Affiliation:
1. Capital Medical University
2. Institute for Precision Healthcare
3. Institute for Intelligent Healthcare
Abstract
Hemodynamics can be explored through various biomedical imaging techniques. However, observing transient spatiotemporal variations in the saturation of oxygen (sO2) within human blood vessels proves challenging with conventional methods. In this study, we employed photoacoustic computed tomography (PACT) to reconstruct the evolving spatiotemporal patterns in a human vein. Through analysis of the multi-wavelength photoacoustic (PA) spectrum, we illustrated the dynamic distribution within blood vessels. Additionally, we computationally rendered the dynamic process of venous blood flowing into the major vein and entering a branching vessel. Notably, we successfully recovered, in real time, the parabolic wavefront profile of laminar flow inside a deep vein in vivo—a first-time achievement. While the study is preliminary, the demonstrated capability of dynamic sO2 imaging holds promise for new applications in biology and medicine.
Funder
Beijing Friendship Hospital, Capital Medical University
Beijing Nova Program
Science and Technology Program of Beijing Tongzhou District
Capital’s Funds for Health Improvement and Research
National Natural Science Foundation of China
Tsinghua-Foshan Institute of Advanced Manufacturing
Initiative Scientific Research Program, Institute for Intelligent Healthcare, Tsinghua University
Strategic Project of Precision Surgery, Tsinghua University