THE MERCK VETERINARY MANUAL
Print Topic

Sections

Chapters

Overview of Lightning Stroke and Electrocution

-
-

Injury or death of an animal due to high-voltage electrical currents may be the result of lightning, fallen transmission wires, faulty electrical circuits, or chewing on an electrical cord. Electrocution due to lightning stroke is seasonal and tends to be geographically restricted. Investigation of possible electrocution should always proceed with caution, because the electrification resulting from broken transmission wires, for example, may still be present. Once the site is clearly safe, the investigation should include the location of the dead animals, examination of all affected animals, and necropsy of those that died.

Certain types of trees, especially hardwoods such as oaks and those that are tall and have spreading root systems just beneath the ground surface, tend to be struck by lightning more often than others. Electrification of such roots charges a wide surface area, particularly when the ground is already damp; passage of charged roots beneath a shallow pool of water causes it to become electrified. A tile drain may spread an electric charge throughout its course. Fallen or sagging transmission wires also may electrify a pool of water, fence, or building, and an animal may also directly contact such wires. Differences exist in conductivity of soil; loam, sand, clay, marble, and chalk are good conductors (in decreasing order), whereas rocky soil is not.

Accidental electrocution of farm animals in a barn or adjacent confinement pen usually occurs as a result of faulty wiring. Electrification of a water or milk line stanchion or a metal creep or guard rail can result in widespread distribution of an electric current throughout the stable (also see Stray Voltage in Animal Housing) that may result in signs of water deprivation or feed refusal.

Death from electric shock usually results from cardiac or respiratory arrest. Passage of current through the heart usually produces ventricular fibrillation, and involvement of the CNS may affect the respiratory or other vital centers.

Varying degrees of electric shock may occur. In most instances of electrocution by lightning stroke, death is instantaneous and the animal falls without a struggle. Occasionally, the animal becomes unconscious but may recover in a few minutes to several hours; residual nervous signs (eg, depression, paraplegia, cutaneous hyperesthesia, blindness) may persist for days or weeks or be permanent. Singe marks on or damage to the carcass, damage to the immediate environment, or both, occur in ~90% of cases of lightning stroke but are less likely to be found if the animal is electrocuted by standing on electrified earth. Singe marks tend to be linear and are more commonly found on the medial sides of the legs, although rarely much of the body may be affected. Beneath the singe marks, capillary congestion is common; the arboreal pattern characteristic of lightning stroke can be visualized best from the dermal side of the skin by subcutaneous extravasations of blood. Singe marks are rarely found on recovered animals. Smaller animals such as pigs that contact electrified water bowls or creeps may be killed instantly or be thrown some distance by the strength of the shock. Electrocuted pigs are often recumbent and may have sustained spinal, pelvic, or limb fractures, resulting from severe muscular contractions.

The diagnosis is almost always made on circumstantial evidence, ie, location of the cadaver(s) and the absence of any disease processes when examined by necropsy. The presence of dead animals under a tree, hanging through or near a wire fence, or clustered around a light pole is strong evidence of electrocution by lightning stroke even in the absence of physical evidence like recent burning of tree bark or splitting of poles or boards in a fence.

Rigor mortis develops and passes quickly. Postmortem distention of the rumen occurs rapidly and must be differentiated from antemortem ruminal tympany (see Bloat in Ruminants); in both conditions, the blood tends to clot slowly or not at all. The mucosae of the upper respiratory tract, including the turbinates and sinuses, are congested and hemorrhagic; linear tracheal hemorrhages are common, and large blood clots are occasionally found in the trachea, but the lungs are not compressed as in bloat. All other viscera are congested, and petechiae and ecchymoses may be found in many organs. Due to postmortem ruminal distention, the poorly clotted blood is passively moved to the periphery of the body, resulting in postmortem extravasation of blood in muscles and superficial lymph nodes of the head, neck, and thoracic limbs, and to a lesser extent in the hindquarters. Probably the best indication of instantaneous death is the presence of hay or other feed in the animal's mouth; supportive evidence includes the presence of normal ingesta (especially in the rumen), lack of frothy ingesta (frothy bloat), and presence of normal feces in the lower tract and occasionally on the ground behind the animal. Few conditions affecting livestock cause such peracute death clustered in a small area.

Farm animals often are insured against lightning stroke, and the insurance claims agent or the veterinarian requested to sign an insurance form should closely observe the situation that initiated the claim. The investigator should ascertain that the animal actually died in the high-risk location rather than having been moved after death. This could be done to merely clean up or to deliberately confuse the investigation. Similarly, examination of recent weather information confirming thunderstorms is an important part of the process to substantiate an insurance claim. A well-documented description of where the animal(s) died and the results of a necropsy examination are usually acceptable to support an insurance claim of lightning stroke.

Those animals that survive may require supportive and symptomatic therapy. Euthanasia is warranted for those animals recumbent with fractures or severe muscle injuries.

Last full review/revision January 2014 by Eugene D. Janzen, DVM, MVS

Copyright     © 2009-2015 Merck Sharp & Dohme Corp., a subsidiary of Merck & Co., Inc., Kenilworth, N.J., U.S.A.    Privacy    Terms of Use    Permissions