Intermittent Hypoxia and Inspiratory Threshold Loading to Enhance Inspiratory Muscle Function

University of Florida20 enrolled

Overview

Rehabilitation approaches introduce a stimulus to a motor system, with the goal to enhance motor function to patients. For example, exposure to brief and intermittent episodes of mild hypoxia has shown to strengthen synaptic pathways to respiratory and skeletal muscle motor neurons. In humans with spinal cord injury, exposure to intermittent hypoxia (IH) alone or in combination with rehabilitative strategies has shown enhanced motor function. Another strategy known as inspiratory threshold loading, which involves breathing against pressure threshold loads, results in improved inspiratory muscle strength. Although there is evidence supporting the use of IH alone or in combination with other rehabilitative strategies in improving motor function in humans, the impact of exposure to IH or IH with inspiratory threshold loading on inspiratory muscle function and ventilation in humans is unknown.

Investigators will test whether exposure to IH alone and in combination with inspiratory threshold loading (ITL) will result in increased inspiratory muscle strength and ventilation. Investigators will use a Latin square, repeated measures design which will consist of 12 subjects participating in four experimental conditions.There will be an interval of 1 week between each of the four conditions, which will serve as a washout period. At the end of each of the 5 sessions, the subjects will rest in a reclining chair for 15 minutes while their heart rate, blood pressure, oxygen saturation and breathing are monitored. Subjects that have a blood systolic blood pressure \> 140 or diastolic pressure \> 90 or SPO2 \< 92% will be asked to remain in the laboratory for 15 additional minutes and the vital signs will be repeated. If the blood pressure and/or peripheral capillary oxygen saturation (SPO2) remain outside of the criteria mentioned above, the subject will be instructed to seek assessment by their health provider and the incident will be reported to the Institutional Review Board. Subjects will also be asked to report any discomfort.

Study Type

INTERVENTIONAL

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

Interventions

Intermittent HypoxiaOTHER

A single session of IH will last for 45 minutes and will consist of alternating phases of hypoxia(FiO2 :9%-11%) and hyperoxia (FiO2 :22%-38%). Each hypoxic interval will last for 2 minutes whereas the hyperoxic interval lasts for 1 minute each (15, two-minute episodes of hypoxia and 15, one-minute episodes of hyperoxia).

Inspiratory Threshold LoadingOTHER

Subjects will undergo inspiratory threshold loading using a commercially available Threshold IMT device (Power breathe®). ITL will be administered at an intensity of 80% of the individual's maximal inspiratory pressure (MIP). The subjects will be instructed to take 10 deep, forceful breaths through the threshold device followed by at least 2 minutes of rest. The process will be repeated 4 more times for a total of 5 sets of 10 breaths each.

Sham Intermittent HypoxiaOTHER

Subjects will be exposed to a session of sham Intermittent hypoxia.This will consist of breathing room air for 45 minutes through a hypoxicator.

Eligibility

Sex: ALLMin age: 18 YearsMax age: 40 YearsHealthy volunteers:

Medical Language ↔ Plain English

Inclusion Criteria: * Participating in three or fewer musculoskeletal strength training sessions per week at an intensity equivalent to 7-10 on the Modified Borg's scale * Participating in three or fewer cardiovascular endurance training sessions per week at an intensity equivalent to 7-10 on the Modified Borg's scale Exclusion Criteria: * Diagnosis of cardiovascular disease (Hypertension, arrhythmias, coronary artery disease, congenital and valvar heart diseases) * Diagnosis of neuromuscular disease * Diagnosis of any neurological disease * Presence of concurrent medical illness including infection, fractures * Diagnosis of obstructive sleep apnea * Diagnosis of obstructive/restrictive lung disease * Diagnosis of exercise induced asthma * Forced expiratory volume at one second/forced vital capacity (FVC) \<80% and/or FVC\<80% of predicted value indicating airway obstruction * Subjects on prednisolone therapy or selective serotonin reuptake inhibitor (SSRI) therapy will be excluded from the study. * Diagnosis of epilepsy or history of seizures and attention deficit disorders * Pregnancy * Diabetes * History of coagulation disorders * History of chronic pain * Body mass index(BMI)\> 35kg/m2 * Subjects on prescription medicines such as beta blockers and other drugs that are prescribed in any of the exclusionary disorders listed above. * Any other factor that in the investigators' opinions would prevent response to training or create an unsafe condition for the subject.

Outcomes

Primary Outcomes

Maximal Inspiratory Pressure will be measured across all groups

Maximal Inspiratory Pressure(MIP) which is a measure of inspiratory muscle strength will be measured as the MIP recorded at the mouth by a pressure manometer. Subjects will be seated upright in a comfortable chair and the nose occluded with clips. After exhaling to residual volume (RV), subjects place their lips around the mouthpiece and inspire as forcefully as possible for at least three seconds. Repeated measurements will be taken, with a 1- to 2-min rest between trials, until three measurements are obtained within 5% variability. Of these three values, the best MIP will be recorded.

Time frame: Change between 15, 30, and 60 minutes

Ventilatory responses to inspiratory loading will be measured across all groups

Subjects will be asked to breathe as forcefully as possible against a inspiratory load( 2-4 sets of 5 repetitions) of either 40% of their maximal inspiratory pressure(MIP) or at 41CmH2O (lowest of the two as the maximum resistance offered by the device is 41CmH2O) using a inspiratory muscle training (IMT) device. During this task, a respiratory monitor will be connected to the IMT device. Parameters such as the inspiratory flow, volume and pressure generated by the subjects while breathing against the load will be recorded. Imposed work of breathing (WOBi) will be calculated as a product of the pressure generated and the inspired tidal volume when breathing against a fixed load (40%MIP).

Time frame: Change between 15, 30, and 60 minutes

Mouth occlusion pressure (P0.1) will be measured across all groups

To record P0.1, the subjects will breathe through a mouth piece connected to a 2 way respiratory valve in a closed circuit. As the subjects breathe through the circuit, the inspiratory valve will be manually occluded during the expiratory phase and the occlusion will be maintained till the end of next inspiration. Occlusion will be random in order to prevent the subjects from getting conscious about the occlusions. The circuit is connected to the respiratory monitor and the negative pressure recorded in the first 100 milliseconds of the occluded breath will be recorded as the subject's P0.1. 3 such recordings will be obtained and the highest pressure amongst the 3 trials will be considered for analysis.

Time frame: Change between 15, 30, and 60 minutes

Secondary Outcomes

Heart Rate Variability (HRV) will be measured across all groups

Heart Rate Variability (HRV): HRV will be assessed to determine the autonomic response to intermittent hypoxia. HRV will be measured using a 3 lead ECG and HRV recording kit.

Time frame: Change between 15, 30, and 60 minutes

Intermittent Hypoxia and Inspiratory Threshold Loading to Enhance Inspiratory Muscle Function

Overview

Conditions

Interventions

Eligibility

Locations (1)

Outcomes

Primary Outcomes

Secondary Outcomes