1.Primarily study on the hemodynamic in the major vascular in the brain by transcranial ultrasound Doppler
Journal of Practical Medicine 2002;435(11):30-33
49 healthy people without the cardiovascular diseases and cerebral pathology with ages of 17-84, divided 3 groups participated to a study. The results have shown that the maximal and medial speed of the major cerebravascular was gradually reduced as increase of age. The highest reduction of speed found in the vascular in the medial brain, followed by anterior, posterior, basal brain and at last of spine. There is no different between vascular and ages in the speed indicators in the healthy persons.
Hemodynamic Phenomena
;
Ultrasonography, Doppler, Transcranial
;
Ultrasonics
;
Ultrasonography
2.Characterization of the Pulmonary Circulation According to Hemodynamic Changes by Computed Tomography.
Byoung Wook CHOI ; Kyu Ok CHOE ; Hee Joung KIM ; Bum Koo CHO ; Kyung Young CHUNG ; Se Kyu KIM ; Bong Kyung KIM ; In Sook YANG
Yonsei Medical Journal 2003;44(6):968-978
Increased or decreased pulmonary blood flow (PBF) and an increased pulmonary vascular resistance (PVR), represent common and important change in pulmonary hemodynamics. In this study, we constructed 3 hemodynamic models in 5 dogs, that is, an increased and a decreased PBF model, and an increased PVR model. A CT perfusion scan was performed in each hemodynamic model. Perfusion parameters including blood flow (BF), blood volume (BV), mean transit time (MTT), and maximal slope (MS) were calculated automatically by specialized software and analyzed for changes according to hemodynamic status. In terms of the normal state, blood flow was affected by gravity and dependent area showed higher BF and BV and lower MS and MTT than the non-dependent area. The decreased PBF model showed a significant increase in BF and MS (p=0.046, 0.005) but no significant change in BV (p > 0.05), and a slight elongation of MTT (p > 0.05) versus the normal state. The increased PBF model showed a slightly increased BV and a slightly decreased MTT (p > 0.05). The increased PVR model showed significant reduction in BF, BV, and MS (p < 0.000, 0.007, 0.000) and a slight increase in MTT, but without statistical significance (p > 0.05). However, it was noticeable that the distribution of MTT with respect to gravity in the normal lung was completely reversed in the increased PVR model. In conclusion, based on our understanding of perfusion characteristic in normal state, abnormal regional hemodynamic changes in the lung can be detected and evaluated. Predicting changes in pulmonary vascular resistance should be possible by a thorough analysis of CT perfusion parameters.
Animals
;
Dogs
;
*Hemodynamic Phenomena
;
*Pulmonary Circulation
;
*Radiography, Thoracic
;
*Tomography, X-Ray Computed