Roxelyn and Richard Pepper Department of Communication Sciences and Disorders, School of Communication, Northwestern University, 2240 Campus Drive, Evanston, IL, 60208, USA.
Otolaryngology - Head & Neck Surgery, Radiation Oncology, Feinberg School of Medicine, Northwestern University, Chicago, IL, USA.
Dysphagia. 2023 Aug;38(4):1049-1058. doi: 10.1007/s00455-022-10538-x. Epub 2022 Nov 15.
Swallowing occurs preferentially in the expiratory phase of the quiet breathing cycle and at mid-to-low tidal volume. This coordinative pattern imparts important biomechanical advantages to swallowing and airway protection and facilitate laryngeal elevation, laryngeal vestibular and vocal fold closure, and cricopharyngeal sphincter opening. This preferred coordinative relationship between breathing and swallowing is impaired in a variety of patient populations, including head and neck cancer survivors with dysphagia. We developed a training protocol to re-establish more optimal phasing of swallowing with breathing in these patients with striking outcomes, including reduced swallowing physiological impairments and improved airway protection. This motivated us to continue to refine and expand this training protocol and develop new assistive technologies for swallowing monitoring outside of the lab. In this review, we highlight the origins of our optimal respiratory-swallowing coordination hypothesis, describe the biomechanical advantages it provides, carefully describe our training protocol and findings, and chart a course for the next phase of this work. Our overall goal is to harness technology combined with carefully constructed learning paradigms to improve the lives of patients with impaired respiratory-swallowing coordination consequent to a variety of pathologies including head and neck cancer and degenerative neurological conditions such as Parkinson's disease.
吞咽通常发生在安静呼吸周期的呼气阶段和中低潮气量时。这种协调模式为吞咽和气道保护带来了重要的生物力学优势,有助于抬高喉、关闭喉前庭和声带以及开放环状咽肌。在包括吞咽困难的头颈部癌症幸存者在内的各种患者群体中,这种呼吸和吞咽之间的优选协调关系受到损害。我们开发了一种训练方案,以在这些患者中重新建立更优的吞咽与呼吸时相关系,取得了显著的结果,包括减少吞咽生理障碍和改善气道保护。这促使我们继续改进和扩展该训练方案,并开发用于实验室外吞咽监测的新辅助技术。在这篇综述中,我们重点介绍了我们的最佳呼吸-吞咽协调假说的起源,描述了它提供的生物力学优势,详细描述了我们的训练方案和发现,并为下一阶段的工作规划了路线。我们的总体目标是利用技术结合精心构建的学习范例,来改善因各种疾病(包括头颈部癌症和退行性神经疾病如帕金森病)导致呼吸-吞咽协调受损的患者的生活。