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Evaluation of the Bending Loss of the Hollow Optical Fiber for Application of the Carbon Dioxide Laser to Endoscopic Therapy 被引量:1

Evaluation of the Bending Loss of the Hollow Optical Fiber for Application of the Carbon Dioxide Laser to Endoscopic Therapy
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摘要 Since carbon dioxide laser is excellent for incision, hemostasis, coagulation, and vaporization of soft tissues, it has been widely applied in clinical treatments as the laser knife. In these days, flexible thin hollow optical fibers transmitting mid-infrared light have been developed, and the application of carbon dioxide laser to endoscopic therapy has become possible. However, it is expected that the irradiation effect is influenced by the change in the laser power at the tip of the hollow optical fiber due to the change in the transmittance by the bending loss. The purpose of this research is to quantitatively evaluate the change in the output power and therapeutic effect by bending the hollow optical fiber in a gastrointestinal endoscope. The change in the transmittance of the hollow optical fiber due to the insertion of the fiber into the endoscope and bending of the head of the endoscope was measured. Then, the relationship between the irradiated laser power and the incision depth for a porcine stomach was investigated. As the results, the most significant decrease in the transmittance of the hollow optical fiber was caused by the insertion of the fiber into the instrument channel of the endoscope, and bending of the head of the endoscope with the angle of 90° decreased the output laser power and incision depth by 10% and 25%, respectively. Therefore, it was confirmed that the bending loss of the hollow optical fiber due to the bending of the head of the endoscope had no significant influence on the endoscopic therapy using the carbon dioxide laser. Since carbon dioxide laser is excellent for incision, hemostasis, coagulation, and vaporization of soft tissues, it has been widely applied in clinical treatments as the laser knife. In these days, flexible thin hollow optical fibers transmitting mid-infrared light have been developed, and the application of carbon dioxide laser to endoscopic therapy has become possible. However, it is expected that the irradiation effect is influenced by the change in the laser power at the tip of the hollow optical fiber due to the change in the transmittance by the bending loss. The purpose of this research is to quantitatively evaluate the change in the output power and therapeutic effect by bending the hollow optical fiber in a gastrointestinal endoscope. The change in the transmittance of the hollow optical fiber due to the insertion of the fiber into the endoscope and bending of the head of the endoscope was measured. Then, the relationship between the irradiated laser power and the incision depth for a porcine stomach was investigated. As the results, the most significant decrease in the transmittance of the hollow optical fiber was caused by the insertion of the fiber into the instrument channel of the endoscope, and bending of the head of the endoscope with the angle of 90° decreased the output laser power and incision depth by 10% and 25%, respectively. Therefore, it was confirmed that the bending loss of the hollow optical fiber due to the bending of the head of the endoscope had no significant influence on the endoscopic therapy using the carbon dioxide laser.
出处 《Optics and Photonics Journal》 2013年第4期14-19,共6页 光学与光子学期刊(英文)
关键词 HOLLOW Optical FIBER Carbon Dioxide Laser BENDING LOSS ENDOSCOPIC THERAPY Hollow Optical Fiber Carbon Dioxide Laser Bending Loss Endoscopic Therapy
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同被引文献8

  • 1P. Roy Chaudhuri,C. Lu,W. Xiaoyan.Guided Modes of Hollow Optical Fiber Based Components: Analytical Solutions[J].光学学报,2003,23(S1):159-160. 被引量:1
  • 2Sejin Lee,Jiyoung Park, Yoonseob Jeong, et al. Guided wave analysis of hollow optical fiber for mode-couping device applications [J]. J Lightw Technol, 2009, 27 (22): 4919- 4926.
  • 3Partha Roy Chandhuri, Lu C, Xiaoyan W. Scalar modal and exact vectorial descr-iption for the design analysis of hollow optical fiber components [J]. Optics Communications, 2003, 228: 285-293.
  • 4Zhao Chujun, Tang Zhixiang,Ye Yunxia, et al. Field and dispersion properties of subwavelength-diameter hol-low optical fiber[J]. Optics Express, 2007, 15(11): 1143-1149.
  • 5Choi S, Oh K, Shin W, et al. Novel mode converter based on hollow optical fiber for gigabit LAN communication [J]. IEEE Photon Teehnol Lett, 2002, 14(2):248-250.
  • 6Li Mingjun, Chen Xin, Liu Anping, et al. Limit of effective area for single-mode operation in step-index large mode area laser fibers[J]. J Lighw Technol, 2009, 27(15): 3010-3016.
  • 7Kwang Taek Kim, Hyo Kyeom kim. Characterization of evanescent wave coupling in side-polished hollow optical fiber and its application as a broadband coupler [J]. Optics Communications, 2005, 245: 145-151.
  • 8杨红,孙小菡,张明德.空心光纤特性分析与实验研究[J].电子元件与材料,2003,22(5):17-20. 被引量:2

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