingWounds of diabetic miceDimethyloxalylglycine treatmentTargeting hypoxiaSustained hypoxiaDiabetic patientsTSP2 expressionCell dysfunctionIncreased neovascularizationDiabetic wound healingGenetic ablationDiabetic fibroblastsElevated glucoseReduced hypoxiaImprove healingImmunofluorescence analysisHIF-1a activationHypoxiaWestern blottingTANGO1 inhibitors reduce collagen secretion and limit tissue scarring
Raote I, Rosendahl A, Häkkinen H, Vibe C, Küçükaylak I, Sawant M, Keufgens L, Frommelt P, Halwas K, Broadbent K, Cunquero M, Castro G, Villemeur M, Nüchel J, Bornikoel A, Dam B, Zirmire R, Kiran R, Carolis C, Andilla J, Loza-Alvarez P, Ruprecht V, Jamora C, Campelo F, Krüger M, Hammerschmidt M, Eckes B, Neundorf I, Krieg T, Malhotra V. TANGO1 inhibitors reduce collagen secretion and limit tissue scarring. Nature Communications 2024, 15: 3302. PMID: 38658535, PMCID: PMC11043333, DOI: 10.1038/s41467-024-47004-1.Peer-Reviewed Original ResearchConceptsEndoplasmic reticulum exit sitesECM proteinsSecretion of ECM proteinsPeptide inhibitorFibrotic diseasesCollagen exportTANGO1Binding interfaceWound healingZebrafish resultsECM componentsReduced granulation tissue formationGranulation tissue formationEffective therapyCutaneous wound healingInhibitor treatmentFibrotic processUncontrolled secretionWidespread occurrenceProtein levelsExit siteExcessive scarringAmount of collagenTherapeutic modulationTissue scarringCellular 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
2023
A discrete ‘early-responder’ stromal-cell subtype orchestrates immunocyte recruitment to injured tissue
Yaghi O, Hanna B, Langston P, Michelson D, Jayewickreme T, Marin-Rodero M, Benoist C, Mathis D. A discrete ‘early-responder’ stromal-cell subtype orchestrates immunocyte recruitment to injured tissue. Nature Immunology 2023, 24: 2053-2067. PMID: 37932455, PMCID: PMC10792729, DOI: 10.1038/s41590-023-01669-w.Peer-Reviewed Original ResearchConceptsMesenchymal stromal cellsStromal cellsMouse modelMouse model of muscular dystrophyModels of muscular dystrophyAcute injuryUnique surface markersRecruitment of neutrophilsResponse to injuryStromal cell subtypesImmunomodulatory programsImmunocyte recruitmentCell collaborationTissue regenerationStroma-specificTNF-aSurface markersDay 1IL-1BCell subtypesInflammatory programMuscular dystrophyInduce inflammationSubtypesOncostatin MRegulatory T cells in skin regeneration and wound healing
Knoedler S, Knoedler L, Kauke-Navarro M, Rinkevich Y, Hundeshagen G, Harhaus L, Kneser U, Pomahac B, Orgill D, Panayi A. Regulatory T cells in skin regeneration and wound healing. Military Medical Research 2023, 10: 49. PMID: 37867188, PMCID: PMC10591349, DOI: 10.1186/s40779-023-00484-6.Peer-Reviewed Original ResearchConceptsRegulatory T cellsT cellsRole of TregsIntegumentary systemNew treatment modalitiesTissue-resident cellsSubsequent wound healing processCutaneous wound healingExcessive inflammationImmune homeostasisTreatment modalitiesImmune cellsSkin adnexaWound healing processImmune responseTregsHealing processWound repairWound healingHealingEpidermal integrityCellsCollateral damageAdnexaInflammationFibroblasts – the cellular choreographers of wound healing
Knoedler S, Broichhausen S, Guo R, Dai R, Knoedler L, Kauke-Navarro M, Diatta F, Pomahac B, Machens H, Jiang D, Rinkevich Y. Fibroblasts – the cellular choreographers of wound healing. Frontiers In Immunology 2023, 14: 1233800. PMID: 37646029, PMCID: PMC10461395, DOI: 10.3389/fimmu.2023.1233800.Peer-Reviewed Original ResearchConceptsFibroblast diversityInnate immune cellsNovel treatment modalitiesWound healing functionsFascial connective tissueRole of fibroblastsTreatment modalitiesImmune cellsWound repairScar tissueDiversityFibroblastsConnective tissueHealing processWound healingComprehensive understandingMachineryTissueHealing functionCascadeClinical presentation of group B Streptococcus-infected diabetic foot ulcers
Waldman O, Dexter B, Sulovari A, Oh I. Clinical presentation of group B Streptococcus-infected diabetic foot ulcers. Journal Of Wound Care 2023, 32: s19-s25. PMID: 37405964, DOI: 10.12968/jowc.2023.32.sup7.s19.Peer-Reviewed Original ResearchMeSH KeywordsDiabetes MellitusDiabetic FootHemoglobinsHumansRetrospective StudiesStreptococcusWound HealingConceptsDiabetic foot ulcersFoot ulcersBlack patientsRecurrent infectionsElevated hemoglobin A1cIntra-operative culturesHemoglobin A1c levelsInitial laboratory valuesSoft tissue infectionsDFU infectionsDFU patientsInitial surgeryOrthopaedic FootAggressive treatmentClinical characteristicsGBS infectionA1c levelsHemoglobin A1cTissue infectionsClinical outcomesClinical presentationInfected boneAppropriate treatmentGroup BLaboratory valuesBest practice for wound repair and regeneration use of cellular, acellular and matrix-like products (CAMPs)
Wu S, Carter M, Cole W, Crombie R, Kapp D, Kim P, Milne C, Molnar J, Niezgoda J, Woo K, Zabel D, Hamm R, Armstrong D, Bock A, Dheansa B, Driver V, Glat P, Lantis J, Ferreira L, Melin M, Patel K, Ricci E, Simman R, Steinberg J, Tettelbach W, Weir D. Best practice for wound repair and regeneration use of cellular, acellular and matrix-like products (CAMPs). Journal Of Wound Care 2023, 32: s1-s31. PMID: 37079485, DOI: 10.12968/jowc.2023.32.sup4b.s1.Peer-Reviewed Original ResearchConceptsType of material
2022
Dysregulation of TSP2-Rac1-WAVE2 axis in diabetic cells leads to cytoskeletal disorganization, increased cell stiffness, and dysfunction
Xing H, Huang Y, Kunkemoeller B, Dahl P, Muraleetharan O, Malvankar N, Murrell M, Kyriakides T. Dysregulation of TSP2-Rac1-WAVE2 axis in diabetic cells leads to cytoskeletal disorganization, increased cell stiffness, and dysfunction. Scientific Reports 2022, 12: 22474. PMID: 36577792, PMCID: PMC9797577, DOI: 10.1038/s41598-022-26337-1.Peer-Reviewed Original ResearchConceptsCell-derived matricesCell stiffnessFamily verprolin-homologous protein 2Active Rac1Thrombospondin-2Homologous protein 2Less traction forceCytoskeleton organizationExtracellular matrix productionMajor cell populationF-actinCytoskeletal disorganizationRegulatory roleProtein 2Matrix productionCritical functionsECM productionArt microscopy techniquesNew functionsCell populationsSpindle-like shapeRac1Normal fibroblastsFibroblastsWound spaceLangerhans cells are essential components of the angiogenic niche during murine skin repair
Wasko R, Bridges K, Pannone R, Sidhu I, Xing Y, Naik S, Miller-Jensen K, Horsley V. Langerhans cells are essential components of the angiogenic niche during murine skin repair. Developmental Cell 2022, 57: 2699-2713.e5. PMID: 36493773, PMCID: PMC10848275, DOI: 10.1016/j.devcel.2022.11.012.Peer-Reviewed Original ResearchConceptsAngiogenic nicheSingle-cell RNA sequencingLangerhans cellsControl of angiogenesisCanonical roleMouse geneticsPre-existing vesselsRNA sequencingImmune cellsSkin repairFunction of LCSkin-resident immune cellsNew blood vesselsMouse skin woundsThree-dimensional microscopyNicheNon-healing woundsEndothelial cellsAngiogenesisCellsCell immunityTreatment optionsInflammatory diseasesAntigen presentationInjury repairSpontaneous Healing of a Posteriorly Displaced Lateral Meniscus Bucket-Handle Tear in a Multiligament Knee Injury
Green J, Seddio A, Roybal D, Moran J, Katz L, Medvecky M. Spontaneous Healing of a Posteriorly Displaced Lateral Meniscus Bucket-Handle Tear in a Multiligament Knee Injury. JBJS Case Connector 2022, 12: e22.00503. PMID: 36821095, DOI: 10.2106/jbjs.cc.22.00503.Peer-Reviewed Original ResearchMeSH KeywordsAnterior Cruciate LigamentArthroscopyHumansKnee InjuriesMenisci, TibialTibial Meniscus InjuriesWound HealingConceptsBucket-handle meniscus tearsMultiligament knee injuriesKnee injuriesSpontaneous healingAtypical magnetic resonanceAnterior cruciate ligamentBucket-handle tearPolytrauma patientsCompartment syndromeCruciate ligamentMeniscus tearsConcomitant ruptureUnusual caseMedial meniscusMeniscal repairFragment reductionLateral meniscusInjuryTearsHealingMagnetic resonancePainPatientsSyndromeExtravasationReindeer light the way to scarless wound healing
Caves E, Horsley V. Reindeer light the way to scarless wound healing. Cell 2022, 185: 4675-4677. PMID: 36493748, DOI: 10.1016/j.cell.2022.11.013.Peer-Reviewed Original ResearchFibroblast inflammatory priming determines regenerative versus fibrotic skin repair in reindeer
Sinha S, Sparks H, Labit E, Robbins H, Gowing K, Jaffer A, Kutluberk E, Arora R, Raredon M, Cao L, Swanson S, Jiang P, Hee O, Pope H, Workentine M, Todkar K, Sharma N, Bharadia S, Chockalingam K, de Almeida L, Adam M, Niklason L, Potter S, Seifert A, Dufour A, Gabriel V, Rosin N, Stewart R, Muench G, McCorkell R, Matyas J, Biernaskie J. Fibroblast inflammatory priming determines regenerative versus fibrotic skin repair in reindeer. Cell 2022, 185: 4717-4736.e25. PMID: 36493752, PMCID: PMC9888357, DOI: 10.1016/j.cell.2022.11.004.Peer-Reviewed Original ResearchMeSH KeywordsAdultAnimalsCicatrixFetusFibroblastsHumansReindeerSkinSkin TransplantationWound HealingConceptsFibrotic scarSite-specific immune responseFull-thickness injurySkin fibroblastsWound healing outcomesInflammatory mediatorsImmunosuppressive phenotypeImmune resolutionLeukocyte recruitmentMyeloid infiltrationImmune responseHuman fetal fibroblastsHealing outcomesFibrotic phenotypeBack skinEctopic transplantationAdult humansSkin woundsScarSkinSkin repairPowerful comparative modelFibroblastsFetal fibroblastsRepairAdjunctive Hyperbaric Oxygen Therapy for High Risk Peristomal Pyoderma Gangrenosum
Zeina T, Levy A. Adjunctive Hyperbaric Oxygen Therapy for High Risk Peristomal Pyoderma Gangrenosum. Digestive Diseases And Sciences 2022, 67: 4597-4598. PMID: 35989384, DOI: 10.1007/s10620-022-07646-x.Peer-Reviewed Original ResearchAdipocyte plasticity in tissue regeneration, repair, and disease
Horsley V. Adipocyte plasticity in tissue regeneration, repair, and disease. Current Opinion In Genetics & Development 2022, 76: 101968. PMID: 35988318, DOI: 10.1016/j.gde.2022.101968.Peer-Reviewed Original ResearchMeSH KeywordsAdipocytesAdipokinesAnimalsFibrosisHumansLipidsMammalsRegenerative MedicineWound HealingConceptsMammalian tissue repairTissue repairEssential regulatorAdipocyte plasticityFunction of adipocytesCritical regulatorLipid-filled cellsMultiple tissuesTissue functionRegenerative medicineAdipocytesSkeletal muscleBioactive productsRegulatorMammary glandTherapeutic avenuesFibrotic lesionsEndocrine functionTissue regenerationPlasticityWound healingContractile fibroblastsTissueRepairTumorigenesis
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