The treatment of poisoning victims determined by laboratory tests. The standard tests required for every significant poisoning are listed in
Common diagnostic test for acute poisoning case.
The impact of poisoning can differ significantly depending on the specific substance consumed. Identifying toxic substances in a patient is crucial to obtaining a thorough medical history. Frontline healthcare providers in the emergency department often handle patients presenting with poisoning. Their clinical presentation can vary depending on their dose, duration of exposure, and pre-existing medical conditions. Initially, poisoning management entails administering supportive care such as absorption and enhancing the elimination of poison with charcoal and antidote administration after identifying the poisoning substances. This article aims to provide a basic overview of the concepts involved in evaluating and managing these individuals.
The word ‘poisoning’ denotes the deliberate or unintentional injury or impairment of a living organism by a substance through its chemical action. This concept is used to imply that accidental ‘Toxic exposure’ to a substance is unintentional, and ‘Toxic overdose’ refers to intentional or accidental exposure to a harmful substance.
In 2019, the Global Burden of Disease (GBD) study reported that unintentional poisoning accounted for 0.14% of all global deaths, while self-harm contributed 1.34%. Despite the low rate of death caused by this issue, the World Health Organization (WHO) has long stated that poisoning is a significant public health issue.
The reported cases of poisoning and self-harm in South Africa mirror the international trends.
History-taking aims to identify the toxic substance that caused the overdose or poisoning. The comprehensive history of a poisoned individual is essential to understanding their symptoms, exposure, and circumstances. Healthcare providers should maintain a confident and calm demeanour to facilitate the exchange of information. If a patient cannot divulge a complete history, then an attempt for collateral information from their friends or family must be made.
Healthcare workers handling suspected individuals exposed to poisonous nerve gases or organophosphate pesticides must use appropriate protective equipment before performing any procedure. Healthcare workers are prone to being impacted by contaminants while working. A comprehensive physical examination is critical while dealing with patients suspected of being poisoned. It can help to identify the toxidromes and recommend the appropriate treatment.
Reduced level of consciousness is one of the most common symptoms of acute poisoning. Before diagnosing poisoning, the physician must rule out other systemic conditions such as diabetes, syncope, stroke, head injury, epilepsy, meningitis, encephalopathy, among others.
Poisoning substances can be diagnosed by evaluation of pupillary reflex reactions. For instance, dilated pupils (mydriasis) can indicate cocaine, amphetamines, cannabis, and antidepressants. On the other hand, pinpoint pupils (miosis) can suggest an overdose of various drugs, such as opiates, organophosphate, and chloral hydrate.
Acquired spontaneous eye movements (nystagmus) are commonly caused by acute drug poisoning. Various drugs, such as phencyclidine, ethanol, and phenytoin can cause nystagmus.
It is essential to observe the unusual breathing patterns of patients. For instance, any disorder leading to significant acidosis can trigger Kussmaul respiration, commonly occurring with alcohol poisoning or salicylate toxicity. In addition, compensating hyperventilation can accompany metabolic acidosis or methanol poisoning. In some cases, a central nervous system depressant used by a patient can trigger a respiratory arrest.
It is important to remember that patients who have been poisoned or overdosed on drugs or alcohol may have flaccid paralysis. They may also have dilated pupils, are unresponsive, and have no pupil deviation in response to cold-water injection into the ear canal (cold calorie test). They can recover fully even though they have been in a coma.
Continuous electrocardiography is essential for patients with significant poisoning. It can reveal critical diagnostic signs, such as arrhythmia in cocaine and theophylline toxicity, prolonged PR interval (beginning of the P wave until the beginning of the QRS complex) in digoxin overdose, a widened QRS complex (beginning of the Q wave to the end of the S wave) during an antidepressant overdose, or prolonged QT intervals (beginning of the Q wave to the end of the T wave) following an arsenic poisoning.
Poisoning and drug overdose can induce a seizure. Delayed seizures may indicate alcohol withdrawal or sedative-hypnotic withdrawal. For people who have overdosed on an unknown substance, the standard seizure control method is to use the full dosage of benzodiazepines.
Some of the common causes of gastrointestinal upset because of toxic ingestion include prolonged vomiting (theophylline) and gastrointestinal bleeding (iron and arsenic toxicity). Other conditions, such as arsenic and lithium poisoning, can lead to massive diarrhoea. In acute mercury poisoning, patients have a mucous-type diarrhoea that can lead to haemorrhagic colitis.
The treatment of poisoning victims determined by laboratory tests. The standard tests required for every significant poisoning are listed in
Common diagnostic test for acute poisoning case.
A patient present with poisoning is usually unstable; one must, first of all, stabilise their vitals and have an airway, adequate ventilation, and the maintenance of circulation described in
Approach to the poisoning case in emergency room.
Water is frequently utilised as a skin and eye decontaminant agent, effectively minimising the effects of dermal exposure.
The decisions related to the decontamination of poisoning should be individualised.
The flow diagram for acute poisoning management.
Activated charcoal binds different substances, making them less accessible for systemic absorption in the gastrointestinal tract. It is effective if administered within an hour after ingestion.
A large amount of polyethylene glycol is administered through either mouth or nasogastric tube. The goal of this procedure is to remove the toxic substance from the rectal tract in a fast and efficient manner. One of the main reasons this method is commonly used is when poisonous substances such as lithium and iron or enteric-coated drugs that are poorly absorbed by activated charcoal, and in case of heroin, cocaine, and opioids packet ingestion (body packing or stuffing).
Gastric lavage is highly controversial and can vary depending on the practitioner’s training and background. A gastric lavage is a procedure that involves blind placement of a large-bore tube into the stomach. It can cause various complications, including hypoxia and perforation of the gastrointestinal tract. In addition, it can lead to aspiration pneumonitis. The main indication for the procedure is to prevent severe harm caused by the substances ingested within an hour. Ingestion of petroleum products, acidic substances, and the inability to protect one’s airway are contraindications to the gastric lavage procedure.
Several theories are presented to explain the accelerated clearance of toxins after they have been absorbed into the gastrointestinal tract. Firstly, using multidose-activated charcoal disrupts the enterohepatic circulation. The procedure is commonly known as ‘gastrointestinal dialysis’.
The availability of sophisticated antidotes and their use have become essential in clinical toxicology. In most cases, an initial use of an antidote is recommended for stabilisation within the first hour following exposure to a known substance.
Common poisoning substances and their antidotes in clinical toxicology.
Individuals who have experienced poisoning require symptomatic care and monitoring. The specific toxic substance is often unknown, and for the patient with severe poisoning, it is crucial to closely monitor the patient’s oxygen saturation, vital signs, and cardiac rhythm.
It is imperative for individuals who have underlying health conditions, such as diabetes or heart failure, to receive close monitoring following a poisoning. This is crucial as the poisoning may have exacerbated their conditions.
In primary care, cases of poisoning require close observation, whereas severe toxicity demands urgent intervention to establish the patient’s airway, breathing, and circulation. Healthcare providers gather information by analysing the patient’s history, conducting laboratory tests, and assessing for toxidromes to identify the poisoning substance. Once the specific poison substance is determined, appropriate antidotes should be administered for treatment.
The author has declared that no competing interest exists.
R.K. is the sole author of this manuscript.
This article followed all ethical standards for research without direct contact with human or animal subjects.
Data sharing is not applicable to this article as no new data were created or analysed in this study.
The views and opinions expressed in this article are those of the authors and are the product of professional research. It does not necessarily reflect the official policy or position of any affiliated institution, funder, agency, or that of the publisher. The authors are responsible for this article’s results, findings, and content.