TY - JOUR
PY - 2009//
TI - The morphology of cutaneous burn injuries and the type of heat application
JO - Forensic science international
A1 - Fracasso, Tony
A1 - Pfeiffer, H.
A1 - Pellerin, P.
A1 - Karger, B.
SP - 81
EP - 86
VL - 187
IS - 1-3
N2 - The morphology of burn injuries in 120 consecutive patients from the Department of Plastic and Reconstructive Surgery, CHR, Hospital B in Lille was correlated to the etiology and type of heat. Analysis identified five typical patterns of cutaneous burn injuries. Jet of flame-pattern from methylated spirits and gasoline detonations: superficial burn injuries; sparing of skin wrinkles and the submental region; absence or small amounts of soot; preference of exposed body regions, esp. the face and hands. Explosion-pattern from explosions and electrothermal injuries: superficial burn injuries; sparing of skin wrinkles but not of the submental region; soot; preference of exposed body regions. Alveolar soot arrangement and metallisation in electrothermal injuries. Considerable third-degree burns in dust explosions. Flame-pattern from direct flame effects due to burning gasoline or oil, open fires or ignited clothing: nonuniform depth including large third-degree burns; no sparing of the submental region; soot; preference of body regions covered by clothing. Immersion-pattern: superficial (bullous) injuries; blurred junction between scalded and unscalded areas; extremities, buttocks, and back are favourite sites; cave child abuse: waterlines and zebra-burns. Spilling-pattern: superficial injuries; sharp junction between scalded and unscalded areas; head, anterior trunk, and upper extremities are favourite sites; running off and splashing stains. Consideration of these patterns can assist the reconstruction in fire investigations or unclear scaldings. In cases of suspected arson, a typical burn injury pattern or a single finding not compatible with the rest of the pattern can disprove a suspect or raise the level of suspicion. Language: en
LA - en
SN - 0379-0738
UR - http://dx.doi.org/10.1016/j.forsciint.2009.03.002
ID - ref1
ER -