Obstructive Sleep Apnea and the Role of Dental Hygienists

Definition and Categories of Sleep Apnea

Sleep Apnea is a medical disorder characterized by 50% decrease in airflow (hypopnea) or the complete cessation of airflow (apnea) occurring longer than ten seconds while sleeping.^6,8 The apnea-hypopnea index (AHI) is the most common index for assessing the severity of sleep apnea by combining the number of apneas and hypopneas each night (Table I).

There are 3 categories of sleep apnea: OSA, central sleep apnea and complex sleep apnea. OSA is the occurrence of 5 or more events per night of apnea and hypopnea due to an obstruction of the airway.¹¹ Central sleep apnea is defined as a decrease in oxygen saturation levels due to the brain failing to deliver a signal for the body to breathe, resulting in ineffective and shallow breaths.¹¹ Complex sleep apnea is a combination of OSA and central sleep apnea.

OSA: Characteristics, Risk Factors and Health Related Conditions

OSA received clinical recognition in the 1980s and has gradually gained recognition in the research setting.¹² OSA remains the most common undiagnosed sleep disorder and chronic disease in Western society.² Recent research suggests up to 80% of moderate to severe cases of OSA are underdiagnosed,⁴ and 1 in 5 adults have mild OSA and 1 in 15 have moderate OSA.¹³ Characteristics of OSA include snoring, daytime sleepiness and witnessed stopped breathing during sleep. Other symptoms are the sensation of choking while sleeping, insomnia and daytime tiredness. Oral manifestations include attrition and a large tongue, along with the physical characteristic of a neck larger than 17 cm.

Obesity is considered the greatest risk factor associated with OSA. Even a person with mild to moderate obesity is at an increased risk for having OSA.⁵ Also, people with a high body-mass index, large neck circumference and a high waist-to-hip ratio are at risk for developing OSA.^4,5 Due to excessive daytime sleepiness, individuals are at an increased risk of motor vehicle accidents when left untreated.¹⁴ Research suggests that African Americans have a 2–times greater risk to have OSA than Caucasians.¹⁵ Males have a greater predilection^4,5 for OSA, about 2 to 3-fold than women.¹⁶ However, menopause and pregnancy may be an exception due to physiological and hormonal changes.¹³ Other risk factors include alcohol consumption,⁴ smoking,⁴ nasal congestion¹⁰ and upper airway anatomy.⁴

OSA is independently linked to and increases the likelihood of several health-related conditions such as hypertension,^4-7 decreased quality of life,^4,7,17 diabetes mellitus,^2,5 stroke² and diminished neurocognitive function.⁴ Additionally, there is an increased risk of congestive heart failure, coronary artery disease, myocardial infarction and cardiac arrhythmias.²

Recent research has found an increase in periodontitis in individuals with OSA⁸ as they share several risk factors such as male sex, older age, obesity, oral breathing, cigarette smoking and alcohol consumption.⁸ OSA and periodontitis are both associated with systemic inflammation and cardiovascular risk. Gunaratnam et al suggests, “There is a significant association between periodontal clinical attachment level and total sleep time.”⁹ Furthermore, there is a positive significant association between OSA and periodontitis.^8,10

Diagnosing OSA – Polysomnography: The Gold Standard

Polysomnography is considered the gold standard of diagnosing OSA and is completed in a laboratory. This diagnostic tool measures an individual's sleep cycles and stages, recording air flow in and out of the lungs, blood oxygen levels, brain waves, eye movement, and heart rate.¹⁸ The disadvantages of the polysomnography are: low availbility, cost and time-consumption.^3,7 Because of the disadvantages, screening tools have been developed that may assist in identifying high risk individuals. These tools may help serve the population by alerting those who are at risk, allowing them the opportunity to seek out definitive diagnosis.

Screening Tools for Detecting Risk of Obstructive Sleep Apnea

Although physicians are the only professionals licensed to diagnose OSA, dentists and dental hygienists can detect OSA risk through screening tools. Some of these tools are the Mallampati Classification,^19-21 Epworth Sleepiness Scale,^22,23 STOP Questionnaire,³ STOP-BANG Questionnaire²⁴ and ARES Questionnaire.²

Mallampati Classification

The Mallampati Classification is an evaluation predicting the ease of intubation and is higher in people who show severe degrees of OSA.^19,20 With the patient sitting upright, mouth open and tongue protruded, the evaluator classifies the visibility of the posterior pharynx with aid of a light with a scale of I, II, III and IV (Table II, Figure 1).²¹ A score of I and II are considered adequate exposure of the posterior pharynx, while a score of III and IV are considered inadequate exposure of the posterior pharynx.²⁰ Kandray et al assessed the inter-rater reliability of using the Mallampati classification between dental hygiene students and a supervising dentist to evaluate and classify the pharyngeal soft tissues.¹⁹ After training by a licensed respiratory therapist, 21 dental hygiene students received a diagram with the Mallampati Classification and placed a check mark beside the image that best represented the patient's oropharynx opening during a dental hygiene appointment. Subsequently, the dentist did an independent evaluation of each patient using the same type of diagram that the student used after the same training. The results show a 77% agreement between the dentist and students, indicating that dental hygiene students can classify oropharyngeal tissues.¹⁹

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Figure 1:

Mallampati Classification Oral Anatomy

Borrowed with permission from Thomas Nuckton's Study²¹

Epworth Sleepiness Scale

The Epworth Sleepiness Scale (ESS), developed by Murray Johns in 1991, is a self-administered questionnaire that evaluates sleep tendencies.²³ An individual rates their chance of dozing off in 8 different scenarios in this subjective questionnaire (Tables III, IV).²² An ESS score of 16 or greater is considered a high level of daytime sleepiness, which is one of the most common symptoms for OSA.¹⁷ Nguyen et al conducted a study to evaluate the reproducibility of the ESS.²² In this study, 142 patients were evaluated and it was found that there were discrepancies when the ESS was repeated over time in the same untreated individual. The researchers cautioned that the ESS should not be the sole tool to indicate risk for possible OSA due to reproducibility discrepencies.²²

STOP Questionnaire

Chung et al constructed a concise screening tool for OSA called the STOP questionnaire (Table V).³ The initial goal was to find a tool for identifying OSA risk in patients soon undergoing surgical procedures; recently it has begun to identify any patient at risk. If a patient answers “yes” to two or more of the questions, then they are considered at high risk.

Chung et al investigated 278 patients who answered 14 questions in order to identify the best questions to ask to identify OSA. This investigation culminated in the 4-question STOP questionnaire.³ Then a pilot study was implemented on 592 preoperative clinic patients to ensure the strength of the STOP questionnaire. After the pilot study, the questionnaire was administered to 1,875 patients with a 100% completion rate. Then, regardless of the score, they were all asked to undergo an overnight polysomnographic. The AHI from the polysomnography was used against the STOP questionnaire in order to validate it. Two hundred and eleven patients agreed to the polysomnography (34 from the pilot study, 177 from the study). Overall, it was found that the STOP questionnaire had a moderately high sensitivity and positive predictive value, indicating that the STOP questionnaire is more sensitive in determining if one has moderate to severe OSA. The positive predictive value was significantly increased when people have the following clinical characteristics: male gender, age older than 50 years, BMI greater than 35 kg/m2, and neck circumference greater than 40 cm.³ The study concluded that the STOP questionnaire is an easy-to-use screening tool for patients at risk with OSA.³

Other studies have used the STOP questionnaire to determine OSA risk. Ahmad et al found that the STOP questionnaire aided in identifying one's risk of OSA and confirmed that the prevalence of periodontitis may be higher in patients with OSA.⁸

STOP-Bang Questionnaire

The STOP-Bang questionnaire is a series of 8 questions with scores ranging from 0 to 8 (Table VI).²⁴ If an individual answers yes to 3 or more items, then they are considered at high risk for OSA. Research indicates that a STOP-Bang score of 3 or greater reveals a high sensitivity for moderate to severe OSA along with an increase in specificity and predicted probability.²⁴

The Apnea Risk Evaluation System Questionnaire

The Apnea Risk Evaluation System (ARES) can sufficiently assess the risk of an individual with undiagnosed OSA.² Levendowski et al assessed the prevalence of potential OSA in a dental population by administering this questionnaire to 2 dental practices.² The first practice had no prior OSA treatment experience and the questionnaire was given to the patients at a scheduled dental appointment with 229 patients fully completing the ARES questionnaire. The second practice had 15 years of prior experience with OSA treatment and the questionnaire was mailed to 870 patients with 102 returning it fully completed. Including both practices, 102 patients were considered high risk upon completing the questionnaire and were selected to complete a 2-night sleep study. During the night, the patients wore a wireless unicorder on their foreheads that recorded oxygen saturation, pulse rate, airflow, respiratory effort, snoring levels, head movement and head position. Results from the ARES questionnaire found that 67% of males were at high risk of having at least mild OSA and 33% at risk for having moderate to severe OSA. Twenty-eight percent of females had at least mild OSA and 6% had moderate to severe OSA. Out of the 105 high-risk patients participating in the sleep study, 96% had an apnea hypopnea index (AHI) greater than 5 events per hour² and 70% had an AHI of greater than 20 events per hour. In conclusion, the study found a high prevalence of undiagnosed sleep apnea in this dental population, providing additional evidence that the ARES can sufficiently assess the risk of an individual with undiagnosed OSA.

Treatment Options for Obstructive Sleep Apnea

Treatment of OSA includes lifestyle changes such as weight loss,²⁵ upper airway surgery,²⁵ continuous positive airway pressure (CPAP)^25-27 and oral appliances.^28,29

Continuous Positive Airway Pressure

CPAP is the gold standard treatment of OSA and is effective in decreasing the nocturnal events of OSA.²⁵ Research suggests the therapeutic effects of being on CPAP for 3 weeks significantly reduces fatigue and increases energy in individuals with OSA.²⁶ It has also been found that CPAP reduces cardiovascular risk, fatal or nonfatal cardiovascular events, and blood pressure within 3 weeks time of complying with CPAP treatment.²⁷ CPAP improves glucose control in diabetic patients suffering from severe OSA.⁶ However, many individuals have difficulty complying due being uncomfortable while sleeping and the changes in occlusion. Mehta et al⁶ conducted a follow-up study to Chung et al,²⁴ by contacting the patients who participated in OSA treatment. Among the patients given CPAP therapy, 40 stated they were compliant and had significant reductions in medications for comorbidities than the patients who were non-compliant. Additionally, the patients who were compliant showed a significant improvement in snoring, sleep quality and daytime sleepiness. Based on these results, the researchers concluded OSA symptoms and severity of comorbidities might be reduced by timely diagnosis and compliance to treatment.⁶

Oral Appliances

Oral appliances are typically used when a patient does not like CPAP, has not responded to CPAP or is not appropriate for CPAP. The appliances are small, easy to wear and typically take only a few weeks for patients to adjust. Before receiving, the patient has an examination to determine which oral appliance is most appropriate, fit and adapt the appliance, and determine the function. Dentists construct and fit oral appliances.²⁵ Oral appliances for OSA treatment include tongue retaining devices and mandibular advancement appliances.²⁸ Tongue retaining devices are seldom used except when dental reasons prohibit making mandibular advancement appliances. The appliance holds the tongue in a forward position with a suction bulb that prevents the tongue from obstructing the airway. The most commonly used oral appliance is the mandibular advancement appliance. Mandibular advancement appliances work by protruding the mandible forward, which minimizes upper airway collapse while sleeping. Treatment with oral appliances is non-invasive and reversible,²⁸ accompanied occasionally with initial side effects of tooth pain, temporomandibular joint pain, dry mouth, gum irritation and excessive salivation.²⁹