1 / 47

Burn Care in the 21 s t Century

Burn Care in the 21 s t Century. James H. Holmes IV, MD Director, WFUBMC Burn Center Assistant Professor of Surgery Wake Forest University School of Medicine. Epidemiology. ~500,000 pts/yr seek medical care for burns 40,000 require hospital adm (avg <15% TBSA)

rasia
Download Presentation

Burn Care in the 21 s t Century

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Burn Care in the 21s t Century James H. Holmes IV, MD Director, WFUBMC Burn Center Assistant Professor of Surgery Wake Forest University School of Medicine

  2. Epidemiology • ~500,000 pts/yr seek medical care for burns • 40,000 require hospital adm (avg <15% TBSA) • >90% preventable; ~50% d/t substance abuse • ~4000 die …... vs. ~15,000 deaths in 1970 • LD50 > 70% TBSA …… vs. ~30% in 1970 • >50% return to pre-burn functioning • Mechanism is age-related & situational: • < 8 yoa  scalds • all others  flame burns • work  chemical/electrical/molten

  3. Burn LD50 & Advances in Care

  4. A.B.A. Referral Guidelines • PT burns > 10% TBSA • Any FT burns • Burns involving the face, hands, feet, genitalia, perineum, or major joints • Electrical burns • Chemical burns • Inhalation injury • Burns with concomitant non-thermal trauma • Burns in patients with preexisting medical conditions that may complicate management • Burns in patients who will require special social, emotional, or long-term rehabilitative intervention

  5. BURNS = TRAUMARemember ABC’s(with a twist)

  6. Airway & Breathing • Inhalation Injury (~7% of patients in NBR) • HX: closed space fire, meth lab explosion, or petroleum product combustion • Upper airway injury: acute mortality • facial/intraoral burns, naso/oropharyngeal soot, sore throat, abnormal phonation, stridor • Lower airway injury: delayed mortality • dyspnea, wheezing, carbonaceous sputum, COHb, PaO2/FiO2 • Will increase resuscitation volumes • Clinical dx - NO NPL, bronchoscopy +/- • Intubate EARLY!!! Orotracheal • Surgical airway uncommon

  7. Calculate burn size • The “TWIST” • Burn depth • Superficial • Partial-thickness (PT) • Full-thickness (FT) • Indeterminate • Only partial-thickness (2nd degree), indeterminate, & full-thickness (≥3rd degree) injuries count towards %TBSA

  8. Estimating Burn Depth/Severity

  9. 3 Zones of Thermal Injury Hyperemia Stasis Coagulation

  10. Burn Depth

  11. “Superficial” • Formerly “1st-degree” • Essentially a sunburn • Pink • Painful • NO blisters • Will heal in < 1 week

  12. “Partial-thickness” • Formerly “2nd-degree” • Pink • Moist • Exquisitely painful • Blistered • Typically heals in < 2-3 weeks

  13. “Full-thickness” • Formerly “3rd-degree” • Dry • Leathery • White to charred • Insensate • Will require E&G

  14. “Indeterminate” • Unsure as to whether PT or FT • Observe for conversion b/t days 3-7 • May or may not require E&G • Can unpredictably increase LOS

  15. Calculate burn size • Determine burn depth • Only PT (2nd degree), indeterminate, & FT (≥3rd degree) count • Estimate %TBSA • Palmar surface of pts hand = 1% TBSA • Age-appropriate diagrams (e.g.- Berkow) • Rule of Nines

  16. Berkow Diagram

  17. Rule of Nines • Body divided into fractions of 9% • Head = 9% • Ant thorax = 18% • Post thorax = 18% • Each UE = 9% • Each LE = 18% • Genitalia = 1% • Not reliable in kids!!!

  18. Calculate burn size • Determine burn depth • Only PT (2nd degree), indeterminate, & FT (≥3rd degree) count • Estimate %TBSA • Palmar surface of pts hand = 1% TBSA • Age-appropriate diagrams (e.g.-Berkow) • Rule of Nines • Burn experience  accuracy in determining burn size & severity

  19. Circulation • Typically burns 20% require IVF resuscitation • Resuscitate w/ LACTATED RINGER’S • Adult  Baxter/Parkland Formula = 4 cc/kg/% burn • 1/2 over 1st 8 hr fromtime of burn • 1/2 over subsequent 16 hr • Child (<20 kg)  3 cc/kg/% burn + D5 MIVF • Goal = UOP of 30 cc/hr (1 cc/kg/hr in kids) • Peripheral IV access -- NO cut-downs • Do NOT bolus !!! • NO normal saline!!!

  20. Resuscitation Fine Points • More is NOT better!!! • Crystalloid … NOT colloid & only LR • Goal is normotensive, perfused, urinating pt. • < 4 cc of LR /kg/%TBSA •  central monitoring • Escharotomies • ACS is unacceptable!!!

  21. Disability(from other injuries) • Primary & secondary surveys are important!!! • R/O non-thermal trauma … ~5% have concomitant non-thermal injury • Management of non-thermal trauma typically supercedes burn management, except for the resuscitation.

  22. Everything else • No IV antibiotic prophylaxis!!! • Vascular access: PIV is preferable • Analgesia = IV opiates • Conservative & judicious sedatives, prn only • Wood’s lamp eye exam for flash burns to face • Escharotomies • Early enteral nutrition (≥ 20% TBSA)

  23. Escharotomies

  24. Indications • Circumferential FT extremity burns with threatened distal tissue • Diminished or absent distal pulses via doppler • Any S/S of compartment syndrome • Circumferential FT thoracic burn • Elevated PIP or Pplateau • Worsening oxygenation or ventilation • Nearly impossible to resuscitate patient with restrictive eschar needing release • Fasciotomies rarely needed

  25. Technique • ANATOMIC POSITION!! • Med & lat lines of extremities, over lumbricals on dorsal hands, ant or mid axillary lines on chest, & lateral neck lines • Thru eschar only -- RELEASE • Use cautery (knife OK) • Not a sterile procedure • Digits are controversial

  26. After…

  27. Initial Wound Management • No IV antibiotics!!! • Analgesia = IV opiates • Wound care  keep it simple • Moist dressings (smaller burns) • Dry non-adherent dressings (larger burns) • “burn sheet”, cellophane, etc… • Topical antibiotics only if delay in transfer • Silvadene • Bacitracin • +/- blister removal • Defer to burn center protocols, if uncertain

  28. Excision & Grafting

  29. Tangential Excision (TE) • Done “early” (w/in 7 d) • Various adjustable knives • Sequentially remove only non-viable tissue • Standard burn operation • BLOODY!!! • Tourniquets on extremities • Speed is essential

  30. Fascial Excision (FE) • Done “early” (w/in 7 days) • Done w/ Bovie • Used for deep FT w/ dead subQ tissue • Excise to fascia • “Inferior” cosmesis (?) • Blood loss < TE

  31. Split-thickness Autograft (STAG) • Skin is currently the only way to definitively “close” a burn wound. • STAG typically 0.010 - 0.012 inches thick • Meshed or sheet (location) • Limited quantity • Donor site issues & complications

  32. Allograft • Only temporary • Ultimately rejected • Always requires STAG • Uses: • temporary closure to allow donor healing & re-cropping • STAG overlay • test excision bed

  33. Wound Closure Advances • Dermal substitutes • Integra (bilaminate, collagen-chondroiton-6-SO4) • Alloderm (cryopreserved allogeneic dermis) • Dermagraft (neonatal FB on Biobrane) • allow formation of autogenous “neodermis” • utilize ultra-thin STAG (0.006 - 0.008 in) • superior cosmesis & fxn vs. standard E&G • Cultured epithelial autografts (CEA) • Epicel (cultured skin from patient) • fragile, limited overall burn experience, $$$$

  34. Integra

  35. The Template • FDA approved in ‘96 • Bilaminate membrane • Applied to excised wound • Engrafts in ~ 14 days (~7 days with VAC) • Ultra-thin STAG (“EAG”) • Superior cosmesis & fxn, decreased LOS • Drawbacks: • Learning curve • At least 2 operations

  36. Operation #1 (Application) Wound Bed Excision Application of Integra

  37. Operation #2 (EAG) Removal of the Silicone Layer Graft Application

  38. Integra Results

  39. Chemical Burns • Decontaminate patient prior to transport or transfer • Acids/alkalis • Meth labs • Petroleum products • “Industry” • H2O… H2O… H2O… H2O • Irrigation for ≥30 min • No formal antidotes (exothermic rxns), except for HF • Keep patient warm, if at all possible

  40. Electrical Injuries/Burns • High (>1000 V) & Low (<1000 V) voltage • Remove patient from current source • Dysrhythmias, SZ, FX, etc….. • Electrical & thermal components to injury • Holmes’ IVF rule of thumb: “double the calculated IVF rate (or volume) for a given estimated TBSA” • Always more injury than is apparent

  41. Modern Burn Care Model Nursing (33%) Therapy (33%) Med/Surg (33%)

  42. Beyond the OR • Wound care & healing are PAINFUL • Long-term opiates are the rule • PT/OT is long-term… lifelong to a degree • Revisions & reconstructions are common w/ larger burns, >30% TBSA • Burn care is expensive!!! • NBR mean hospital charges for survivors ~$56,200/admission & ~$4075/d • WFUBMC…. ~$4090/d

  43. Beyond Acute Hospitalization • PT/OT is lifelong, to some degree • Long-term neuropsych & psychosocial issues are pervasive • Burn survivor support groups & peers are essential • S.O.A.R. • Victim 2 Victor

  44. Outcomes: What to expect • Goal = LOS of 1 day/% TBSA burned • Reality: NBR = 1.7 and WFUBMC = 1.3 • RTW: ??? …… NBR = ? • WFUBMC > 50% return to pre-burn fxn • Disposition goal is ultimately home & independent….. NBR = ? • WFUBMC = 88% D/C’d home & 6% rehab • PTSD & other neuropsych sequelae are COMMON

  45. WFUBMC Burn Center Transfers or Referrals • “Open-door” policy for ANY burn - NO • CALL P.A.L.  800-277-7654 • Ask for Trauma/Burn Attending on-call • age, hx, %TBSA of PT/FT, UOP, airway & HD status • LR for resuscitation • transport (BMC AirCare ground or helicopter, 24-7) • Do not directly call the WFUBMC Emergency Dept or Burn Center • Dedicated Burn Clinic every MON & WED

  46. WFUBMC Burn Team

More Related