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One of the commonest determinations of the forensic pathologist is the range of fire. Gunshot wounds are typically classified as:
Example images demonstrating gross and microscopic appearances of gunshot wounds:
Contact wounds characteristically have soot on the outside of the skin, and muzzle imprint, or laceration of the skin from effects of gases. Contact wounds of airguns usually lack these features (Cohle et al, 1987). Intermediate, or close-range, wounds may show a wide zone of powder stippling, but lack a muzzle imprint and laceration. The area of powder stippling will depend upon the distance from the muzzle.
Distant range wounds are lacking powder stippling and usually exhibit a hole roughly the caliber of the projectile fired.
The most difficult problem is distinguishing a distant from a contact wound, especially when (1) the body is decomposed, (2) the victim survived so that healing or repair of the wound occurred, (3) multiple layers of clothing filter the soot and powder of a contact wound, or (4) the edges of a small caliber contact wound dry together. (Stone et al, 1978)
Examination for gunshot residue may aid in distinguishing entrance from exit wounds, for the entrance wound will have more than the exit, or the exit will have none. Residue is lacking in entrance wounds with airguns (Cohle et al, 1987)
Scanning electron microscopy of entrance wounds shows gunshot residue within collagen fibrils. The entrance wound appears abraded, with loss of the papillary pattern and laceration of basement membrane. (Torre et al, 1986)
Entrance wounds into skull bone typically produces bevelling, or coning, of the bone at the surface away from the weapon on the inner table. In thin areas such as the temple, this may not be observed. Sternum, iliac crest, scapula, or rib may show similar features. These observations may permit determination of the direction of fire.
Example images demonstrating gunshot wounds to skull:
Tangential entrance wounds into bone may produce "keyhole" defects with entrance and exit side-by-side, so that the arrangement of bevelling can be used to determine the direction of fire. (Dixon, 1982)
Dixon (1984a) has described how the direction of fire of a graze gunshot wound of the skin surface can be determined by careful examination of the so- called skin tags located along the lateral margins of the graze wound trough, by use of a dissecting microscope or hand lens. Characteristically, the side of the tag demonstrating a laceration is the side of the projection toward the weapon.
"Shoring" of entrance wounds can occur when firm material is pressed against the skin, such as when a victim is shot through a wooden, glass, or metal door while pressing against it to prevent entry of an assailant. A study by Dixon (1980) showed that such wounds have a greater wound diameter and demonstrate greater marginal abrasion than control wounds produced by the same weapons. The features were directly proportional to the KE of the projectile and the rigidity of the shoring material. Stellate radiating lacerations of some shored wounds could lead to misinterpretation of distant range of fire as a contact wound.
Use of silencers (or "muzzle brakes" to deflect gas and recoil) may produce atypical entrance wounds. A silencer is a device, often homemade, fitting over the muzzle that attempts to reduce noise by baffling the rapid escape of gases. Their possession is illegal. Entrance wounds produced when silencers are present lead to muzzle imprints that are erythematous rather than abraded and disproportionately large for the size of the wound. Entrance wounds may appear atypical at close range. (Menzies et al, 1981)
Firearm missile emboli ("wandering bullets") are rare, with only 87 reported through 1984, but may occur in victims that survive for some time and may require surgical intervention. (Chapman and McClain, 1984)
The presence of multiple entrance wounds may not exclude suicide. Fifty- eight multishot suicides were described in one series (Hudson, 1981). The most common site for gunshot wound in suicide is the head (74%), usually the right temple (39%), followed by chest and abdomen. (Eisele et al, 1981) Men are more likely than women to shoot themselves in the head.
Most bullets are designed to hit the target without exiting, for this imparts all the bullet's KE to the target and does the most damage. However, in many situations an exit wound will be present. This may be due to the use of a projectile more powerful than necessary, or the projectile may strike an area (such as an extremity) with minimal tissue.
Exit wounds are generally larger than entrance wounds, due to the fact that the bullet has expanded or tumbled on its axis. Exit wounds either do not exhibit gunshot residues or far less residues than associated entrance wounds. In bone, typical "bevelling" may be present that is oriented away from the entrance wound.
Scanning electron microscopy of exit wounds shows irregular lacerations with protruding collagen fibers, but relatively undamaged papillae. (Torre, 1986)
Fragmentation of the bullet may produce secondary missiles, one or more of which may have exit wounds. The bullet path may be altered by striking bone or other firm tissues, such that the bullet track may not be linear, and exit wounds may not appear directly opposite entrance wounds.
It is important to remember that the orientation of the bullet track may be positional. The victim may have been shot while standing or sitting, but when the body is typically examined at autopsy, it is lying down, so that soft tissues may shift position. This must be remembered when rendering opinions as to the angle, or direction, of fire.
If the exit wound is "shored" or abutted by a firm support such as clothing, furniture, or building materials, then the exit wound may take on appearances of an entrance wound, such as a circular defect with an abraded margin. This can occur with contact, close range, or distant shots. 92% of shored exit wounds in one study had a round or ovoid defect, and all had some degree of abrasion. The degree of shoring abrasion increased directly with the KE of the projectile and the rigidity of the shoring material. (Dixon, 1981)
A keyhole lesion, typically identified with entrance wounds, has been described with an exit wound. (Dixon, 1984b)
In some situations, pathologic findings may help to establish in what sequence the bullets were fired that caused the injuries. For example, multiple gunshot wounds to the head may produce fracture lines, and a subsequent fracture line will not cross a pre-existing fracture line (Spitz and Fisher, 1973).
Subjective reasoning would suggest that the first shot may be horizontal (victim upright) but subsequent shots would be oriented down or to the back of the victim as he fell or fled. Without witnesses and scene investigation, such opinions would be conjectural.
Sexton and Hennigar (1979) have reported cases in which examination of projectile collisions have aided in determining the sequence of fire.
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