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Clinical Trial Summary

This study aims to determine the effect of acute mild intermittent hypoxia on ankle plantarflexor muscle output during balance regulation and walking in younger and older adults. Fifteen younger adults and 15 older adults will be recruited to participate in the cross-over design study that requires 2 visits (at least 1-week apart). Participants will be pseudo-randomly assigned to receive either intermittent hypoxia or sham during the first visit, and then switch over to receive sham or intermittent hypoxia during the 2nd visit. Muscle activation patterns and kinetic and kinematics during standing and walking will be recorded before and after the intermittent hypoxia/sham. It is hypothesized that compared to the sham condition, both younger and older participants will show greater increases in ankle plantarflexor muscle activation during gait and balance assessments following intermittent hypoxia.


Clinical Trial Description

Procedure: This is a cross-over design study that requires 2 visits (at least 1-week apart). Fifteen younger adults and 15 older adults will be recruited. Participants will be pseudo-randomly assigned to receive either intermittent hypoxia or sham during the first visit, and then switch over to receive sham or intermittent hypoxia during the 2nd visit. During each visit, participants will first perform Gait and Balance Assessments (PRE), followed by the Intermittent Hypoxia (or sham) protocol, and then perform Gait and Balance Assessments (POST) again. The total time is approximately 2.5 hours for each visit. Balance and Gait Assessments The consent process and Balance and Gait Assessments will take place in BEL 530. During Balance and Gait Assessments, participants will be asked to wear tight-fitting shorts and shirt for accurate marker positioning. Approximately 39 reflective markers will be attached to target locations on the individuals' body (the head, arms, wrists, hands, trunk, pelvis, legs and feet) according to the Vicon Full-Body Plug-In Gait Model. A study team member will attach surface electrodes over the tibialis anterior and soleus muscles to record the muscle activation patterns with a wireless Electromyography (EMG) system (Delsys Inc., Natick, MA). Next, a study team member will assist the participant to wear a safety harness that will be attached to an overhead support beam. For Balance Assessment, participants will stand on the treadmill with their feet shoulder-width apart. A 30-second quiet standing trial will be recorded. Next, participants will be instructed to maintain upright posture when the treadmill shifts forward or backward at unknown times (perturbed standing). The treadmill will shift approximately 3 cm. Based on our previous experiment, this distance is sufficient to trigger a response without inducing a fall. Three forward and 3 backward treadmill shifts will be delivered in a randomized order. Finally, participants will be asked to close their eyes and repeat the quiet standing and perturbed standing trials. A 10-camera Vicon Nexus motion capture system (Vicon, Oxford Metrics, UK) will be used to record whole body kinematics. Ground reaction forces under each belt will be recorded. A handrail is located on either side of the treadmill. For Gait Assessments, participants will walk on the treadmill at their comfortable and fast walking speeds. The comfortable speed will be determined by gradually increasing the treadmill speed until the participant confirms that it reaches their comfortable regular walking speed. The fast speed will be determined by gradually increasing the treadmill speed until the participant confirms that it reaches the maximum speed that they can walk safely. A 30-second walking trial will be recorded for each speed. Following Balance and Gait Assessment, a testing team member will escort the participant to BEL819 Clinical Exercise Physiology Laboratory to perform Intermittent Hypoxia (or sham). Intermittent hypoxia Intermittent hypoxia will be performed in BEL819 Clinical Exercise Physiology Laboratory. Intermittent hypoxia is routinely performed in this laboratory (IRB protocols 2017090015, 2018110129, 2019070088, and 202005018). Intermittent hypoxia consisting of a limited number (5-10/day) of short (4-10 min) bouts of mild hypoxia (oxygen levels between 10-12%) leads to cumulative and sustained beneficial physiological responses. Preliminary data collected in the Clinical Exercise Physiology Laboratory show that a fraction of oxygen of 11±1% corresponds to an arterial oxygen saturation of 80±2% in middle-aged individuals. Participants will be sitting during the entire breathing protocol. Hypoxic air will be inhaled through a mask connected to a two-way non-rebreathing valve, which will itself be connected to a 5-liter non-diffusing gas bag (Hans Rudolph, Inc, USA). The rebreathing bag will be connected to a certified medical grade gas tank containing 11% oxygen and a balance of nitrogen. The intermittent hypoxia protocol will consist of eight 4-min cycles of breathing hypoxic air interspersed with normoxic cycles breathing room air. After four min of hypoxia, participants will be switched back to breathing room air until resaturation, which takes approximately one minute. Once arterial oxygen saturation reaches baseline levels, participants will be switched back to breathing hypoxic air, beginning the next hypoxic cycle. Unlike chronic hypoxic exposure, risks associated with an acute hypoxic exposure of three 4-min cycles are minimal, and no adverse events were reported during intermittent hypoxia in our participants. During the sham condition, compressed air (21% oxygen) from a gas tank will be delivered throughout the protocol instead of 11% oxygen. Participants will not receive information about which condition (Intermittent hypoxia or sham) they are experiencing during the trials. Pulmonary gas exchange Breath-by-breath measures of pulmonary gas exchange such as volume of oxygen and carbon dioxide, respiratory rate, tidal volume, minute ventilation and fraction of inspired oxygen will be determined from a pneumotachometer (Ultima Cardio2, MGC Diagnostics, MN, USA) throughout the intermittent hypoxia. The pneumotachometer will be mounted between the mask and the non-rebreathing valve of the breathing circuit. The pneumotachometer, mouthpiece and non-rebreathing valve will be disinfected in a 10% bleach and water solution for 60 minutes and rinse thoroughly with tap water for 5 minutes between each use. Each participant will have a face mask that will only be used by him/her. Hemodynamics An arterial waveform obtained by finger plethysmography from the middle finger of the left hand will be continuously recorded (NOVA, Finapres Medical Systems, Amsterdam, Netherlands) during the intermittent hypoxia. Systolic, diastolic and mean arterial pressure, heart rate, stroke volume, cardiac output and total peripheral resistance will be derived from the arterial waveform, a method which has been validated against invasive measures [9]. All data will be recorded in LabChart (Powerlab, ADInstruments Inc., CO, USA) for later analysis. Arterial oxygen saturation Arterial oxygen saturation will continuously be monitored by pulse oximetry (NOVA, Finapres Medical Systems, Amsterdam, Netherlands) throughout the intermittent hypoxia. The pulse oximeter probe will be applied to the index finger of the left hand. Following intermittent hypoxia (or sham), a testing team member will escort the participant back to BEL530 to perform Balance and Gait Assessment. After the assessment, a testing team member will remove the electrodes and markers from the participant. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05463042
Study type Interventional
Source University of Texas at Austin
Contact
Status Completed
Phase N/A
Start date September 1, 2022
Completion date August 21, 2023

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