Clean Hands, Safe Eats: The Art and Science of Handwashing in Foodservice Operations

Last week, I had the pleasure of joining one of our FoodHandler partners, Martin Bros. Distributing, for a Webinar on handwashing. During the webinar, we got into some of the nuts and bolts, and science, behind washing your hands.

I know this is likely an elementary topic to those of you who live and breathe food safety in the foodservice operations across our country everday, but it really goes beyond a routine task. Handwashing is both an art and a science and plays an extremely important role in preventing foodborne illnesses.

The technique is simple enough. It begins with wetting hands under clean, running water, applying an ample amount of soap, and lathering thoroughly, creating friction by rubbing your hands together, including between fingers and under nails. The soap, doing its job as a surfactant, helps to wash away the dislodged dirt, oils, and microorganisms from your hands. This process should never be just a quick “splash and dash” under running water. It should last for at least 20 seconds and will ensure you are keeping your hands clean and protecting your guests. Last, you should dry your hands with an air dryer, or single-use paper towel, with the single-use towel being my preferred and recommended method to dry your hands.

The art of handwashing, however, extends beyond technique and includes timing. There are those critical points in the food production process where food handlers must wash their hands. These are points I am sure those of you in foodservice could recite in your sleep:

BEFORE:

  • beginning food preparation tasks
  • handling clean dishes and utensils
  • donning a pair of single-use gloves

AFTER:

  • using the restroom
  • smoking, eating, sneezing, or drinking
  • handling raw meat, poultry, or seafood
  • touching any part of your hair, face, or clothing/aprons
  • handling soiled items (such as trash or cleaning tools)
  • handling chemicals
  • touching your cell phone or other mobile devices
  • removing soiled single-use gloves
  • changing tasks

While the art of handwashing focuses on technique and timing, the science behind it delves into microbiology. Our hands are natural reservoirs for bacteria, viruses, and other microorganisms, some of which can cause foodborne illnesses. Proper handwashing disrupts this microbial population, reducing the risk of contamination. Soap and friction are both vital in this process, this is why the recommendation is to scrub your hands for a specified amount of time.

I already mentioned that soap is a surfactant, otherwise known as a surface-active agent. Surfactants are used in a wide range of consumer and industrial products. In short, a surfactant helps to lower the surface tension between two substances and helps to lift dirt and oils from our hands during the washing and rinsing process. Soap also helps to create friction between your hands, which also aids in the removal of these items from the surface of the skin. Thus, I could not emphasize more how important soap is to the handwashing process.

Soap and friction are both vital in this [handwashing] process; this is why the recommendation is to scrub your hands for a specified amount of time.

Is water temperature important? Well, not so much. Friction and soap are key, but the fact is, water temperature isn’t critical. You are unlikely to be able to wash your hands with water hot enough to kill microbes without first scalding your hands. The key is to have a water temperature that is comfortable for employees.

The last step in handwashing is to dry your hands. Now, the food code permits food handlers to dry their hands in one of four ways: (1) individual, disposable towels, (2) a continuous towel system that supplies the user with a clean towel, (3) a heated-air hand drying device, or (4) a hand drying device that employ an air-knife system that delivers a high velocity, pressurized air at ambient temperatures. First, does anyone really use continuous towel systems anymore? But second, of these four methods, the research has continuously noted that the best method to dry hands is by using the individual (single use) disposable towel. Not only is it more effective and efficient in the drying process, it removes more bacteria from the hands (again, the friction is important), and causes less contamination.

Check back later this month for our second blog post for May. I want to expand on our handwashing discussion and discuss why employees don’t wash their hands and some considerations to help improve handwashing compliance. Risk Nothing.

Food Safety for Pork – Part 1

If you haven’t tasted pork lately because you are not a red meat fan (or the other white meat), there are a few changes in the nutritional value of pork, the pork cooking temperatures, and the variety of ways we consume it. The amount of pork the average American consumes hovers around 50 pounds a year.  Although pork is the number one meat consumed in the world, there are some religious restrictions on consumption of pork. U.S. consumption of pork dropped during the 1970s, largely because its high fat content caused health-conscious Americans to choose leaner meats. Today's hogs have much less fat due to improved genetics, breeding and feeding.

The Cold Chain in the Hot Summer Months

Keeping foods at proper cold holding temperatures (between 28°F and 41°F maximum or 0°F for frozen food) from the food manufacturers to your customers has to be one of our strongest links to safe food. Sometimes that is referred to in the food industry as “maintaining the COLD CHAIN”. Any slip ups in the cold chain, and we have a weak link. If you accept the food, you have greatly increased your foodborne illness risk and compromised your food quality.

Routes of Foodborne Illness & Germs

From your sniffling coworker to the raw chicken on your kitchen cutting board, everyday life is full of potential infectious hazards. With germs so common and seemingly everywhere, knowing how germs spread is vital to preventing infection and foodborne illness.  There are seven possible ways for the transmission of bacteria and viruses to take place.  Although some of these microorganisms in our environment are good for us and protect us, disease causing pathogens are the germs or bad guys.