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BALTIMORE – Emerging developments for the treatment of obstructive sleep apnea have shown promise in providing options beyond continuous-positive airway pressure, investigators reported at the annual meeting of the Associated Professional Sleep Societies. These developments include a single-use nasopharyngeal airway stent, upper-airway stimulation using a pacemaker-like device, a negative-pressure device that opens the airway, and an artificial intelligence approach that can predict outcomes of oral appliance therapy.

Nasopharyngeal airway stent

Dr. Clete A. Kushida

Clete A. Kushida, MD, of Stanford (Calif.) University reported on recent results of a trial of the nasopharyngeal airway stent (NAS) single-use disposable insert (Seven Dreamers Laboratories, Tokyo). This device consists of a flexible semi-rigid silicone rubber tube 120-145 mm in length and coated with a hydrophilic gel. The patient inserts the distal end of the tube into the nostril, and it positions itself within the nasopharynx and retropalatal oropharynx to open the airway. A clip attaches to the exterior septum to keep the device in place. The patient removes the NAS in the morning. The device is commercially available in Japan and some European countries.

Dr. Kushida reported on two posters that were presented at Sleep 2018. The first by the Osaka University Graduate School of Dentistry in Japan investigated the predictability of NAS efficacy in patients with a velopharynx that was narrower than the hypopharynx (Sleep. 2018;41 (suppl 1):A207: doi.org/10.1093/sleep/zsy061.554). The study showed that 11 responders had a narrow velopharynx while 18 nonresponders had a narrow hypopharynx. Response was defined as 50% or greater reduction of apnea-hypopnea index (AHI) from baseline. “The success rate of NAS for the patients with narrowing of the velopharynx is 83.3%,” Dr. Kushida said.

He also reported on a study he led of NAS in patients with obstructive sleep apnea and healthy controls (Sleep. 2018;41 (suppl 1):A207: doi.org/10.1093/sleep/zsy061.555). The trial was conducted at Stanford and Tokyo sleep medical centers, with healthy controls at the Tokyo site only. AHI improved in all three obstructive sleep apnea (OSA) groups, but most significantly in those with moderate (n = 23) and severe (n = 21) OSA: 7.2 (P = .0038) and 11.7 (P = .0069), respectively. In the Stanford cohort, 2 of 32 patients originally enrolled dropped out because they found the NAS uncomfortable; none dropped out of the Tokyo cohort.

“NAS can be effective in treatment of snoring and OSA, in particular those with moderate/severe OSA, with significant improvement in mean obstructive apnea index,” Dr. Kushida said. He also noted the device is more effective in patients with narrowing of the oropharynx/velopharynx rather than the hypopharynx.

Dr. Kushida reported he had a financial relationship with the Seven Dreamers Laboratories.
 

Continuous negative external pressure

Jerrold A. Kram, MD, reported on a device that employs continuous negative external pressure – known as cNEP – that uses a silicone collar covering the front of the throat and a pump that applies suction to keep the airway open from the outside. He cited a small 2015 study out of Japan that found the device was effective in keeping the pharyngeal airway open in nonobese women (J Appl Physiol. 2015;118:912-20). Another small U.S. study found cNEP reduces respiratory impairment during screening colonoscopy (Endoscopy. 2016;48:584-7). Sommetrics, which has patented the technology, is developing a version of the product for obstructive sleep apnea, Dr. Kram said. The company already has a Food and Drug Administration–approved product to treat apneas that people experience when under mild to moderate sedation, such as a colonoscopy. It is approved for sale in Canada, but not in the United States.

 

 

Dr. Jerrold A. Kram

“It gives us another tool in the box,” Dr. Kram said. “It’s very small and portable, easy to take on an airplane with you, and it reduces the chance for claustrophobia” that comes with continuous-positive airway pressure (CPAP), said Dr. Kram. There are no tubes or masks and no humidifier to deal with.

Dr. Kram conducted a small study of 15 OSA patients using cNEP last year. Among nine excellent responders, the lowest AHI was 1.5 on average, from an average baseline of 43.9; among four partial responders, the lowest observed AHI averaged 11.75 (J Clin Sleep Med. 2017;13:1009-12).

The cNEP device is also the subject of a home study of patients with OSA in Canada, Dr. Kram said. Unpublished results indicate that 46% (27/59) of patients had an initial response rate to either -25 or -30 characteristic moment waveform (cmw) of negative airway pressure. For those who completed 3 weeks of treatment, the response rate was 64% (16/25). “Seventy-six percent of subjects felt their overall experience with cNEP was better than with CPAP,” Dr. Kram said.

However, studies have noted some minor issues with cNEP, Dr. Kram said. They include mild skin irritation, choking sensation if not properly placed, limited size availability, and absence of efficacy data. Dr. Kram said a U.S. pivotal trial is scheduled to start soon.

Dr. Kram disclosed he is a paid adviser for Sommetrics.
 

Oral appliance therapy

Oral appliance therapy (OAT) has been very effective in some patients and has been endorsed by the American Academy of Sleep Medicine since 2006, but it has been underutilized predominantly for two reasons, noted John Remmers, MD, because fitting the device requires a trial-and-error approach that can discourage patients; and the therapeutic success rate is 50%-60%.

Dr, John Remmers

To predict which patients are likely to succeed with OAT, Dr. Remmers and his colleagues at Zephyr Sleep Technologies have developed an artificial intelligence (AI) platform that uses a feedback-controlled mandibular positioner, a mouthpiece-like device that opens the airway during sleep. Dr. Remmers is chief medical officer and cofounder of Zephyr Sleep Technologies, based in Calgary, Alta.

While imaging has been used in awake patients to fit OAT devices, Dr. Remmers noted a number of shortcomings with this modality. “Sleep apnea results from an anatomic problem – i.e., structural encroachment on the pharyngeal airway, which is neurally compensated when the patient is awake,” he said. “Because of this, we need to do the test when the patient is asleep.”

The AI platform with feedback-controlled mandibular positioner uses temporary dental trays to create impressions for the mouthpiece the patient uses during sleep. The mouthpiece connects to a remote-controlled device that makes real-time adjustments in the mandibular position without disturbing the patient’s sleep. “The computer identifies respiratory events all night long, adjusting the position of the mandible,” he said in explaining the AI component of the device. “Just think of it as similar to autotitration with CPAP.”

Dr. Remmers reported results of a phase 2 study of the platform presented as a poster reporting on a study of 101 patients with OSA participants. The study reported sensitivity of 86% and specificity of 92% in predicting success with the feedback-controlled mandibular positioner, he said.

“The sensitivity and overall predictive accuracy of the AI-based approach was greater than an intuitive approach using a pretreatment, temporary appliance, indicating that feedback-controlled mandibular positioning test outperformed the intuitive approach,” he said. The device has been approved by Health Canada and is awaiting clearance in the United States.
 

 

 

Upper airway stimulation

Upper airway stimulation (UAS) is emerging as a new class of therapy, said Patrick J. Strollo Jr., MD, of the University of Pittsburgh. The therapy involves an impulse generator (IPG) similar to a pacemaker that is implanted in the left side of the chest and connected to a stimulation lead secured to the distal hypoglossal nerve in the neck. The UAS system also incorporates a sensing lead that is implanted between the intercostal muscles and attached to the IPG allowing for phasic stimulation of the genioglossal muscle. The patient uses a remote control to turn the device on at night and off in the morning.

Dr. Patrick J. Strollo Jr.

Dr. Strollo was lead author of the Stimulation Therapy for Apnea Reduction (STAR) trial (N Engl J Med. 2014:370;139-49), a prospective multicenter trial with a randomized therapy withdrawal arm. In 126 participants, he said, the median AHI score declined 68% in 12 months, from 29.3 at baseline to 9 (P less than .0001).

He provided updated results that showed 80% of patients continued to use the device after 5 years (Otolaryngol Head Neck Surg. 2018; doi: 10.1177/0194599818762383). Median AHI at 5 years was 6.9, Dr. Strollo said, and median Epworth Sleepiness Scale scores declined from 11.6 at baseline to 6.9 at 5 years.

Another postapproval study of UAS, the ADHERE registry, has enrolled 348 patients at 10 centers with a goal of 2,500, Dr. Strollo said (Otolaryngol Head Neck Surg. 2018: doi: 10.1177/0194599818764896). Twelve-month study results have shown reductions in AHI and Epworth Sleepiness Scale scores comparable to previous reports. ADHERE also reported that 92% of patients were satisfied with UAS.

The latest innovation for UAS is the ability to download data from the implant at office visits so the physician can review patient adherence patterns, along with energy levels and settings for sensing and stimulation, Dr. Strollo said.

“Upper airway stimulation is an additional tool in the management of properly selected, at-risk apnea patients who do not accept or adhere to positive pressure therapy,” Dr. Strollo said. “The STAR trial has provided robust evidence that upper airway stimulation is safe and effective in participants with moderate to severe OSA, and the treatment effect is maintained beyond the 12-month endpoint.”

Dr. Strollo disclosed a financial relationship with Inspire Medical Systems, manufacturer of the UAS device.

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BALTIMORE – Emerging developments for the treatment of obstructive sleep apnea have shown promise in providing options beyond continuous-positive airway pressure, investigators reported at the annual meeting of the Associated Professional Sleep Societies. These developments include a single-use nasopharyngeal airway stent, upper-airway stimulation using a pacemaker-like device, a negative-pressure device that opens the airway, and an artificial intelligence approach that can predict outcomes of oral appliance therapy.

Nasopharyngeal airway stent

Dr. Clete A. Kushida

Clete A. Kushida, MD, of Stanford (Calif.) University reported on recent results of a trial of the nasopharyngeal airway stent (NAS) single-use disposable insert (Seven Dreamers Laboratories, Tokyo). This device consists of a flexible semi-rigid silicone rubber tube 120-145 mm in length and coated with a hydrophilic gel. The patient inserts the distal end of the tube into the nostril, and it positions itself within the nasopharynx and retropalatal oropharynx to open the airway. A clip attaches to the exterior septum to keep the device in place. The patient removes the NAS in the morning. The device is commercially available in Japan and some European countries.

Dr. Kushida reported on two posters that were presented at Sleep 2018. The first by the Osaka University Graduate School of Dentistry in Japan investigated the predictability of NAS efficacy in patients with a velopharynx that was narrower than the hypopharynx (Sleep. 2018;41 (suppl 1):A207: doi.org/10.1093/sleep/zsy061.554). The study showed that 11 responders had a narrow velopharynx while 18 nonresponders had a narrow hypopharynx. Response was defined as 50% or greater reduction of apnea-hypopnea index (AHI) from baseline. “The success rate of NAS for the patients with narrowing of the velopharynx is 83.3%,” Dr. Kushida said.

He also reported on a study he led of NAS in patients with obstructive sleep apnea and healthy controls (Sleep. 2018;41 (suppl 1):A207: doi.org/10.1093/sleep/zsy061.555). The trial was conducted at Stanford and Tokyo sleep medical centers, with healthy controls at the Tokyo site only. AHI improved in all three obstructive sleep apnea (OSA) groups, but most significantly in those with moderate (n = 23) and severe (n = 21) OSA: 7.2 (P = .0038) and 11.7 (P = .0069), respectively. In the Stanford cohort, 2 of 32 patients originally enrolled dropped out because they found the NAS uncomfortable; none dropped out of the Tokyo cohort.

“NAS can be effective in treatment of snoring and OSA, in particular those with moderate/severe OSA, with significant improvement in mean obstructive apnea index,” Dr. Kushida said. He also noted the device is more effective in patients with narrowing of the oropharynx/velopharynx rather than the hypopharynx.

Dr. Kushida reported he had a financial relationship with the Seven Dreamers Laboratories.
 

Continuous negative external pressure

Jerrold A. Kram, MD, reported on a device that employs continuous negative external pressure – known as cNEP – that uses a silicone collar covering the front of the throat and a pump that applies suction to keep the airway open from the outside. He cited a small 2015 study out of Japan that found the device was effective in keeping the pharyngeal airway open in nonobese women (J Appl Physiol. 2015;118:912-20). Another small U.S. study found cNEP reduces respiratory impairment during screening colonoscopy (Endoscopy. 2016;48:584-7). Sommetrics, which has patented the technology, is developing a version of the product for obstructive sleep apnea, Dr. Kram said. The company already has a Food and Drug Administration–approved product to treat apneas that people experience when under mild to moderate sedation, such as a colonoscopy. It is approved for sale in Canada, but not in the United States.

 

 

Dr. Jerrold A. Kram

“It gives us another tool in the box,” Dr. Kram said. “It’s very small and portable, easy to take on an airplane with you, and it reduces the chance for claustrophobia” that comes with continuous-positive airway pressure (CPAP), said Dr. Kram. There are no tubes or masks and no humidifier to deal with.

Dr. Kram conducted a small study of 15 OSA patients using cNEP last year. Among nine excellent responders, the lowest AHI was 1.5 on average, from an average baseline of 43.9; among four partial responders, the lowest observed AHI averaged 11.75 (J Clin Sleep Med. 2017;13:1009-12).

The cNEP device is also the subject of a home study of patients with OSA in Canada, Dr. Kram said. Unpublished results indicate that 46% (27/59) of patients had an initial response rate to either -25 or -30 characteristic moment waveform (cmw) of negative airway pressure. For those who completed 3 weeks of treatment, the response rate was 64% (16/25). “Seventy-six percent of subjects felt their overall experience with cNEP was better than with CPAP,” Dr. Kram said.

However, studies have noted some minor issues with cNEP, Dr. Kram said. They include mild skin irritation, choking sensation if not properly placed, limited size availability, and absence of efficacy data. Dr. Kram said a U.S. pivotal trial is scheduled to start soon.

Dr. Kram disclosed he is a paid adviser for Sommetrics.
 

Oral appliance therapy

Oral appliance therapy (OAT) has been very effective in some patients and has been endorsed by the American Academy of Sleep Medicine since 2006, but it has been underutilized predominantly for two reasons, noted John Remmers, MD, because fitting the device requires a trial-and-error approach that can discourage patients; and the therapeutic success rate is 50%-60%.

Dr, John Remmers

To predict which patients are likely to succeed with OAT, Dr. Remmers and his colleagues at Zephyr Sleep Technologies have developed an artificial intelligence (AI) platform that uses a feedback-controlled mandibular positioner, a mouthpiece-like device that opens the airway during sleep. Dr. Remmers is chief medical officer and cofounder of Zephyr Sleep Technologies, based in Calgary, Alta.

While imaging has been used in awake patients to fit OAT devices, Dr. Remmers noted a number of shortcomings with this modality. “Sleep apnea results from an anatomic problem – i.e., structural encroachment on the pharyngeal airway, which is neurally compensated when the patient is awake,” he said. “Because of this, we need to do the test when the patient is asleep.”

The AI platform with feedback-controlled mandibular positioner uses temporary dental trays to create impressions for the mouthpiece the patient uses during sleep. The mouthpiece connects to a remote-controlled device that makes real-time adjustments in the mandibular position without disturbing the patient’s sleep. “The computer identifies respiratory events all night long, adjusting the position of the mandible,” he said in explaining the AI component of the device. “Just think of it as similar to autotitration with CPAP.”

Dr. Remmers reported results of a phase 2 study of the platform presented as a poster reporting on a study of 101 patients with OSA participants. The study reported sensitivity of 86% and specificity of 92% in predicting success with the feedback-controlled mandibular positioner, he said.

“The sensitivity and overall predictive accuracy of the AI-based approach was greater than an intuitive approach using a pretreatment, temporary appliance, indicating that feedback-controlled mandibular positioning test outperformed the intuitive approach,” he said. The device has been approved by Health Canada and is awaiting clearance in the United States.
 

 

 

Upper airway stimulation

Upper airway stimulation (UAS) is emerging as a new class of therapy, said Patrick J. Strollo Jr., MD, of the University of Pittsburgh. The therapy involves an impulse generator (IPG) similar to a pacemaker that is implanted in the left side of the chest and connected to a stimulation lead secured to the distal hypoglossal nerve in the neck. The UAS system also incorporates a sensing lead that is implanted between the intercostal muscles and attached to the IPG allowing for phasic stimulation of the genioglossal muscle. The patient uses a remote control to turn the device on at night and off in the morning.

Dr. Patrick J. Strollo Jr.

Dr. Strollo was lead author of the Stimulation Therapy for Apnea Reduction (STAR) trial (N Engl J Med. 2014:370;139-49), a prospective multicenter trial with a randomized therapy withdrawal arm. In 126 participants, he said, the median AHI score declined 68% in 12 months, from 29.3 at baseline to 9 (P less than .0001).

He provided updated results that showed 80% of patients continued to use the device after 5 years (Otolaryngol Head Neck Surg. 2018; doi: 10.1177/0194599818762383). Median AHI at 5 years was 6.9, Dr. Strollo said, and median Epworth Sleepiness Scale scores declined from 11.6 at baseline to 6.9 at 5 years.

Another postapproval study of UAS, the ADHERE registry, has enrolled 348 patients at 10 centers with a goal of 2,500, Dr. Strollo said (Otolaryngol Head Neck Surg. 2018: doi: 10.1177/0194599818764896). Twelve-month study results have shown reductions in AHI and Epworth Sleepiness Scale scores comparable to previous reports. ADHERE also reported that 92% of patients were satisfied with UAS.

The latest innovation for UAS is the ability to download data from the implant at office visits so the physician can review patient adherence patterns, along with energy levels and settings for sensing and stimulation, Dr. Strollo said.

“Upper airway stimulation is an additional tool in the management of properly selected, at-risk apnea patients who do not accept or adhere to positive pressure therapy,” Dr. Strollo said. “The STAR trial has provided robust evidence that upper airway stimulation is safe and effective in participants with moderate to severe OSA, and the treatment effect is maintained beyond the 12-month endpoint.”

Dr. Strollo disclosed a financial relationship with Inspire Medical Systems, manufacturer of the UAS device.

 

BALTIMORE – Emerging developments for the treatment of obstructive sleep apnea have shown promise in providing options beyond continuous-positive airway pressure, investigators reported at the annual meeting of the Associated Professional Sleep Societies. These developments include a single-use nasopharyngeal airway stent, upper-airway stimulation using a pacemaker-like device, a negative-pressure device that opens the airway, and an artificial intelligence approach that can predict outcomes of oral appliance therapy.

Nasopharyngeal airway stent

Dr. Clete A. Kushida

Clete A. Kushida, MD, of Stanford (Calif.) University reported on recent results of a trial of the nasopharyngeal airway stent (NAS) single-use disposable insert (Seven Dreamers Laboratories, Tokyo). This device consists of a flexible semi-rigid silicone rubber tube 120-145 mm in length and coated with a hydrophilic gel. The patient inserts the distal end of the tube into the nostril, and it positions itself within the nasopharynx and retropalatal oropharynx to open the airway. A clip attaches to the exterior septum to keep the device in place. The patient removes the NAS in the morning. The device is commercially available in Japan and some European countries.

Dr. Kushida reported on two posters that were presented at Sleep 2018. The first by the Osaka University Graduate School of Dentistry in Japan investigated the predictability of NAS efficacy in patients with a velopharynx that was narrower than the hypopharynx (Sleep. 2018;41 (suppl 1):A207: doi.org/10.1093/sleep/zsy061.554). The study showed that 11 responders had a narrow velopharynx while 18 nonresponders had a narrow hypopharynx. Response was defined as 50% or greater reduction of apnea-hypopnea index (AHI) from baseline. “The success rate of NAS for the patients with narrowing of the velopharynx is 83.3%,” Dr. Kushida said.

He also reported on a study he led of NAS in patients with obstructive sleep apnea and healthy controls (Sleep. 2018;41 (suppl 1):A207: doi.org/10.1093/sleep/zsy061.555). The trial was conducted at Stanford and Tokyo sleep medical centers, with healthy controls at the Tokyo site only. AHI improved in all three obstructive sleep apnea (OSA) groups, but most significantly in those with moderate (n = 23) and severe (n = 21) OSA: 7.2 (P = .0038) and 11.7 (P = .0069), respectively. In the Stanford cohort, 2 of 32 patients originally enrolled dropped out because they found the NAS uncomfortable; none dropped out of the Tokyo cohort.

“NAS can be effective in treatment of snoring and OSA, in particular those with moderate/severe OSA, with significant improvement in mean obstructive apnea index,” Dr. Kushida said. He also noted the device is more effective in patients with narrowing of the oropharynx/velopharynx rather than the hypopharynx.

Dr. Kushida reported he had a financial relationship with the Seven Dreamers Laboratories.
 

Continuous negative external pressure

Jerrold A. Kram, MD, reported on a device that employs continuous negative external pressure – known as cNEP – that uses a silicone collar covering the front of the throat and a pump that applies suction to keep the airway open from the outside. He cited a small 2015 study out of Japan that found the device was effective in keeping the pharyngeal airway open in nonobese women (J Appl Physiol. 2015;118:912-20). Another small U.S. study found cNEP reduces respiratory impairment during screening colonoscopy (Endoscopy. 2016;48:584-7). Sommetrics, which has patented the technology, is developing a version of the product for obstructive sleep apnea, Dr. Kram said. The company already has a Food and Drug Administration–approved product to treat apneas that people experience when under mild to moderate sedation, such as a colonoscopy. It is approved for sale in Canada, but not in the United States.

 

 

Dr. Jerrold A. Kram

“It gives us another tool in the box,” Dr. Kram said. “It’s very small and portable, easy to take on an airplane with you, and it reduces the chance for claustrophobia” that comes with continuous-positive airway pressure (CPAP), said Dr. Kram. There are no tubes or masks and no humidifier to deal with.

Dr. Kram conducted a small study of 15 OSA patients using cNEP last year. Among nine excellent responders, the lowest AHI was 1.5 on average, from an average baseline of 43.9; among four partial responders, the lowest observed AHI averaged 11.75 (J Clin Sleep Med. 2017;13:1009-12).

The cNEP device is also the subject of a home study of patients with OSA in Canada, Dr. Kram said. Unpublished results indicate that 46% (27/59) of patients had an initial response rate to either -25 or -30 characteristic moment waveform (cmw) of negative airway pressure. For those who completed 3 weeks of treatment, the response rate was 64% (16/25). “Seventy-six percent of subjects felt their overall experience with cNEP was better than with CPAP,” Dr. Kram said.

However, studies have noted some minor issues with cNEP, Dr. Kram said. They include mild skin irritation, choking sensation if not properly placed, limited size availability, and absence of efficacy data. Dr. Kram said a U.S. pivotal trial is scheduled to start soon.

Dr. Kram disclosed he is a paid adviser for Sommetrics.
 

Oral appliance therapy

Oral appliance therapy (OAT) has been very effective in some patients and has been endorsed by the American Academy of Sleep Medicine since 2006, but it has been underutilized predominantly for two reasons, noted John Remmers, MD, because fitting the device requires a trial-and-error approach that can discourage patients; and the therapeutic success rate is 50%-60%.

Dr, John Remmers

To predict which patients are likely to succeed with OAT, Dr. Remmers and his colleagues at Zephyr Sleep Technologies have developed an artificial intelligence (AI) platform that uses a feedback-controlled mandibular positioner, a mouthpiece-like device that opens the airway during sleep. Dr. Remmers is chief medical officer and cofounder of Zephyr Sleep Technologies, based in Calgary, Alta.

While imaging has been used in awake patients to fit OAT devices, Dr. Remmers noted a number of shortcomings with this modality. “Sleep apnea results from an anatomic problem – i.e., structural encroachment on the pharyngeal airway, which is neurally compensated when the patient is awake,” he said. “Because of this, we need to do the test when the patient is asleep.”

The AI platform with feedback-controlled mandibular positioner uses temporary dental trays to create impressions for the mouthpiece the patient uses during sleep. The mouthpiece connects to a remote-controlled device that makes real-time adjustments in the mandibular position without disturbing the patient’s sleep. “The computer identifies respiratory events all night long, adjusting the position of the mandible,” he said in explaining the AI component of the device. “Just think of it as similar to autotitration with CPAP.”

Dr. Remmers reported results of a phase 2 study of the platform presented as a poster reporting on a study of 101 patients with OSA participants. The study reported sensitivity of 86% and specificity of 92% in predicting success with the feedback-controlled mandibular positioner, he said.

“The sensitivity and overall predictive accuracy of the AI-based approach was greater than an intuitive approach using a pretreatment, temporary appliance, indicating that feedback-controlled mandibular positioning test outperformed the intuitive approach,” he said. The device has been approved by Health Canada and is awaiting clearance in the United States.
 

 

 

Upper airway stimulation

Upper airway stimulation (UAS) is emerging as a new class of therapy, said Patrick J. Strollo Jr., MD, of the University of Pittsburgh. The therapy involves an impulse generator (IPG) similar to a pacemaker that is implanted in the left side of the chest and connected to a stimulation lead secured to the distal hypoglossal nerve in the neck. The UAS system also incorporates a sensing lead that is implanted between the intercostal muscles and attached to the IPG allowing for phasic stimulation of the genioglossal muscle. The patient uses a remote control to turn the device on at night and off in the morning.

Dr. Patrick J. Strollo Jr.

Dr. Strollo was lead author of the Stimulation Therapy for Apnea Reduction (STAR) trial (N Engl J Med. 2014:370;139-49), a prospective multicenter trial with a randomized therapy withdrawal arm. In 126 participants, he said, the median AHI score declined 68% in 12 months, from 29.3 at baseline to 9 (P less than .0001).

He provided updated results that showed 80% of patients continued to use the device after 5 years (Otolaryngol Head Neck Surg. 2018; doi: 10.1177/0194599818762383). Median AHI at 5 years was 6.9, Dr. Strollo said, and median Epworth Sleepiness Scale scores declined from 11.6 at baseline to 6.9 at 5 years.

Another postapproval study of UAS, the ADHERE registry, has enrolled 348 patients at 10 centers with a goal of 2,500, Dr. Strollo said (Otolaryngol Head Neck Surg. 2018: doi: 10.1177/0194599818764896). Twelve-month study results have shown reductions in AHI and Epworth Sleepiness Scale scores comparable to previous reports. ADHERE also reported that 92% of patients were satisfied with UAS.

The latest innovation for UAS is the ability to download data from the implant at office visits so the physician can review patient adherence patterns, along with energy levels and settings for sensing and stimulation, Dr. Strollo said.

“Upper airway stimulation is an additional tool in the management of properly selected, at-risk apnea patients who do not accept or adhere to positive pressure therapy,” Dr. Strollo said. “The STAR trial has provided robust evidence that upper airway stimulation is safe and effective in participants with moderate to severe OSA, and the treatment effect is maintained beyond the 12-month endpoint.”

Dr. Strollo disclosed a financial relationship with Inspire Medical Systems, manufacturer of the UAS device.

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REPORTING FROM SLEEP 2018

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Key clinical point: Alternative treatments have shown sustained improvement in sleep apnea symptoms.

Major finding: The negative-pressure device improved oxygen flow in OSA to 64% vs. 25% for continuous-positive airway pressure.

Data source: Multiple abstracts presented at Sleep 2018 and published studies, including ADHERE study of 326 patients and a multicenter study of 430 patients using the upper airway stimulation device; a trial of 67 patients using the nasopharyngeal airway stent; and 101 patients in the artificial intelligence study.

Disclosures: Dr. Kushida disclosed a relationship with Seven Dreamers Laboratories. Dr. Kram is a paid adviser for Sommetrics. Dr. Remmers is founder of Zephyr Sleep Technologies. Dr. Strollo is an investigator in the STAR trial, supported by Inspire Medical Systems.

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