About sleep apnea

What is sleep apnea?

Sleep apnea is defined as a reduction or cessation of breathing during sleep.

  • The three types of sleep apnea are central apnea, obstructive apnea, and a mixture of central and obstructive apnea.
  • Central sleep apnea is caused by a failure of the brain to activate the muscles of breathing during sleep.
  • Obstructive sleep apnea is caused by the collapse of the airway during sleep.
  • The complications of obstructive sleep apnea include high blood pressure, strokes, heart disease, automobile accidents, and daytime sleepiness as well as difficulty concentrating, thinking and remembering.
  • Obstructive sleep apnea is diagnosed and evaluated by history, physical examination and polysomnography.
  • The nonsurgical treatments for obstructive sleep apnea include behavior therapy, medications, dental appliances, continuous positive airway pressure, bi-level positive airway pressure, and auto-titrating continuous positive airway pressure.
  • The surgical treatments for obstructive sleep apnea include nasal surgery, palate implants, uvulopalatopharyngoplasty, tongue reduction surgery, genioglossus advancement, maxillo-mandibular advancement, tracheostomy, and bariatric surgery.

What is sleep apnea?

Sleep apnea is a disorder characterized by a reduction or pause of breathing (airflow) during sleep. It is common among adults but rare among children. Although a diagnosis of sleep apnea often will be suspected on the basis of a person's medical history, there are several tests that can be used to confirm the diagnosis. The treatment of sleep apnea can be either surgical or nonsurgical.

An apnea is a period of time during which breathing stops or is markedly reduced. In simplified terms, an apnea occurs when a person stops breathing for 10 seconds or more. If a person stops breathing completely or take less than 25% of a normal breath for a period that lasts 10 seconds or more, this is an apnea. This definition includes complete stoppage of airflow. Other definitions of apnea that may be used include at least a 4% drop in oxygen in the blood, a direct result of the reduction in the transfer of oxygen into the blood when breathing stops.

Apneas usually occur during sleep. When an apnea occurs, sleep usually is disrupted due to inadequate breathing and poor oxygen levels in the blood. Sometimes this means the person wakes up completely, but sometimes this can mean the person comes out of a deep level of sleep and into a more shallow level of sleep. Apneas are usually measured during sleep (preferably in all stages of sleep) over a 2-hour period. An estimate of the severity of apnea is calculated by dividing the number of apneas by the number of hours of sleep, giving an apnea index (AI in apneas per hour); the greater the AI, the more severe the apnea.

A hypopnea is a decrease in breathing that is not as severe as an apnea. Hypopneas usually occur during sleep and can be defined as 69% to 26% of a normal breath. Like apneas, hypopneas also may be defined as a 4% or greater drop in oxygen in the blood. Like apneas, hypopneas usually disrupt the level of sleep. A hypopnea index (HI) can be calculated by dividing the number of hypopneas by the number of hours of sleep.

The apnea-hypopnea index (AHI) is an index of severity that combines apneas and hypopneas. Combining them gives an overall severity of sleep apnea including sleep disruptions and desaturations (a low level of oxygen in the blood). The apnea-hypopnea index, like the apnea index and hypopnea index, is calculated by dividing the number of apneas and hypopneas by the number of hours of sleep.

Another index that is used to measure sleep apnea is the respiratory disturbance index (RDI). The respiratory disturbance index is similar to the apnea-hypopnea index; however, it also includes respiratory events that do not technically meet the definitions of apneas or hypopneas, but do disrupt sleep.

Sleep apnea is formally defined as an apnea-hypopnea index of at least 15 episodes/hour in a patient if he or she does not have medical problems that are believed to be caused by the sleep apnea. This is the equivalent of approximately one episode of apnea or hypopnea every 4 minutes.

High blood pressure, stroke, daytime sleepiness, congestive heart failure (low flow of blood to the heart), insomnia, and mood disorders can be caused or worsened by sleep apnea. In the presence of these conditions, sleep apnea is defined as an apnea-hypopnea index of at least five episodes/hour. This definition is stricter because these individuals may be already experiencing the negative medical effects of sleep apnea, and it may be important to begin treatment at a lower apnea-hypopnea index.

What are the types of sleep apnea?

There are three types of sleep apnea:

  1. central sleep apnea (CSA),
  2. obstructive sleep apnea (OSA), and
  3. mixed sleep apnea (both central sleep apnea and obstructive sleep apnea).

During sleep, the brain instructs the muscles of breathing to take a breath.

  • Central sleep apnea (CSA) occurs when the brain does not send the signal to the muscles to take a breath and there is no muscular effort to take a breath.
  • Obstructive sleep apnea (OSA) occurs when the brain sends the signal to the muscles and the muscles make an effort to take a breath, but they are unsuccessful because the airway becomes obstructed and prevents an adequate flow of air.
  • Mixed sleep apnea, occurs when there is both central sleep apnea and obstructive sleep apnea.

Central sleep apnea (CSA) occurs when the brain does not send the signal to breathe to the muscles of breathing. This usually occurs in infants or in adults with heart disease, cerebrovascular disease, or congenital diseases, but it also can be caused by some medications and high altitudes.

What are the symptoms for sleep apnea?

Loud snoring symptom was found in the sleep apnea condition

The signs and symptoms of obstructive and central sleep apneas overlap, sometimes making the type of sleep apnea more difficult to determine. The most common signs and symptoms of obstructive and central sleep apneas include:

  • Loud snoring, which is usually more prominent in obstructive sleep apnea
  • Episodes of Breathing cessation during sleep witnessed by another person
  • Abrupt awakenings accompanied by shortness of breath, which more likely indicates central sleep apnea
  • Awakening with a dry mouth or sore throat
  • Morning headache
  • Difficulty staying asleep (insomnia)
  • Excessive daytime sleepiness (hypersomnia)
  • Attention problems
  • Irritability

When to see a doctor

Consult a medical professional if you experience, or if your partner notices, the following:

  • Snoring loud enough to disturb the sleep of others or yourself
  • Shortness of breath, gasping for air or choking that awakens you from sleep
  • Intermittent pauses in your Breathing during sleep
  • Excessive daytime drowsiness, which may cause you to fall asleep while you're working, watching television or even driving

Many people don't think of snoring as a sign of something potentially serious, and not everyone who has sleep apnea snores. But be sure to talk to your doctor if you experience loud snoring, especially snoring that's punctuated by periods of silence.

Ask your doctor about any sleep problem that leaves you chronically fatigued, sleepy and irritable. Excessive Daytime Drowsiness (hypersomnia) may be due to sleep apnea or to other disorders, such as narcolepsy.

What are the causes for sleep apnea?

Obstructive sleep apnea occurs when the muscles in the back of your throat relax. These muscles support the soft palate, the triangular piece of tissue hanging from the soft palate (uvula), the tonsils, the side walls of the throat and the tongue.

When the muscles relax, your airway narrows or closes as you breathe in, and you can't get an adequate breath in. This may lower the level of oxygen in your blood.

Your brain senses this inability to breathe and briefly rouses you from sleep so that you can reopen your airway. This awakening is usually so brief that you don't remember it.

You may make a snorting, choking or gasping sound. This pattern can repeat itself five to 30 times or more each hour, all night long. These disruptions impair your ability to reach the desired deep, restful phases of sleep, and you'll probably feel sleepy during your waking hours.

People with obstructive sleep apnea may not be aware that their sleep was interrupted. In fact, some people with this type of sleep apnea think they sleep well all night.

Causes of central sleep apnea

Central sleep apnea is a less common form of sleep apnea that occurs when your brain fails to transmit signals to your breathing muscles. This means you make no effort to breathe for a short period of time. You may awaken with shortness of breath or have a difficult time getting to sleep or staying asleep.

What are the treatments for sleep apnea?

The nonsurgical treatments for obstructive sleep apnea are similar to the non-surgical treatments for snoring with a few differences. Treatments include:

  • behavioral changes,
  • dental appliances and mouthpieces,
  • CPAP (continuous positive airway pressure), and
  • medications.

Behavioral changes

Behavioral changes are the simplest treatments for mild obstructive sleep apnea, but often the hardest to make. Occasionally, apneas occur only in some positions (most commonly lying flat on the back). A person can change his or her sleeping position, reduce apneas, and improve their sleep.

Obesity is a known contributing factor to obstructive sleep apnea. It is estimated that a 10% weight gain will worsen the apnea-hypopnea index, and a 10% weight loss will decrease the apnea-hypopnea index. Therefore, a healthy lifestyle and diet that encourages weight loss will improve obstructive sleep apnea.

Unfortunately, most people with obstructive sleep apnea are tired and do not have much energy for exercise. This is a difficult behavioral spiral since the more tired a person is, the less they exercise, the more weight they gain, the worse the obstructive sleep apnea becomes, and the more tired they become. Frequently, after obstructive sleep apnea is treated by other methods people are able to lose weight and the obstructive sleep apnea may improve.

Sleep hygiene and other behavioral modifications known to improve the overall quality of sleep are also recommended. Below are some common practices that can induce sleep and enhance its quality:

  • reduce lighting and noise in the bedroom;
  • avoid reading or watching TV in bed;
  • avoid eating or exercising prior to sleep;
  • use the bedroom only for sleeping;
  • keep work-related activities outside of the bedroom; and
  • try a period of physical and mental relaxation before going to bed.

Medication

Many medications have been studied for obstructive sleep apnea; however, because obstructive sleep apnea is due to an anatomic airway narrowing it has been difficult to find a medication that helps.

  • In people with nasal airway obstruction causing obstructive sleep apnea, nasal steroid sprays have been shown to be effective. In one study, the respiratory disturbance index (RDI) decreased from 20 to 11 with nasal sprays.
  • Topical nasal decongestants such as oxymetazoline and neosynephrine, also can temporarily improve nasal swelling. The problem is that they cannot be used for more than 3 to 5 days without decreased effectiveness and withdrawal symptoms.
  • People who have obstructive sleep apnea due to hypothyroidism (low thyroid hormone production) improve with thyroid replacement therapy. However, people with normal thyroid function will not improve with this therapy.
  • People who have obstructive sleep apnea due to obesity may improve with diet medications if they are effective in assisting with weight loss.
  • Other medications have been studied, including medroxyprogesterone (Provera, Cycrin, Amen), acetazolamide (Diamox), theophylline (Theo-Dur, Respbid, Slo-Bid, Theo-24, Theolair, Uniphyl, Slo-Phyllin), tricyclic antidepressants, and selective serotonin reuptake inhibitors (SSRIs). In these studies, they were shown to have little or no effect. There are also new medications to help increase alertness. They may be temporarily successful in increasing attention; however, they do not treat the sleep deprivation or the cause of obstructive sleep apnea.
  • In cases where sleep apnea may be caused by another underlying condition, appropriate treatment of such conditions is recommended and may be beneficial. For example, treating underlying heart failure may improve sleep apnea if it is a contributing factor. In people with sinusitis and nasal congestion, the swelling and inflammation of the upper airway passages can cause snoring and sleep apnea. Therefore, medications to treat underlying sinusitis and congestion can potentially improve sleep apnea in these individuals.
  • Medications are also available that could increase daytime wakefulness in people who suffer from sleep apnea. These medications stimulate the brain through an unknown mechanism of action. The prototypical drug in this class is called modafinil (Provigil). Studies have revealed greater resolution of daytime sleepiness when using modafinil in patients with sleep apnea. A similar, newer drug in this class, called armodafinil (Nuvigil), has a longer half-life and is also approved by the FDA for the treatment of excessive daytime sleepiness in people with sleep apnea. Armodafinil has shown similar clinical results in significantly improving daytime quality of life and functioning. It is important to note that the primary treatment for obstructive sleep apnea (OSA) remains CPAP (described below). Stimulants, such as modafinil (Provigil) and armodafinil, are recommended for those who have excessive daytime sleepiness despite proper CPAP use at night. They are not meant to replace CPAP use, but rather, as an adjunctive therapy to CPAP in those who have daytime symptoms even with CPAP use. Approximately one third of people who use CPAP at night for sleep apnea may continue to have somnolence during the day. This is the population that could benefit from using modafinil (Provigil) or armodafinil (Nuvigil).

Dental appliances

A dental appliance is similar to a mouthpiece and holds the jaw and tongue forward and the palate up, thus preventing closure of the airway. This small increase in airway size often is enough to control the apneas.

Dental appliances are an excellent treatment for mild to moderate obstructive sleep apnea. It is reported to be effective for these groups. A dental appliance does not require surgery; it is small, portable, and does not require a machine. However, there are some disadvantages to the dental appliance. It can cause or worsen temporomandibular joint (TMJ) dysfunction. If the jaw is pulled too far forward, it can cause pain in the joint when eating. For this reason, it is best to have a dentist or oral surgeon fit and adjust the appliance. A dental appliance requires natural teeth to fit properly, it must be worn every night, and the cost is variable, as is insurance coverage.

Continuous positive airway pressure (CPAP)

Continuous positive airway pressure (CPAP) is probably the best, non-surgical treatment for any level of obstructive sleep apnea. In finding a treatment for obstructive sleep apnea, the primary goal is to hold the airway open so it does not collapse during sleep. The dental appliances and surgeries (described later) focus on moving the tissues of the airway. CPAP uses air pressure to hold the tissues open during sleep.

CPAP was first used in Australia by Dr. Colin Sullivan in 1981 for obstructive sleep apnea. It delivers the air through a nasal or face-mask under pressure. As a person breathes, the gentle pressure holds the nose, palate, and throat tissues open. It feels similar to holding one's head outside the window of a moving car. A person can feel the pressure, but can can also breathe easily.

The CPAP machine blows heated, humidified air through a short tube to a mask. The mask must be worn snugly to prevent the leakage of air. There are many different masks, including nasal pillows, nasal masks, and full-face masks. The CPAP machine is a little larger than a toaster. It is portable and can be taken on trips.

Determining CPAP pressure: With CPAP it is important to use the lowest possible pressure that will keep the airway open during sleep. This pressure is determined by "titration." Titration frequently is performed with the help of polysomnography. It can be performed during the same night as the initial polysomnography or on a separate night. In the sleep laboratory an adjustable CPAP machine is used. A mask is fit to the person and he or she is allowed to fall back asleep.

During baseline sleep the apneas and hypopneas occur, and the technician then slowly increases the CPAP pressure until the apneas and hypopneas stop or decrease to a normal level. A different pressure may be needed for different positions or levels of sleep. Typically, laying on the back and REM sleep promote the worst obstructive sleep apnea. The lowest pressure that controls obstructive sleep apnea in all positions and sleep levels is prescribed.

Effectiveness of CPAP: CPAP has been shown to be effective in improving subjective and objective measures of obstructive sleep apnea.

  • It decreases apneas and hypopneas.
  • It decreases sleepiness as measured by surveys and objective tests.
  • It improves cognitive functioning on tests.
  • It improves driving on driving simulation tests and decreases the number of accidents in the real world.

When adjusted properly and tolerated, it is nearly 100% effective in eliminating or reducing obstructive sleep apnea.

An important clinical outcome of CPAP use is in the area of prevention of the potential complications of obstructive sleep apnea. Studies have shown that the proper use of CPAP reduces hospitalization for cardiac and pulmonary causes in people with obstructive sleep apnea. More generally, treating obstructive sleep apnea with CPAP can reduce the risks of conditions related to obstructive sleep apnea, such as, ischemic heart disease, abnormal heart rhythms, stroke, hypertension, and insulin dependence.

Problems with CPAP: The first 2 to 4 weeks is the crucial time to become a successful CPAP user. During this time, it is important to try to sleep as many hours a night as possible with the mask on. If the CPAP mask does not fit properly or the machine is not working it is important to have it fixed immediately. It is also helpful to remember all of the increased risks of untreated obstructive sleep apnea (decreased productivity, heart attacks, strokes, car accidents, and sudden death) as an incentive to continue using CPAP.

People with severe obstructive sleep apnea never get a normal night of sleep. They often put on the CPAP mask and think it is the best thing ever. They quickly get used to it because it allows them to sleep. They take it on vacations because without it they have no energy and are always sleepy.

However, CPAP is not always easy to use. People with only mild to moderate sleep apnea often have a harder time using CPAP. A majority of people with CPAP machines report that they use them, but only some of them actually use them more than 4 hours per night when the actual use time is measured. A large percentage of people who start using CPAP, stop using it.

It is not easy to sleep with a mask that is blowing air into the nose. Some people are claustrophobic and have difficulty getting used to any mask. If a patient has nasal congestion or a septal deviation; it is important to have these evaluated since they can be treated (as discussed later). Some people do not like the inconvenience of sleeping with the mask or traveling with the machine. Others do not like the image of having to sleep with a mask. The noise of the machine blowing air can also be bothersome to some people using the CPAP or their bed partners.

Bi-level positive airway pressure (BiPAP)

Bi-level positive airway pressure (BiPAP) was designed for people who do not tolerate the higher pressures of CPAP. It is similar to CPAP in that a machine delivers a positive pressure to a mask during sleep. However, the BiPAP machine delivers a higher pressure during inspiration, and a lower pressure during expiration, which allows the person not to feel like they are breathing out against such a high pressure, which can be bothersome. It is most helpful for people who require a higher pressure to keep their airway open. BiPAP was designed to improve CPAP compliance; however it is difficult to measure an increase in compliance when compared to standard CPAP. BiPAP is often only approved by insurance companies after documentation that a patient cannot tolerate CPAP.

Auto-titrating continuous positive airway pressure

The auto-titrating CPAP machine is a "smart" CPAP machine that makes pressure adjustments throughout the night. As discussed above, different pressures are needed for different levels of sleep and positions. The goal of auto-titrating CPAP is to have the lowest possible pressure for each position or sleep level. At a given pressure, if a person starts to have an apnea or hypopnea, the machine adjusts the pressure higher until the episodes are controlled. If a person is in a sleep level or position that doesn't need a higher pressure, the pressure is reduced. The benefit is when a lower pressure is all that is required, the machine is not stuck at the highest pressure needed. The down side is, if the machine does not adjust, a person can be stuck at a lower pressure having episodes of sleep apnea.

With auto-titrating CPAP, the mean pressure throughout the night is lower and two-thirds of the night is spent below the set CPAP pressure. The machine also can adjust for the changes in pressure that are needed to overcome the effects of weight gain and alcohol or sedative use. It may also improve compliance; however, this has not been measured. The disadvantages of auto-titrating CPAP are that leaks may underestimate pressure or airflow. Each company has a different algorithm for adjusting the pressure and adjusting for leaks. It is unclear which company has the best algorithm, but studies are on-going.

What are the surgical treatments for obstructive sleep apnea?

There are many surgical options to treat obstructive sleep apnea. The type of surgery that is chosen is dependent on an individual's specific anatomy and severity of sleep apnea. People often want surgery because it promises a cure with a single treatment. Surgery sounds easier than losing 10 pounds and more convenient than wearing a dental appliance or mask every night. However, surgery is not the "miracle cure" either. Most surgeries are safe; however every surgery, no matter how small, carries risks. Most surgeries require time off from work to heal and some are quite painful for up to 3 weeks. Some of the potential general risks of surgery include:

  • bleeding,
  • infection,
  • scar tissue,
  • pain,
  • loss of work,
  • change in voice,
  • problems swallowing,
  • failure to cure sleep apnea,
  • anesthesia risks (including allergic reaction, stroke, heart attack, and death), and
  • other unforeseen surgical complications.

Surgery should be considered only after all the risks, benefits, and alternatives to surgery are understood. Some insurance companies require a 3-week trial of treatment with CPAP before they will even consider authorizing surgery for sleep apnea. This is not an unreasonable approach. CPAP, if tolerated, controls most sleep apnea, and this is better than all surgical options. It is difficult to have a serious, permanent complication using CPAP as compared to the possibility of such a complication with surgery.

Any surgical treatment for sleep apnea must address the anatomic problem areas. There may be one or several areas that compromise airflow and cause apnea. Surgical treatments can address the nose, palate, tongue, jaw, neck, obesity, or several of these areas at the same time. Each surgery's success rate is determined by whether or not a specific airway collapse or obstruction is prevented. Therefore, the ideal surgery is different for each patient and depends on each patient's specific problem. Some surgical options include:

  • nasal airway surgery,
  • palate implants,
  • uvulopalatopharyngoplasty,
  • tongue reduction,
  • genioglossus advancement,
  • hyoid suspension,
  • maxillomandibular procedures,
  • tracheostomy,
  • bariatric surgery, and
  • combinations of the above.

Many people have several levels of obstruction and, therefore, these surgical techniques frequently are performed together (for example, uvulopalatopharyngoplasty with genioglossus advancement and hyoid suspension).

Nasal airway surgery

It is rare for obstructive sleep apnea to be caused by nasal obstruction alone. The nasal cavity can be obstructed by swelling of the turbinates, septal deviation, and nasal polyps. Surgeries to address each of these potential causes of obstruction can improve the flow of air through the nasal passages. Nasal surgery is most successfully used for sleep apnea to improve the effectiveness of CPAP. Nasal obstruction makes CPAP difficult if not impossible to tolerate. Surgery to open the nasal passages markedly improves tolerance to CPAP.

Palate implants

Palate implants stiffen the palate. They prevent the palate from collapsing into the pharynx where it can obstruct the airway. They also decrease the vibrations of the palate that cause snoring. Palate implants have now been approved for people with mild sleep apnea who have palatal collapse.

A study in people with an apnea-hypopnea index of less than 24 demonstrated a 44% success rate in decreasing the apnea-hypopnea index by 50% with a final apnea-hypopnea index less than 10 (Pilar Implant clinical trial). Palate implants can be successful for a small group of people with mild sleep apnea and palate collapse; however, a 250 pound man with an apnea-hypopnea index of 50 and decreases in blood oxygen to 85% will probably not be cured with a palate implant.

Uvulopalatopharyngoplasty (UPPP)

Uvulopalatopharyngoplasty (UPPP) is a long and fancy term to describe a surgery aimed at preventing collapse of the palate, tonsils, and pharynx which is common in sleep apnea. UPPP is most successful in patients who have large tonsils, a long uvula (the most posterior part of the palate that hangs down in the back of the throat), or a long, wide palate. It also is more successful in patients who are not obese.

An UPPP operation is performed under general anesthesia and the patient is completely asleep. In simple terms, the tonsils are removed, the uvula is removed, and the palate is trimmed. All of the surgical cuts are closed with stitches. UPPP usually requires an overnight stay in the hospital to monitor breathing and to control pain. UPPP is a painful operation similar to a tonsillectomy in an adult (tonsillectomy in children is less painful). Frequently, it is recommended for patients undergoing UPPP to take 10 days to 2 weeks off from work. In the postoperative period, people usually are on a liquid only diet and require liquid pain medication.

A UPPP is successful a majority of the time in preventing or decreasing obstructive sleep apnea. Studies also have demonstrated a decrease in mortality and decrease in risk of car accidents after UPPP. Some people who have a "successful UPPP" and fewer episodes of apnea, still have to use a CPAP after surgery to completely control their obstructive sleep apnea.

There are complications that are unique to UPPP.

  • Bleeding in the area of the tonsils may occur up to 10 days after surgery in about 1% of people. Occasionally, a second operation is needed to stop this postoperative bleeding.
  • If large amounts of scar tissue form with the healing that follows the surgery, in particular between the nose and back of the mouth, the scarring can result in an airway that is narrower than it was preoperatively. This can result in nasal and pharyngeal stenosis, a difficult problem to treat.
  • Velopalatal insufficiency is another complication of UPPP. One job of the palate is to close the back of the nose and direct food and liquids down the throat during swallowing. If the palate is too short or it cannot move far enough back, sometimes liquids may enter the nose during swallowing. Velopalatal insufficiency frequently is a temporary problem after surgery, but it may become permanent in up to 2% of people.
  • The uvula and palate are used in some languages (for example Hebrew and Farci) to produce guttural fricative sounds. After UPPP, that sound cannot be made and may make some words difficult to pronounce. The palate also closes the nose during speech to prevent a "nasal" sounding voice. Some changes in voice can be permanent after UPPP.

Tongue reduction surgery

In some people with obstructive sleep apnea, the area of collapse is between the base of the tongue and the back wall of the throat (pharynx). Several surgeries have been used to decrease the size of the base of tongue and to open the airway. Most of these procedures are performed as an addition to other surgical procedures. Laser midline glossectomy is one method to decrease the size of the tongue. Under general anesthesia, a laser is used to cut a trough down the middle of the base of the tongue. The difficulty with this procedure is to remove enough tissue to prevent collapse without changing the natural functions of the tongue during speaking and swallowing. This procedure often is used for people who have had a UPPP but continue to have obstructive sleep apnea. Combined with other surgical procedures, laser midline glossectomy has been reported to be very successful.

The tongue base has also been the focus of surgical procedures to shrink the base of the tongue by scarring. Tissue that scars usually shrinks in size. For example, radiofrequency energy has been used to injure and scar the base of tongue. Usually the first treatment is performed under general anesthesia. A radiofrequency probe is placed in the muscle of the back of the tongue and energy is delivered. Over time, the tissue scars and shrinks. Frequently, several treatments are applied to the tongue. The later treatments can be performed in the setting of an office.

One complication of radiofrequency treatment is an infection or abscess in the tongue. An abscess in the tongue can narrow the airway and may require surgical treatment. A 17% reduction in volume of the tongue has been measured using this technique; however, this is generally not a successful technique if it is used alone. Therefore, reduction of the base of the tongue is frequently combined with UPPP or other procedures.

Genioglossus advancement

The genioglossus muscle is the muscle that attaches the base of the tongue to the inside front of the jaw bone. The genioglossus pulls the tongue forward. In people with obstructive sleep apnea, it has been shown that the genioglossus is more active in holding the airway open at rest. When the genioglossus muscle relaxes during sleep the airway narrows and collapses. There are several procedures that pull the tongue forward to enlarge the airway. A genioglossus advancement typically detaches the part of the jaw bone where the muscle attaches and moves it forward about 4 mm. This pulls the base of the tongue forward. Genioglossus advancement is performed under general anesthesia and requires cutting the bone and screwing it back in place. This usually is performed in combination with hyoid suspension or UPPP.

There also are less invasive methods to advance the genioglossus muscle. One method uses a stitch through the base of the tongue that attaches to a screw on the inside of the jaw. This method may be less invasive; however it is thought to be less effective and less permanent.

Hyoid suspension

The hyoid bone helps support the larynx and tongue in the neck. It is located below the mandible and tongue, but above the laryngeal cartilages. It is not directly attached to any other bones, but rather is attached to strap muscles above and below. The strap muscles elevate or depress the larynx during swallowing. As part of a surgery to bring the tongue and soft tissues up and forward, the hyoid bone may be suspended. This is usually performed with other surgical procedures such as an UPPP or genioglossus advancement.

In general, the hyoid bone is sutured up closer to the mandible. This pulls the tongue forward and up. This procedure is very rarely done alone without other surgical procedures. Like other surgical procedures for obstructive sleep apnea, hyoid suspension has an adequate success rate when performed in an appropriately selected patient.

Maxillomandibular advancement

Maxillomandibular advancement is a surgical procedure that moves the jaw and upper teeth forward. This pulls the palate and base of the tongue forward and opens the airway. This procedure is best suited for a thin patient with a small jaw. Both the jaw and maxillary bones are cut, moved forward, realigned, and plated into place. Care must be taken to keep the teeth aligned and preserve a normal bite and, therefore, the procedure usually is performed by an oral surgeon. The nerve to the front teeth and lip passes through the jawbone and care must be taken to preserve the nerve so that there is normal sensation. In appropriate patients, maxillomandibular advancement has up to a 90% success rate.

Tracheostomy

A tracheostomy is a procedure to bypass the narrowed airway. The trachea is the specialized tube that connects our larynx (voice box) to the lungs. It can be felt in the lowest part of the neck in most people. If the obstruction to airflow is occurring above the larynx, a tracheostomy can be inserted to direct airflow directly into the trachea. The tracheostomy tube is passed through the skin of the lower neck directly into the trachea. This surgery is performed under general anesthesia and requires observation postoperatively for complications in the intensive care unit.

Tracheostomy generally is reserved for morbidly obese patients with severe obstructive sleep apnea who are not candidates for other treatments. They usually can keep the tracheostomy tube capped during the day while breathing normally through their nose and mouth, and then open the tracheostomy tube at night. That way, they will have a normal voice and mouth breathing while awake, and breathe through the tracheostomy tube only at night.

A tracheostomy can be a temporary procedure, kept in place only as long as it is needed. It is easy to remove the tube, and the body will usually heal the skin and close the opening rather quickly. Tracheostomy has close to a 100% rate of cure for obstructive sleep apnea because it bypasses the problem in the upper airway. In mixed sleep apnea obstructive apneas resolve immediately, but in central apneas, which are due to metabolic changes caused by the obstructive apneas, it usually take some time for the apneas to resolve. Studies have shown improvements in sleepiness, hypertension, and cardiac risks following tracheostomy.

There are risks and complications of tracheostomy.

  • The first is a psychosocial problem. Most people do not want to walk around with a tube coming out of their neck.
  • The tracheostomy hole must be cared for and cleaned daily. Local infections or scar tissue can form around the hole on the inside or outside.
  • Because of the tube, some people get recurrent infections in the bronchi (the tubes through which air passes from the trachea to the lungs).
  • Severe life-threatening bleeding occurs rarely if the tube erodes into a major blood vessel in the neck.
  • The trachea may stay narrowed at the tracheostomy site after the tube is removed. This may necessitate further surgery.

Most patients do not need to resort to a tracheostomy for sleep apnea; however it is a life-saving procedure for a few patients.

Bariatric surgery

Bariatric (obesity) surgery is a type of surgery in obstructive sleep apnea. It is effective because most sleep apnea is caused by or worsened by obesity. Bariatric surgery is associated with a marked reduction in weight post-operatively. One study demonstrated an average weight loss of 120 pounds and an improvement in RDI from 96 to 11. All patients had at least a 55% decrease in their respiratory disturbance index.

Bariatric surgery is only an option for morbidly obese patients with severe obstructive sleep apnea. There is a 10% morbidity (illness, disease) rate associated with this type of surgery as well as a 1% mortality (death) rate. Patients can regain the weight they lost after surgery. Bariatric surgery, like the other surgical procedures that have been discussed, has significant risks and is not suitable for most patients with obstructive sleep apnea.

What are the risk factors for sleep apnea?

Sleep apnea can affect anyone, even children. But certain factors increase your risk of sleep apnea:

Obstructive sleep apnea

  • Excess weight. People who are obese have four times the risk of sleep apnea that people who are a normal weight people do. Fat deposits around your upper airway may obstruct your breathing. But not everyone who has sleep apnea is overweight.
  • Neck circumference. People with thicker necks may have narrower airways. For men, the risk increases if neck circumference is 17 inches (43 centimeters) and larger. In women, the risk increases if neck circumference is 15 inches (38 centimeters) or more.
  • A narrowed airway. You may have inherited a naturally narrow throat. Or, tonsils or adenoids may become enlarged and block the airway, particularly in children with sleep apnea.
  • Being male. Men are twice as likely to have sleep apnea. However, women increase their risk if they're overweight, and their risk also appears to rise after menopause.
  • Being older. Sleep apnea occurs significantly more often in older adults.
  • Family history. If you have family members with sleep apnea, you may be at increased risk.
  • Use of alcohol, sedatives or tranquilizers. These substances relax the muscles in your throat.
  • Smoking. Smokers are three times more likely to have obstructive sleep apnea than are people who've never smoked. Smoking may increase the amount of inflammation and fluid retention in the upper airway. This risk likely drops after you quit smoking.
  • Nasal congestion. If you have difficulty breathing through your nose — whether it's from an anatomical problem or allergies — you're more likely to develop obstructive sleep apnea.

Central sleep apnea

  • Being older. Middle-aged and older people have a higher risk of central sleep apnea.
  • Heart disorders. People with congestive heart failure are more at risk of central sleep apnea.
  • Using narcotic pain medications. Opioid medications, especially long-acting ones such as methadone, increase the risk of central sleep apnea.
  • Stroke. People who've had a stroke are more at risk of central sleep apnea or treatment-emergent central sleep apnea.

Video related to sleep apnea