Abstract

The development of less-lethal technologies has provided law enforcement personnel with an alternative to lethal force. Although the less lethal projectile was produced to engender non-penetrating wounds, case studies show that there have been a number of reported penetrating injuries ranging from minor to significant in morbidity. The objective of this study was to determine the energy per unit area required to penetrate various regions of the body. Eight unembalmed postmortem human specimens were procured for this testing. Each specimen sustained a maximum of 25 impacts consisting of shots to the anterior and posterior thorax, abdomen, and legs. A 12-gauge, fin-stabilized, rubber rocket round was used as the impactor for all of the conducted tests. The energy density required for 50% risk of penetration varied from 23.99 J/cm2 for the location on the anterior rib (p = 0.000) to 52.74 J/cm2 for the location on the posterior rib (p = 0.001).

References

1.
Charles
A
,
Asensio
J
,
Forno
W
,
Petrone
P
,
Roldan
G
,
Scott
RP
.
Penetrating bean bag injury: intrathoracic complication of a nonlethal weapon
.
J Trauma
 0022-5282
2002
;
53
(
5
):
997
1000
.
2.
Grange
JT
,
Kozak
R
,
Gonzalez
J
.
Penetrating injury from a less-lethal bean bag gun
.
J Trauma
 0022-5282
2002
;
52
(
3
):
576
8
.
3.
Wawro
PA
,
Hardy
WR
.
Penetration of the chest by less-than-lethal “beanbag“ shotgun rounds
.
J Trauma
 0022-5282
2002
;
52
(
4
):
767
8
.
4.
DiMaio
VJM
.
Penetration and perforation of skin by bullets and missiles. A review of the literature
.
Am J Forensic Med Pathol
 0195-7910
1981
;
2
(
2
):
107
10
.
5.
DiMaio
VJM
,
Copeland
AR
,
Besant-Matthews
PE
,
Fletcher
LA
,
Jones
A
.
Minimal velocities necessary for perforation of skin by air gun pellets and bullets
.
J Forensic Sci
 0022-1198
1982
;
27
(
4
):
894
8
.
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