Literature DB >> 23813525

Electrical stimulation of the hypoglossal nerve: a potential therapy.

Alan R Schwartz1, Philip L Smith, Arie Oliven.   

Abstract

Obstructive sleep apnea is characterized by recurrent episodes of pharyngeal collapse, which result from a decrease in pharyngeal dilator muscle tone. The genioglossus is a major pharyngeal dilator that maintains airway patency during sleep. Early studies in animal and humans have demonstrated that electrical stimulation of this muscle reduces pharyngeal collapsibility, increases airflow, and mitigates obstructive sleep apnea. These findings impelled the development of fully implantable hypoglossal nerve stimulating systems (HGNS), for which feasibility trial results are now available. These pilot studies have confirmed that hypoglossal nerve stimulation can prevent pharyngeal collapse without arousing patients from sleep. Potentially, a substantial segment of the patient population with obstructive sleep apnea can be treated with this novel approach. Furthermore, the feasibility trial findings suggest that the therapeutic potential of HGNS can be optimized by selecting patients judiciously, titrating the stimulus intensity optimally, and characterizing the underlying function and anatomy of the pharynx. These strategies are currently being examined in ongoing pivotal trials of HGNS.

Entities:  

Keywords:  hypoglossal nerve stimulating systems; hypopnea; obstructive sleep apnea; pharyngeal collapse

Mesh:

Year:  2013        PMID: 23813525      PMCID: PMC3921355          DOI: 10.1152/japplphysiol.00423.2013

Source DB:  PubMed          Journal:  J Appl Physiol (1985)        ISSN: 0161-7567


  49 in total

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Authors:  Terry Young; Paul E Peppard; Daniel J Gottlieb
Journal:  Am J Respir Crit Care Med       Date:  2002-05-01       Impact factor: 21.405

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Journal:  Am Rev Respir Dis       Date:  1992-10

3.  Effect of uvulopalatopharyngoplasty on upper airway collapsibility in obstructive sleep apnea.

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Journal:  Am Rev Respir Dis       Date:  1992-03

4.  Effects of submental electrical stimulation during sleep on upper airway patency in patients with obstructive sleep apnea.

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Journal:  Am Rev Respir Dis       Date:  1989-11

5.  Effect of electrical stimulation of the hypoglossal nerve on airflow mechanics in the isolated upper airway.

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Journal:  Am Rev Respir Dis       Date:  1993-05

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Journal:  Am Rev Respir Dis       Date:  1991-06

8.  Upper airway response to electrical stimulation of the genioglossus in obstructive sleep apnea.

Authors:  Arie Oliven; Daniel J O'Hearn; An Boudewyns; Majed Odeh; Wilfried De Backer; Paul van de Heyning; Philip L Smith; David W Eisele; Larry Allan; Hartmut Schneider; Roy Testerman; Alan R Schwartz
Journal:  J Appl Physiol (1985)       Date:  2003-11

9.  Objective measurement of patterns of nasal CPAP use by patients with obstructive sleep apnea.

Authors:  N B Kribbs; A I Pack; L R Kline; P L Smith; A R Schwartz; N M Schubert; S Redline; J N Henry; J E Getsy; D F Dinges
Journal:  Am Rev Respir Dis       Date:  1993-04

10.  Effect of weight loss on upper airway collapsibility in obstructive sleep apnea.

Authors:  A R Schwartz; A R Gold; N Schubert; A Stryzak; R A Wise; S Permutt; P L Smith
Journal:  Am Rev Respir Dis       Date:  1991-09
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1.  Catecholaminergic A1/C1 neurons contribute to the maintenance of upper airway muscle tone but may not participate in NREM sleep-related depression of these muscles.

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Journal:  Respir Physiol Neurobiol       Date:  2017-07-12       Impact factor: 1.931

2.  Computational model of brain-stem circuit for state-dependent control of hypoglossal motoneurons.

Authors:  Mohsen Naji; Maxim Komarov; Giri P Krishnan; Atul Malhotra; Frank L Powell; Irma Rukhadze; Victor B Fenik; Maxim Bazhenov
Journal:  J Neurophysiol       Date:  2018-04-04       Impact factor: 2.714

Review 3.  Neural Control of the Upper Airway: Respiratory and State-Dependent Mechanisms.

Authors:  Leszek Kubin
Journal:  Compr Physiol       Date:  2016-09-15       Impact factor: 9.090

4.  Intraoral Neuromuscular Stimulation Device and Rapid Eye Movement-Dependent Obstructive Sleep Apnea.

Authors:  Waiz Wasey; Naila Manahil; Neha Wasey; Sharefi Saleh; Asiya Mohammed
Journal:  Cureus       Date:  2022-07-28

5.  The impact of daytime transoral neuromuscular stimulation on upper airway physiology - A mechanistic clinical investigation.

Authors:  Brandon Nokes; Christopher N Schmickl; Rebbecca Brena; Nana Naa-Oye Bosompra; Dillon Gilbertson; Scott A Sands; Rakesh Bhattacharjee; Dwayne L Mann; Robert L Owens; Atul Malhotra; Jeremy E Orr
Journal:  Physiol Rep       Date:  2022-06

Review 6.  Origins of and implementation concepts for upper airway stimulation therapy for obstructive sleep apnea.

Authors:  Kingman P Strohl M D; Jonathan Baskin M D; Colleen Lance M D; Diana Ponsky M D; Mark Weidenbecher M D; Madeleine Strohl B A; Motoo Yamauchi M D
Journal:  Respir Investig       Date:  2016-03-18

Review 7.  State-dependent and reflex drives to the upper airway: basic physiology with clinical implications.

Authors:  Richard L Horner; Stuart W Hughes; Atul Malhotra
Journal:  J Appl Physiol (1985)       Date:  2013-08-22

Review 8.  Improvements in current treatments and emerging therapies for adult obstructive sleep apnea.

Authors:  Neil Freedman
Journal:  F1000Prime Rep       Date:  2014-05-06

Review 9.  Innovative treatments for adults with obstructive sleep apnea.

Authors:  Terri E Weaver; Michael W Calik; Sarah S Farabi; Anne M Fink; Maria T Galang-Boquiren; Mary C Kapella; Bharati Prasad; David W Carley
Journal:  Nat Sci Sleep       Date:  2014-11-18

10.  Designer Receptors Exclusively Activated by Designer Drugs Approach to Treatment of Sleep-disordered Breathing.

Authors:  Thomaz Fleury Curado; Huy Pho; Carla Freire; Mateus R Amorim; Jordi Bonaventura; Lenise J Kim; Rachel Lee; Meaghan E Cabassa; Stone R Streeter; Luiz G Branco; Luiz U Sennes; Kenneth Fishbein; Richard G Spencer; Alan R Schwartz; Michael J Brennick; Michael Michaelides; David D Fuller; Vsevolod Y Polotsky
Journal:  Am J Respir Crit Care Med       Date:  2021-01-01       Impact factor: 21.405
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