According to World Health Organization, food borne diseases are those diseases that enter the host through food; especially those that affect man and cause poisoning in animals.
They are of two types, namely:
- Food-borne infections and
- Food-borne intoxications
Food-borne Infections and Intoxications
Food-borne infections occur through consumption of contaminated foods or beverages. On the other hand, food intoxication occurs when toxic chemical substances of microorganisms in food get into man’s system.
While some like mushroom, fish, and cassava may be primarily toxic, others like molluscs have secondary toxicity. When an animal eats a mollusc, it produces chemical substances that cause toxicity to their secondary host.
Food additives may also become poisonous in food during production.
Sources of food contamination
There are many sources of food contamination and various stages of the food chain including production, transport, processing, storage, and consumption levels.
The most common sources include:
i) Food animals (edible)
These may contain infectious organisms in their intestines and/or muscles that cause food contamination.
May be contaminated during slaughtering or handling.
iii) Fresh fruits and vegetables
When grown in contaminated soils, these can be a source of food contamination. Contamination can also set in during handling when contaminated water is used to clean the produce.
When the hens feed on heavy metals or feed that is contaminated with chemicals, the contaminant is transferred to the final consumer through the eggs.
Seafood is notorious for heavy metal contamination.
vi) Infected humans
May introduce the contamination during handling of food. The most notorious case is tuberculosis.
vii) Cross contamination
Happens when one contaminated food is mixed with a different clean food. Happens mostly during handling of raw food or during cooking.
Foods that are commonly associated with food borne diseases
- Food animals; especially those that people tend to consume in their raw state like meat, fish, or milk.
- Foods that mix animal products e.g. milk, eggs, and minced meat.
- Fruits and vegetables since people tend to consume most of them raw.
- Fresh manure when used in a vegetable farm to increase soil fertility may contaminate the plants.
People who are at risk of food-borne infections include:
It is important to note that food-borne diseases pose a risk to every living soul. However, there are those individuals with increased risk to infection than others.
For instance, people who handle animal products are at a higher risk due to their increased levels of exposure.
Pregnant women, the elderly, infants, and people with compromised immunity are at a higher risk as well.
General symptoms of food-borne disease infection and general prevention measures
Most of these infections take the oral route because they tend to be consumed with the food. When infected, you will notice any or a combination of the following:
- Abdominal pain/cramps
To reduce the risk of infection, you can ensure the following:
- Sufficient cooking of all foods, especially for animal products.
- Proper preservation – refrigerate or freeze all foods of animal origin
- Keep foods in separate containers (avoid mixing foods)
- Use clean and sterile equipment and work surface when handling food. This goes for the water used as well.
It is usually not easy to trace the origin of an outbreak because it is not easy to tell where you might have picked an infection.
Food-borne infections could be caused by strict human pathogens such as Salmonella typhimurium or pathogens that affect both man and animal such as Salmonellosis. Either way, it is important to be safe.
Some of the very common food borne diseases and infections include:
This is a bacterial infection that affects both man and animal.
Salmonella bacteria have very many strains (over 1700) with potential to harm man and animal. It is gram negative, rod-shaped, non-lactose fermenter enterobacteria.
Salmonella typhimurium is the most common strain that affects man while Salmonella dublin causes disease in animals.
The primary source is in the intestines and they are shed in faeces. Animals and man can harbour this disease without showing any signs hence they become chronic carriers.
In such cases, the organisms reside in the gall bladder, liver, and spleen. The diseases causing microorganisms in these animals are usually transferred during slaughter.
Where commonly found
- Meat and meat products such as beef, mutton, etc.
- Pork (between 2 – 5 percent of all slaughtered pork contains Salmonella typhimurium in their lymph node hence continues to contaminate the rest of the products during processing).
- Poultry has the highest contamination by Salmonella typhimurium in their intestines,
- Eggs and egg products (especially duck eggs) pose a great danger when cracked.
- Milk and milk products contain both typhimurium and S. dublin especially during warm weather and in farms that use poor milking techniques.
- Direct contact with animals, animal products and carcasses of infected animals.
- Water contamination from faeces
- Pests and rodents who are the intermediaries for the disease especially when they come into contact with animals and food.
Clinical signs in animals
The condition is more prominent in young stock than adults that can harbour it without showing any symptoms. The symptoms include:
- Slight fever
- Severe diarrhoea (initially watery then dysentery sets in)
- Dehydration (the animals become so weak, their skin wrinkles and death follows.
Symptoms in man
In man, the disease incubates for about 36 -72 hours before showing any signs. The symptoms include:
- Abdominal pains
- Diarrhoea with chills
- Prostration (weakness)
- Septicaemia, which may lead to cardiac failure
Note: the severity of the symptoms depends on the dosage of the microorganism and the age of the patient.
Diagnosis and treatment
Diagnosis is done at a medical facility through lab testing. The doctor prescribes treatment depending on the lab results.
- Properly cook animal products
- Ensure hygienic handling of all animal products
- Use proper milking and milk handling techniques.
- Never wash eggs when they are cracked
2. Typhoid Fever and Paratyphoid
Caused by two strains of Salmonella bacteria that are strictly human pathogens. They are;
- S. typhi (typhoid fever) and
- S. paratyphi (paratyphoid).
The pathogens are strictly human pathogens, especially for those who carry the disease.
The disease reaches the chronic carrier state where the hosts retain the bacteria in the gall bladder and GIT.
It affects middle-aged women more than any other group of human beings.
- Contaminated water and foods e.g. milk, fruits, and vegetable.
- Can be shed through stool and urine
- Mechanical transfer by insects from one food to the next
Incubation period for typhoid fever is between 3 – 28 days while paratyphoid incubates for between 1 -15 days. The observable symptoms include:
- Slight fever (up to two weeks). After the 2 weeks, the organism moves from the blood into the GIT affecting the lymph nodes leading to severe abdominal pains.
- Rosebuds (petcheatons)
- Breaking of capillaries
- Kidney failure
Fatality rates in humans average 10 percent annually.
Suspect the disease from the symptoms. Isolation of the bacteria from the stool is a confirmatory test for the disease. The organism can also be isolated from the blood by culturing.
Serological tests (checking the actions of antigens against this organism) can also confirm the disease.
Seek medical attention in a hospital. Good nursing care is important for quick healing.
- Proper sewage disposal
- Use boiled water for domestic consumption
- Wash fruits and vegetables with clean boiled water
- Consume only properly pasteurized milk
- Test and treat chronic carriers
- Vaccinate people (vaccines will give 2 – 3 years of protection)
Where there is a massive outbreak of this disease, people will still get it.
It is also referred to as Bacillary Diarrhoea and is caused by a strict human pathogen.
This disease breaks out depending on geographical locations. You may not get it depending on where you stay.
It occurs in temperate countries (where it also slowly disappearing).
About four sub-species of the Shigellae spp are culprits. However, Enterobacteriaceae spp is the most pronounced. It produces potent toxin that affects the host.
Humans are the most common carriers. However, monkeys have been reported to carry the organism in some areas.
It occurs mainly in children, young adults and the elderly.
Foods commonly associated with this infection include:
- Milk and milk products
- Raw vegetables
When the infection occurs, it is common to pass it from one person to the next in 80 percent of the cases. This is not very common with food infections.
The organism requires a very small dose to cause a disease. The bacteria attaches itself to the walls of the intestines where they multiply and produce toxins.
The toxins cause toxaemia, which spreads to other parts of the body.
Some of the common symptoms include:
- Diarrhoea that comes on and off
- Mild abdominal pains; you may pass a few loose stools
- Nausea for people with HIV
- Watery stool with mucus/pus and stained with blood.
- An agonizing pain (colic) and temptation to diarrhoea (tenesmus)
- Fatality is low but the rate increases in children, the elderly, and people with compromised immunity.
- Patients take long to recover (about 3 months).
Check the bacteria in the stool and isolate it.
Seek medical help from a medical facility and use antibiotics. Fluid replacement (hydrotherapy) is critical.
- Maintain high standards of personal hygiene
- Boil water before using it for consumption purposes
- Proper sewage treatment and disposal is key
- Properly pasteurize milk before consumption
- Proper handling and cooking of vegetables
4. Haemorrhagic Colitis
This food borne disease is an enteropathogenic Escherichia coli infection that affects both man and animals. It is widespread in man and is very common in infants under poor sanitary conditions.
The specific strain that causes disease is E. coli 0157H.
When the bacteria causes disease in animals, the condition is referred to as colibacillosis.
Colibacillocis will occur in small animals between 1 – 14 days. They get a very serious disease that is commonly referred to as Septicaemic coli. The bacteria uses the navel as the route of infection.
The disease may also affect the nervous system. It usually have very high fatality rates.
Animals that manage to recover harbour the organism in the joints leading to arthritis. If the bacteria hides in the brain, they cause meningitis, while those that hide in the lungs will cause pneumonia.
Ophthalmitis occurs if the bacteria harbours in the eyes of animals that manage to recover and enteric colibacillosis is the disease that affects animals aged between 3 – 8 months.
- Poor housing
- Poorly lit and ventilated room
- Poor waste management (including animal droppings and sewage)
- Poor feeding management
- Overfeeding young calves with colostrum gives the physiological diarrhoea, which impairs their immunity.
- Poor hygiene management and poor milking techniques.
Intestines of animals and will be shed through faeces that contaminate water and soil. Pathogenic strains are very resistant and remain potent for long.
If any food product comes into contact with contaminated water, soil or faeces, it becomes a source of contamination.
In institutions where kids are fed using feeding bottles, there is a risk of spreading the disease if only one bottle is contaminated.
Incubation period is 2 – 4 days.
The bacteria attacks the epithelial cells and produce toxin that causes gastroenteritis. The observable symptoms include:
- Sudden onset of severe stomach pains with cramps followed by watery blood-stained diarrhoea.
- Small fever
- Fatality is not very common
- The disease may progress for a week if not treated. In which case, other strains of E. coli will cause other illnesses including:
Travellers’ diarrhoea, which is usually associated with consuming unhygienic foods while travelling.
Haemolytic uremic syndrome, which is an equivalent of Septicaemic coli.
It has high fatality rates of up to 50 percent. People that manage to recover may suffer from kidney failure if the organism is logged in the kidney. Those that manage to recover may be forced to undergo dialysis for the rest of their lives.
Culture the stool. It should have a high plate count.
Hospitalization for early treatment.
Rehydration to replace the lost electrolytes and restore normal balance.
Adults may pass to notice the symptoms of the disease.
- Maintain strict hygiene
- Encourage breastfeeding and maintain high standards of hygiene for the feeding utensils.
- Properly cook meat and meat products, milk, and eggs. Wash vegetables and fruits properly before consuming them.
- Use boiled water for domestic activities.
Of all the food borne diseases, cholera is one of the most ravaging. It is caused by a strict human pathogen that spreads fast and affects many people. It usually leads to epidemics with mortality rates of up to 30 percent.
Caused by Vibrio cholera. The typical biotype E1 and TOR.
Spread through contaminated water and the bacteria survives longer in an alkaline condition. Acidic conditions usually kills it.
It is common for this disease to occur in crowded areas. It is usually associated with symptomless carriers.
Pathogenicity is very clear. The organism is ingested through water. Once it reaches the intestines, it multiplies fast and produces an enterotoxin that causes severe enteritis (inflammation).
One requires a very small dose for the disease to occur. Incubation takes between 3 – 12 hours. The observable symptoms include:
- Sudden onset of effortless vomiting followed by profuse diarrhoea (between 20 -30 times in a day), which leads to rapid dehydration.
- “Rice” watery diarrhoea when small bits of mucosa is present in the stool
- Severe dehydration that leads to suppression of urination. The patient develops wrinkled skin, sunken eye sockets and becomes very weak.
- Lowering of the blood pressure leading to rapid and weak pulse. This may lead to circulatory failure and death.
- The bacteria is very easy to identify because it is filamentous and motile.
- Cultural isolation of the stool or water can be effective as well.
- Serological testing (titrating the antigen/antibody reaction) can be used to identify the microorganism.
Immediate hospitalization. Medication with antibiotics and rehydration is very critical to survival of the patient.
- Maintain personal hygiene
- Boil/treat the water you intend to use for domestic consumption
- Proper sewage disposal
- Hygienic handling of foods
- Vaccination (effective for six months).
Caused by Vibrio parahaemolyticus. It is usually associated with marine life and sea foods are the major culprits of the microorganism.
It incubates for 12 hours
- Abdominal pain
The disease is not as severe as typical cholera and it can end without medical intervention.
- Avoid consumption of poorly prepared sea food
- Freeze the sea food; it kills these microorganisms
- Avoid mixing raw with cooked food.
Food-Borne Viral Infections
1. Infectious Hepatitis
Hepatitis is a common / prevalent infection that is easy to diagnose. It is caused by virus types A and B.
When the disease occurs, the virus is shed through the blood, stool, and urine of the infected person.
The disease is more severe in children. Adults experience a protracted period of the disease.
Majorly transmitted through oral consumption of contaminated water by stool or urine of an infected person.
You can also get it through contact with the blood of an infected person.
Hepatitis type B can be transmitted through sexual contact.
Incubation period is between two and six weeks.
It takes quite long to get a slight manifestation. Some of the noticeable symptoms include:
- Slight increase in body fever
- General malaise
- Faintness and weakness
- Abdominal discomfort
- Liver failure symptoms (jaundice)
- Ascites (accumulation of fluid in the abdomen)
- Changes in urine colour due to presence of bile
Once the incubation period is complete, the onset of the symptoms are characteristic.
Test the liver functions and identify the virus in the blood or urine through cultural isolation.
- Vaccination is the most effective way.
- Maintain high hygiene standards for food, water, and self.
- Proper sewage treatment and disposal channels.
This disease can occur in apparent forms (i.e. cases where the disease is present but the patients do not show any symptom). It is caused by polio virus 1, 2, and 3.
The virus is shed through the stool and pharyngeal excretions. People catch the virus through consumption of contaminated water, milk, and other fluid foods.
Incubation takes between seven and 10 days.
- It starts with fever followed by headache
- General malaise
- Stiffness of the neck
- Paralysis of limbs
- Meningitis may also occur
The symptoms are helpful in making a tentative diagnosis.
Isolate the virus from the stool and other secretions of the body.
Serological tests are also helpful in diagnosing this disease.
- Vaccination is very effective; done only once and remains effective for life.
- Maintaining high standards of personal hygiene is crucial. Food and must be kept clean and uncontaminated.
General Disease Control Methods
i) Increasing the host resistance
You can achieve this in two ways:
- Proper and improved nutrition
ii) Taming the environment
Here, you eliminate or reduce the hazards / predisposing factors to the disease. You can achieve this through environmental sanitation, e.g.
- Water should be safe and adequate
- The housing should be sound to eliminate physical and biological hazards
- Food hygiene should be high throughout all the stages of production. Check and control the type of soil, the food storage premises, and even the chemicals used in production. Inspect and reduce all sources of contamination (including the health of human handlers). Refrigerate stored foods at the right temperature.
- Conduct mass education on food hygiene
- Disinfect areas where the sick animals stay to avoid contamination and cross-contamination to a healthy host. You can use chemical disinfectants or irradiation for this purpose.
- Practice proper waste and sewage disposal. Properly manage and dispose industrial wastes as well
- Control the quality of the air you breathe through sanitation or filtering
- Minimize contact with animals to reduce chances of spread of zoonotic diseases
Food Borne Intoxications: Intentional or Accidental Food Poisoning?
Food borne intoxications are diseases/infections caused by ingestion of toxic materials found in animals and plants. They are metabolic products of microorganisms that they produce as they multiply.
Intoxication could also arise from consumption of various compounds added to food whether intentional or otherwise. These could include compounds that are generally regarded as safe (GRAS), e.g. food colouring or flavouring agents.
The most common food borne intoxications include:
1. Staphylococcus aureus intoxication
Staph. aureus is both infectious and intoxicating. It is a ubiquitous microorganism that is not easy to eliminate.
Intoxication occurs after consumption of foods containing the exotoxins produced by the bacteria.
Alternatively, one can consume the bacteria in the food and the bacteria will multiply rapidly and cause infection after reaching the GIT.
This bacteria produces toxins A, B, C, and D, which are very potent and heat stable. These toxins are also resistant to proteolytic enzymes.
These bacteria easily contaminate food due to their presence on the skin.
- High levels of contamination by the bacteria
- Foods at pH of 4.5
- High temperatures (above 15°C; ideally between 35°C and 45°C).
- The bacteria are present in the food for a long period enough to multiply and produce toxin. For instance, keeping cream at 24°C for five hours of exposure will allow for toxins to be produced. Mashed potatoes will take six hours to achieve the same results while contaminated fish will take 72 hours to produce the toxins.
Staphylococcus aureus has very poor ability to compete with other microorganisms. They occur in foods that have marked reduction in number of other microorganisms.
This is the reason why foods like cured meat and salted foods that kill other microorganisms give Staph. aureus a head start.
Sources of contamination
Man harbours this microorganism on the skin and mucus membrane.
Commonly affected foods include meat and milk products. The bacteria come from the animal and people who handle the milk and meat.
Staph. aureus also causes mastitis.
Modes of transfer
Bacteria moves from one organism to the food and the food becomes a hazard for all who consume it.
High dosage is necessary for propagation and toxin production.
Incubation period usually takes between one and six hours. Observable symptoms include:
- Nausea and vomiting
- Abdominal pain and cramps
- In severe cases, blood is present in vomit and stool
- Other symptoms vary based on individual status and dosage of the bacteria. They may include headache, sweating, and marked prostration.
Fatality rates are very low. Recovery happens between 24 to 72 hours.
Tentative diagnosis is done from the symptoms. To confirm the disease, isolate the bacteria and the toxins.
- Avoid conditions that allow toxin production
- Ensure hygienic preparation and handling of foods.
- Freezing meat before cooking
Botulism is an intoxication that affects both animals and people. It comes from the Latin word Botulus, which means sausage because it is majorly associated with sausages.
The disease is very common in animals and produces very severe intoxication often resulting in outbreaks.
It is takes a low profile in people but will have pre-formed toxins when one gets infected.
The toxins are produced by Clostridium botulinum, which is harboured in the GIT. It forms highly resistant spores.
It is both proteolytic and non-proteolytic and it can cause food spoilage or produce toxins in unspoilt food.
The bacteria produces several toxins including A, B, C, D, E, and F. All these toxins will occur in both man and animals in varying severity.
Toxins C and D are very common in animals and cause intoxication in animals.
Conditions for toxin production.
A pH range of between 4.6 and 5.3 or above.
The bacteria have a range of favourable temperatures depending on the food in question. The minimum is usually between 25°C and 37°C.
However, some foods can facilitate toxin production at low temperatures of 10°C while others as high as 50°C. Toxins A and B can be produced and temperatures lower than 10°C.
Food preservation method will affect toxin production. Anything that will cause an anaerobic condition will lead to toxin production.
Sources of contamination in animals
Anything rich in organic matter (e.g. cadavers of animals that had these bacteria. Animals tend to eat these when they have pica).
Decaying plant matter may contain bacteria from dead rodents that come into contact with them. When these come into contact with animal feed, they transfer the contamination.
Sources of contamination in man
Animal proteins especially if kept improperly leading to formation of food pH of between 4.6 and 5.3. When this food is consumed after warming slightly, it leads to poisoning.
People who love to eat raw animal products are at a higher risk. Type B poisoning is common in marine foods and fresh water fish.
Highly acidic/spiced/fermented foods or foods with low protein needs delicate handling. Such food may already be spoilt but you will fail to notice it due to the food’s acidic nature. This often leads to outbreaks.
Major sources of these toxins
Toxin type A – is very common in man. It is transmitted through chicken meat, fish, and canned vegetables.
Toxin type B – will occur in both man and horses. It is associated with meat in men and forage/silage in horses.
Toxins types A and C will occur in birds that eat rotten vegetables.
Toxins C and B are common in most domestic animals. They pick the toxin from decaying organic matter.
Type B is common in cattle. They get the toxin from eating contaminated feed.
Toxin type E is usually associated with man and wild birds. They contact it from marine foods and fish.
Type F usually affects man. Common in Europe.
Symptoms of intoxication in man
The toxins interfere with the production of acetylcholine leading to motor paralysis.
Incubation period is between 12 and 36 hours. It can be shorter (4 hours) or longer (36 hours) depending on the individual.
Observable symptoms include:
- Upset of the gastrointestinal tract
- Burning sensation
- Diarrhoea with/without pain
- Constipation may occur in some cases.
Nervous symptoms will set in as follows:
- Dizziness followed by drying up of the mouth
- Pain in the pharyngeal region
- Blurred vision due to paralysis of the optical region
- Mydriasis – normal dilation, jerky or involuntary
- Nystagmus – when the eyes fixate on an object/target
- Loss of light stimuli, which will lead to blindness
- Temperature is usually unaffected and people will not lose memory.
- When the muscles are affected, swallowing food will be very difficult
- Pharyngeal muscles will be affected leading to respiratory failure and even death
In animals, the effects vary in severity. Mostly affected are chicken and cattle.
- It will lead to sudden deaths
- Paralysis is shown in uncoordinated movements
- Death due to respiratory failure
Tentative diagnosis from the symptoms shown. Isolate suspected foods and carry out tests to identify the toxins and/or the bacteria.
Very difficult to treat. Give the patient antitoxins and treat the symptoms.
Control measure in animals
- Vaccination protects the animals
- Avoid feeding the animals on decaying hay/forage.
Control measures in man
Take great care with animal protein foods. Avoid eating cold food preserved from the previous day. Thoroughly heat it up before eating.
3. Clostridium pufringens intoxication
In animals, these bacteria produce toxins type A, B, C, D, and F. it causes what is known as enterotoxaemias.
It usually affect young animals and usually leads to high mortality rates.
Toxin A enterotoxaemia is very rare in animals. In people, they will get it when they eat preserved animal protein without sufficiently heating it first.
Conditions for toxin production
- Optimum temperature is usually between 42°C and 47°C.
- A pH level of above 6
- Salt concentration of about 6 percent.
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Incubation period is shorter; takes an average of 12 hours.
Normal signs of intoxication include:
- Abdominal pains
You can get the toxin from the faeces. Isolate bacteria by culturing.
Control measures in animals
Vaccination is effective
Control measures in man
- Be careful when preserving foods with animal protein
- Cook food properly, especially animal protein
Fungal Intoxication in Food: Mycotoxin (Afflatoxin) Poisoning
Mycotoxins are poisonous fungal metabolites of which, afflatoxins are the most prominent. They are produced when someone ingests fungal-infested food and can be very toxic, even lethal. Afflatoxins are the biggest threat of all forms of fungal intoxication on food.
Several fungi that produce these mycotoxins and they target many foods such as cereals, fodder crops, and even hay.
The following factors favour their growth, multiplication, and reproduction:
- Air and humidity (≥ 70 percent)
- Temperature conditions (between 10°C and 30°C)
- Cereal damage (pre-disposing factor)
These conditions create a perfect environment for the thrift of these fungi, which spoil food by rendering the food not fit for consumption. They are produced in cereals in the field and during storage when the temperatures are high and the levels of humidity are elevated.#Afflatoxins are major fungal metabolites that pose #health risks to man. #foodsafety #foodpoisoning #afflatoxin Click To Tweet
Afflatoxicosis (the most critical form of fungal intoxication in food).
This is the disease that arise as a result of afflatoxin poisoning. It can occur in both man and animals and it produces chronic signs in acute doses. It was first discovered in early 1960 in turkeys and ducklings.
It is caused by the fungus Aspergillus flavus. The common toxins produced include B1, B2, G1, and G2, which are direct action toxins. Contamination of commercial cereals can be catastrophic.
Indirect toxins such as M1 and M2 can also affect man by consuming products (e.g. milk) from animals with afflatoxicosis. Due to their mode of action, they are generally labelled as factors.
Afflatoxin is thermo stable but alkaline labile.
The most vulnerable species are all animals with pets taking the heaviest blow due to their small sized bodies. They catch the poison from contaminated food.
In larger species, the young ones will be adversely affected. All humans suffer the same severity unless one has compromised immunity.
However, afflatoxins in meat is generally not considered a very big problem.
Signs and symptoms of afflatoxin poisoning
Since afflatoxin poison affects the liver, other symptoms arise from the liver failure. Afflatoxins are carcinogenic and induce tumour formation (in chronic cases).
The observable symptoms include:
- Abdominal pain due to infection of the liver
- Ascites (fluid collects in the abdomen leading to formation of a distention/swelling)
- Severe jaundice
- Severe weakness
- Hepatic necrosis followed by haemorrhage
- In acute cases, liver fibrosis occurs. Without intervention, the cell death my progress and cause tumour formation.
Clinical signs and health history can be associated with mouldy food/feed. To confirm the presence of the toxin, it is isolated from the feed and animal tissues (especially the liver).
Proper harvesting techniques and rapid post-harvesting drying of cereals.
Control of temperature and humidity during storage and transportation of cereal foods. Use fungicides.
Monitor the hygiene of animal feed. Control mould growth on the animal feed (e.g. hay and silage). Do not feed animals on afflatoxin-infested cereals.
Poisoning in Animals
Animals get poisoned via two major routes:
By ingesting the preferred poison
Through secondary poisoning by ingesting the poisoning agents. The plants they feed on may also be toxic, causing either primary or secondary poisoning.
Classes of poisoning in animals
- Biological toxins that arise from plants, animals, fungi, etc.
- Chemo toxins that arise from chemicals such as pesticides and acaricides, which cause cyanide poisoning.
Diagnosis of animal poisoning
Only a qualified person should do the diagnosis since the outcomes do have legal implications.
Records are important since history plays a critical role in diagnosis, especially in cases where the feed is the suspect.
Clinical signs are also important since most poisoning cases usually end in fatality. Post mortem is advised.
Laboratory analysis will confirm the suspicions.
Sampling rules for laboratory analysis
- The sampling technique depends on the suspected poison
- Use clean and sterile container for the samples
- Take a fresh sample
- Proper handling to avoid any contamination or cross-contamination
- Avoid spillage or contact with persons involved
- Do proper storage (freeze the sample if it will take some time to reach the laboratory).
- Ensure that as few people as possible touch the sample before it reaches the lab
- Properly label the sample to avoid any mix up
- Do proper recording after submitting the sample
General clinical signs
- Very few cases of poisoning in animals have pathognomonic signs
- General sudden death affecting several animals
- Sub-normal temperatures depending on the route of transmission
- Oral poisoning usually exhibit abdominal pain, excessive salivation, weakness, and muscle tremors/twitching.
- Poisoning through the skin leads to reddening of the skin and diarrhoea.
General post mortem signs
- Organ congestion/haemorrhage
- Gastroenteritis/inflammation of the entrails
- Liver and kidney enlargement
- Hyperaemia on the skin
Treatment for poisoning
- Remove the animal from the poison/poison from the animal (whichever is applicable in your case) and ensure that the animal is comfortable.
- Prevent any further absorption of the poison through gastric lavage, use of activated charcoal, or washing with plenty of clean water.
- Treat the symptoms or provide an antidote to neutralize the poison.
Biological poisons tend to be plants, usually the drought resistant types.
Chemical poisons may include:
- Acaricides – animals will consume it when used at the wrong time and get arsenic poisoning
- Dressing chemicals for seeds cause mercury poisoning
- Urea poisoning from the concentrates the animals feed on. If you use urea in silage, there is risk that you will end up poisoning your animals.
- Other plants like sorghum will cause cyanide poisoning.
Physical poisoning agents include:
- Lead and copper that are most commonly used with agricultural products
- Sun stroke – during high temperatures. The animal can also suffer from photosensitization when there is very bright light.
Food animals (animals generally consumed as food) may cause secondary poisoning. It will pass the poison to the secondary consumer through their tissue.
For that reason, here is what you need to do when checking for an animal to eat:
- Check the viscera. If they are darker than usual, avoid such meat.
- Avoid eating animals of unknown origin
- Be very selective when eating marine foods, they are usually toxic
- Examine fish before cooking. There are poisonous and non-poisonous types.