5 Snoring & Obstructive Sleep Apnea

Question 1

What is the difference between snoring and obstructive sleep apnea (OSA)? What about sleep disordered breathing (SDB)? Upper airway resistance syndrome (UARS)?

Answer 1

What is the difference between snoring and obstructive sleep apnea (OSA)? What about sleep disordered breathing (SDB)? Upper airway resistance syndrome (UARS)?

Snoring is simply noisy breathing during sleep that occurs due to the vibration of lax tissue in the upper airway. SDB is characterized by snoring along with symptoms suggestive of OSA, including daytime somnolence and snoring. Sleep disordered breathing exists along a continuum of severity. UARS presents with symptoms of OSA without meeting the criteria of OSA as determined by the apnea hypopnea index (AHI) and/or respiratory disturbance index (RDI). OSA, the most severe form of SDB, affects quality of life and is potentially life threatening. OSA is defined by AHI or RDI greater than 5 during sleep as revealed by polysomnography. OSA is caused by upper airway tissue collapse resulting in airway obstruction.

Question 2

How common is snoring? What about sleep apnea?

Answer 2

How common is snoring? What about sleep apnea?

Snoring is very common across the population. Based on self-report and questionnaires, 40% of middle-aged men and 28% of middle-aged women snore. This increases to as high as 84% and 73%, respectively, in the seventh decade of life. It is estimated that as many as 3% to 7% of men and 2% to 5% of women have OSA. It has been shown that the prevalence is even higher in obese, senior, postmenopausal, and minority populations. The risk of OSA is higher when a person has a close relative (parent, child, sibling) with OSA.

Question 3

What causes snoring? OSA?

Answer 3

What causes snoring? OSA?

Snoring is caused by variations in airflow across dynamic portions of the upper airway, which results in vibrations of the soft tissues. Most commonly, it occurs in the area of the uvula, soft palate, tonsillar pillars, and/or pharyngeal walls. Occasionally, it may also occur at the base of tongue. OSA occurs secondary to collapse at the anatomic levels mentioned above but also may occur due to obstruction by the lingual tonsils or epiglottis. Obesity often contributes to snoring and apnea because of increased weight of the neck tissues, increased fat in the parapharyngeal space that narrows the pharynx, redundancy in the soft palate, and fullness in the tongue base.

Question 4

What is obstructive sleep apnea (OSA)?

Answer 4

What is obstructive sleep apnea (OSA)?

OSA refers to a collection of conditions and syndromes that have periods of apnea, a temporary cessation of breathing (defined as intermittent cessation of airflow during sleep that lasts 10 seconds or longer), as key occurrences. It was initially described in the early 1800s. One of the first accounts was written by Charles Dickens in 1837 and entitled The Posthumous Papers of the Pickwick Club. Subsequently, William Osler coined the term “pickwickian” in 1918 to describe the obese, hypersomnolent patient. The pathogenesis and pathophysiology of OSA have been studied extensively. During sleep, the upper airway becomes occluded, resulting in an episode of obstructive apnea. As a result, the patient experiences a brief arousal from sleep. With the return of breathing, the patient typically returns to sleep quickly. This sequence is repeated over and over.

Question 5

What are the subclassifications of sleep apnea?

Answer 5

What are the subclassifications of sleep apnea?

Over the years, various sleep apnea syndromes have been described and classified into three main types: central, obstructive, and mixed. Central sleep apnea refers to apnea with origins in the central nervous system. Obstructive sleep apnea refers to apnea due primarily to collapse of the upper airway during sleep. Mixed apnea refers to apnea with both central and obstructive characteristics. Of the three main types of apneas, OSA is the most common and has received the most scientific interest and study.

Question 6

What are common symptoms of obstructive sleep apnea?

Answer 6

What are common symptoms of obstructive sleep apnea?

Snoring, restless sleep, witnessed episodes of choking or gasping for air while sleeping, excessive daytime somnolence, morning headaches, nocturia, changes in mood (depression, irritability, anxiety, aggression), poor concentration, memory loss, night sweats, bruxism.

Question 7

What medical comorbidities can predispose to sleep apnea?

Answer 7

What medical comorbidities can predispose to sleep apnea?

• Hypothyroidism: There appears to be a link between hypothyroidism and OSA beyond increased BMI alone. It is thought that mucoprotein and hyaluronic acid deposition in the upper airway may be related to increased airway compression. Treating underlying hypothyroidism often improves sleep apnea independent from weight change or pulmonary function.
• Acromegaly: Tongue enlargement and skeletal changes including increased head size can also impact the airway and predispose patients to OSA.
• Obesity: Obesity is very common in the OSA population. Although being overweight is not necessary for OSA, truncal obesity predisposes patients to sleep apnea. In patients with a small airway diameter at baseline, even a modest weight gain can cause OSA.
• Gastro-esophageal reflux disease (GERD): GERD is commonly present alongside OSA. Changing intrathoracic pressures and obesity predispose to reflux and the inflammation caused by untreated GERD has been shown to worsen sleep apnea.
• Polycystic ovarian syndrome: Hormone dysregulation in PCOS can lead to increased frequency of apneic episodes in women with anatomic predisposition for pharyngeal collapse. Hormonal changes associated with postmenopausal women have also been shown to cause higher incidences of OSA.

Question 8

What medical complications can arise if OSA is untreated?

Answer 8

What medical complications can arise if OSA is untreated?

Systemic hypertension, myocardial infarction, vascular accidents, congestive heart failure, cor pulmonale, atherosclerosis, atrial fibrillation, ventricular arrhythmias, pulmonary hypertension, glaucoma, decreased seizure threshold, diminished libido, death

Question 9

What are the medical consequences of OSA in children?

Answer 9

What are the medical consequences of OSA in children?

• ADHD
• Growth delay
• Nocturnal enuresis

Question 10

An in-office clinical exam of the snoring and OSA patient should include what?

Answer 10

An in-office clinical exam of the snoring and OSA patient should include what?

A complete head and neck examination should be performed. The nose should be examined for signs of obstruction due to a deviated septum, hypertrophic turbinates or allergic rhinitis. Frequently, improving nasal congestion will decrease the intensity and frequency of snoring. Examination of the oral cavity may reveal potential obstruction due to large tonsils, redundant soft palate and uvula, redundant lateral pharyngeal walls, and/or a full base of the tongue. Patients may also have a high arched hard palate, retrognathia, and micrognathia. The Friedman tongue position classification system can be used together with BMI and tonsil size to predict patients’ response to uvulopalatopharyngoplasty (UPPP) and a tonsillectomy (see picture below). The system grades the view of the uvula and tonsillar pillars while the patient opens his or her mouth with the tongue in a neutral position. Higher grades are associated with better response to UPPP. Müller’s maneuver may be helpful in confirming the diagnosis and the site of obstruction.

Friedman tongue position. A) I: visualization of the entire uvula and tonsils/pillars. B) IIa: visualization of most of the uvula, but tonsils/pillars are absent. C) IIb: visualization of the entire soft palate to the base of the uvula. D) III: visualization of some of the soft palate, but structures distal to this are not seen. E) IV: visualization of the hard palate only.

Question 11

What is Müller’s maneuver?

Answer 11

What is Müller’s maneuver?

Müller’s maneuver is performed as part of an extensive physical examination and involves passing a flexible fiber-optic scope from the nose into the hypopharynx to obtain a view of the entire hypopharynx and larynx. The examiner then pinches the nostrils closed, and the patient closes his or her lips while attempting to inhale. If the hypopharynx and/or larynx collapse, then the test result is positive. A positive test helps delineate the location of antomic obstruction which occurs with OSA.

Controversy:

Questions exists as to the usefulness of the Muller’s maneuver this is a test performed while the patient is awake with good tone as opposed to when asleep with less muscle tone.

Question 12

How is OSA diagnosed?

Answer 12

How is OSA diagnosed?

The gold standard for diagnosing OSA is an in-lab monitored polysomnography. The history and physical, along with supplementary studies such as the Epworth Sleepiness Scale (ESS), help identify patients who would benefit from a sleep study to diagnose sleep apnea. Sleep studies measure brain activity, leg muscle movements, cardiac rhythm, eye movements, oxygen saturation, respiratory effort, and air movement at the nose and mouth. Polysomnography can differentiate between snoring without OSA, pure OSA, and central sleep apnea and can characterize the severity of the apnea. This test requires the patient to spend a night in a formal sleep laboratory. Portable monitoring devices for home sleep studies, which are not as comprehensive as in-lab studies, have recently been approved by the Center for Medicare and Medicaid Services (CMS) as appropriate for the diagnosis of OSA.

Question 13

What defines obstructive sleep apnea on polysomnography in adults? What is the difference between AHI and RDI?

Answer 13

What defines obstructive sleep apnea on polysomnography in adults? What is the difference between AHI and RDI?

The diagnostic criteria for OSA is an apnea-hypopnea index (AHI) greater than 5 or a respiratory disturbance index (RDI) greater than 5. AHI is defined as the number of obstructive apneic or hypopneic episodes a patient has per hour. On polysomnography, obstructive apnea is defined as cessation of airflow due to anatomic airway obstruction for 10 seconds and hypopnea is defined as reduction in ventilation by at least 30% of baseline for 10 seconds associated with at least a 4% oxygen desaturation. RDI is similar to AHI but also includes respiratory effort related arousals (RERAs). RERAs do not fulfill the criteria of an apnea or hypopnea but still result in an arousal from sleep. AHI or RDI between 5 and 15 is considered mild OSA, 16 to 30 is moderate OSA, and any number greater than 30 is considered severe OSA.

Question 14

Are sleep studies always used in children?

Answer 14

Are sleep studies always used in children?

Formal sleep studies are not done as often in children as in adults. Some physicians use 24-hour pulse oximetry or sleep sonography, which is recording of nocturnal breathing sounds. Usually a history and physical (usually large tonsils and adenoids) consistent with OSA are enough to make a surgical decision for a child. Other causes of sleep disturbed breathing include nasopharyngeal cysts, encephaloceles, choanal atresia, a deviated nasal septum, and craniofacial or orthodontic malformations. When in doubt, a formal sleep study is still indicated.

Question 15

Describe the classic sleep pattern seen in OSA.

Answer 15

Describe the classic sleep pattern seen in OSA.

Typically, OSA patients exhibit a quick onset of sleep and multiple arousals. The patient maintains relatively more stage I and II sleep and less stage III, IV, and rapid eye movement (REM) sleep. This lack of deep sleep results in the symptoms of sleep deprivation.

Question 16

During which stage of sleep do most obstructive events occur?

Answer 16

During which stage of sleep do most obstructive events occur?

Most obstructive events occur during the deeper stages of sleep, including stages III and IV and REM sleep. It is during these stages that muscles are most relaxed, and thus upper airway collapse is most likely. OSA patients are therefore being deprived of deep sleep. This explains the restless sleep patterns and daytime somnolence. In fact, the hallmark of successful treatment of OSA is REM rebound, or a significant increase in REM sleep (clinical increase in dreaming) due to correction of previous sleep deprivation.

Question 17

Should everyone who snores undergo a sleep study?

Answer 17

Should everyone who snores undergo a sleep study?

When snoring is accompanied by symptoms of OSA, such as hypersomnolence, morning headache, and restless sleep, a thorough examination and sleep study are indicated. When snoring is socially disruptive but not accompanied by symptoms of sleep apnea, the picture is not so clear. Unfortunately, even “apneas” witnessed by bed partners may not be predictive of OSA. The only reasonably accurate method of detecting OSA remains the formal sleep study. Therefore, current recommendations suggest obtaining a sleep study prior to any surgery for sleep apnea or snoring.

Question 18

What are some treatments for snoring?

Answer 18

What are some treatments for snoring?

Weight loss, tonsillectomy, and improving nasal breathing are the most common treatments for snoring because they decrease vibrations of the soft palate. Stiffening of the soft palate can also be accomplished with a variety of techniques. The standard technique, UPPP, can be completed with cold steel, Bovie, or coblation. Another, in-office procedure under local anesthesia is laser-assisted uvulopalatoplasty (LAUP), which causes soft palate scarring by a laser burn and is accomplished in multiple stages. A newer advancement in palate surgery is submucosal radiofrequency ablation which can also be a staged palatal scarring/stiffening in-office procedure. Snoreplasty involves sclerosants injected into the palate to cause scarring and shrinkage, which will also result in palatal stiffening. Placement of soft palate pillar woven polyester implants may also be performed to treat snoring.

Question 19

What are conservative, nonsurgical management options for treating OSA?

Answer 19

What are conservative, nonsurgical management options for treating OSA?

• Reducing or eliminating alcohol or sedatives as they may cause excess relaxation of tissues which may exacerbate soft tissue collapse.
• Treatment of underlying medical conditions: antireflux medications, thyroid replacement, hormone replacement therapy.
• Weight loss has been shown to result in improvement in OSA severity.
• Continuous positive airway pressure (CPAP) involves the administration of air through the nose or mouth by an external device at a fixed pressure. The pressure of the airflow stents the airway open, particularly during the inspiratory phase when negative pressure would otherwise cause the pharyngeal walls to collapse. Bi-level positive airway pressure (BiPAP) is similar to CPAP, but these devices are capable of generating a second, lower level of pressure during expiration that improves patient comfort.
• There are also multiple types of dental appliances that can be used to treat mild sleep disordered breathing and snoring. These devices target mandibular advancement or tongue positioning.
• Changing the position that patients sleep in is another conservative technique that can improve mild symptoms as many people have worse OSA when supine.

Question 20

What minimally invasive procedures are available for treating sleep apnea?

Answer 20

What minimally invasive procedures are available for treating sleep apnea?

Pillar procedure: Under local anesthetic, one midline and two lateral woven polyester implants are implanted into the muscle of the soft palate.

Tongue base suspension: A titanium screw attached to a suture is inserted into the inner table of the mandibular symphysis. The suture is then passed through the base of the tongue to suspend the tongue base, effectively preventing collapse of the base of tongue.

•

Radiofrequency ablation (RFA) of the palate and tongue base to increase tissue stiffness can be performed in the office. It may require multiple sessions to achieve adequate soft tissue reduction.

RFA of the inferior turbinates can be performed in the office to improve nasal airflow and decrease nasal resistance. By improving airflow through the nose and decreasing upper airway resistance, the patient may also become more tolerant to the use of a CPAP because the pressure requirements of the machine also decrease.

Question 21

Why would you recommend surgery over CPAP alone?

Answer 21

Why would you recommend surgery over CPAP alone?

CPAP can be uncomfortable, and it is recognized that there is a low compliance rate over time. Some patients are unable to tolerate CPAP even after desensitization. This may be due to claustrophobia, inability to sleep supine, or the inadvertent removal of the CPAP while sleeping. Patients with a high nasal bridge also suffer from frequent air leaks associated with an inadequate mask seal. Nasal surgery to decrease airway resistance can make wearing nasal CPAP more tolerable by decreasing the required pressures. Younger patients typically have a lower compliance rate in using CPAP than older adults, especially if they are dating or live in a college dormitory. Patients who frequently travel overseas to countries with undeveloped electrical utility may also be better surgical candidates. Children with OSA have a high cure rate with a tonsillectomy and adenoidectomy alone.

Question 22

If surgery is indicated, how do you select the operation to be performed?

Answer 22

If surgery is indicated, how do you select the operation to be performed?

Surgery is effective in treating snoring and less effective in treating sleep apnea. The challenge confronting the surgeon is to know what part of the upper airway is causing the obstruction to airflow. There are multiple possible sites, and conventional sleep testing does not usually identify the area the surgeon should modify. If the surgeon treats the wrong part of the airway, or if there are multiple sites of obstruction, it is less likely that sleep apnea will improve to a degree at which no other treatment is needed. Given the several sites where airway obstruction may exist, a diagnostic drug induced sleep endoscopy to identify the site of obstruction while the patient is asleep may be helpful. There are several types of operations currently used to treat sleep apnea. The most common is UPPP. The success rate of this operation is about 50%. Some surgeons have achieved very high success rates using multiple, staged operations.

• Nose: Nasal obstruction can be treated by septoplasty, turbinate reduction, and sinus surgery, if appropriate.
• Adenoids: Adenoidectomy in children is often done. It is 80% to 90% effective, often in conjunction with tonsillectomy, for improving nasal airway, snoring, and apnea in children. This operation is rarely necessary in adults.
• Tonsils: Tonsillectomy for tonsillar hypertrophy. In adults with OSA, tonsillectomy is often done as part of a UPPP.
• Palate: Palate reduction can be achieved by snoreplasty (sclerosants injected into the palate to cause scarring and shrinkage), laser-assisted uvulopalatoplasty (LAUP), submucosal radiofrequency device, electrocautery (termed “Bovie-assisted uvulopalatoplasty” or BAUP), or UPPP (or “U-triple-P”).
• Tongue base: Transoral robotic surgery, coblation or radiofrequency tongue base reduction, lag screw and suture suspension of the tongue and hyoid, advancement genioplasty combined with a hyoid suspension, distraction osteogenesis, partial midline glossectomy, and maxillomandibular advancement are used to reduce obstruction at the tongue base.
• Most authorities recommend a repeat polysomnogram 3 months after surgery.

Question 23

What is a drug induced sleep endoscopy (DISE)?

Answer 23

What is a drug induced sleep endoscopy (DISE)?

It is hard to predict which patients are likely to have a successful surgical outcome. Part of the reason is the difficulty associated with accurately identifying the site(s) of obstruction. Sleep endoscopy, a relatively new technique, helps define this better. Patients are examined in a drug induced sleep-resembling relaxed state. A flexible fiber-optic scope is passed through the nose to evaluate the upper airway to reveal the site of obstruction. This enables the surgeon to adequately address those sites while preserving areas that are not involved. The data on the validity of this procedure are scant yet promising, but this procedure may not be widely available in all areas.

Question 24

What is UPPP? What are the complications associated with it?

Answer 24

What is UPPP? What are the complications associated with it?

Uvulopalatopharyngoplasty or “U triple-P” is the most commonly performed surgical procedure for OSA. It has the best outcomes for patients with retropharyngeal collapse that have mild to moderate sleep apnea. Under general anesthesia, the tonsils are removed along with a portion of the anterior and posterior pillars, and part of the soft palate. The remaining tonsillar pillars are sutured together and the uvula is shortened. The operation decreases the amount of soft tissue collapse in the oropharynx, and as such, it is most successful for patients with isolated palatal collapse. The efficacy of UPPP alone in improving AHI over time ranges from 40% to 70%, depending on the patient selection. Bleeding is by far the most common postoperative complication, occasionally requiring another visit to the operating room for control. Transient velopharyngeal insufficiency with nasal regurgitation occurs in 5% to 10% of patients but is rarely permanent. Nasopharyngeal stenosis is a very rare but devastating complication in which the nasopharynx scars down completely. Patients may also complain of dry mouth, tightness in the throat, increased gag reflex, and/or change in taste; however, these symptoms are usually transient.

Question 25

What are some new directions for OSA surgery?

Answer 25

What are some new directions for OSA surgery?

Pharmacologic treatments for obesity have recently been FDA approved as a prescription weight loss medication, and outcomes with bariatric surgery are being explored. Transoral robotic surgery (TORS) is becoming more popular for base of tongue reduction for OSA. The benefits of using the robot include improved visualization and instrument access. However, this surgical approach is limited to centers that have a robotic system, and remains expensive compared to more standard procedures. There are only preliminary data currently available about this technique, and outcomes data comparing this to more standard techniques are lacking. Hypoglossal nerve stimulators are a newer technique aimed at increasing the tone of the tongue during inspiration and, though limited, early data show promise.

Question 26

Define Hypopnea.

Answer 26

They’re currently exist two different excepted definitions of hypopnea

1. Recommended
   
   1. ventilation drop by ≥ 30% of the pre-event baseline
   2. the duration of the ≥ 30% drop in signal excursion is ≥10 seconds
   3. there is a ≥3% oxygen desaturation from pre-event baseline and/or the event is associated with an arousal.
2. Alternative version
   
   1. Ventilation drops by ≥30% of pre-events baseline.
   2. The duration of the ≥ 30% drop in signal excursion is ≥ 10 seconds.
   3. There is a ≥4% oxygen desaturation from pre-event baseline.