Poisoning
Poisoning refers to the harmful effects caused by exposure to toxic substances, which can occur intentionally or accidentally. It encompasses a range of incidents, including unintentional poisonings, occupational exposures, and even social forms of poisoning linked to drug and alcohol abuse. In the United States, the National Poison Data System reported over 2 million cases of poison exposure in 2022, with a significant portion involving children under six years old. The symptoms of poisoning can vary widely, making diagnosis challenging, especially in cases of chronic exposure to low-level toxins. Treatment often focuses on symptom relief and life support until the specific toxin can be identified, as many poisons do not have specific antidotes. With societal issues like drug abuse and environmental toxins becoming increasingly prevalent, the need for effective prevention and treatment strategies remains critical. As our understanding of toxicology evolves, it is essential to address both immediate health impacts and long-term societal repercussions of poisoning across diverse populations.
Subject Terms
Poisoning
Anatomy or system affected: Gastrointestinal system, immune system, muscles, musculoskeletal system, nervous system, respiratory system, stomach
Definition: Exposure to any substance in sufficient quantity to cause adverse health effects, from severe to fatal
Causes and Symptoms
Numbers of occurrences of poisoning vary widely depending on the information source and definition of poisoning. Incidents can be grouped into intentional poisoning, accidental poisoning, occupational and environmental poisoning, social poisoning, and iatrogenic poisoning (i.e., inadvertent poisoning as a result of medical treatment or procedures). In the United States, there is no single organization that collects and analyzes data from hospitals, physicians’ offices, police and court records, and industrial accident and exposure records. According to the National Poison Data System of the American Association of Poison Control Centers (AAPCC), which collects information from poison control centers throughout the United States, the fifty-five centers in operation in 2022 collectively managed 2.85 million cases that year, of which 2.08 million were determined to involve exposure to poisons. However, this does not include cases that were not treated by these centers, and it is important to note that extrapolations from the number of reported poisoning to the number of actual poisoning occurring annually in the United States cannot be made from AAPCC data alone.
Many incidents of poisoning go unreported because a poison control center is not consulted or the effects are not severe enough to require extensive medical treatment. In other cases where exposure involves constant contact with low but toxic levels of industrial chemicals, such as occupational or environmental exposures, symptoms may be subtle or confused with diseases that are associated with the normal aging process. The degree of illness and the number of premature deaths resulting from environmental exposure to naturally occurring or artificial toxic substances, such as radiation, chemical waste, and other toxins in the air, water, and food supply, are simply not known.
Of the 2.08 million cases handled by AAPCC facilities in 2022, 75.5 percent were determined to be the result of unintentional exposure, 19 percent were caused by intentional exposure, and 3.1 percent were adverse reactions to food, drugs, or other substances. The remaining 2.1 percent were due to unknown or other causes.
More than 37 percent of 2022 poisoning involved children ages six and under. The great predominance of young children in the accidental poisoning category reflects the inquisitive behavior of that age group. Of unintentional poisoning caused by therapeutic error, which represented 14.2 percent of all AAPCC-reported cases in 2022, the most common type of error among children five and under was inappropriate administration of medications by the parents, specifically inadvertent double dosing and other dosage errors.
Intentional poisoning of children also occurs, usually as a well-planned act of a psychologically disturbed parent. Although many of these incidents are clearly homicidal and abusive by design, some have received medical notoriety as cases of Munchausen syndrome by proxy. Munchausen syndrome itself is a psychiatric disorder in which the patient achieves psychological comfort from the attention and treatment received under the pretense of being afflicted with a serious or painful illness. In a variation of this condition, the psychiatric needs of an adult are fulfilled through an induced medical disorder in the child. For example, a parent might surreptitiously administer syrup of ipecac to their child, inducing unexplained vomiting and gastrointestinal disorders that require extended hospital care. The phenomenon is rare but well documented in the medical literature and is classified as a form of child abuse.
Intentional self poisoning of adults are mostly suicide-related. The Centers for Disease Control and Prevention (CDC) reported that 48,183 Americans killed themselves in 2020, 5,568 of them by means of poison. Although carbon monoxide (as in motor vehicle exhaust) is one of the most common agents used, intentional dosing with large quantities of drugs is also very frequently involved. Of the many thousands of drugs that could be used for overdose incidents, 90 percent of actual cases involve only about twenty products in nine drug groups. Most of these are addictive or abused drugs, including stimulants, antidepressants, tranquilizers, narcotics, sedatives or hypnotics, and antipsychotics. Alcohol alone is seldom lethal but is often consumed along with the more deadly drugs and may make the lethal effects possible.
Social poisoning is related to drug use or abuse, which can have significant societal consequences. There are hundreds of thousands of hospital and emergency room admissions each year for overdose treatment as well as for the indirect consequences of recreational drug use, such as violent crime, trauma, and vehicular accidents. According to the Substance Abuse and Mental Health Services Administration, 7,714,521 drug-abuse-related emergency room visits occurred in 2022. These figures do not include alcohol except when combined with drugs, which was the case in approximately 25 percent of drug-abuse-related visits.
The abuse of alcohol, the most widely available chemical intoxicant legally allowed for recreational use, is a major social problem in the United States. While a majority of the alcohol-consuming public demonstrates a lifelong pattern of little or moderate drinking without the development of addiction-related problems, it has been reported that a small percentage of the population (5 percent to 10 percent) drinks between one-third and one-half of all alcohol consumed. The causes of alcoholism involve a complex interaction of social, physiological, and genetic risk factors. Additionally, the National Survey on Drug Use and Health (NSDUH) reported in 2021 that 29.5 million people ages 12 and older had an alcohol abuse disorder.
Tobacco use, although not as closely associated with criminal behavior and vehicular accidents as drugs and alcohol, has been connected with increased incidence of cancer, respiratory illnesses, and cardiovascular diseases. According to the World Health Organization (WHO), more than five million deaths worldwide per year are attributable to tobacco use. Both smoking and excessive alcohol consumption are becoming increasingly less socially accepted, but the continued wide acceptance of both alcohol and tobacco use obscures their potential to poison.
Treatment and Therapy
Emergency medical treatment of the poisoned patient is most often based on the relief of symptoms and the provision of life support. If the patient is awake and alert, a medical history is taken and a clinical examination is performed, both of which can help determine substance exposure. The medical staff must never assume that the patient is providing truthful information, especially if clinical impressions conflict with the patient account. If the patient is comatose, then stabilization and life support take immediate priority over determination of the specific toxic substance involved. The attending physician will want to prevent airway blockage and to maintain respiration and circulation, which may require mechanical aids for breathing assistance. Treatment of cardiac and blood pressure problems can be accomplished with drugs, fluid, or oxygen administration. If the patient is unconscious, the depth of central nervous systemdepression can be evaluated using a standard test of reactivity to light, sound, pain, and the presence or absence of normal body processes. If the patient is suffering from seizures, drugs that counteract these symptoms can be administered.
Although many hospitals offer in-house toxicology testing in a clinical laboratory, treatment usually must begin before results are available. For this and several other reasons, a comprehensive toxicology testing laboratory is not as useful an asset in the emergency treatment of poisoning as might be assumed. It would be impossible for any analytical laboratory to provide timely or cost-effective emergency identification of all potentially toxic substances. Instead, a more efficient strategy concentrates on analyzing those substances for which a specific antidote exists or for which specific medical procedures are required in a critical period of time. A very high percentage of drug overdose cases involve one of a group of six or eight drugs that will vary depending on locality. Pesticide poisoning, for example, is a more prevalent medical problem for rural than urban hospitals. Drug abuse is a problem in all localities, but the frequency and type of drugs abused vary. Regional preferences exist for PCP, cocaine, amphetamines, and opiates. Even prescription drug abuse depends on locality and the patient population.
Common pain relievers found in virtually every home medicine cabinet constitute a large number of both adult and pediatric poisoning incidents. Preparations containing aspirin, as well as nonaspirin analgesics containing acetaminophen (such as Tylenol), are possibly life-threatening when consumed in excess. Acetaminophen poisoning is particularly insidious since death from total and irreversible destruction of the liver will occur unless the antidote, a chemical called acetylcysteine, is administered within six hours of ingestion of a lethal dose. Since a specific antidote exists, most hospitals with emergency service will offer around-the-clock testing for acetaminophen levels in the blood. Aspirin, although not as lethal as acetaminophen, can be fatal if a sufficient amount is consumed. Its universal availability and common usage make aspirin a significant poisoning agent encountered in all localities. The symptoms of toxicity are related to aspirin’s effects on temperature regulation, rate of breathing, and the body’s ability to influence the acidity of the blood. Treatment involves monitoring the patient’s vital signs and calculating the severity of the dose taken. Vomiting may be induced with syrup of ipecac, or charcoal (a very active adsorption agent) may be given orally to limit gastric absorption. Intravenous fluids may also be given to counteract the blood acidity changes.
Prescription drugs that are commonly overused or abused (antiepileptic medication, sedatives and tranquilizers, and antipsychotic or antidepressant drugs) are often routinely assayed in the hospital laboratory as part of the treatment process for patients receiving these medications. The levels in the blood can be monitored to determine the toxicity status of the patient. Usually, supportive care is sufficient for treatment until the drug clears the system. For certain tranquilizers and antidepressants, an antidote called flumazenil can be administered, but it must be used with caution.
Poisoning from an overdose of opiates or morphinelike drugs is a special treatment case. A specific antidote called naloxone can be administered if the patient is treated before irreversible respiratory depression occurs. Recovery is virtually instantaneous and dramatic, with a comatose patient becoming alert within seconds of naloxone administration. For this reason, the routine treatment of comatose patients includes the administration of opiate antidote even when the cause of the unconscious state is unknown.
Although heavy, long-term ethyl alcohol use invariably leads to liver dysfunction and a number of other organ disorders, alcohol is not usually life-threatening unless it is consumed in quantities sufficient to cause a coma. Death most commonly results from respiratory depression and related complications. Other types of alcohols, as well as antifreeze, can be involved in both accidental and intentional poisoning. Methanol or wood alcohol is a common industrial solvent found in materials around the home or work site; consumption can cause blindness and death. Isopropyl alcohol (or rubbing alcohol), although not as toxic as methanol, can also cause severe illness and death when consumed in sufficient quantities. Ethylene glycol, a common ingredient in antifreeze, is highly toxic and is especially attractive to small children and pets because of its sweet taste. It may also be consumed by alcoholics as an ethanol substitute. When not treated, its consumption can result in kidney failure. It is not the alcohols themselves that are the primary toxins but the degradation products called metabolites that form in the body in an attempt to eliminate the foreign substance. Ironically, the treatment for both methanol and ethylene glycol poisoning is administration of high doses of ethanol, which prevents the formation of toxic metabolites by the liver.
In the United States, lead poisoning is a major medical problem for children living in older, substandard housing; they can become exposed to large amounts of lead from the consumption of lead-based paint. (Even though such paints are no longer used in residential housing, many older buildings remain contaminated.) Another major source of exposure is inhalation of leaded gas fumes and exhaust. Other, less common sources of lead poisoning include the consumption of food stored in leaded crystal or pottery or moonshine whiskey distilled in automobile radiators. Intentional gasoline sniffing by adolescents can also be a problem. Lead exposure is extremely hazardous because its effects are both severe and cumulative. Children are especially susceptible to lead poisoning because they absorb and retain more of this substance and have less capacity for excretion than adults.
The nervous system is a major site for lead toxicity, causing both psychological and neurologic impairment. The blood cell production can also be affected, with resulting anemia and decreased oxygen-carrying capacity. Because lead toxicity can result in behavioral and learning disorders that may already afflict children living in substandard conditions, sometimes poisoning cannot be detected by clinical symptoms alone and must be diagnosed through blood testing. Test data indicate that the level of lead associated with nervous system disorders is probably lower than previously believed. In the United States, a major screening effort has been financed by the federal government to detect high lead body deposits in children. The goal is to find affected children and to treat them before permanent damage occurs.
Perspective and Prospects
Poisoning has been a medical problem since the earliest times of human history. A tremendous variety of poisonous substances can be encountered in the natural world alone. It has been estimated that two hundred thousand plants and animals are known to be toxic to humans, some organisms producing as many as fifty or sixty toxins. The potential of almost any substance to be poisonous was recognized during the Renaissance by Paracelsus, a founder of modern toxicology, who stated, “All substances are poison; only the dose makes something not a poison.” Many folk remedies and tribal medicine practices were derived from centuries of trial-and-error experiences with toxic plant and animal species in the environment. Historically, the development of the sciences of pharmacology and toxicology is closely related to the study of poisons.
As societies become more urban and technology-based, poisoning problems shift away from natural toxin exposures to those related to drugs and industrial chemicals. For many of these types of poisoning, sustaining the vital life processes until the toxin is cleared from the body is the only method of treatment. Specific antidotes are not available for many drugs or even for many natural poisons. Since a large number of toxins critically affect the nervous system, a diagnostic and treatment system has been developed based on the “toxidrome” concept. If a specific area of the nervous system can be shown to be affected, treatment can begin to counteract those effects, even if the identity of the toxin is not known.
The symptoms of acute poisoning or overexposure to a toxic agent are likely to be treated as individual medical problems by physicians in an emergency medicine environment. Meanwhile, social poisons, which often do not create immediate medical emergencies, continue to exact enormous economic and medical costs to society over the long term; these poisoning problems have not been dealt with successfully by social, medical, or governmental agencies. In the case of environmental toxins, little, if any, well-established information on the long-term toxicity of these substances is available. The science of toxicology, particularly with regard to establishing the risk of exposure of a population to environmental toxins, often becomes a guessing game played by a governmental regulatory agency. Until societal and environmental poisoning can be better evaluated and controlled, they will continue to constitute serious economic and quality-of-life problems.
Bibliography
Baselt, Randall C. Disposition of Toxic Drugs and Chemicals in Man. 12th ed., Biomedical Publications, 2020.
Dart, Richard C., editor. Medical Toxicology. 3rd ed., Lippincott Williams & Wilkins, 2004.
Drug Abuse Warning Network, 2011: National Estimates of Drug-Related Emergency Department Visits. HHS Publication no. (SMA) 13-4760, DAWN ser. D-39, Substance Abuse and Mental Health Services Administration, Department of Health and Human Services, United States, 2013, www.samhsa.gov/data/sites/default/files/DAWN2k11ED/DAWN2k11ED/DAWN2k11ED.pdf. Accessed 13 Mar. 2017.
Klaassen, Curtis D., editor. Casarett and Doull’s Toxicology: The Basic Science of Poisons. 4th ed., McGraw-Hill Education, 2023.
Kochanek, Kenneth D., et al. Deaths: Final Data for 2014. National Vital Statistics Reports, vol. 65, no. 4, National Center for Health Statistics, 2016. Centers for Disease Control and Prevention, www.cdc.gov/nchs/data/nvsr/nvsr65/nvsr65‗04.pdf. Accessed 13 Mar. 2017.
Mowry, James B., et al. "2015 Annual Report of the American Association of Poison Control Centers' National Poison Data System (NPDS): 33rd Annual Report." Clinical Toxicology, vol. 54, no. 10, pp. 924–1109. American Association of Poison Control Centers, aapcc.s3.amazonaws.com/pdfs/annual‗reports/2015‗AAPCC‗NPDS‗Annual‗Report‗33rd‗PDF.pdf. Accessed 13 Mar. 2017.
"Poisoning." MedlinePlus, 12 July 2018, medlineplus.gov/poisoning.html. Accessed 20 July 2023.
Rui, P., et al. "National Hospital Ambulatory Medical Care Survey: 2013 Emergency Department Summary Tables." National Center for Health Statistics, Centers for Disease Control and Prevention, Dec. 2016, www.cdc.gov/nchs/data/ahcd/nhamcs‗emergency/2013‗ed‗web‗tables.pdf. Accessed 20 July 2023.
Timbrell, John. Introduction to Toxicology. 4th ed., Taylor & Francis, 2023.
Warren, Christian. Brush with Death: A Social History of Lead Poisoning. Johns Hopkins UP, 2000.