Sensory dysphagia: A case series and proposed classification of an under recognized swallowing disorder

Santoso, Laura F.; Paydarfar, David

doi:10.1002/hed.25588

Cited by 11 publications

(12 citation statements)

References 35 publications

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“…By uniquely studying patients undergoing elective laryngectomy, our study is the first to measure the interarytenoid response from stimulation of the fully dissected iSLN and RLN in humans. Because the iSLN is critical for normal swallowing and protecting the airway from aspiration, our findings further support the importance of iSLN afferent regulation of swallowing, and the existence of iSLN deafferentation syndromes causing dysphagia and aspiration 1,24 …”

Section: Discussionsupporting

confidence: 66%

“…Because the iSLN is critical for normal swallowing and protecting the airway from aspiration, our findings further support the importance of iSLN afferent regulation of swallowing, and the existence of iSLN deafferentation syndromes causing dysphagia and aspiration. 1,24 The long motor response latencies when the iSLN was supramaximally stimulated support the classic understanding that the iSLN only induces motor activity by serving as the afferent limb of a brainstem-mediated response. Even when all iSLN nerve fibers were recruited by applying stimulation multiple times the threshold level, no short latency motor response was recorded.…”

Section: Discussionmentioning

confidence: 66%

“…42 Clinically, the pure sensory function of the iSLN supports the pathophysiological mechanism that dysphagia and aspiration can occur exclusively from sensory loss, without primary motor dysfunction. 24 Previously, blockade of the iSLN in healthy adults was found to result in effortful swallowing, globus sensation, and aspiration secondary to incomplete closure of the larynx during swallowing. 1 Because the iSLN has no efferent function, we deduce that these three clinically significant symptoms of failed motor coordination can result from sensory blockade alone.…”

Section: Discussionmentioning

confidence: 99%

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The Internal Superior Laryngeal Nerve in Humans: Evidence for Pure Sensory Function

2020

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Objectives To determine if the internal branch of the superior laryngeal nerve (iSLN) provides direct motor innervation to the interarytenoid muscle, a laryngeal adductor critical for airway protection. We studied the iSLN‐evoked motor response in the interarytenoid and other laryngeal muscles. If the iSLN is purely sensory, there will be no detectable short latency motor response upon supramaximal stimulation, indicating the absence of a direct efferent conduction path. Study Design Intraoperative case series. Methods In seven anesthetized patients undergoing laryngectomy for unilateral laryngeal carcinoma, the iSLN of the unaffected side was electrically stimulated intraoperatively with 0.1‐ms pulses of progressive intensities until supramaximal stimulation was reached. Electromyographic responses were measured in the ipsilateral interarytenoid, thyroarytenoid, and cricothyroid muscles. Results None of the subjects exhibited short‐latency interarytenoid motor responses to iSLN stimulation. Supramaximal electrical stimulation of the intact iSLN evoked ipsilateral motor responses with long latencies: 18.7–38.5 ms in the interarytenoid (n = 6) and 17.8–24.9 ms in the thyroarytenoid (n = 5). Supramaximal stimulation of the recurrent laryngeal nerve evoked ipsilateral motor responses with short latencies: 1.6–3.9 ms in the interarytenoid (n = 6) and 1.6–2.7 ms in the thyroarytenoid (n = 6). Conclusion The iSLN provides no functional efferent motor innervation to the interarytenoid muscles. The iSLN exclusively evokes an interarytenoid motor response via afferent activation of central neural circuits that mediate the laryngeal reflex arc. These findings suggest that the role of the iSLN in vital laryngopharyngeal functions, such as normal swallowing and protection of the airway from aspiration, is purely sensory. Level of Evidence 4 Laryngoscope, 131:E207–E211, 2021

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Section: Discussionsupporting

confidence: 66%

Section: Discussionmentioning

confidence: 66%

Section: Discussionmentioning

confidence: 99%

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The Internal Superior Laryngeal Nerve in Humans: Evidence for Pure Sensory Function

2020

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“…One of the most fundamental functions of the vagus nerve is to provide the first line of defense that protects the airways from injury. Defects in vagally mediated reflexes in the upper airways cause some of the most pervasive and severe clinical problems associated with aging including dysphagia (difficulty swallowing), weight loss, choking, speech impairment, and respiratory tract infections such as aspiration pneumonia (Jadcherla et al, 2010;Ludlow, 2015;Santoso et al, 2019). Furthermore, hyperactivity or sensitization of upper airway neurons may contribute to asthma, chronic cough, and sudden infant death syndrome (SIDS).…”

Section: Introductionmentioning

confidence: 99%

“…RLN afferents instead predominate below the vocal folds, with dense innervation of the trachea and lung. Loss of SLN function by nerve injury or transient application of local anesthetic causes dysphagia, incomplete laryngeal closure, and risk of airway aspiration (Jadcherla et al, 2010;Jafari et al, 2003;Santoso et al, 2019). Electrically stimulating the SLN evokes hallmarks of airway protection including cough, apnea (breathing pause), vocal fold adduction, and fictive swallowing (Bolser, 1991;Doty, 1951).…”

Section: Introductionmentioning

confidence: 99%

An Airway Protection Program Revealed by Sweeping Genetic Control of Vagal Afferents

Prescott¹,

Umans²,

Williams³

et al. 2020

Cell

141

183

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Healthy Human Laryngopharyngeal Sensory Innervation Density Correlates with Age

Cole

Perry

et al. 2022

The Laryngoscope

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Objective Somatosensory feedback from upper airway structures is essential for swallowing and airway defense but little is known about the identities and distributions of human upper airway neurons. Furthermore, whether sensory innervation modifies with aging is unknown. In this study, we quantify neuronal and chemosensory cell density in upper airway structures and correlate with age. Methods Participants underwent biopsies from base of tongue, lateral and midline pharyngeal wall, epiglottis, and arytenoids (N = 25 13 female/12 male; 20–80 years, mean 51.4 years without clinical diagnosis of dysphagia or clinical indication for biopsy). Tissue sections were labeled with antibodies for all neurons, myelinated neurons, and chemosensory cells. Densities of lamina propria innervation, epithelial innervation, solitary chemosensory cells, and taste buds were calculated and correlated with age. Results Arytenoid had the highest density of innervation and chemosensory cells across all measures compared to other sites. Taste buds were frequently observed in arytenoid and epiglottis. Base of tongue, lateral pharynx, and midline posterior pharynx had minimal innervation and few chemosensory cells. Epithelial innervation was present primarily in close proximity to chemosensory cells and taste buds. Overall innervation and myelinated fibers in the arytenoid lamina propria decline with aging. Conclusion Findings establish the architecture of healthy adult sensory innervation and demonstrate the varied distribution of laryngopharyngeal innervation, necessary steps toward understanding the sensory basis for swallowing and airway defense. We also document age‐related decline in arytenoid innervation density. These findings suggest that sensory afferent denervation of the upper airway may be a contributing factor to presbyphagia. Level of Evidence NA Laryngoscope, 133:773–784, 2023

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Sensory dysphagia: A case series and proposed classification of an under recognized swallowing disorder

Cited by 11 publications

References 35 publications

The Internal Superior Laryngeal Nerve in Humans: Evidence for Pure Sensory Function

The Internal Superior Laryngeal Nerve in Humans: Evidence for Pure Sensory Function

An Airway Protection Program Revealed by Sweeping Genetic Control of Vagal Afferents

Healthy Human Laryngopharyngeal Sensory Innervation Density Correlates with Age

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