Title :
An Automated Mouse Tail Vascular Access System by Vision and Pressure Feedback
Author :
Yen-Chi Chang ; Berry-Pusey, Brittany ; Yasin, Rashid ; Nam Vu ; Maraglia, Brandon ; Chatziioannou, Arion X. ; Tsu-Chin Tsao
Author_Institution :
Univ. of California, Los Angeles, Los Angeles, CA, USA
Abstract :
This paper develops an automated vascular access system (A-VAS) with novel vision-based vein and needle detection methods and real-time pressure feedback for murine drug delivery. Mouse tail vein injection is a routine but critical step for preclinical imaging applications. Due to the small vein diameter and external disturbances such as tail hair, pigmentation, and scales, identifying vein location is difficult and manual injections usually result in poor repeatability. To improve the injection accuracy, consistency, safety, and processing time, A-VAS was developed to overcome difficulties in vein detection noise rejection, robustness in needle tracking, and visual servoing integration with the mechatronics system.
Keywords :
blood vessels; medical computing; medical robotics; robot vision; visual servoing; A-VAS; automated mouse tail vascular access system; injection robot; mechatronics system; mouse tail vein injection; murine drug delivery; needle detection method; needle tracking; preclinical imaging application; real-time pressure feedback; vein detection noise rejection; vision-based vein method; visual servoing integration; Band-pass filters; Cameras; Mice; Monitoring; Needles; Veins; Visualization; Image processing; injection robot; marine vein detection; needle guidance;
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2014.2360886
