AI Article Synopsis

  • The study focuses on diagnosing small vessel disease and aims to visualize microvascular structures using 3T MRI, which is currently challenging.
  • Researchers developed a microcirculation system to test various MRI sequences and found that they could successfully image small structures starting from 0.5 mm in diameter.
  • Results indicated that the highest signal-to-noise ratio was achieved with specific imaging techniques, validating this system's potential for studying small vessels' anatomy and function in relation to disease.

Article Abstract

The diagnosis of small vessel disease is attracting interest; however, it remains difficult to visualize the microvasculature using 3 Tesla (T) magnetic resonance imaging (MRI). Therefore, this study aimed to visualize the microvascular structure and measure a slow flow on 3T MRI. We developed a microcirculation system using piezoelectric pumps connected to small tubes (0.4, 0.5, 0.8, and 1.0 mm) and evaluated various MR sequences and imaging parameters to identify the most appropriate acquisition parameters. We found that the system could image small structures with a diameter of 0.5 mm or more when using a 1 m-long tube (maximal signal intensity of 241 in 1 mm, 199 in 0.8 mm, and 133 in 0.5 mm). We also found that the highest signal-to-noise ratio (SNR) appeared on 2-dimensional time-of-flight low-resolution imaging and that the flow velocity (10.03 cm/s) was similar to the actual velocity (11.01 cm/s in a flowmeter) when velocity encoding of 30 cm/s was used in a 0.8 mm-diameter tube. In conclusion, this study demonstrates that a microcirculation system can be used to image small vessels. Therefore, our results could serve as a basis for research on vessels' anatomical structure and pathophysiological function in small vessel disease.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9415701PMC
http://dx.doi.org/10.3390/s22166191DOI Listing

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