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(This article
reproduced with permission of the author)
A note from NH: One of
our readers reminded me of the interesting research of Dean
Cliver from the University of California (Davis), a
published expert in food safety and foodborne disease. He
published a series of articles on the bacterial dangers
inherent in cutting boards and methods of disinfecting
them. He was surprised to find that wood, reputed to be
more bacteria prone and less easily cleaned than plastic
cutting boards, actually proved to be more hygienic! Here
is a summary of his findings...
We began our research comparing plastic and wooden
cutting boards after the U.S. Department of Agriculture told
us they had no scientific evidence to support their
recommendation that plastic, rather than wooden cutting
boards be used in home kitchens.
Then and since, the U.S. Department of Agriculture's Meat
and Poultry Inspection Manual (official regulations) and the
U.S. Food and Drug Administration's 1999 Food Code
(recommended regulations for restaurants and retail food
sales in the various states of the U.S.) permit use of
cutting boards made of maple or similar close-grained
hardwood. They do not specifically authorize acceptable
plastic materials, nor do they specify how plastic surfaces
must be maintained.
Our research was first intended to develop means of
disinfecting wooden cutting surfaces at home, so that they
would be almost as safe as plastics. Our safety concern was
that bacteria such as Escherichia coli O157:H7 and
Salmonella, which might contaminate a work surface when raw
meat was being prepared, ought not remain on the surface to
contaminate other foods that might be eaten without further
cooking.
We soon found that disease bacteria such as these were
not recoverable from wooden surfaces in a short time after
they were applied, unless very large numbers were used. New
plastic surfaces allowed the bacteria to persist, but were
easily cleaned and disinfected. However, wooden boards that
had been used and had many knife cuts acted almost the same
as new wood, whereas plastic surfaces that were
knife-scarred were impossible to clean and disinfect
manually, especially when food residues such as chicken fat
were present. Scanning electron micrographs revealed highly
significant damage to plastic surfaces from knife cuts.
Although the bacteria that have disappeared from the wood
surfaces are found alive inside the wood for some time after
application, they evidently do not multiply, and they
gradually die. They can be detected only by splitting or
gouging the wood or by forcing water completely through from
one surface to the other. If a sharp knife is used to cut
into the work surfaces after used plastic or wood has been
contaminated with bacteria and cleaned manually, more
bacteria are recovered from a used plastic surface than from
a used wood surface.
"Manual cleaning" in our experiments has been done with a
sponge, hot tap water, and liquid dishwashing detergent.
Mechanical cleaning with a dishwashing machine can be done
successfully with plastic surfaces (even if knife-scarred)
and wooden boards especially made for this. Wooden boards,
but not plastics, that are small enough to fit into a
microwave oven can be disinfected rapidly, but care must be
used to prevent overheating. Work surfaces that have been
cleaned can be disinfected with bleach (sodium hypochlorite)
solutions; this disinfection is reliable only if cleaning
has been done successfully.
The experiments described have been conducted with more
than 10 species of hardwoods and with 4 plastic polymers, as
well as hard rubber. Because we found essentially no
differences among the tested wood species, not all
combinations of bacteria and wood were tested, nor were all
combinations of bacteria and plastics or hard rubber.
Bacteria tested, in addition to those named above; include
Campylobacter jejuni, Listeria monocytogenes, and
Staphylococcus aureus.
We believe that the experiments were designed to be
properly representative of conditions in a home kitchen.
They may or may not be applicable to other plastic and
wooden food contact surfaces or to cutting boards in
commercial food processing or food service operations, but
we have no reason to believe that they are not relevant,
except that not all plastic surfaces are subject to
knife-scarring.
Before our first studies had been published, they were
criticized incorrectly for not having included used
(knife-scarred) cutting surfaces. We had been careful to
include used surfaces, and so were surprised that others who
did later experiments and claimed to have refuted our
findings often had used only new plastic and wood. Although
some established scientific laboratories say their results
differ from ours, we have received multiple communications
from school children who have done science projects that
have reached essentially the same conclusions that we did.
We have no commercial relationships to any company making
cutting boards or other food preparation utensils. We have
tested boards and cleaning and disinfection products, some
of which were supplied to us gratis. We have not tested all
of the products that have been sent to us, simply because
there is not time. We are aware that there are other food
preparation surfaces made of glass or of stainless steel; we
have done very little with these because they are quite
destructive of the sharp cutting edges of knives, and
therefore introduce another class of hazard to the kitchen.
We believe, on the basis of our published and
to-be-published research that food can be prepared safely on
wooden cutting surfaces and that plastic cutting surfaces
present some disadvantages that had been overlooked until we
found them.
In addition to our laboratory research on this subject,
we learned after arriving in California in June of 1995 that
a case-control study of sporadic salmonellosis had been done
in this region and included cutting boards among many risk
factors assessed (Kass, P.H., et al., Disease determinants
of sporadic salmonellosis in four northern California
counties: a case control study of older children and adults.
Ann. Epidemiol. 2:683-696, 1992.). The project had been
conducted before our work began. It revealed that those
using wooden cutting boards in their home kitchens were less
than half as likely as average to contract salmonellosis
(odds ratio 0.42, 95% confidence interval 0.22-0.81), those
using synthetic (plastic or glass) cutting boards were about
twice as likely as average to contract salmonellosis (O.R.
1.99, C.I. 1.03-3.85); and the effect of cleaning the board
regularly after preparing meat on it was not statistically
significant (O.R. 1.20, C.I. 0.54-2.68).
We know of no similar research that has been done
anywhere, so we regard it as the best epidemiological
evidence available to date that wooden cutting boards are
not a hazard to human health, but plastic cutting boards may
be.
Publications to date from our work:
Ak, N. O., D. O. Cliver, and C. W. Kaspar. 1994. Cutting
boards of plastic and wood contaminated experimentally with
bacteria. J. Food Protect. 57: 16-22.
Ak, N. O., D. O. Cliver, and C. W. Kaspar. 1994.
Decontamination of plastic and wooden cutting boards for
kitchen use. J. Food Protect. 57: 23-30,36.
Galluzzo, L., and D. O. Cliver. 1996. Cutting boards and
bacteria--oak vs. Salmonella. Dairy, Food Environ. Sanit.
16: 290-293.
Park, P. K., and D. O. Cliver. 1996. Disinfection of
household cutting boards with a microwave oven. J. Food.
Protect. 59: 1049-1054.
Park, P. K., and D. O. Cliver. 1997. Cutting boards up
close. Food Quality 3(Issue 22, June-July): 57-59.
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