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大鼠小肠肠系膜微血管血流随温度变化的光学检测
引用本文:张婷,骆清铭,朱(艹丹),程海英. 大鼠小肠肠系膜微血管血流随温度变化的光学检测[J]. 激光生物学报, 2002, 11(5): 358-363
作者姓名:张婷  骆清铭  朱(艹丹)  程海英
作者单位:华中科技大学生物医学光子学教育部重点实验室,中国湖北,武汉,430074
基金项目:国家自然科学基金重点项目 (6 0 1780 2 8  5 9836 2 4 0 ),国家杰出青年科学基金项目 (6 0 0 2 5 5 14 )
摘    要:利用CCD显微成像技术和激光散斑技术,对局部加热(41℃-54℃,30min)下大鼠小肠肠系膜微血管的管径(直径约15μm-50μm)和血流速率的变化进行实时,在体监测,并由二者计算血流量的变化。结果表明:41℃,43℃,45℃,46℃各温度点30min的加热过程中,血流速度变化平缓,血管管径和血流量明显增加,最终均逐渐趋趋于恒定。49℃时,血流速率仅在前12min内增加,30min时已降至低于初始值,血管管径及血流量在14min时达最大后开始减小,加热停止时仍旧高于初始值。温度高于49℃时(51℃,54℃)血流速率,管径,血流量呈现先升高后下降的变化趋势,在30min时,三者均低于初始值,由此可知,加热时间为30min,大鼠肠系膜微血管的临界温度为49℃;在相同的时间条件下,热损伤速率随温度升高而增加。

关 键 词:大鼠 小肠 肠系膜微血管血流 温度 光学检测 热疗 CCD显微成像 激光散斑
文章编号:1007-7146(2002)05-358-06
收稿时间:2002-08-01
修稿时间:2002-08-01

Optical Monitoring of Dynamics of Blood Flow in Locally Heated Microvessels on Intestine Mesentery of Rats
ZHANG Ting,LUO Qing ming,ZHU Dan,CHENG Hai ying. Optical Monitoring of Dynamics of Blood Flow in Locally Heated Microvessels on Intestine Mesentery of Rats[J]. ACTA Laser Biology Sinica, 2002, 11(5): 358-363
Authors:ZHANG Ting  LUO Qing ming  ZHU Dan  CHENG Hai ying
Abstract:Abstrast:In this study dynamic change of blood flow in local heated mesentery of intestine of SD rats was measured by utilizing laser speckle measurement(measuring the velocity of blood) and CCD microscopic imaging technique (measuring the diameter of vessels)at seven different temperatures(41℃?43℃?45℃?46℃?49℃?51℃?54℃)for 30 minutes respectively in vivo and real time.The results showed that while heated at 41℃~46℃ for 30 min,velocity increased slightly but diameter and blood flow increased markedly and finally got to constants.The value of velocity increased to maximum when microvessels were heated with 49℃ for 12 min.At this temperature,diameter and blood flow increased during the first 14 min,but began to decrease when heated longer.When temperature is higher than 49℃ (51℃,54℃),velocity,diameter and blood flow all increased at first and then decreased during 30 min and at the end of heating they were all greatly lower than control value.We draw our conclusion that the critical temperature is 49℃ for intesti
Keywords:hyperthermia  microvessel diameter  blood flow  CCD microscopic imaging  laser speckle
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