Felipe B. Tancredi1,2, Claudine J. Gauthier,
2,3, Ccile J. Madjar2, Richard D. Hoge1,2
1Biomedical Engineering, Universit de
Montral, Montreal, Quebec, Canada; 2UNF, CRIUGM, Montreal,
Quebec, Canada; 3Physiology, Universit de Montral, Montreal,
Quebec, Canada
ASL
is a technique of particular interest for studies in which hypercapnia
challenge is employed. We sought to test whether the shortening in blood
transit time that vasodilation by moderate hypercapnia may cause was leading
to a systematic underestimation of perfusion responses measured with ASL. We
measured flow responses in three different moments: at hypercapnia, during
visual stimulus and when both were simultaneously present. We found that the
response to the combined stimulus was a linear combination of the responses
the individual stimulus alone, thats to say, the focal response to a visual
stimulus during hypercapnia challenge was not underestimated. ASL is a
technique of particular interest for studies in which hypercapnia challenge
is employed. We sought to test whether the shortening in blood transit time
that vasodilation by moderate hypercapnia may cause was leading to a
systematic underestimation of perfusion responses measured with ASL. We
measured flow responses in three different moments: at hypercapnia, during
visual stimulus and when both were simultaneously present. We found that the
response to the combined stimulus was a linear combination of the responses
the individual stimulus alone, thats to say, the focal response to a visual
stimulus during hypercapnia challenge was not underestimated.