Venipuncture indication system based on an ultra-miniature side-view optical coherence tomography endoscopic probe
10.3760/cma.j.cn121382-20240312-00503
- VernacularTitle:基于超微型侧视光学相干断层成像内窥探针的静脉穿刺指示系统
- Author:
Sha WAN
1
;
Zihao HUANG
Author Information
1. 中南民族大学实验教学与工程训练中心,武汉 430074
- Keywords:
Venipuncture;
Endoscopic probe;
Optical coherence tomography;
Intravenous injection
- From:
International Journal of Biomedical Engineering
2024;47(5):430-435
- CountryChina
- Language:Chinese
-
Abstract:
Objective:To develop a venipuncture indication system based on an ultra-miniature side-view optical coherence tomography (OCT) endoscopic probe. This system enables real-time scanning and imaging of the tissue around the tip of the intravenous needle, which is used to determine whether the intravenous needle has penetrated the blood vessel.Methods:An ultra-miniature side-view OCT needle probe was fabricated and placed into the stem of an elongated 30G hypodermic needle to make the OCT endoscopic probe. The endoscopic probe was inserted into the stem of an intravenous needle and the tip of the probe was allowed to probe out of the intravenous needle. This allows the OCT endoscopic probe to be driven by the rotating collar to scan and image the tissue around the tip of the intravenous needle. Imaging experiments were performed using mouse blood and non-blood tissues (skeletal muscle and liver) to verify system function.Results:Blood did not produce OCT signals at most locations except for a weak OCT signal at locations near the scanning window of the endoscope probe (i.e., the top of the image). The intensity of the OCT signal generated by it decayed rapidly with the increase in imaging depth. At a depth of 300-400 μm from the scanning window, the OCT signal has almost completely disappeared. Strong OCT signals appeared in the images of skeletal muscle. Its signal intensity decayed with the increase of imaging depth, but a more obvious OCT signal could be observed at a depth of more than 900 μm from the scanning window. The distribution of OCT signal intensity within skeletal muscle was very heterogeneous. The connective tissue embedded in the skeletal muscle showed stronger OCT signals than the surrounding skeletal muscle, while there was almost no OCT signal in the muscle at the spaces located between the muscle fiber bundles. A strong OCT signal was observed in the images of liver tissue. The attenuation of this signal with increasing imaging depth was more pronounced. At a distance of 600-700 μm from the scanning window, the OCT signal had almost completely disappeared. The intensity distribution of the OCT signal in the internal image of the liver tissue was relatively uniform.Conclusions:The proposed venipuncture indication system is able to image the tissue around the tip of the injection needle instantly, and provide a more reliable indication of whether the needle has penetrated the blood vessel during clinical venipuncture.
