有限要素法解析に基づく経皮的PA信号検出器の高感度化に関する検討

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Published in生体医工学 Vol. 46; no. 2; pp. 238 - 245
Main Authors 和田森, 直, 石原, 康利
Format Journal Article
LanguageJapanese
Published 公益社団法人 日本生体医工学会 2008
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ISSN1347-443X
1881-4379
DOI10.11239/jsmbe.46.238

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Author 石原, 康利
和田森, 直
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Copyright 2008 社団法人日本生体医工学会
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References 4. Takamoto R, Namba R, Nakata O, Sawada T: In Vitro Percutaneous Absorptiometry by Simultaneous Measurement Using the Photoacoustic Method and Absorbance. Anal Chem. 62(2): 674-677, 1990.
30. 白髭稔, 出山貞夫: 黒鉛の特性と技術展開.日立粉末冶金テクニカルレポート. 3: 2-9, 2004.
34. 高本隆一: 経皮吸収測定への応用. 澤田 嗣郎編, 光熱変換分光法とその応用.学会出版センター, 東京, 1997, pp. 188-231.
29. 嘉数 侑昇, 横井 浩史 他: バイオメカニクス. NTS, 東京, 2001, p. 167.
2. 和田森直, 松田甚一: 光音響分光法によるHbA1c濃度モニタリングに関する基礎検討. 生体医工学. 42(3): 159-166, 2004.
5. Rosencwaig A: Photoacoustic Spectroscopy of Biological Materials. Science. 181: 657-658, 1973.
33. McDonald FA, Wetsel GC: Generalized theory of the photoacoustic effect. J Appl Phys. 49(4): 2313-2322, 1978.
23. Aamodt LC, Murphy JC: Effect of 3-D heat flow near edges in photothermal measurements. Appl Opt. 21: 111, 1982.
12. Aamodt LC, Murphy JC, Parker JG: Size considerations in the design of cells for photoacoustic spectroscopy. J Appl Phys. 48: 927-933, 1977.
17. Grice KR, Inglehart LJ, Favro LD, Kuo PK, Thomas RL: Thermal wave imaging of closed cracks in opaque solids. J Appl Phys. 54(11): 6245-6255, 1983.
1. 和田森直, 松田甚一: 光熱変換分光法による生体機能非侵襲計測の試み. 信学技法. MBE2003(61): 31-35, 2003.
6. Quan KM, Ghristison GB, MacKenzie HA, Hodgson P: Glucose determination by a pulsed photoacoustic technique: an experimental study using a gelatin-based tissue phantom. Phys Med Biol. 38(11): 1911-1922, 1993.
24. Bennett CA, Patty RR: Thermal wave interferometry: a potential application of the photoacoustic effect. Appl Opt. 49: 49, 1982.
26. Rosencwaig A: Photoacoustics and photoacoustic spectroscopy. Krieger Pub, New York, 1990, pp. 93-124.
28. 池田研二, 嶋津秀昭: 生体物性/医用機械工学. 秀潤社, 東京, 2000, p. 54.
31. 高本隆一: 光と音で皮膚を視る —光音響法による新しいアプローチ—. 化学と工業. 48(2): 123-126, 1995.
9. Takamoto R, Namba R, Matsuoka M, Sawada T: Human in Vivo Percutaneous Absorptiometry Using the Laser-Photoacoustic Method. Anal Chem. 64(21): 2661-2663, 1992.
3. 和田森直, 松田甚一, 石原康利: 光音響分光法を利用した生体情報計測システムへの適応フィルタの適用の検討. 設計工学. 41(12): 44-51, 2006.
19. Aamodt LC, Murphy JC: Thermal effects in photothermal spectroscopy and photothermal imaging. J Appl Phys. 54(2): 581-591, 1983.
16. Rosencwaig A: Thermal wave microscopy with photoacoustics. J Appl Phys. 51(4): 2206-2209, 1980.
25. Baumann B, Kost B, Groninga H, Wolff M: Eigenmode analysis of photoacoustic sensors via finite element method. Rev Sci Instrum. 77(044901): 1-6, 2006.
22. Opsal J, Rosencwaig A, Willenborg DL: Thermal-wave detection and thin-film thickness measurements with laser beam deflection. Appl Opt. 22(20): 3169, 1983.
14. Olmstead MA, Amer NM, Kohn S, Fournier D, Boccara AC: Photothermal displacement spectroscopy: an optical probe for solids and surfaces. Appl Phys. A. 32: 141-154, 1983.
8. Takamoto R, Yamamoto S, Namba R, Takamatsu T, Matsuo M: In Vivo Percutaneous Absorptionmetry by a Laser Photoacoustic Method Using a Novel Open-Ended Cell Combined with Light Guide. Anal Chem. 66(14): 2267-2271, 1994.
15. Chow HC: Theory of three-dimensional photoacoustic effect with solids. J Appl Phys. 51(8): 4053-4058, 1980.
10. Rosencwaig A, Gersho A: Theory of the photoacoustic effect with solids. J Appl Phys. 47: 64-69, 1976.
21. Thomas RL, Pouch JJ, Wong YH, Favro LD, Kuo PK, Rosencwaig A: Subsurface flaw detection in metals by photoacoustic microscopy. J Appl Phys. 51(2): 1152-1156, 1980.
7. Macenzie HA, Ashton HS, Spiers S, Shen Y, Freeborn SS, Hannigan J, Lindberg J, Rae P: Advances in Photoacoustics Noninvasive Glucose Testing. Clin Chem. 45(9): 1587-1595, 1999.
27. Kritikos HN, Schwan HP: Formation of Hot Spots in Multilayer Spheres. IEEE Trans. Biomedical Eng. BME-23(2): 168-172, 1976.
11. Jackson W, Nabil NM: Piezoelectric photoacoustic detection: Theory and experiment. J Appl Phys. 51(6): 334-3353, 1980.
20. McDonald FA, Wetsel GC: Generalized theory of the photoacoustic effect. J Appl Phys. 49(4): 2313-2322, 1978.
32. 倉本吉泰, 大和田寛, 松田甚一: PAS法による生体情報計測実験. 信学技報. MBE95(80): 33-40, 1995.
18. Rousset G, Lepoutre F, Bertrand L: Influence of thermoelastic bending on photoacoustic experiments related to measurements of thermal diffusivity of metals. J Appl Phys. 54(5): 2383-2391, 1983.
13. Kostli KP, Beard PC: Two-Dimensional Photoacoustic Imaging by Use of Fourier-Transform Image Reconstruction and a Detector with an Anisotropic Response. Appl Opt. 42(10): 1899-1908, 2004.
References_xml – reference: 17. Grice KR, Inglehart LJ, Favro LD, Kuo PK, Thomas RL: Thermal wave imaging of closed cracks in opaque solids. J Appl Phys. 54(11): 6245-6255, 1983.
– reference: 24. Bennett CA, Patty RR: Thermal wave interferometry: a potential application of the photoacoustic effect. Appl Opt. 49: 49, 1982.
– reference: 14. Olmstead MA, Amer NM, Kohn S, Fournier D, Boccara AC: Photothermal displacement spectroscopy: an optical probe for solids and surfaces. Appl Phys. A. 32: 141-154, 1983.
– reference: 19. Aamodt LC, Murphy JC: Thermal effects in photothermal spectroscopy and photothermal imaging. J Appl Phys. 54(2): 581-591, 1983.
– reference: 5. Rosencwaig A: Photoacoustic Spectroscopy of Biological Materials. Science. 181: 657-658, 1973.
– reference: 27. Kritikos HN, Schwan HP: Formation of Hot Spots in Multilayer Spheres. IEEE Trans. Biomedical Eng. BME-23(2): 168-172, 1976.
– reference: 6. Quan KM, Ghristison GB, MacKenzie HA, Hodgson P: Glucose determination by a pulsed photoacoustic technique: an experimental study using a gelatin-based tissue phantom. Phys Med Biol. 38(11): 1911-1922, 1993.
– reference: 9. Takamoto R, Namba R, Matsuoka M, Sawada T: Human in Vivo Percutaneous Absorptiometry Using the Laser-Photoacoustic Method. Anal Chem. 64(21): 2661-2663, 1992.
– reference: 8. Takamoto R, Yamamoto S, Namba R, Takamatsu T, Matsuo M: In Vivo Percutaneous Absorptionmetry by a Laser Photoacoustic Method Using a Novel Open-Ended Cell Combined with Light Guide. Anal Chem. 66(14): 2267-2271, 1994.
– reference: 18. Rousset G, Lepoutre F, Bertrand L: Influence of thermoelastic bending on photoacoustic experiments related to measurements of thermal diffusivity of metals. J Appl Phys. 54(5): 2383-2391, 1983.
– reference: 4. Takamoto R, Namba R, Nakata O, Sawada T: In Vitro Percutaneous Absorptiometry by Simultaneous Measurement Using the Photoacoustic Method and Absorbance. Anal Chem. 62(2): 674-677, 1990.
– reference: 29. 嘉数 侑昇, 横井 浩史 他: バイオメカニクス. NTS, 東京, 2001, p. 167.
– reference: 22. Opsal J, Rosencwaig A, Willenborg DL: Thermal-wave detection and thin-film thickness measurements with laser beam deflection. Appl Opt. 22(20): 3169, 1983.
– reference: 26. Rosencwaig A: Photoacoustics and photoacoustic spectroscopy. Krieger Pub, New York, 1990, pp. 93-124.
– reference: 20. McDonald FA, Wetsel GC: Generalized theory of the photoacoustic effect. J Appl Phys. 49(4): 2313-2322, 1978.
– reference: 15. Chow HC: Theory of three-dimensional photoacoustic effect with solids. J Appl Phys. 51(8): 4053-4058, 1980.
– reference: 1. 和田森直, 松田甚一: 光熱変換分光法による生体機能非侵襲計測の試み. 信学技法. MBE2003(61): 31-35, 2003.
– reference: 28. 池田研二, 嶋津秀昭: 生体物性/医用機械工学. 秀潤社, 東京, 2000, p. 54.
– reference: 21. Thomas RL, Pouch JJ, Wong YH, Favro LD, Kuo PK, Rosencwaig A: Subsurface flaw detection in metals by photoacoustic microscopy. J Appl Phys. 51(2): 1152-1156, 1980.
– reference: 12. Aamodt LC, Murphy JC, Parker JG: Size considerations in the design of cells for photoacoustic spectroscopy. J Appl Phys. 48: 927-933, 1977.
– reference: 31. 高本隆一: 光と音で皮膚を視る —光音響法による新しいアプローチ—. 化学と工業. 48(2): 123-126, 1995.
– reference: 25. Baumann B, Kost B, Groninga H, Wolff M: Eigenmode analysis of photoacoustic sensors via finite element method. Rev Sci Instrum. 77(044901): 1-6, 2006.
– reference: 30. 白髭稔, 出山貞夫: 黒鉛の特性と技術展開.日立粉末冶金テクニカルレポート. 3: 2-9, 2004.
– reference: 34. 高本隆一: 経皮吸収測定への応用. 澤田 嗣郎編, 光熱変換分光法とその応用.学会出版センター, 東京, 1997, pp. 188-231.
– reference: 33. McDonald FA, Wetsel GC: Generalized theory of the photoacoustic effect. J Appl Phys. 49(4): 2313-2322, 1978.
– reference: 7. Macenzie HA, Ashton HS, Spiers S, Shen Y, Freeborn SS, Hannigan J, Lindberg J, Rae P: Advances in Photoacoustics Noninvasive Glucose Testing. Clin Chem. 45(9): 1587-1595, 1999.
– reference: 10. Rosencwaig A, Gersho A: Theory of the photoacoustic effect with solids. J Appl Phys. 47: 64-69, 1976.
– reference: 23. Aamodt LC, Murphy JC: Effect of 3-D heat flow near edges in photothermal measurements. Appl Opt. 21: 111, 1982.
– reference: 3. 和田森直, 松田甚一, 石原康利: 光音響分光法を利用した生体情報計測システムへの適応フィルタの適用の検討. 設計工学. 41(12): 44-51, 2006.
– reference: 32. 倉本吉泰, 大和田寛, 松田甚一: PAS法による生体情報計測実験. 信学技報. MBE95(80): 33-40, 1995.
– reference: 16. Rosencwaig A: Thermal wave microscopy with photoacoustics. J Appl Phys. 51(4): 2206-2209, 1980.
– reference: 2. 和田森直, 松田甚一: 光音響分光法によるHbA1c濃度モニタリングに関する基礎検討. 生体医工学. 42(3): 159-166, 2004.
– reference: 11. Jackson W, Nabil NM: Piezoelectric photoacoustic detection: Theory and experiment. J Appl Phys. 51(6): 334-3353, 1980.
– reference: 13. Kostli KP, Beard PC: Two-Dimensional Photoacoustic Imaging by Use of Fourier-Transform Image Reconstruction and a Detector with an Anisotropic Response. Appl Opt. 42(10): 1899-1908, 2004.
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Title 有限要素法解析に基づく経皮的PA信号検出器の高感度化に関する検討
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