Hypercapnia and Orthostatic Tolerance in Postural Orthostatic Tachycardia Syndrome

Summary

Participation Requirements

Description

The effects of hypercapnia on cerebral blood flow velocity and arterial blood pressure in healthy subjects lead to an increase in orthostatic tolerance, peak HR and time to peak HR compared with normocapnic orthostatism. The CO2 effects on heart rate and orthostatic tolerance were observed in a smal...

The effects of hypercapnia on cerebral blood flow velocity and arterial blood pressure in healthy subjects lead to an increase in orthostatic tolerance, peak HR and time to peak HR compared with normocapnic orthostatism. The CO2 effects on heart rate and orthostatic tolerance were observed in a small group of POTS patients with orthostatic hypocapnia, after supplying CO2 to correct hypocapnia. It is unclear, however, whether this intervention will also work for the broader POTS population. This might constitute an attractive option of therapy for POTS patients. The investigator's hypothesis is that increasing end-tidal CO2 (ETCO2) will reduce orthostatic tachycardia and orthostatic symptoms in patients with POTS. The secondary hypothesis is that blood pressure will be better maintained during increased ETCO2 via improved cardiac output. INTERVENTION The RespirAct™ system (Thornhill Research Inc., Toronto, Canada) is a computer-controlled gas blender providing CO2, O2 and nitrogen for a subject to inhale while breathing for the purpose of controlling the concentrations of the respective blood gases. The RespirAct™ records inspired and exhaled gas concentrations, which can be recalled, analyzed and graphed. Data is collected breath-by-breath including end-tidal O2 and CO2, the length of inspiration and expiration for the breath, the respiration rate and the tidal volume per breath. The system has been Health Canada approved and utilized in several publications in healthy individuals and clinical populations. Subjects will be fitted with a face mask which will be connected to a tube supplied with gas from RespirAct™ system Primary Analysis The primary analysis will compare the magnitude of ?HR from supine to HUTT during hypercapnia compared to HUTT with no intervention (HUTT 3 and 4 vs 1). The comparison will use a paired t-test (or a Wilcoxon Signed-Rank test if the data are non-normally distributed). Secondary Analysis The secondary analysis will compare the VOSS Symptom Rating at the end of each 8 min HUTT, comparing each HUTT run. Sample Size Calculation Since this is a pilot study, there are few preliminary data about the effect of hypercapnia on orthostatic symptoms in POTS adults. A clinically meaningful reduction in orthostatic tachycardia of 10 bpm would be clinically significant. It is estimated a standard deviation of about 15 bpm for our sample. With the aforementioned assumptions for a paired test of continuous data and a 0.05 two-sided significance level, a sample size of 20 POTS patients would allow for 80% power to detect this difference. To account for study withdrawal and dropout the investigators intend to enroll 26 POTS patients in total Adverse Event (or Unanticipated Problem) Reporting Any adverse events of a serious nature will be reviewed immediately with the principal investigator. Serious adverse events will be reported in writing to the CHREB within 10 days of the PI's notification of the event. All study adverse events will be summarized once a year, during the annual review reporting, for the CHREB. The research coordinator will be responsible for tracking adverse events in this study. The adverse event will be described with the following information: description of the event, outcome of the event, how long it lasted, whether the event required treatment or intervention, and the outcome. The definition of events is as follows: Mild - transient and mild in nature, with no treatment necessary. Moderate - some intervention and treatment necessary, but the participant completely recovers. Severe - an event that results in hospitalization, disability, death or is life-threatening. Data & Safety Monitor There will be no external Data & Safety monitor for this study. PRIVACY and CONFIDENTIALITY ISSUES Protected Health Information will be used in this study. The investigators will comply with the patient privacy guidelines of the University of Calgary and applicable provincial and federal rules. The research team is comprised of experienced research nurses and research assistants who are aware of the importance of confidentiality of health information. Paper research records will be stored in a locked office. Digital records will be stored on password-protected University of Calgary computers/servers and in the University of Calgary Clinical Research Unit REDCap Database. Every effort will be made to publish and present the data from this study. At no time will any participant be identified in any such publication Information about participants will be handled as confidentially as possible, but there is always the potential for an unintended breach of privacy. Data Management Plan: All data will be stored under an assigned participant code for data storage and a master list linking the code to the participant name and other identifiers will be kept on the encrypted restricted access drive at the University of Calgary. All data collected before, during, and after the study, including identifiable data, will always be kept on password protected computers on an encrypted restricted access drive at the University of Calgary or in the case of paper records, locked in a secure file cabinet in a locked room. Only the researchers will have access to these.

Tracking Information