Effects of cold decompression on hemodynamic function and DCS risk in a dry diving rat model
Permanent lenke
https://hdl.handle.net/10037/22995Dato
2021-11-03Type
Journal articleTidsskriftartikkel
Peer reviewed
Sammendrag
Methods: Nine female Sprague Dawley rats had pressure-volume catheters inserted into their left heart ventricle and femoral artery before they were exposed to dry air dives in which their core temperature was normothermic during the bottom phase, cold (35°C) during decompression, and normothermic after the dive. Data from an earlier study were used as controls. The rats were compressed in air to 600 kPa, maintained at pressure for 45 min, and decompressed at 50 kPa/min. Hemodynamic data were recorded before, during, and 60 min after decompression. Venous gas bubbles were recorded in the right heart ventricle and pulmonary artery for 60 min after the dive.
Results and Conclusion: During decompression, cardiac output (CO), and stroke volume (SV) decreased equally in cold rats and controls. CO and SV were temporarily re-established at the surface, before falling again in the cold rats. There was no difference in post-dive venous bubble grades. However, as the post-dive fall in CO and SV could be a sign of gas emboli obstructing the pulmonary circulation, we cannot conclude whether the DCS risk was increased. More sensitive bubble detection methods are needed to elucidate this point.