Spinal Cord Injuries Clinical Trial
Official title:
Improving Ventilatory Capacity in Those With Chronic High Level SCI
The purpose of this study is to find out if taking the drug Buspar will increase breathing capacity in individuals with spinal cord injuries.
Chemoreceptive regulatory feedback is crucial for precise ventilatory control, especially during exercise. However, individuals with high-level SCI have a reduced chemoreceptive drive to breathe. Studies have shown lesser increases in minute ventilation and mouth pressure during hypercapnia in those with tetraplegia. Peripheral factors rather than central factors appear to cause the reduction of the ventilatory response to hypercapnia. This reduced ventilatory drive may have functional impact on exercise ventilation in patients with high level SCI and enhancing ventilatory drive may improve exercise ventilation in high-level SCI. Currently, there are no treatments to overcome these functional deficits that affect daily activity and exercise-based rehabilitation recovery. However, previous work in an animal model of SCI has found that that a serotonin agonist markedly increases respiratory responses to carbon dioxide. Treatment with a serotonin 5HT1A agonist effectively improved the ventilatory drive after both acute and chronic spinal cord injuries in rats. One potential mechanism is increased excitability of the ventral motoneurons that have survived the spinal cord injury. 5-HT1A receptors do exist on these neurons, and when activated, amplify the excitatory output. Another mechanism resides at the intercostal and abdominal muscle afferents which influence supraspinal respiratory group neurons in the brainstem and motor output to the muscles of breathing. Hence, serotonin agonists may act on neural pathways in the spinal cord responsible for transferring afferent information from intercostal muscles to supraspinal centers. Lastly, 5-HT1A receptors may also be involved in functional plasticity of neural respiratory pathways, in particular ipsilateral phrenic nerve activity. Up regulation of 5-HT1A receptors due to denervation supersensitivity could result in postsynaptic hyperresponsivity due to loss of descending input. BuSpar/Buspirone is a serotonin 5HT1A agonist and used as an anxiolytic in humans. It does not cause sedation, has minimal effects on psychomotor performance or cognition, and has low threshold for abuse potential or dependence liability. Prior studies have found Buspirone to be well tolerated. It has been used safely in spinal cord injury, but not for respiratory purposes. (Though there is one clinical trial in process: Role of Enhancing Serotonin Receptors Activity for Sleep Apnea Treatment in Patients with SCI.) However, Buspirone up to 60 mg daily has been used to treat disturbed respiratory rhythms in multiple sclerosis, brain cancer, and brainstem infarction. Interestingly, in patients with COPD, a 14-day oral administration of buspirone (20 mg) found improved anxiety and depression as well as increased exercise tolerance with lesser sensations of dyspnea. Hence, buspirone may offer a treatment to improve hypercapnic ventilatory drive. Given that oral administration of 30 mg results in peak plasma levels at one hour and that the average elimination half life is about 2 to 3 hours, buspirone is an attractive and safe approach to exploring the ability to improve respiratory responses to exercise and/or hypercapnia exposure in those with high level spinal cord injury that limits breathing capacity. ;
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