The research aimed to establish the effect of supplying additional oxygen on both blood flow to the brain and blood vessel function in chronic obstructive pulmonary disease (COPD) patients. The researchers used ultrasound to view and measure blood flow in the brain in these patients at rest, before and during delivery of this additional oxygen. The oxygen was delivered through the nasal passage for 20-30 minutes.
In addition to testing blood flow in the brain, the authors also tested the link between brain activity and blood flow in the brain. Participants began this test with their eyes shut, having opened them and then read standardised text. This task was designed to increase activity in the brain, and as a result brain blood flow was expected to increase to provide adequate oxygen supply.
Ultrasound was used to measure the extent to which brain blood flow increased. Pairing these ultrasound measures with a measurement of blood oxygen levels allowed authors to estimate how much oxygen delivery to the brain increased during the eyes open reading test.
The research team found that blood flow and oxygen delivery to the brain was significantly increased during reading. This was due to blood vessels in the brain becoming dilated in response to the greater oxygen demand when the brain was active. It can thus be concluded that when COPD patients receive additional oxygen it improves the function of blood vessels in their brain.
This study showed that providing extra oxygen improves the function of blood vessels in the brain by matching blood supply to the demands of the brain activity.
However, COPD patients typically use this extra oxygen therapy throughout the day and for long periods of time, potentially years. This study does not indicate the influence of long term oxygen therapy on the function of blood vessels in the brain. Despite these potential limitations, this work has set the foundation for the researchers to investigate the biological systems that control oxygen delivery to the brain.
Lead author Ryan Hoiland said, "I am typically used to working with young, healthy individuals, and so this study in patients with lung disease was an eye-opening experience. I learned more about where I want to take my research career in the future, and how I want to design my research to hopefully improve treatments for people with breathing difficulties."
The study appeared in the journal Experimental Physiology....