The mechanism(s) responsible for the cardiotoxicity of CO are not clear and do not
appear to arise solely from tissue hypoxia. Tissue hypoxia is produced by CO binding to
haemoglobin and reducing the amount of oxygen carried by the blood in vivo. CO-induced
hypoxia in vivo may be responsible for producing conditions such as those found during
ischaemia/reperfusion (l/R) injury. Reactive oxygen species (ROS) produced during l/R
injury is established and responsible for cellular/tissue damage from the oxidative
damage. We postulate that oxidative stress is responsible for the CO-associated cardiac
morbidities found in some cases following severe acute exposure to CO.
Isolated perfused rat hearts were used to investigate the physiological and biochemical
changes in hearts following CO exposure. Hearts were perfused with buffer equilibrated
with different mixtures of CO (0-0.05% CO for 30 minutes) in the presence of 21% oxygen
during and after CO exposure (for 90 minutes), i.e. normoxic conditions were used
throughout. Some hearts were perfused with water-soluble antioxidants (ascorbic acid and
TroloxC) before and during the CO exposure. The reduced heart rate and perfusate flow
suggest that CO may have a direct effect in heart tissue. Biochemical measurements
suggest that no tissue hypoxia occurred under these conditions. The results provide
evidence to suggest that oxidative stress occurred in ventricle tissue after CO exposure
and was attenuated by the antioxidants. However, isolated rat liver mitochondria exposed
to CO and/or hyperoxia showed no ROS production suggesting that mitochondria may not
be a source of the oxidative stress.
CO exposure may also produce altered myocardial energetics by oxidatively modifying
and/or binding to myoglobin. Tissue damage initiated by CO-induced oxidative stress and
hypoxia may potentiate ageing within heart tissue in vivo and could be responsible for
producing the observed CO-associated heart morbidity in an MR-like injury.
Date of Award | 2003 |
---|
Original language | English |
---|
Awarding Institution | |
---|
Supervisor | J Robert Sneyd (Director of Studies (First Supervisor)), Alan John Moody (Other Supervisor) & Jeremy A. Langton (Director of Studies (First Supervisor)) |
---|
THE CARDIOTOXICITY OF CARBON MONOXIDE
PATEL, A. P. (Author). 2003
Student thesis: PhD