The Burn Wound

Baroni A. Buommino E. De Gregorio V. et al.

Structure and function of the epidermis related to barrier properties.

Clin Dermatol. 30: 257-262Sorg H. Tilkorn D.J. Hager S. et al.

Skin wound healing: an update on the current knowledge and concepts.

Eur Surg Res. 58: 81-94

Yousef H, Alhajj M and Sharma S. Anatomy, skin (integument), epidermis, In: StatPearls, 2022, StatPearls Publishing, Available at: https://www.statpearls.com/point-of-care/21212.

Rippa A.L. Kalabusheva E.P. Vorotelyak E.A.

Regeneration of dermis: scarring and cells involved.

Cells. 8: 607

Distinct fibroblasts in the papillary and reticular dermis.

Dermatol Clin. 35: 95-100Roos A. Weisiger J.R. Moritz A.R.

Studies of thermal injury. VII. Physiological mechanisms responsible for death during cutaneous exposure to excessive heat.

J Clin Invest. 26: 505-519Moritz A.R. Henriques F.C.

Studies of thermal injury.

Am J Pathol. 23: 695-720Loller C. Buxton G.A. Kerzmann T.L.

Hot soup! Correlating the severity of liquid scald burns to fluid and biomedical properties.

Burns. 42: 589-597Chiu T.W. Ng D.C.K. Burd A.

Properties of matter Bard in assessment of scald injuries.

Burns. 33: 185-188

Modeling skin injury from hot spills on clothing.

Int J Environ Res Publ Health. 14: 1374Palao R. Monge I. Ruiz M. et al.

Chemical burns: pathophysiology and treatment.

Burns. 36: 295-304

The physicochemical basis for thermal and non-thermal ‘burn’ injuries.

Burns. 22: 509-519Hettiaratchy S. Dziewulski P.

Pathophysiology and types of burns.

BMJ. 328: 1427-1429Monstrey S. Hoeksema H. Verbelen J. et al.

Assessment of burn depth and burn wound healing potential.

Burns. 34: 761-769Shupp J.W. Nasabzadeh T.J. Rosenthal D.S. et al.

A review of the local pathophysiologic bases of burn wound progression.

J Burn Care Res. 31: 849-873Jeschke M.G. van Baar M.E. Choudhry M.A. et al.

Burn injury.

Nat Rev Dis Primers. 6: 11Rowan M.P. Cancio L.C. Elster E.A. et al.

Burn wound healing and treatment: review and advancements.

Crit Care. 19: 243

Walker NJ and King KC. Acute and chronic thermal burn evaluation and management, In: StatPearls, 2022, StatPearls Publishing. Available at: https://www.statpearls.com/point-of-care/30048.

Yeganeh P.M. Tahmasebi S. Esmaeilzadeh A.

Cellular and biological factors involved in healing wounds and burns and treatment options in tissue engineering.

Regen Med. 17: 401-418Nielson C.B. Duethman N.C. Howard J.M. et al.

Pathophysiology of systemic complications and current management.

J Burn Care Res. 38: e469-e481

Second thoughts on the burn wound.

J Trauma. 9: 839-862Singh V. Devgan L. Bhat S. et al.

The pathogenesis of burn wound conversion.

Ann Plast Surg. 59: 109-115Gravante G. Palmieri M.B. Esposito G. et al.

Apoptotic death in deep partial thickness burns vs. normal skin of burned patients.

J Surg Res. 141: 141-145Salibian A.A. Rosario A.T.D. Severo L.D.A.M. et al.

Current concepts on burn wound conversion: a review of recent advances in understanding the secondary progressions of burns.

Burns. 42: 1025-1035Herndon D.N. Barrow R.E. Rutan R.L. et al.

A comparison of conservative versus early excision. Therapies in severely burned patients.

Ann Surg. 209: 547-553Puri V. Khare N.A. Chandramouli M. et al.

Comparative analysis of early excision and grafting vs delayed grafting in burn patients in a developing country.

J Burn Care Res. 37: 278-282Broughton G.I. Janis J.E. Attinger C.E.

Wound healing: an overview.

Plast Reconstr Surg. 117: 1e

Overview of wound healing and management.

Surg Clin. 97: 189-207

The burn wound microenvironment.

Adv Wound Care. 5: 106-118

Pathophysiology of acute wound healing.

Clin Dermatol. 25: 9-18Delavary B.M. van der Veer W.M. van Egmond M. et al.

Macrophages in skin injury and repair.

Immunobiology. 216: 753-762Jeschke M.G. Chinkes D.L. Finnerty C.C. et al.

Pathophysiologic response to severe burn injury.

Ann Surg. 248: 387-401Diegelmann R.F. Cohen I.K. Kaplan A.M.

The role of macrophages in wound repair: a review.

Plast Reconstr Surg. 68: 107-113

Wound repair and regeneration.

ESR (Eur Surg Res). 49: 35-43Veith A.P. Henderson K. Spencer A. et al.

Therapeutic strategies for enhancing angiogenesis in wound healing.

Adv Drug Deliv Rev. 146: 97-125Demidova-Rice T.N. Durham J.T. Herman I.M.

Wound healing angiogenesis: innovations and challenges in acute and chronic wound healing.

Adv Wound Care. 1: 17-22Markiewicz-Gospodarek A. Kozioł M. Tobiasz M. et al.

Burn wound healing: clinical complications, medical care, treatment, and dressing types: the current state of knowledge for clinical practice.

Int J Environ Res Public Health. 19: 1338

Effects of delayed wound excision and grafting in severely burned children.

Arch Surg. 137: 1049Ong Y.S. Samuel M. Song C.

Meta-analysis of early excision of burns.

Burns. 32: 145-150Wang Y. Beekman J. Hew J. et al.

Burn injury: challenges and advances in burn wound healing, infection, pain and scarring.

Adv Drug Deliv Rev. 123: 3-17Sinha S. Schreiner A.J. Biernaskie J. et al.

Treating pain on skin graft donor sites: review and clinical recommendations.

J Trauma Acute Care Surg. 83: 954-964Gallaher J.R. Mjuweni S. Shah M. et al.

Timing of early excision and grafting following burn in sub-Saharan Africa.

Burns. 41: 1353-1359Pietsch J.B. Netscher D.T. Nagaraj H.S. et al.

Early excision of major burns in children: effect on morbidity and mortality.

J Pediatr Surg. 20: 754-757Hart D.W. Wolf S.E. Chinkes D.L. et al.

Effects of early excision and aggressive enteral feeding on hypermetabolism, catabolism, and sepsis after severe burn.

J Trauma Acute Care Surg. 54: 755-764Norbury W. Herndon D.N. Tanksley J. et al.

Infection in burns.

Surg Infect. 17: 250-255

Browning JA and Cindass R. Burn debridement, grafting, and reconstruction, In: StatPearls, 2022, StatPearls Publishing. Available at:https://www.statpearls.com/point-of-care/18722.

Effects of burn wound excision on bacterial colonization and invasion.

Plast Reconstr Surg. 111: 744-750Baker R.H.J. Townley W.A. Mckeon S. et al.

Retrospective study of the association between hypertrophic burn scarring and bacterial colonization.

J Burn Care Res. 28: 152-156Branski L.K. Al-Mousawi A. Rivero H. et al.

Emerging infections in burns.

Surg Infect. 10: 389-397Muthukumar V. Arumugam P.K. Bamal R.

Role of systemic antibiotic prophylaxis in acute burns: a retrospective analysis from a tertiary care center.

Burns. 46: 1060-1065Csenkey A. Jozsa G. Gede N. et al.

Systemic antibiotic prophylaxis does not affect infectious complications in pediatric burn injury: a meta-analysis.

PLoS One. 14: e0223063Ramos G. Cornistein W. Cerino G.T. et al.

Systemic antimicrobial prophylaxis in burn patients: systematic review.

J Hosp Infect. 97: 105-114Nunez Lopez O. Cambiaso-Daniel J. Branski L.K. et al.

Predicting and managing sepsis in burn patients: current perspectives.

Ther Clin Risk Manag. 13: 1107-1117Jeschke M.G. Shahrokhi S. Finnerty C.C. et al.

Wound coverage technologies in burn care: established techniques.

J Burn Care Res. 39: 313-318Vloemans A.F.P.M. Hermans M.H.E. van der Wal M.B.A. et al.

Optimal treatment of partial thickness burns in children: a systematic review.

Burns. 40: 177-190Haddad A.G. Giatsidis G. Orgill D.P. et al.

Skin substitutes and bioscaffolds.

Clin Plast Surg. 44: 627-634

Split thickness skin graft meshing ratio indications and common practices.

Burns. 43: 1775-1781Halim A. Khoo T. Shah JumaatMohdY.

Biologic and synthetic skin substitutes: an overview.

Indian J Plast Surg. 43: 23Wang C. Zhang F. Lineaweaver W.C.

Clinical applications of allograft skin in burn care.

Ann Plast Surg. 84: S158-S160

Closure of the excised burn wound: temporary skin substitutes.

Clin Plast Surg. 36: 627-641Heimbach D.M. Warden G.D. Luterman A. et al.

Multicenter postapproval clinical trial of Integra® dermal regeneration template for burn treatment.

J Burn Care Rehabil. 24: 42-48Palackic A. Duggan R.P. Campbell M.S. et al.

The role of skin substitutes in acute burn and reconstructive burn surgery: an updated comprehensive review.

Semin Plast Surg. 36: 033-042Haller H.L. Blome-Eberwein S.E. Branski L.K. et al.

Porcine xenograft and epidermal fully synthetic skin substitutes in the treatment of partial-thickness burns: a literature review.

Medicina. 57: 432Kaartinen I.S. Kuokkanen H.O.

Suprathel causes less bleeding and scarring than Mepilex Transfer in the treatment of donor sites of split-thickness skin grafts.

Journal of Plastic Surgery and Hand Surgery. 45: 200-203Schwarze H. Küntscher M. Uhlig C. et al.

Suprathel, a new skin substitute, in the management of partial-thickness burn wounds: results of a clinical study.

Ann Plast Surg. 60: 181-185Hundeshagen G. Collins V.N. Wurzer P. et al.

A prospective, randomized, controlled trial comparing the outpatient treatment of pediatric and adult partial-thickness burns with Suprathel or Mepilex Ag.

J Burn Care Res. 39: 261-267Tang H. Lv G. Fu J. et al.

An open, parallel, randomized, comparative, multicenter investigation evaluating the efficacy and tolerability of Mepilex Ag versus silver sulfadiazine in the treatment of deep partial-thickness burn injuries.

J Trauma Acute Care Surg. 78: 1000-1007Gee Kee E.L. Kimble R.M. Cuttle L. et al.

Randomized controlled trial of three burns dressings for partial thickness burns in children.

Burns. 41: 946-955Yoon J. Yoon D. Lee H. et al.

Wound healing ability of acellular fish skin and bovine collagen grafts for split-thickness donor sites in burn patients: characterization of acellular grafts and clinical application.

Int J Biol Macromol. 205: 452-461Luze H. Nischwitz S.P. Smolle C. et al.

The use of acellular fish skin grafts in burn wound management: a systematic review.

Medicina. 58: 912

Acellular fish skin grafts for management of split thickness donor sites and partial thickness burns: a case series.

Mil Med. 184: 16-20Lima Júnior E.M. Moraes Filho MO de Forte A.J. et al.

Pediatric burn treatment using tilapia skin as a xenograft for superficial partial-thickness wounds: a pilot study.

J Burn Care Res. 41: 241-247Lima Júnior E.M. de Moraes Filho M.O. Costa B.A. et al.

Nile tilapia fish skin–based wound dressing improves pain and treatment-related costs of superficial partial-thickness burns: a phase III randomized controlled trial.

Plast Reconstr Surg. 147: 1189-1198

留言 (0)

沒有登入
gif