Development of minimally invasive medical tools using laser processing on cylindrical substrates

This paper reports micro‐fabrication techniques using laser processing on cylindrical substrates for the realization of high‐performance multifunctional minimally invasive medical tools of small size. A spring‐shaped shape memory alloy (SMA) micro‐coil with a square cross‐section has been fabricated...

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Bibliographic Details
Published inElectrical engineering in Japan Vol. 176; no. 1; pp. 65 - 74
Main Authors Haga, Yoichi, Muyari, Yuta, Goto, Shoji, Matsunaga, Tadao, Esashi, Masayoshi
Format Journal Article
LanguageEnglish
Published Hoboken Wiley Subscription Services, Inc., A Wiley Company 15.07.2011
Subjects
Biocompatibility
catheter
Catheters
endoscope
laser
Lasers
Medical
minimally invasive
Multilayers
non-planer
Shape memory alloys
Surgical implants
Titanium base alloys
Tubes
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Summary:This paper reports micro‐fabrication techniques using laser processing on cylindrical substrates for the realization of high‐performance multifunctional minimally invasive medical tools of small size. A spring‐shaped shape memory alloy (SMA) micro‐coil with a square cross‐section has been fabricated by spiral cutting of a Ti‐Ni SMA tube with a femtosecond laser. A small‐diameter active bending catheter actuated by a hydraulic suction mechanism for intravascular minimally invasive diagnostics and therapy has also been developed. The catheter is made of Ti‐Ni superelastic alloy (SEA), which is processed by laser micromachining, and a silicone rubber tube that covers the outside of the SEA tube. The active catheter is effective for insertion into branches of blood vessels that diverge at acute angles where it is difficult to proceed. Multilayer metallization and patterning have been performed on glass tubes with 2‐ and 3‐mm external diameters using maskless lithography techniques with a laser exposure system. Using the laser soldering technique, integrated circuit parts have been mounted on a multilayer circuit patterned on a glass tube. These fabrication techniques will be effective for the realization of high‐performance multifunctional catheters, endoscopic tools, and implanted small capsules. © 2011 Wiley Periodicals, Inc. Electr Eng Jpn, 176(1): 65–74, 2011; Published online in Wiley Online Library (wileyonlinelibrary.com). DOI 10.1002/eej.21030
Bibliography:istex:71E2C357A3799959E805A2FD7462D944AD53BB3D
ArticleID:EEJ21030
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ISSN:0424-7760
1520-6416
1520-6416
DOI:10.1002/eej.21030