You must be signed in to read the rest of this article.
Registration on CDEWorld is free. Sign up today!
Forgot your password? Click Here!
All dentists and personnel must understand and implement the highest standards of infection control to keep patients and staff as infection-free as possible. The US Department of Labor's Occupational Safety and Health Administration (OSHA) has outlined the Centers for Disease Control and Prevention (CDC)'s recommended practice of standard precautions when treating all patients, regardless of infection status, in the healthcare setting.1 Standard precautions are a minimum level of infection prevention protocols used in patient care to minimize the risk of transmission of potentially harmful pathogens from all sources in the medical and dental setting.2 Standard precautions involve handwashing, donning personal protective equipment (PPE), cough etiquette, sharps safety, safe injection practices, sterilizing instruments and devices, and cleaning and disinfecting environmental surfaces.1,3 Standard precautions apply to contact with blood; all body fluids, secretions, and excretions except sweat; non-intact skin; and mucous membranes.1,4 The ultimate goal of standard precautions is to prevent cross-contamination, which is the spread of harmful microbes from one source to another. Cross-contamination routes in the dental setting include patient to the dental team, dental team to the patient, and patient to patient through surface contamination and inadequate sterilization of dental instruments.4 Recent studies have recognized dental water lines as a potential route for cross-contamination in dental offices.5 Standard precautions are also used to prevent infection. For an infection to occur, the following chain of events must happen: 1) an infectious agent, 2) a reservoir, 3) a port of exit, 4) transmission, 5) a port of entry, and 6) a susceptible host.4 Infection occurs if there is not a break in this chain. Standard precautions disrupt the chain.
Modes of Transmission
The risk of cross-contamination in the dental setting remains high because of the various modes of transmission of infectious material. Exposure occurs when pathogens come in contact with non-intact skin. Modes of transmission include direct contact with infectious blood and secretions; indirect contact with contaminated instruments, dental equipment, or environmental surroundings; or contact with airborne contaminants present in either droplet splatter or aerosols of oral and respiratory fluids.4,5 Cross-contamination can also occur by emanation of pathogenic microbes through the use of ultrasonic equipment, polishing, spraying of dental handpieces, and poor ventilation.5
Accidental needle sticks create the highest risk of exposure for dental professionals. Risk is determined by virulence of the pathogen, contact time, amount and frequency of exposure, and immune response.5 Dust-borne infections that travel on dust particles, such as tetanus and Staphylococcus, can occur in the dental office, so surface disinfection is imperative. Aerosols, which are invisible to the naked eye, can remain suspended in the air for long periods because of their small particle size.4 Most aerosol particles are smaller than 5 μm and are breathed deeply into the lungs. Spatter is visible and remains in the air for shorter periods because of its larger particle size.4 Spatter particles are usually larger than 50 μm. Aerosols and spatter are created during breathing, speaking, coughing, sneezing, intraoral procedures, and manual scaling.4 Aerosol and spatter concentrations are greater at the scene of instrumentation and decrease with distance.4
Federal Agencies That Influence Infection Control Guidelines
Several federal agencies influence infection control standards for dental office settings. The Food and Drug Administration (FDA) is an agency within the Department of Health and Human Services that is responsible for regulating dental handpieces, dental chairs and accessories, dental curing lights, dental amalgams, and x-ray equipment.6 In 2015, the FDA published a final guide that outlined steps to reduce the risk of patient infections.6 This guide provided suggestions for manufacturers to validate their reprocessing techniques to safeguard medical devices for continuous use.6 Dental-unit water lines are also regulated by the FDA.7 Additionally, the Environmental Protection Agency (EPA) is responsible for providing standards for water quality in the dental office setting. The EPA also mandates protocols for disposal of amalgam and establishes guidelines for the disinfectants used for cleaning in the dental environment. OSHA is part of the Department of Labor and is responsible for protecting employees. They establish standards for blood-borne pathogens, pharmaceuticals and other chemical agents, human factors, ergonomic hazards, noise, vibration, and workplace violence.8 The CDC makes recommendations for infection control guidelines for dental practice settings.9 State dental boards can promulgate CDC recommendations and make them mandatory. In 2016, the CDC released a summary of infection control practices. The summary provides a checklist for guidelines issued to prevent and control infectious diseases in the dental setting. The summary is not intended to replace the original CDC guidelines.
The Organization for Safety, Asepsis and Prevention (OSAP) is not a federal agency but is an organization "dedicated to education, research, service, and policy development to promote safety and the control of infectious diseases in dental healthcare settings worldwide."10
Pathogens in the Dental Setting
Several viruses and bacteria are relevant in the dental practice environment. These pathogens place dental professionals at risk for developing infectious diseases. Herpes simplex viruses (HSV), human immunodeficiency virus (HIV), hepatitis A through G, tuberculosis (TB), Ebola, and methicillin-resistant S. aureus (MRSA) are of particular concern.
There are various types of HSV. HSV-1 and HSV-2 are significant to dentistry. Both are highly contagious. HSVs are transmitted when the contents of an infected blister are exposed to mucosa or skin that is not intact.5 Because HSV is highly contagious, dental personnel must wear adequate PPE and avoid direct contact with infected splatter from the herpetic lesion or saliva.5In addition, it is vital that thedental team properly disinfect the dental operatory with a disinfectant approved by the EPA to inactivate the virus.5
For HIV, the risk of contracting or transmitting the virus in the dental setting is low and correlates to blood viral counts and volume of blood exposure.5 According to one study, the risk of transmitting HIV through saliva is relatively small because of low numbers of CD4-positive target cells, the presence of anti-HIV antibodies, and antiviral factors in saliva.5 Although the risk is low, research suggests there is an incomplete understanding of risks associated with acquiring HIV after exposure to HIV-infected tissue or fluid, so the dental team needs to continue to protect themselves with standard precautions.5
Dental personnel are at a greater risk of exposure to hepatitis because of the aerosols produced by ultrasonic scaling, air polishing, and emanation of air and water through high-speed handpieces. For this reason, the dental team must take great care to prevent and protect against hepatitis.11 There are various types of hepatitis, all of which dental team members should be familiar with. Hepatitis A, also known as infectious hepatitis, is the most common viral hepatitis in the world and is transmitted through the fecal-oral route.4,11 Vaccination is recommended for dental professionals. Hepatitis B, or serum hepatitis, is the single most important occupational hazard for dental professionals.11 It can be transmitted percutaneously or by mucosal contact with infectious body fluid.12 Vaccination is recommended for dental professionals. Hepatitis C is the most common chronic blood-borne infection in the United States and shares similar risk factors to hepatitis B.4,12 Its origins have been traced to the use of injecting syringes used in the ambulatory setting and spas.12 Hepatitis D, also called the delta agent, can only be contracted if hepatitis B is present.4,11,12 Hepatis D has the same mode of transmission as hepatitis B and shares the same prevention and protection transmission protocols.11 The hepatitis B vaccination protects against hepatitis D.4 Hepatitis E, unlike hepatitis A through D, is not a chronic infection and mimics hepatitis A.11,12 Hepatitis E is excreted in stools, is transmitted through the oral-fecal route, and is a more recent discovery.11,12 Hepatitis G is transmitted through blood and rarely occurs without a hepatitis A, B, or C co-infection.11 Hepatitis G can be found in patients who have received transfusions.11
TB is a highly contagious infectious disease caused by inhaling Mycobacterium tuberculosis in airborne particles.13 It is a chronic granulomatous disease and resists most disinfecting agents; therefore, standard precautions are not sufficient to protect against transmission of TB in the dental setting.4,13 In addition,airborne particles containing TB are small enough to pass through standard surgical masks and can remain in the air suspended for hours. Therefore, treatment of a patient with active TB in a dental setting is prohibited.
MRSA is a dangerous Staphylococcus bacterial infection that originates on the skin and is resistant to most antibiotics.14,15 The primary mode of transmission in the healthcare setting is through the hands of healthcare personnel.15 Transmission through airborne droplets is conceivable because MRSA can colonize in saliva, and it has been isolated from saliva and dental plaque.15
Ebola is a lethal, viral hemorrhagic disease caused by an Ebola virus strain.16,17 Transmission can occur person to person with direct contact of skin, blood, and body fluids, or through animals.18 Although there have been no confirmed cases of transmission of Ebola through saliva, serum levels of Ebola RNA have been isolated in saliva.18 Therefore, dental professionals should follow standard precautions to control the spread of the disease.
Personal Protective Equipment
In the dental office setting, PPE should be worn during patient care at all times. Dental professionals should wear PPE to protect their skin and mucous membranes from infectious material, aerosols, spatter, and spray.19 PPE includes masks, gloves, eye protection, and protective clothing. To prevent contamination, dental professionals should don PPE in a sequential manner to avoid cross-contamination. Eyewear must be worn by the clinician and the patient at all times during dental procedures. Utility gloves must be worn when cleaning the dental operatory and handling dental instruments during the sterilization process.
The CDC mandates dental personnel follow specific guidelines for clinical garments. Clinical garments should only be worn in the dental office setting to prevent cross-contamination; they should never be worn over street clothing. The garments should have a closed front and neck, and the length should cover the knees when seated for patient treatment. They should have long sleeves with fitted cuffs to permit protective gloves to extend over the cuffs, and they should not have pockets, which could hold contaminated objects such as keys or writing implements. They should be disposable or commercially washable and able to withstand washing with bleach. If clinical garments are laundered at home, the items must be kept separated from household laundry and treated with household bleach for disinfection.4
CDC guidelines specify that dental personnel wear a mask for patient care, cleanup, and instrument processing; during any task that produces a splatter; and to prevent infection and exposure to environmental hazards.4,20 Dental personnel are exposed to silica, polyvinyl siloxane, alginate, and other toxic substances that are inhaled during dental procedures.21 The American Society of Testing and Materials (ASTM) is an organization that establishes the criteria for mask performance and use in the healthcare setting. They classify masks into three different types: ASTM level 1, ASTM level 2, and ASTM level 3.22 The ASTM uses bacterial filtration efficiency and particle filtration efficiency to distinguish the three ASTM mask levels.22 ASTM level 3 masks should be worn for most dental procedures that produce a spatter or aerosol to provide the best protection against particle penetration.22
Characteristics of an ideal mask: no contact with dental personnel's nose or lips; a high bacterial filtration efficiency rate; conforms to the shape of the person's face, affording a more effective seal; fits the face snugly around the entire edge of the mask; does not fog eyewear; convenient to put on and remove; made of material that does not irritate skin or induce allergic reaction; and does not collapse during wear or when wet.4 Masks are single-use items and must be changed after each patient. In addition, masks should be changed 20 minutes after heavy aerosol and 60 minutes after a long procedure.4 Masks lose their protective quality over time because of exposure to moisture on the outside layer from dental procedures and the wearer's breath on the inside layer.4,22 When the protective quality is lost, it is possible for tiny microorganisms to penetrate the masks. To prevent cross-contamination and maintain ideal infection control standards, dental personnel should never touch the front of the mask, should not wear the mask below the nose or around the neck, should not keep the mask in pockets or on the arm, and should not twist the mask for a better fit.4
The CDC Summary of Infection Prevention Practices in Dental Settings provided clarification on sterilization guidelines for dental handpieces, including low-speed attachments. Many offices spray and wipe low-speed attachments with a surface disinfectant. On page 12 of the summary, the CDC states, "low-speed motors and reusable prophylaxis angles, should always be heat sterilized between patients and not high-level or surface disinfected."20 The CDC states that studies have shown that internal contamination with potentially infectious material may be transmitted to the next patient.20 After a handpiece has been contaminated internally, those contaminates are released during use.
Air/Water Syringe Tips
The CDC recommends employing single-use disposable items when possible. This includes masks and air/water syringe tips. Single use means an item should be discarded after one patient. In a 2012 study, Molinari and Nelson confirmed the presence of microbial contamination pitting, corrosion, and other debris in 10% metal tips, suggesting the lumen of the tip be thoroughly cleaned.23 The design of air/water syringe tips involves narrow, inaccessible lumen, creating a need for disposable tips.23
The hands are the most common mode of transmission for pathogens. Hand hygiene is achieved by washing the hands with plain or antimicrobial soap or the use of an alcohol-based hand rub. Both methods prevent the spread of infection; however, handwashing reduces antimicrobial resistance. Handwashing must occur at the beginning of the day, after using the bathroom or eating, and when hands are visibly soiled. When hand rubs are used, they must contain an alcohol concentration of 60% to 95% and be used for a total of 2 minutes to effectively kill pathogens.24 In the dental environment, hand hygiene must be performed before touching a patient; before aseptic procedures; after body fluid exposure; after touching a patient; after touching patient surroundings; before, during, and after preparing food; before eating food; before and after treating a cut or wound; after using the bathroom; after blowing the nose, coughing, or sneezing; and after touching garbage.25,26
Dental personnel should always use standard precautions during patient care and treat all patients as potential carriers of infectious diseases. Infection control will protect the dental team and patients from acquiring or transmitting pathogens found in the dental office setting. Several government agencies and organizations are responsible for establishing infection control guidelines that assist with managing personnel health and safety concerns related to infection control in the dental environment. The dental team must be aware of these guidelines to remain compliant and positioned to provide the best protection for themselves and the patients they serve.
About the Author
Joy D. Void-Holmes, RDH, BSDH, DHSc, AADH, is a dental hygiene educator at Fortis College, Landover, Maryland. She is owner of Dr. Joy, RDH, a consulting company created to advance the art and science of dental hygiene through continuing education, research, content creation, and product testing. She is the co-founder of Inspire the Future Summit™ and the creator of the Dental Hygiene Student Planner™. She is also president-elect of the Maryland Dental Hygienists' Association.
1. US Department of Labor. Hospital eTool: Healthcare wide hazards - (lack of) universal precautions. Occupational Safety and Health Administration. https://www.osha.gov/SLTC/etools/hospital/hazards/univprec/univ.html. Accessed June 24, 2019.
2. World Health Organization. Standard precautions in health care. Infection Control. https://www.who.int/csr/resources/publications/EPR_AM2_E7.pdf. Published October 2007. Accessed June 24, 2019.
3. Centers for Disease Control and Prevention. Standard precautions. Oral Health. https://www.cdc.gov/oralhealth/infectioncontrol/summary-infection-prevention-practices/standard-precautions.html. Updated June 18, 2018. Accessed June 28, 2019.
4. Wilkins EM, Wyche CJ, Boyd LD. Clinical Practice of the Dental Hygienist. 12th ed. Philadelphia: Wolters Kluwer; 2017.
5. Laheij AMGA, Kistler JO, Belibasakis GN, et al; European Oral Microbiology Workshop (EOMW) 2011. Healthcare-associated viral and bacterial infections in dentistry. J Oral Microbiol. 2012;4:10.3402/jom.v4i0.17659.
6. Organization for Safety, Asepsis and Prevention. FDA guidelines and standards. OSAP. https://www.osap.org/page/GuideFDA. Published March 24, 2015. Accessed June 28, 2019.
7. Center for Devices and Radiological Health. Dental unit waterlines. US Food and Drug Administration.https://www.fda.gov/medical-devices/dental-devices/dental-unit-waterlines. Updated September 4, 2018. Accessed June 25, 2019.
8. US Department of Labor. Dentistry. Occupational Safety and Health Administration. https://www.osha.gov/SLTC/dentistry/index.html. Accessed June 8, 2019.
9. Centers for Disease Control and Prevention. Infection prevention & control in dental settings. Oral Health. https://www.cdc.gov/oralhealth/infectioncontrol/index.html. Accessed June 24, 2019.
10. Organization for Safety, Asepsis and Prevention. About OSAP. OSAP. https://www.osap.org/page/AboutOSAP#OrganDetails. Accessed June 25, 2019.
11. Dahiya P, Kamal R, Sharma V, Kaur S. "Hepatitis" - Prevention and management in dental practice. J Educ Health Promot. 2015;4:33.
12. Scarlett M. The ABCDE's of hepatitis. Inside Dental Assisting. 2011;7(3):12-17.
13.Patil S, Maheshwari S. Guidelines for management of medically compromised patients in dental office. In: Patil S, Maheshwari S. Clinical Methods in Dental Office. Jaypee Brothers Medical; 2017:146-160.
14. US Department of Health and Human Services. MRSA skin infection signs and symptoms. Centers for Disease Control and Prevention. https://www.cdc.gov/mrsa/pdf/MRSA_Broch_Parent.pdf. Accessed June 24, 2019.
15. Manjunath N, Banu F, Chopra A, et al. Management of MRSA patients on the dental chair. Int J Res Med Sci. 2017;5(8):3729-3733.
16. Organization for Safety, Asepsis and Prevention. Ebola toolkit. OSAP. https://www.osap.org/page/Ebola?page=GuideInternational. Accessed June 25, 2019.
17. Kelsch NB. Ebola virus. RDH. https://www.rdhmag.com/infection-control/article/16404197/ebola-virus. Published October 16, 2014. Accessed June 25, 2019.
18. Srivastava S, Kumar J, Tripathy M, Jain V. Ebola virus a major threat for dental professionals: a review article. IJSS Case Reports & Reviews. 2015;2(2):30-34.
19. National Center for Chronic Disease Prevention and Health Promotion. Summary of infection prevention practices in dental settings: basic expectations for safe care. Module 3 - Personal protective equipment. Centers for Disease Control and Prevention. https://www.cdc.gov/oralhealth/pdfs_and_other_files/BESC3-PPE-508.pdf. Accessed June 24, 2019.
20. Centers for Disease Control and Prevention. Summary of Infection Prevention Practices in Dental Settings: Basic Expectations for Safe Care. Atlanta, GA: Centers for Disease Control and Prevention, US Department of Health and Human Services; October 2016.
21. Nett RJ, Cummings KJ, Cannon B, et al. Dental personnel treated for idiopathic pulmonary fibrosis at a tertiary care center - Virginia, 2000-2015. MMWR Morb Mortal Wkly Rep. 2018;67(9):270-273.
22. Molinari J, Nelson P. Face mask performance: are you protected? Oral Health Group. https://www.oralhealthgroup.com/features/face-mask-performance-protected/. Published March 16, 2016. Accessed June 25, 2019.
23. Molinari J, Nelson P. Reusable versus disposable air/water syringe tips. The Dental Advisor. https://www.dentaladvisor.com/pdf-download/?pdf_url=images/pdfs/reusable-versus-disposable-air-water-syringe-tips.pdf. Published June 2012. Accessed June 24, 2019.
24. US Department of Health and Human Services. Show me the science - situations where hand sanitizer can be effective & how to use it in community settings. Centers for Disease Control and Prevention. https://www.cdc.gov/handwashing/show-me-the-science-hand-sanitizer.html. Updated October 15, 2018. Accessed June 25, 2019.
25. World Health Organization. My 5 moments for hand hygiene. WHO. https://www.who.int/infection-prevention/campaigns/clean-hands/5moments/en/. Accessed June 26, 2019.
26. US Department of Health and Human Services. When & how to wash your hands. Centers for Disease Control and Prevention. https://www.cdc.gov/handwashing/when-how-handwashing.html. Updated March 7, 2016. Accessed June 26, 2019.