Feature
Mar 2009 —
Vol. 5,
Iss. 3
What You Can’t See Can Hurt You
Allison M. DiMatteo, BA, MPS
Infection control in the dental office has come a long
way in the past 25 years or more. In the 1980s, less than 30% of dentists
wore gloves, masks, or gowns, according to the Academy of General
Dentistry. Today, these infection-control tools are required in all dental
practices (www.agd.org). The development and revision of precautions to
protect against the transmission of blood-borne and other occupational
microbial pathogens is based on updated scientific information, as well as
documented and inferred clinical applications of new knowledge.1
Curt Hamann, MD, the CEO of SmartHealth, notes that
the first Centers for Disease Control and Prevention (CDC) recommended
infection control practices specific for dentistry were published in the
MMWR (Morbidity and Mortality Weekly Report) in 1986. These recommendations were updated in 1993, after
which the “Guidelines for Infection Control in Dental Health-Care
Settings” was published in 2003.
“The CDC does not have a predetermined frequency
for updating their recommendations and guidelines,” Hamann says.
“If and when the peer-reviewed literature provides evidence-based
information that materially conflicts with an existing
recommendation or guideline, the CDC would initiate a review, which could
result in an MMWR revision.”
Linda Basquill, DDS, immediate past chair of the
Organization for Safety and Asepsis
Procedures (OSAP) association board, does not
expect a complete revision to the CDC
Guidelines any time soon (ie, there were 10
years between the first and second Guidelines). However, she cautions that
this doesn’t mean there aren’t recommendations and updates coming out all the time.
“The updates and recommendations are always coming, and that information is disseminated in a variety of ways,” Basquill says. “It is critical that we stay abreast of the information so we are modifying
what we do in our offices to comply with new
recommendations and changes when
necessary.”
To help dentists and their staff comply with infection control requirements, the American Dental
Association (ADA) publishes the most recent recommendations from the CDC and other agencies in the Journal of the American Dental Association (JADA). Such publications also
help acquaint clinicians with the most recent scientific and clinically
based evidence that improves infection control in their practices, explains John A. Molinari, PhD, professor and chairman of the department of biomedical
sciences at the University of Detroit Mercy
School of Dentistry and infection control
spokesperson for
the ADA. In addition, the ADA has a variety of counsels comprised of member
dentists, educators, and other clinical and scientific personnel who review these guidelines to determine where areas of emphasis need to be made to improve what is taking place in practice, Molinari says.
Since the 2003 “Guidelines for Infection Control in the Dental Healthcare Setting,” several hundred thousand copies
have been distributed to dentists, dental
hygienists, educators
at dental, dental assisting, and dental hygiene
schools, dental laboratories, and lecturers
across the country.2 Unfortunately, despite the widespread and ongoing dissemination of information, compliance with the infection control guidelines
remains an issue.
“It is all too easy to become complacent and even “cut
corners” with infection prevention
activities,” cautions Therese Long, MBA, CAE, executive director of OSAP. “Ignoring or overlooking key aspects of infection prevention
can become habitual and, over time, hard for
the dental team to recognize.”
Charles John Palenik, MS, PhD, MBA, director of
Infection Control Research and Services at
Indiana University School of Dentistry, notes
that the number one problem with infection
control or infection prevention is the
individuals involved, adding that nobody likes having to comply.
Compounding the problem is that very few areas
in the United States have the onus of an
inspector coming in to verify that infection
control or prevention is being performed
properly.
“When you talk to hospitals, they are accredited
by several different agencies, the biggest being the Joint Commission,
which now has started to certify ambulatory
care, outpatient care, and some very large oral
surgery groups,” Palenik says. “In
these instances you say what you do, and you do what you say. But in most
offices, there is tremendous variation in compliance, and we don’t have what’s called monitoring enforcement where, at any given time, the practice
could be inspected.”
What dentists are expected and required to do to reduce
cross-contamination risks includes implementing barriers, sterilizing instruments, and disinfecting surfaces. However, the standards are
continually updated, added to, and further
defined.
“The ADA has individuals such as clinical
dentists, scientists, and others, who are members of subcommittees and
working groups that bring some of the direct
concerns of practicing clinicians to the table when
these guidelines are being reviewed and
updated,” explains Molinari, who also serves on these ADA counsels. “This allows the working groups to have a variety of opinions regarding
what is being looked at in dental practice,
dental education, manufacturing, and product
development, so that the issues come to the
forefront and can be addressed
better.”
According to Palenik, despite the fact that the CDC has worked hard to develop its 2003 guidelines—which he considers to be the gold
standard of infection prevention behavior that practices should
emulate––there are still grey areas. What is still troublesome is the lack of a universal rule or regulation in some cases, he says. “Everything we do should be based on some evidence, some study, some collection
of information that demonstrates it’s effective,”
Palenik says. “When you do a lot of
traditional things, and you have lots of rituals
and this type of thing, you need to ask
yourself if they really work. They must be
evidence based.”
For example, the facts and evidence surrounding dental waterline contamination have been well documented in the scientific literature, explains Eve Cuny, MS, director of
environmental health and safety at the
University of the Pacific School of Dentistry.
Up to a million or more colony-forming units per mL of water can be found in untreated lines, and these generally contain a variety of waterborne organisms that include bacteria, protozoa, and fungi.
According to Molinari, water contamination continues to be a major public health problem, and dental unit water is also contaminated and colonized by the very nature of the manufacturing of the units. While dentistry
hasn’t seen any infectious disease outbreaks traced back to dental facilities, the fact remains that dentistry is being asked to be proactive in reducing the microbial
colonization in the water that goes into
patients’ mouths. There are many products and technologies available for this purpose that dentists can choose from, he says, some of which are less time-consuming than others.
The requirements for treating dental water lines may vary from state to state, but waterline treatment is recommended by the CDC. They recommend that the water used in dental treatment contain no more than 500 colony-forming units per mL, which
can be achieved easily with a variety of
products and devices available on the market
today, Cuny says. There isn’t a requirement
or recommendation for testing waterlines to
validate products, however.
This month’s cover feature provides a review of how the infection control guidelines for dental health care settings have changed the manner in which dental products, materials, and equipment are designed and manufactured in order to facilitate
compliance with safety guidelines. Simultaneously, this feature will emphasize the need for dental professionals (dentists, assistants, and hygienists) to take a proactive approach to ensuring that routine infection control precautions are maintained in the dental office at all times.
Infection Control Challenges
Continue to Trouble
Dentistry
Historically speaking, Molinari says that one of the biggest challenges in terms of infection control was having clinicians recognize that they were routinely exposed to a number of occupational infectious pathogens, even though patients were not manifesting textbook symptomatologies. For example, with hepatitis B, the classic textbook symptoms would be jaundice. In
the absence of that, many clinicians felt that
they weren’t seeing these types of patients
when, in fact, they were, he says.
“The challenge was to get clinicians to
routinely protect themselves for all patients
and adopt a new way of practicing dentistry
from what they learned in school,”
Molinari recalls. “Probably the biggest challenge for many clinicians
was the use of gloves, since they had not
learned to use
gloves in school, and they were now converting
from wet-fingered to gloved dentistry. But that
led the way for other precautions that would be
very useful.”
According to Long, new infection control challenges facing dentistry include, but are not
restricted to:
- more medically complex patients
- more complex
invasive oral procedures
- more technologies
to understand and, if appropriate,
implement safely
- more products to
evaluate and, if appropriate, incorporate
safely
- more potential
pharmacological and allergenic interactions
- more infectious diseases
- more regulations
- more access to care issues
- more environmental issues
Among the emerging infectious diseases that dentistry may face are those considered prion diseases (ie, proteinaceous diseases such as
Creutzfeldt-Jakob disease or “mad cow
disease”) that involve the
degeneration of nervous tissue, explains Kurt Giles, PhD, an assistant
adjunct professor in the Institute for
Neurodegenerative Diseases at the University
of California, San Francisco. Individuals infected with prion diseases may be asymptomatic for many years
before they are clinically diagnosed, after
which death invariably occurs within a year to
18 months, Giles says.
“Prion diseases represent a particularly difficult infection control
problem, and the concern in dentistry surrounds
where the
infectivity of prion diseases lies (ie, peripheral nervous tissue),”
Giles says. “In the United Kingdom, for
example, given the human cases of “mad
cow disease” that were ultimately fatal
(200 people died from the human form),
endodontic files are now considered single use
because there is no
clear, proven way of disinfecting these
instruments, which go right into the tooth and root and would be in contact with the nerve tissue.”
It is important to note that scientists are not sure
that there is prion infectivity in, for
example, the roots of teeth, let alone all
tissues, even for people who have prion diseases,
Giles emphasizes. However, based on the fact that there is a real limitation in the effectiveness of general infection control procedures against prions, dentistry should be willing to make things
single-use as much as possible, or institute
much more stringent cleaning and
disinfection procedures, he says.
“With all emerging infectious diseases, the goal isn’t for people to change everything now, but to at least be aware of what’s happening so that if we
do have more evidence that there is a
transmissible disease,
dental professionals can implement the
necessary procedural changes,” Giles says.
The relevance of emerging diseases to dentistry and, therefore, to infection control can be seen in the efforts taken by infection control product manufacturers that are leading the way in developing surface disinfectant
products and testing for efficacy against
specific organisms (eg, against methicillin-resistant Staphylococcus aureus [MRSA]), explains Nancy Andrews, RDH, a dental consultant. Major companies
are actually
specifically testing for that, and consumers
are learning to ask if a product they are using is effective against the latest emerging pathogens that they
may be aware of, she says.
Long adds that ongoing challenges also include the economy and human nature. There is always a need to practice in a cost-efficient manner so that at the end of the day income exceeds expenses and the practice can keep its proverbial lights on, she says. With even greater emphasis on the recent upheaval in our economic system, it will be important for dental practices to balance efficiency, effectiveness, and safety, Long emphasizes.
Dental practices can best respond to all the
challenges Long mentioned by staying informed, educated, and convinced of the relevancy of
infection prevention practices. An excellent and easy way to do that is through OSAP, she says.
“While the full name is a mouthful (Organization for Safety and Asepsis Procedures), it is an excellent resource for
all aspects of infection prevention in dentistry,” Long says.
“No other organization concentrates
solely on these issues to develop the tools to
inform, educate, and persuade dental professionals to practice oral health
care safely.”
Basquill concurs that the best way to respond to new
and ongoing challenges is through education for dentists and their staff
about what patients might present with and how to handle it. They
need to understand necessary precautions and
how they impact on the practice, themselves,
and other patients.
“There are new issues moving to the forefront all the time (eg, MRSA),” Basquill says. “Education is one
of the best things that we can do to help our
office staff meet that
challenge.”
Dental Offices Need
Their Own Infection Control Plan
The CDC’s Guidelines for Infection Control in Dental Healthcare Settings (2003) is analogous to the Constitution of the United States, which provides a basic design for how government should work, but doesn’t address
every aspect of life, explains Long. Similarly,
the authors of the CDC Guidelines outlined a
minimum standard of
care (ie, basic design) for dentistry. To do
so, they consulted with a national
advisory group of infection control experts,
CDC consultants representing all the relevant
branches of CDC and National Institute of
Occupational Safety and Health (NIOSH),
representatives from the Food and Drug Administration (FDA), Occupational Safety and Health Administration (OSHA), the Environmental Protection Agency (EPA), and other outside consultants representing associations, corporations, public health, and dental practitioners, Long says.
“Despite the breadth of their research (they quote 471 references) and representation, the CDC recognized that there is no way to address every situation, which is why they called these
guidelines,” Long says. “Therefore, as dental clinicians try to
abide by these guidelines, they need to break
the general into the specifics of their practice.
They can do this by developing their own practice-based infection control plan with Standardized Operating Procedures (SOPs).”
Long says that this means identifying who, what, when, and where product and devices should be used for a variety of procedures. These SOPs acknowledge the individuality of the procedures performed, physical plant/layout of the setting,
and needs and duties of personnel. SOPs also reflect the relevant federal, state, and local regulations that impact the practice, she explains.
Basquill further clarifies the need for dental offices
to have their own infection control plan, noting that while the CDC
Guidelines are a great resource, they don’t include everything.
For example, there are OSHA requirements as well as updates that
cover areas not addressed by the 2003 Guidelines. And, as Long suggested,
office infection control plans have to be more specific.
“For example, the CDC Guidelines talk about the importance of
regulating medical waste, but they don’t
provide specifics. In
fact, they say you need to make sure that you are complying with your federal, state, and local guidelines. From state to state, the way we dispose of regulated medical wastes varies dramatically, and can even vary between counties, districts, etc., within a state,” Basquill says. “Your individual office infection control plan would outline the specifics of how that would be done in your office, down to the details about whose specific job it is. It takes the guidelines to a whole new level and details them for your specific office.”
Putting SOPs into
Practice for Proper Sterilization and Infection Control
According to the ADA and guidelines from the CDC,
sterilization is best monitored using a combination of mechanical,
chemical, and biological indicators. For sterilization, any item that
enters the mouth and can be detached from devices (eg, dental handpieces, hand instruments, surgical instruments) should be heat
sterilized between uses, explains Cuny. Heat
sterilization is more reliable and enables validation of the sterilization
processes, something that isn’t possible with chemical germicides,
she says.
“With a chemical germicide, you can perhaps monitor the concentration of the formula, but you can’t really monitor whether or not sterilization has been achieved. With heat sterilization, through the use of either chemical or
biological indicators, you have the benefit of
being able to validate that sterilization actually was achieved,” Cuny elaborates. “The other benefit of heat sterilization over chemical germicides is being able to package the instruments for sterilization, which provides a nice way to
store the instruments that will maintain their sterility.”
Once something is removed from a chemical germicide, it’s essentially an unpackaged instrument that now must be handled aseptically, which is a
challenge. As soon as it’s put in a
drawer or handled, it’s no longer
sterile, Cuny explains.
Items that don’t enter the patient’s mouth
and are considered noncritical can be disinfected with a low- to
intermediate-level disinfectant. However, the most important thing about
disinfecting is that surfaces or items be cleaned before they’re
disinfected. It’s always a two-step process, Cuny says.
“There is always the need to clean surfaces
first with a separate cleaning agent and then, after it’s been
cleaned, apply the disinfectant,” Cuny points out. “The same
concept applies to heat sterilization. The items must be free from debris
in order for them to be effectively sterilized.”
Tim Lorencovitz, the infection control product manager for Sultan
Healthcare, suggests that each dental office
set up a central processing location—as
well as a workflow—for handling
instruments from contamination
to cleaning, through to sterilization, and finally storage. Step one should be receiving the contaminated instruments in a specific area where they are cleaned. Step two is rinsing
the instruments, Lorencovitz says.
The third step is packaging the instruments in preparation for sterilization. The fourth and final step is the sterilization process, after which the instruments are stored and readied for the next patient. Of paramount importance to this process, he says, is precleaning or presoaking the
instruments.
“Installing these procedures and having this type of set-up in place helps minimize cross-contamination,” Lorencovitz says. “In a larger institution, like a clinic or hospital, there are typically separate rooms for cleaning and sterilization, but when you’re dealing with a dental office, it’s a small place, so the process flow needs to be managed properly.”
Helpful Resources Are
Available
There is a plethora of resources available through the
government, associations, companies and consultants. However, to do “one-stop-shopping” for reliable, evidence-based updates and changes, Long recommends that dental professionals visit www.osap.org. The
Organization for Safety and Asepsis
Procedures concentrates solely on the provision
of pertinent, practical and proven information and education regarding
infection prevention and safety, she says.
“The only organization solely dedicated to the safe delivery of
dental care everywhere is OSAP,”
emphasizes Hamann. “They are committed to
advising interested clinicians, educators, researchers, manufacturers, distributors, and regulators of any breaking news or discoveries in the infection control space.”
Conclusion
As Molinari points out, we are all in an era where people want to be safe, where they look for what is risk-free, whatever it is. They don’t want infectious disease risks at all, but that’s impossible, and life is not risk free.
“I think what dentistry has accomplished has made dentistry the safest it’s ever been,” Molinari says. “Dental professionals should let their patients know what is going on in the practice to make that environment as safe as possible, whether it’s talking about new sterilizers, new barriers that you’re using, changes that you’ve made in the gloves you purchase for their comfort and their protection, etc.”
As a product manager, what worries Lorencovitz is that some dental offices believe infection
control is a necessary evil, an added expense, and something they have to do without truly realizing what the risks are if they don’t clean
and disinfect properly or follow the correct procedures. Their thoughts may be that there’s never been a need for infection control, so it’s not a big deal, but he emphasizes that you don’t know who’s walking in your door, what your patients may have, or what you can give to your patients.
“The greatest threat to optimal infection control is complacency. Compliance with consistent hand hygiene remains a holy grail throughout our health care delivery system,” explains Hamann. “Hospital-acquired infections with high morbidity, mortality, and
associated costs are a great institutional and individual motivator. Dental office-acquired infections, however, do not benefit from any epidemiologic
tools readily available to us today which
assist us in quantifying the risk.”
“We must be vigilant to prevent complacency and perform the same SOPs the same way, every day, to prevent the possibility of microbial transmission,” Long says. “Many people don’t look at it this way, but infection prevention really does
“touch” every procedure, every patient, and every clinician in
dentistry.”
Palenik raises the overall ethic question that’s
involved with infection control, noting that
the true mark of a professional dedicated to
infection prevention is what he or she
does when nobody is looking.
“It’s never what you do when someone is watching,” Palenik says. “If you take it upon yourself that this is your ethical responsibility, not only
to your patients but to the people that work in
the office, it’s a commitment.”
1
Molinari JA. Infection control. Its evolution to the
current standard precautions. J Am Dent Assoc. 2003;134(5):569-574.
2
Newton A. Infection
control. Are you adhering to the guidelines? AGD
Impact. 2007 March; page 22.
|
SIDEBAR 1
 The Latex Allergy Issue
According to Nancy
Andrews, RDH, a
dental consultant, the CDC Guidelines laid the
foundation for turning dental professional’s attention to the issue of latex and rubber allergies, as has science. As a result, she says that some of the manufacturers,
particularly SmartPractice, have really made an effort to identify all the elements that can
trigger latex allergies or chemical allergies
in products.
“I think that the product manufacturers have
been more attentive to this issue because it
has emerged as an increasingly important challenge in the lives of
everybody in health care,” Andrews says.
“One of the most recent developments has
been a new product that’s nonlatex. We used to have vinyl, and
nitrile, and polychloroprene, and other similar
products, so the range of products that are nonlatex is larger, with
different characteristics, price points, and features for people to select
from to meet their needs.”
However, when it comes to handling latex and rubber
allergies in the context of infection control requirements, Curt Hamann, MD, the CEO of
SmartPractice, notes that regrettably, most
dental clinicians “self diagnose” their alleged latex or powder
allergies and simply select rubber products that are latex and/or powder
free, with persistent symptoms being palliated with over-the-counter
emollients and topical steroids. Most clinicians who believe they are
allergic to latex or cornstarch powder when
tested are found to be allergic to something completely different or are suffering from irritant contact dermatitis
(ICD), he says.
“Intact healthy skin is our best infection
control barrier. Anything which compromises our
natural barrier should be taken very seriously, whether it is irritation, eczema or sharps injuries,” Hamann emphasizes.
“Because there are several common
allergenic chemicals used in dentistry that easily permeate through examination gloves (eg, acrylate monomers and glutaraldehyde), as
well as residual allergenic processing
chemicals in most gloves (eg, carbamate, thiuram, mercaptobenzothiazole), it is impossible to know definitively what is the
offending chemical without testing. A diagnosis requires either a blood or
prick test for latex allergy and patch testing for dental allergens known to cause allergic contact
dermatitis.”
Overall, however, Andrews notes that dentistry’s
choices are greatly expanding as education about related issues like
powdered gloves increases. For example, if there is powder in your glove,
it aerosolizes whatever material is in the glove that may be allergenic,
whether it’s latex, or a chemical, or anything else. That increases
the individual’s exposure, and it’s not just from direct
contact, but by inhalation and secondary contact with aerosolized powder
that may have blown through the air onto another surface.
“As we’re becoming more aware of patients
who are sensitive to these chemicals and elements, we’re realizing
that every office must be prepared to have a nonlatex setup for allergic patients,” Andrews says.
“It’s not just a conversation about workers being allergic but
anticipating patients that are potentially allergic and how you very rapidly transition from a standard
operatory that may contain latex to one that’s completely devoid of it.”
SIDEBAR 2
The Effect of the CDC Guidelines on Dental and Infection Control Products
The CDC Guidelines for Infection Control in the Dental Healthcare Setting have led to changes in the
manner in which dental products and equipment have been manufactured and designed. Notes Therese Long from OSAP, the major
changes in the Guidelines that addressed products
and equipment involved:
- how to select and use devices with features
engineered to prevent sharps injury
- unwrapped instrument sterilization
- hand hygiene
- dental water quality issues
- dental radiology
- laser plumes and electrosurgery smoke
“The manufacturers and distributors are on board
with the issue of responding to infection control, and I think
they’re working to try to provide a lot of what we need,”
observes Linda Basquill, DDS. “The other piece of that puzzle is that
manufacturers and distributors are educating their representatives more
than ever, and that’s critical. It’s very important for someone
who’s coming to your office to know how something works and that
they’re educated in infection control.”
According to John A. Molinari, PhD, there have been
major changes in products and equipment since the mid-1970s in response to
some of the challenges involving infection control. He specifically recalls
when the ADA first introduced its hepatitis B
infection control guidelines and some of the early recommendations of the
CDC in the early 1980s, at which time there
weren’t very many products on the market geared toward infection control. Dentists didn’t have a
choice in how to address these issues.
“For example, there were certain types of
disinfectants on the market that were able to kill
a variety of organisms, but they had to be used in narrow
frameworks,” Molinari recalls.
“Today, the marketplace has just exploded with disinfectant products.
The marketplace also has many choices now for heat sterilizers, whereas
years ago, clinicians had to use only the limited choices that were
available. Now they can evaluate some of the nuances regarding packaging,
loading, and time of sterilization to make more informed choices based on what will work best in their practice.”
While several manufacturers have introduced
needle-safety devices, Long says that she hasn’t seen a huge amount
of traction in dentistry “embracing” these devices.
Dentistry seems to lean more to following
safer work practices such as using the
one-handed recapping technique, she observes. With respect to unwrapped instrument sterilization (to be used only under certain conditions and not recommended at all for implantable items), equipment
manufacturers are providing more information,
Long says. Additionally, hand hygiene guidance is resulting in a
movement toward greater use of antiseptic handrubs, and she has observed
this outside of health care in grocery and department stores, in pockets
and handbags—everywhere.
“There were many dental water quality
improvement products available before the new Guidelines were introduced.
In the ensuing years, we have seen more user-friendly treatment products
emerge as the technologies continue to improve,” Long recalls.
Shannon Mills, DDS, vice president of professional
relations for Northeast Delta Dental, has
observed similar changes, noting that the CDC
Guidelines helped stimulate more interest in the area of water lines.
Commercial companies marketing products for dental unit water lines have seen some increase
in sales over the last few years, but whether that’s
attributable directly to the CDC Guidelines, he can’t say for sure.
And, like Long, Mills has seen the CDC Guidelines change how dentistry views hand washing, with more and more offices now using nonalcohol-based hand wash or hand rubs as
opposed to soap and water.
At a time when dental radiology is going digital, the
Guidelines do address the infection
control issues inherent in both traditional and digital radiology, Long
points out, and manufacturers are now aware of such guidance and are
incorporating that in their instructions. She
also notes that while the Guidelines mention laser plumes, they were unresolved in how to address them and provided no recommendations. As the use of lasers increase in
dentistry, Long says dental professionals will need to keep abreast of
what’s required in order to ensure the
safety of patients and practitioners.
Eve Cuny, MS, says that over the years, dentistry has
seen many of the things that formerly were reusable plastic items (eg, x-ray film
positioners, cheek retractors, and other things
that go in the mouth) that couldn’t be heat sterilized become available either as heat stable so it can be heat
sterilized, or as a disposable alternative (ie,
a single-use item). Or, she says, items are
packaged and sold in unit doses.
Tim Lorencovitz, the infection control product manager
for Sultan Health care, has made similar observations in terms of the
introduction of single-use products. For example, he notes the use of
disposable air-water syringe tips instead of metal tips that metal tips need to be cleaned and autoclaved. Single-use disposables minimize the labor time
involved in reprocessing those instruments or pieces, he says.
“Some dental professionals view single-use products as additional cost, but they actually save money over time because you’re minimizing the time and labor involved,” Lorencovitz says. “And, you always have a ready-to-go piece of equipment, as in the case of the
air-water syringe tips.”
SIDEBAR 3
 Judging What Will Work for Infection Control and
Sterilization
In terms of how clinicians can be sure that the specific infection control
products and equipment in which they’re investing actually do what they’re
supposed to, Eve Cuny, MS, says that the dental devices and products on the
market intended for use in infection control are
regulated by the Food and Drug Administration. The respective manufacturers therefore must submit their marketing materials to the FDA for validation before they’re allowed to make certain claims.
“So, in terms of performance of a sterilizer,
for example, that must be cleared by the FDA before the manufacturer can be
allowed to market claims about it to the profession,” Cuny says. “The only
exception to that would be disinfectants, which
are regulated by the Environmental Protection Agency
(EPA) rather than the FDA.”
Disinfectants require EPA approval in order to make
specific kill claims, says Tim Lorencovitz. If a product is introduced that doesn’t have an EPA approval but says
that it kills
microorganisms on a surface, then it probably shouldn’t
be on the market, he adds.
“Continuing education has been successful in
educating consumers to ask the right questions of manufacturers, and manufacturers are compelled more and more by competition to provide that information as a selling point for their products,” says Nancy Andrews, RDH. “Manufacturers have become more sophisticated about
qualifying their products and, honestly, wanting to get credit for the
required hurdles they have to jump over, which are expensive. It’s
expensive to get FDA clearance or EPA clearance for your product, and that
gives you an advantage over your competition when you communicate
that.”
According to Curt Hamann, MD, it’s very
difficult for dentists to know definitively if new infection control
products do what they claim to in terms of improving or ensuring infection
control. The majority of infection control devices are regulated by the FDA
with a 510(k), he explains.
“This is true, for example, with examination and
surgical gloves, but the FDA does not require any clinical studies which
substantiate efficacy in use. A glove formulation which meets the American
Society for Testing and Materials (ASTM) stretch and strength requirements
before and after aging could receive FDA marketing clearance despite the
fact that it melts with exposure to an acrylate
dental monomer,” Hamann points out. “Similarly, the
majority of dental examination gloves have 50%
less rubber in them today than they did five years ago.”
Hamann explains that cost pressure has led to the substitution of rubber with calcium carbonate, without any in-use clinical
validation of the impact on safety and efficacy in use. Meeting ASTM standards and clearance by the
appropriate regulatory bodies (FDA and EPA, in particular) is important,
despite the limitations, he says.
Lorencovitz suggests that dental professionals will
likely see more companies proving their claims through technical studies
and data. He also points out that there are other resources for product
evaluations, such as the Clinician’s Report and the Dental Evaluation
and Consultation Service (DECS), a part of
the United States Air Force. Both provide objective and unbiased product
evaluations. For infection control in particular, Lorencovitz notes that
OSAP provides comparison charts of disinfectants that review available
disinfectants and their claims.
“We live in the age of evidence-based dentistry.
Wherever scientific evidence exists—whether in the form of peer-reviewed articles,
reviews of the literature, or systematic
reviews—that’s the strongest and most reliable basis to
determine the safety and efficacy of products,” emphasizes Shannon E. Mills, DDS. “Unfortunately,
oftentimes that information is lacking.”
Regardless of the sources consulted—and Mills
advises dental professionals to check more than one source for
information about a product—a healthy degree of skepticism is
necessary when reviewing product evaluations and reviews. Consider whether
the format is peer-reviewed and scientific in nature, he says, and
don’t be afraid to ask questions of sales representatives.
SIDEBAR 4
The Inside Look from...
Issue after issue, the feature presentations in Inside Dentistry deliver
coverage of relevant topics specifically
affecting the dental profession, as well as
oral health care in general. The publishers and
staff could not bring the underlying concerns surrounding these timely issues to the forefront without the insights shared by our knowledgeable and well-respected
interviewees. For their collective generosity
of time and perspectives, we extend our sincere
gratitude.
Nancy Andrews, RDH
Dental Consultant
na@rossandrews.com
Linda Basquill, DDS
Chair
Organization for Safety and Asepsis Procedures
(OSAP) Association Board
basquill@aol.com
Eve Cuny, MS
Director of Environmental Health and Safety
University of the Pacific School of Dentistry
ecuny@earthlink.net
Kurt Giles, PhD
Assistant Adjunct Professor
Institute for Neurodegenerative Diseases
University of California, San Francisco
kgiles@ind.ucsf.edu
Curt Hamann, MD
CEO
SmartHealth
hamann@smarthealth.com
Therese Long, MBA, CAE
Executive Director
Organization for Safety and Asepsis Procedures
(OSAP)
tlong@osap.org
Tim Lorencovitz
Infection Control Product Manager
Sultan Healthcare
tim.lorencovitz@sultanhc.com
Shannon E. Mills, DDS
Vice President of Professional Relations
Northeast Delta Dental
smills@nedelta.com
John A. Molinari, PhD
Professor and Chairman
Department of Biomedical Sciences
University of Detroit Mercy School of Dentistry
molinaja@udmercy.edu
Charles John Palenik, MS, PhD, MBA
Director, Infection Control Research and Services
Indiana University School of Dentistry
cpalenik@iupui.edu
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