Acute Intermittent Hypoxia and Respiratory Strength Training to Improve Breathing Function After SCI

Abstract

Spinal cord injury (SCI) disrupts neural pathways to respiratory motor neurons, causing muscle paralysis and decreased breathing capacity. Since respiratory impairment is the major cause of illness and death with SCI, it is critical to devise new strategies to restore breathing function. One promising strategy to restore breathing capacity following SCI is to strengthen spared neural pathways by inducing spinal neuroplasticity. Our research group has developed novel methods to induce spinal respiratory plasticity in rats via repetitive exposure to brief episodes of low oxygen (acute intermittent hypoxia or AIH). In rats with incomplete SCI, repeated AIH restores lost breathing ability. These preclinical findings translate to humans with SCI; a single day of AIH, or daily AIH for 5 days (dAIH; 1-2 min of 9% oxygen, 1 min intervals), induces recovery of respiratory and non-respiratory motor function (such as walking or hand function). We demonstrated that AIH increases respiratory function in humans with chronic SCI. However, additional pre-clinical studies demonstrate that AIH-induced functional benefits are enhanced by combining AIH with task-specific training. Unfortunately combined dAIH and task-specific respiratory training has not been studied despite the promise of this novel therapeutic approach. It is essential to fill this knowledge gap as we work to translate this simple, safe and effective treatment modality to restore breathing function in Veterans with breathing impairment due to SCI. Central Hypothesis: Combined dAIH and respiratory strength training will elicit greater and more sustained gains in respiratory function than either treatment alone in people with chronic SCI.

Document Details

Document Type

Technical Report

Publication Date

Oct 01, 2022

Accession Number

AD1201239

Entities

Tags