激光杂志
激光雜誌
격광잡지
LASER JOURNAL
2014年
1期
29-32
,共4页
汪曼青%上官冰%夏楠%吴小鹰%陈海燕%周平%侯文生
汪曼青%上官冰%夏楠%吳小鷹%陳海燕%週平%侯文生
왕만청%상관빙%하남%오소응%진해연%주평%후문생
近红外激光%神经刺激%神经电活动
近紅外激光%神經刺激%神經電活動
근홍외격광%신경자격%신경전활동
near infrared light%neural stimulation%neural activity
近红外光刺激因其非侵入性、高空间分辨率等优势,成为近年来正在研究的一项新的神经刺激技术。目的:探讨808nm近红外脉冲光刺激神经组织的有效性和安全性。方法:本文中搭建了808nm光刺激实验平台,主要包括808nm激光器、恒流源以及基于MC9S12XE的控制电路,根据实验要求对激光器脉冲输出性能进行了测试;经光纤耦合后,用频率2Hz ,脉宽100至1000us脉冲光刺激大鼠初级运动皮层,记录并分析皮层神经元响应。结果:在控制电路调制下激光器脉冲近红外光输出参数稳定;随着脉冲光能量的增加,初级运动皮层神经元spike发放率增加,且在0.2894至2.8939J/cm2阈值范围内光刺激未对神经细胞造成可见性热损伤。结论:本文中实现了808nm激光器脉冲光控制,实验结果初步证实了短波近红外脉冲光刺激中枢神经系统的有效性和安全性。
近紅外光刺激因其非侵入性、高空間分辨率等優勢,成為近年來正在研究的一項新的神經刺激技術。目的:探討808nm近紅外脈遲光刺激神經組織的有效性和安全性。方法:本文中搭建瞭808nm光刺激實驗平檯,主要包括808nm激光器、恆流源以及基于MC9S12XE的控製電路,根據實驗要求對激光器脈遲輸齣性能進行瞭測試;經光纖耦閤後,用頻率2Hz ,脈寬100至1000us脈遲光刺激大鼠初級運動皮層,記錄併分析皮層神經元響應。結果:在控製電路調製下激光器脈遲近紅外光輸齣參數穩定;隨著脈遲光能量的增加,初級運動皮層神經元spike髮放率增加,且在0.2894至2.8939J/cm2閾值範圍內光刺激未對神經細胞造成可見性熱損傷。結論:本文中實現瞭808nm激光器脈遲光控製,實驗結果初步證實瞭短波近紅外脈遲光刺激中樞神經繫統的有效性和安全性。
근홍외광자격인기비침입성、고공간분변솔등우세,성위근년래정재연구적일항신적신경자격기술。목적:탐토808nm근홍외맥충광자격신경조직적유효성화안전성。방법:본문중탑건료808nm광자격실험평태,주요포괄808nm격광기、항류원이급기우MC9S12XE적공제전로,근거실험요구대격광기맥충수출성능진행료측시;경광섬우합후,용빈솔2Hz ,맥관100지1000us맥충광자격대서초급운동피층,기록병분석피층신경원향응。결과:재공제전로조제하격광기맥충근홍외광수출삼수은정;수착맥충광능량적증가,초급운동피층신경원spike발방솔증가,차재0.2894지2.8939J/cm2역치범위내광자격미대신경세포조성가견성열손상。결론:본문중실현료808nm격광기맥충광공제,실험결과초보증실료단파근홍외맥충광자격중추신경계통적유효성화안전성。
Infrared neural stimulation (INS) has been proposed as a new neural stimulation technology for free-contract, spatial-ly selective of neural tissue. Objective: Preliminary study the effectively and safety of pulsed infrared light stimulation in neural tis-sue. Methods: First, we set 808nm INS experimental platform, including 808nm laser, constant current source and control circuit based on MC9S12XE;secondly, the output performance of pulsed infrared laser were tested;then modulated laser light with repetition rate 2Hz, pulse width 100~1000us was coupled to an optical fiber to stimulate the primary motor cortex of SD rat, and the neural re-sponse was recorded at the same time. Results: The output of pulsed laser was stable; spike rate increased with the increase of the stimulation energy;808nm pulsed INS didn’t cause any thermal damage with radiant exposure ranged form0.2894 J/cm2 to 2.8939 J/cm2. Conclusion:In our study, 808 nm laser pulse light control is realized, and the result preliminary confirmed that short-wavelength pulsed near infrared can be used effectively and safely to activate central neurol.
