Outpatient and Minor Burn Treatment

Epidemiology of burns throughout the world. Part I: distribution and risk factors.

Burns. 2011; 37: 1087-1100

American burn association: burn incidence fact sheet.

(Available at:) (Accessed 28.09.2022)Brown M. Coffee T. Adenuga P. et al.

Outcomes of outpatient management of pediatric burns.

J Burn Care Res. 2014; 35: 388-394Thompson D.M. Thomas C. Hyde L. et al.

At home parent-administered dressing changes in paediatric burns aftercare: a survey of burns centres?" practice.

Burns. 2022; 48: 365-371Farid M. Al Omran Y. Lewis D. et al.

Management of minor burns during the COVID-19 pandemic: a patient-centred approach.

Scars Burn Heal. 2021; 7 (20595131211020566)Griffin B. Cabilan C.J. Ayoub B. et al.

The effect of 20 minutes of running water first aid within three hours of thermal burn injury on patient outcomes: A systematic review and meta-analysis.

Australas Emerg Care. 2022; 25: 367-376Zack-Williams S.D. Ahmad Z. Moiemen N.S.

The clinical efficacy of Diphoterine® in the management of cutaneous chemical burns: a 2-year evaluation study.

Ann Burns Fire Disasters. 2015; 28: 9-12

Plasticised polyvinylchloride as a temporary dressing for burns.

Br Med J. 1987; 294: 556-557Ro H.S. Shin J.Y. Sabbagh M.D. et al.

Effectiveness of aspiration or deroofing for blister management in patients with burns: a prospective randomized controlled trial.

Medicine (Baltim). 2018; 97: e0563Pape S.A. Skouras C.A. Byrne P.O.

An audit of the use of laser Doppler imaging (LDI) in the assessment of burns of intermediate depth.

Burns. 2001; 27: 233-239Jan S.N. Khan F.A. Bashir M.M. et al.

Comparison of laser doppler imaging (LDI) and clinical assessment in differentiating between superficial and deep partial thickness burn wounds.

Burns. 2018; 44: 405-408

moorLDI2-BI: a laser Doppler blood flow imager for burn wound assessment. Medical technologies guidance.

(Available at:) (Accessed 27.9.22)Wearn C. Lee K.C. Hardwicke J. et al.

Prospective comparative evaluation study of Laser Doppler Imaging and thermal imaging in the assessment of burn depth.

Burns. 2018; 44: 124-133Wasiak J. Cleland H. Campbell F. et al.

Dressings for superficial and partial thickness burns.

Cochrane Database Syst Rev. 2013; 2013: CD002106Ridd M.J. Hall S. Lane M.E. et al.

Burns with emollients.

BMJ. 2022; 376: e066102Czech O. Wrzeciono A. Batalík L. et al.

Virtual reality intervention as a support method during wound care and rehabilitation after burns: A systematic review and meta-analysis.

Complement Ther Med. 2022; 68: 102837Brown N.J. Kimble R.M. Rodger S. et al.

Play and heal: randomized controlled trial of Ditto™ intervention efficacy on improving re-epithelialization in pediatric burns.

Burns. 2014; 40: 204-213Xiang H. Shen J. Wheeler K. et al.

Efficiacy of smartphone active and passive virtual reality distraction vs standard care on burn pain among pediatric patients: a randomized clinical trial.

JAMA Netw Open. 2021; 4: e2112082Blumenfield M. Reddish P.M.

Identification of psychologic impairment in patients with mild-moderate thermal injury: small burn, big problem.

Gen Hosp Psychiatry. 1987; 9: 142-146White M. Thornton K. Young A.

Early diagnosis and treatment of toxic shock syndrome in paediatric burns.

Burns. 2005; 31: 193-197Chipp E. Charles L. Thomas C. et al.

A prospective study of time to healing and hypertrophic scarring in paediatric burns: every day counts.

Burns Trauma. 2017; 5 (eCollection 2017): 3Saffle J.R. Edelman L. Theurer L. et al.

Telemedicine evaluation of acute burns is accurate and cost-effective.

J Trauma. 2009; 67: 358-365Brady C. Burke-Smith A. Williams A.

COVID virtual burns clinics - Logistical advantages and the patient perspective.

Burns. 2021; 47: 961-962Draaijers L.J. Tempelman F.R. Botman Y.A. et al.

The patient and observer scar assessment scale: a reliable and feasible tool for scar evaluation.

Plast Reconstr Surg. 2004; 113: 1960-1965

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