Tag Archives: preventing foodborne illness

Ummm…what exactly is botulism? (Part III)

Botulism: Surprises

Before moving on to the brighter sides of home food preservation, a few more interesting and perhaps less known facts about botulism:

  • Home canned products may be the most well-known source of botulism, but in recent decades botulism has also been linked to unrefrigerated homemade salsa, baked potatoes in aluminum foil, garlic in oil, traditionally prepared salted/fermented fish, and honey (the primary cause of botulism in infants).
  • This might startle you, but we actually consume C. botulinum spores regularly and they generally do not harm adults. Adult human bodies prevent the growth of spores, such that no toxin can be produced.
  • However, spores have been found to germinate, colonize and produce deadly poison in the intestinal tracts of infants. Therefore, USDA recommends that honey is not given to children under 1 year of age and that fruits and vegetables be washed very well before fed to infants.
  • Clostridium botulinum toxin is among the most toxic substances known.
  • Cases of botulism have been reported in which people showed symptoms only 4 hours after ingestion. The longest time reported between ingestion and illness is 8 days.

Information in the entry comes from the USDA factsheet Clostridium botulinum and So Easy to Preserve.

Umm…what exactly is botulism? (Part II)

Botulism: Prevention

After reading last week’s entry you know where botulism comes from and the effects it has on people. But perhaps even more importantly, are you confident that you know how to prevent it?

There are essentially two ways to prevent botulism: 1) thermal destruction (heating) of spores and 2) inhibiting spores from germinating into toxin-producing vegetative cells.

Even in favorable conditions, C. botulinum vegetative cells and toxin should be destroyed when held at the temperature of boiling water (212°F at sea level) for a relatively short period of time. There are some other inactivation heat processes available for different types of food, also.  However, C. botulinum spores are much more heat resistant and need temperatures much higher than boiling to be killed in  reasonable times.  For home canning, we use temperatures of 240°F or above. It is very important to note that, unlike most bacteria, C. botulinum and other spores are NOT destroyed by normal cooking or boiling procedures. The spores require higher temperatures (240°F or above) that properly operated pressure canners create.

dial=gauge pressure canner

To prevent botulism, use approved processing methods and times as recommended by USDA. Carefully follow recommendations for pressure canning low acid foods. If you are still concerned if you did everything right, you can boil home-canned products in a saucepan on the stove for ten minutes before serving (add one minute more for each 1,000 of elevation).

Also remember that C. botulinum spores cannot germinate and then produce the toxin in pH levels of 4.6 or below. Acid foods and properly acidified food products have pH levels equal to or less than 4.6, so the toxin formation is prevented. Examples of acidified foods include pickles to which vinegar is added and salsa to which lemon juice is added.

pickled green beanspeach apple salsa

You can further help prevent botulism and other foodborne illness by practicing general food safety; refrigerate all leftovers within 2 hours after cooking, and after just one hour if temperature is above 90°F. Discard, without tasting, any containers of food that are swollen, bulging, leaking, or cracked. Also immediately discard any product that spurts liquid or foam from a container once opened (unless it’s carbonated and shaken, of course).

Information in the entry comes from the USDA factsheet Clostridium botulinum and So Easy to Preserve.

Umm…what exactly is botulism? (Part I)

Glad you asked. This question is going to be answered in three parts, because it’s rather hefty, but very important to home food preservers, especially people who like to make canned products. The next three entries will cover the topics of Botulism: Sources (what it is and what it does), Botulism: Solutions (how you can prevent it), and Botulism: Surprises (did you know…).

Botulism: Sources

You’ve probably heard of botulism, and you likely know it’s a deadly foodborne disease. But do you know what causes botulism and how it works?

Let’s start by examining the source of botulism: rod-shaped bacteria called Clostridium botulinum. This microorganism is commonly found in soil and in marine sediment. It exists in two forms: as protected structures called spores, and as vegetative cells. To picture these forms, you could imagine spores like seeds and vegetative cells like sprouting plants.

C. botulinum spores are extremely common in soil and marine sediment, and therefore are also commonly found on the surfaces of fruits, vegetables, and seafood. Spores are generally harmless to adults (but can be harmful to infants; more about that later). The spore stage is formed when the bacteria are in an environment they find unfavorable; it is a protective stage that keeps the cell dormant or inactive but allows it to survive. When conditions are favorable, spores germinate into vegetative cells. Active vegetative cells are able to colonize and produce deadly botulinum toxin.

So what are those favorable conditions that allow the growth of C. botulinum?  Very low oxygen (such as in a sealed canning jar) and low acidity, meaning a pH value of 4.6 or above (such as in meats, vegetables, and some tomatoes, figs, and Asian pears).  That is why home food preservers need to be informed about Clostridium botulinum— you are not only dealing with the bacteria, but also the conditions ripe for them to grow out and produce toxin.

jars of veggies

What are the signs and symptoms of botulism? When consumed by humans, the neurotoxin produced by vegetative cells binds to nerve endings that join muscles, preventing muscles from contracting. Symptoms begin with nausea, vomiting, weakness, and dizziness which usually appear 12-36 hours after consuming the toxic food. Next are neurological symptoms such as blurry vision, difficulty speaking and swallowing, and lack of muscle coordination. Eventually the diaphragm and chest muscles become affected, which prevents breathing and results in death from asphyxia.

Can you do anything to stop botulism once the illness begins to affect the human body? Quick medical attention and injection of antitoxin can stop, but rarely reverse, nerve damage. Also, the antitoxin cannot always be used due to serious side effects.

Information in the entry comes from the USDA Factsheet Clostridium botulinum and So Easy to Preserve.

Beat the Bacteria Buffet

Spread cheer, not the worst foodborne illness of the year!

We love sharing foods this holiday season, but unfortunately, sometimes in the process we also share foodborne bacteria causing illness. Buffets and potlucks are particularly popular, but come along with certain risks. Make your hearty gatherings the most healthy (and happy!) by practicing these food safety tips from USDA.

Keep Clean
Wash hands, wash dishes, wash utensils, and clean kitchen surfaces. Wash well and wash often.  Invite your guests to also wash their hands as you welcome them.

Cook Completely
Cook foods to safe temperatures. Measure their temperature internally with a food thermometer, before removing from heat source. Cook beef, pork, lamb and veal steaks, chops, and roasts to at least 145°F. All raw ground beef, pork, lamb, and veal needs to be cooked to no less than 160°F. Poultry must be cooked to a minimum of 165°F. You can cook any of these meats to higher temperatures, but not lower.

Store Shallow, Serve Small
To store cooked foods before serving, store them in the refrigerator or freezer in a shallow dish to encourage rapid, even cooling. Most foods, and especially all meats, poultry, seafood, casseroles, and soups must be reheated to at least 165°F before eating again; serve them in small portions and continually replace platters when empty. This way, foods stay a safe temperature for longer and growth time for bacteria is minimized.

2:02 is Two Too Much 
It is best to discard perishable foods after they sit out at room temperature for more than two hours.  Otherwise, keep them below 40°F or above 140°F. Of course, it’s okay to keep out foods that are stored at room temperature for longer times, like uncut apples and crackers.

Cold means Cold, Hot means Hot
Use chafing dishes, slow cookers, and warming trays to keep hot foods at 140°F or warmer. Nest dishes in bowls of ice to keep cold foods at 40°F or cooler. Otherwise, keep swapping in foods from the oven or refrigerator.

Hidden in Handling
Remember that harmful bacteria capable of causing illness usually cannot be seen, smelled, or tasted. Three common bacteria found partying at food festivities are Staphylococcus aureus, Clostridium perfringens, and Listeria monocytogenes. If anyone does feel ill, please remind them to contact a health professional and describe their symptoms.

The information in this entry comes from the Holiday or Party Buffets Factsheet by the United States Department of Agriculture Food Safety and Inspection Service.