BACKGROUND: Neurogenic orthostatic hypotension (nOH) is a chronic condition associated with
increased cardiovascular risk and reduced quality of life. On standing, patients with nOH
experience a large reduction in blood pressure (BP; at least ≥20/10mmHg, but often much
more), which is often accompanied by debilitating symptoms and syncope. nOH affects the
elderly and patients with neurodegenerative diseases (e.g., Parkinson's disease, multiple
system atrophy), neuropathies (e.g., diabetes), and neural injury (e.g., spinal cord injury).
In healthy controls, hypercapnia (i.e., high CO2) increases in sympathetic nerve activity and
BP. Hypercapnia significantly increases supine and seated BP in patients with nOH, and a
previous study (unpublished) showed that hypercapnia significantly increases standing BP in
patients with nOH.
Human bodies naturally produce and exhale CO2. Rebreathe devices offer a simple,
cost-effective technology to increase arterial CO2. In brief, rebreathe devices work by
capturing expired CO2, which is then re-inhaled. The net effect is a transient increase in
CO2. A CO2 rebreathing device may offer a novel hemodynamic therapy for patients with nOH.
OBJECTIVE: This is a pilot, proof-of-concept study to evaluate a CO2 rebreather to improve
blood pressure and orthostatic tolerance in patients with nOH. The study hypothesis is that a
rebreather will increase CO2 sufficiently enough to improve BP in patients with nOH.
METHODS: Male and female patients (n=28) will be recruited from the Calgary Autonomic
Investigation and Management Clinic.
STUDY PROCEDURE Informed Consent: The informed consent will be sent by email to the patients
in advance. The investigators will give each patient a chance to ask questions about the
protocol and have these questions answered to their satisfaction. Written informed consent
will be documented prior to engaging in study-related procedures.
Holding Pre-Existing Medications: Participants will be asked to hold their clinical
medications on the day of the study testing, if possible, but this will not be mandatory. The
investigators will make note of the medications used by each participant at the time of the
study.
Study Day: Participants will be instrumented at least 2h post-prandial on an empty bladder.
Participants will be asked to abstain from alcohol, caffeine, and exercise for a period of 12
hours prior to testing. Participants will be allowed to drink water on the morning of study.
Upon lab arrival, a description of the study will be given and written informed consent will
be attained if the individual chooses to participate in the study. A member of the research
team will ask participants about current medications and other disorders they many have as
part of the study inclusion/exclusion criteria. The investigators will also review all other
inclusion/exclusion criteria for the study. All study equipment will be introduced to the
participant, and then the investigators will begin to prepare for the study.
Participants will be asked to lie supine on the tilt table during instrumentation. Following
instrumentation, the study will begin with a 10-minute baseline in the supine position.
During this period, the investigators will track blood pressure, heart rate, brain blood flow
velocity, fluid shifts, and respiratory pattern using the following equipment:
Finger and arm blood pressure cuffs
Skin electrodes to measure heart rate and fluid shifts
A Transcranial Doppler (TCD) which will use a band around the head, with an
ultrasound-like probe at the left and/or right temple
Pulse oximeter on the finger to measure oxygen saturation
Participants will be fitted with a mouthpiece to breathing into. The mouthpiece will be
connected to a breathing bag that will capture the CO2 exhaled. The mouthpiece will also
be connected to a tube that will measure respiratory rate, respiratory depth, CO2 and
O2.
Following instrumentation, participants will complete up to two 70° head-up tilt (HUT) tests
while breathing either normal room air or while breathing with the rebreather. Each HUT will
last a maximum of 5 minutes, and when participants are not upright, the participants will be
in the supine position. Participants will be asked to breathe with the rebreather until the
measured CO2 increases between 5-10mmHg. Once CO2 is increased, HUT will begin. Participants
will continue to breathe with the rebreather until the end of HUT.
The two HUT tests will be randomized and will consist of:
HUT with Room Air
HUT with ETCO2 levels increased 5-10mmHg above normal levels
The primary outcome measure will be the magnitude of the BP response (ΔBP = HUT - Supine)
during Room Air vs. Hypercapnia. The primary outcome will be compared between room air and
hypercapnia using a paired t-test.