PUBRICATION

 研究業績

     著書

    1. 生体ひかりイメージング基礎と応用, 株式会社エヌ・ティー・エス, 庭山雅嗣: 第4章第2節, pp. 247–252 (2021) ISBN 9784860437299
    2. Biomedical Engineering, Jenny Stanford Publishing, M. Niwayama: Chapter 8, pp. 133–149 (2021) ISBN: 9789814877633
    3. ウェアラブル・エレクトロニクス, 株式会社エヌ・ティー・エス, 庭山雅嗣: 第1章第5節, pp. 105–110 (2014) ISBN 9784860434052
    4. Application of Near Infrared Spectroscopy in Biomedicine (Handbook of Modern Biophysics), Springer, M. Niwayama: Chapter 1–2, pp. 1–35 (2013/3) ISBN: 9781461462514
    5. Brain Topography and Multimodal Imaging, Kyoto Univ Press., M. Niwayama: pp. 203–206 (2009) ISBN: 9784876987993

     論文(査読有)

    1. D. X. Lioe, Y. Fukushi, M. Hakamata, M. Niwayama, K. Mars, K. Yasutomi, K. Kagawa, S. Yamamoto, S. Kawahito, “A CMOS Lock-In Pixel Image Sensor With Multisimultaneous Gate for Time-Resolved Near-Infrared Spectroscopy”, IEEE Transactions on Electron Devices, 1-7 (2023) [IF=2.917]
    2. K. Mizukoshi, Y. Hamanaka, M. Niwayama, “Investigation of oxygen saturation in regions of skin by near infrared spectroscopy”, Skin Research and Technology, 28, 5, 695-702 (2022) [IF=2.365]
    3. N. Unno, K. Inuzuka, N. Yamamoto, M. Sano, K. Katahashi, T. Kayama, T. Yata, Y. Yamanaka, H. Tsuyuki, Y. Endo, N. Ishikawa, E. Naruse, M. Niwayama, H. Takeuchi, “The Patency of Tibial/Peroneal Arteries Affects the Increment of Regional Tissue Saturation of Oxygen in Each Angiosome after Supercial Femoral Artery Revascularization”, Annals of Vascular Diseases, Vol. 15, No. 1, pp. 14-21 (2022)
    4. M. Niwayama and N. Unno, “Tissue Oximeter with Selectable Measurement Depth Using Spatially Resolved Near-Infrared Spectroscopy,” Sensors, Vol. 21, No. 16, pp. 5573 01–11 (2021). [IF: 3.576]
    5. S. Takagi, R. Kime, N. Murase, M. Niwayama, S. Sakamoto, and T. Katsumura, “Skeletal Muscle Deoxygenation and Its Relationship to Aerobic Capacity During Early and Late Stages of Aging,” Advances in experimental medicine and biology, Vol. 1269, pp. 77–82 (2021). [IF: 2.622]
    6. N. Unno, K. Inuzuka, M. Sano, M. Niwayama, E. Naruse, and H. Takeuchi, “Real-time Assessment of Tissue Oxygenation in Each Angiosome During Endovascular Therapy for Chronic Limb-threatening Ischemia Patients Using a Novel Oximeter TOE-20,” Journal of Vascular Surgery Cases and Innovative Techniques, Vol. 21, pp. 00129:1–5 (2021). [IF: 0.537]
    7. K. Kawai, T. Uchida, M. Mukai, M. Matsumoto, T. Itoh, T. Oda, Y. Horikoshi, K. Suzuki, Y. Kohmura-Kobayashi, N. Furuta-Isomura, C. Yaguchi, M. Niwayama, H. Itoh, N. Kanayama,”Term Newborns with relatively low Tissue Oxygen Saturation Levels soon after Birth are predisposed to Neonatal Respiratory Disorders in Low-risk, Elective Cesarean Sections,” International Journal of Medical Sciences, Vol. 18, No. 11, pp. 2261–2268 (2020). [IF: 3.508]
    8. S. Takagi, R. Kime, T. Midorikawa, M. Niwayama, S. Sakamoto, and T. Katsumura, “Differences in muscle O2 dynamics during treadmill exercise between aerobic capacity-matched overweight and normal-weight adults,” Advances in Experimental Medicine and Biology, Vol. 1232, pp. 223–229 (2020) [IF: 2.622]
    9. T. Yamakawa, T. Inoue, M. Niwayama, F. Oka, H. Imoto, S. Nomura, and M. Suzuki, “Implantable Multi-modality Probe for Subdural Simultaneous Measurement of Electrophysiology, Hemodynamics, and Temperature Distribution,” IEEE Transactions on Biomedical Engineering, Vol. 66, No. 11, pp. 3204–3211 (2019). [IF:4.538]
    10. 庭山雅嗣, “多様な生体組織を対象とした近赤外分光オキシメトリ,” レーザー研究, Vol. 47, No. 10, pp. 594–597 (2019)
    11. T. Yata, M. Sano, T. Kayama, E. Naruse, N. Yamamoto, K. Inuzuka, T. Saito, K. Katahashi, Y. Yamanaka, T. Uchida, M. Niwayama, N. Kanayama, H. Takeuchi, N. Unno, “Utility of a Finger-Mounted Tissue Oximeter with Near-Infrared Spectroscopy to Evaluate Limb Ischemia in Patients with Peripheral Arterial Disease,” Annals of Vascular Diseases, Vol. 12, No. 1, pp. 36–43 (2019).
    12. S. Takagi, R. Kime, N. Murase, M. Niwayama, T. Osada, and T. Katsumura, “Effects of Aerobic Cycling Training on O2 Dynamics in Several Leg Muscles in Early Post-Myocardial Infarction,” Advances in Experimental Medicine and Biology, Vol. 1072, pp. 91–96 (2018). [IF: 2.622]
    13. T. Uchida, N. Kanayama, K. Kawai, M. Mukai, K. Suzuki, H. Itoh, and M. Niwayama, “Reevaluation of intrapartum fetal monitoring using fetal oximetry: A review,” Journal of Obstetrics and Gynaecology Research, Vol. 13761, pp. 1–8 (2018). [IF: 1.392]
    14. M. Niwayama, “Voxel-based measurement sensitivity of spatially resolved near-infrared spectroscopy in layered tissues,” Journal of Biomedical Optics, Vol. 23, No. 3, pp.030503 1–4 (2018). [IF: 3.17]
    15. S. Takagi, R. Kime, M. Niwayama, K. Hirayama, S. Sakamoto, “Effects of 8 Weeks’ Training on Systemic and Muscle Oxygen Dynamics in University Rugby Players,” Advances in Experimental Medicine and Biology, Vol. 977, pp.43–49 (2017). [IF: 2.622]
    16. S. Takagi, R. Kime, M. Niwayama, T. Osada, T. Katsumura, “Multi-site Measurements of Muscle O2 Dynamics During Cycling Exercise in Early Post-myocardial Infarction,” Advances in Experimental Medicine and Biology, Vol. 977, pp.35–41 (2017). [IF: 2.622]
    17. M. Mukai, T. Uchida, H. Itoh, H. Suzuki, M. Niwayama, N. Kanayama, “Tissue oxygen saturation levels from fetus to neonate,” J Obstet Gynaecol Res., Vol. 43, No. 5, pp. 855–859 (2017). [IF: 1.392]
    18. T. Uchida ,N. Kanayama, K. Kawai, and M. Niwayama, “Craniofacial tissue oxygen saturation is associated with blood pH using an examiner’s finger-mounted tissue oximetry in mice,” Journal of Biomedical Optics, Vol. 21, No. 4, pp. 040502.1–5 (2016). [IF: 3.17]
    19. S. Takagi, N. Murase, R. Kime, M. Niwayama, T. Katsumura, “Aerobic training enhances muscle deoxygenation in early post-myocardial infarction,” European journal of Applied Physiology, Vol. 116, No. 1, pp. 673–685 (2016). [IF: 2.580]
    20. R. Kime, M. Niwayama, Y. Kaneko, S. Takagi, S. Fuse, T. Osada, N. Murase, T. Katsumura, “Muscle Deoxygenation and Its Heterogeneity Changes After Endurance Training,” Advances in experimental medicine and biology, Vol. 923, pp. 275–281 (2016) [IF: 2.622]
    21. 内田季之, 金山尚裕, 庭山雅嗣, “子宮,胎児,胎盤の近赤外線による非侵襲rSO2測定, ” 周産期医学, Vol. 46, No. 6, 737–741 (2016).
    22. T. Uchida ,N. Kanayama, M. Mukai, N. Furuta, H. Itoh, H. Suzuki and M. Niwayama, “Examiner’s finger-mounted fetal tissue oximetry:a preliminary report on 30 cases,” Journal of Perinatal Medicine, Vol. 44, No. 7, pp. 745–749 (2016). [IF: 1.901]
    23. S. Takagi, N. Murase, R. Kime, M. Niwayama, T. Osada, T. Katsumura, “Sex-Related difference in Muscle Deoxygenation Responses Between Aerobic Capacity-Matched Elderly Men and Women,” Advances in Experimental Medicine and Biology, Vol. 876, pp.55–61 (2015). [IF: 2.622]
    24. 木村哲朗, 御室総一郎, 鈴木明, 牧野洋, 佐藤重仁, 庭山雅嗣, “星状神経節ブロックの効果判定における携帯型近赤外線分光法測定器の有用性,” ペインクリニック, Vol. 36, No. 1, pp. 97–100 (2015).
    25. M. Niwayama and T. Yamakawa, “Probing closer,” Electronics Letters, Vol. 50, Issue 5, pp. 331–332 (2014). [IF: 1.314]
    26. N. Kanayama and M. Niwayama, “Examiner’s finger-mounted fetal tissue oximetry,” Journal of Biomedical Optics, Vol. 19, No. 6, pp. 067008 1–5, (2014). [IF: 3.17]
    27. M. Niwayama and T. Yamakawa, “Implantable thin NIRS probe design and sensitivity distribution analysis,” Electronics Letters, Vol. 50, issue 5, pp. 346–348 (2014). [IF: 1.314]
    28. S. Takagi, N. Murase, R. Kime, M. Niwayama, T. Osada, T. Katsumura, “Skeletal muscle deoxygenation abnormalities in early post myocardial infarction,” Medicine & Science in Sports & Exercise, Vol. 46, No. 11, pp. 2062–2069 (2014). [IF: 5.411]
    29. T. Yamakawa, T. Inoue, Y. He, M. Fujii, M. Suzuki, and M. Niwayama, “Development of an Implantable Flexible Probe for Simultaneous Near-Infrared Spectroscopy and Electrocorticography,” IEEE Trans. Biomed. Eng., Vol. 61, No. 2, pp. 388–395, (2014). [IF: 4.538]
    30. S. Takagi, R. Kime, T. Midorikawa, M. Niwayama, S. Sakamoto, T. Katsumura, “Skeletal Muscle Deoxygenation Responses During Treadmill Exercise in Children,” Adv Exp Med Biol., Vol. 812, pp.341–346 (2014). [IF: 2.622]
    31. M. Niwayama, H. Suzuki, T. Yamashita, and Y. Yasuda, “Error factors in oxygenation measurement using continuous wave and spatially resolved near infrared spectroscopy,” The Journal of Japanese College of Angiology, Vol. 52, pp. 211–215 (2013).
    32. R. Kime, M. Fujioka, T. Osawa, S. Takagi, M. Niwayama, Y. Kaneko, T. Osada, N. Murase, T. Katsumura, “Which Is the Best Indicator of Muscle Oxygen Extraction During Exercise Using NIRS?: Evidence that HHb Is Not the Candidate,” Advances in Experimental Medicine and Biology, Vol. 789, pp. 163–169 (2013). [IF: 2.622]
    33. S. Takagi, R. Kime, N. Murase, T. Watanabe, T. Osada, M. Niwayama, T. Katsumura, “Aging affects spatial distribution of leg muscle oxygen saturation during ramp cycling exercise,” Advances in Experimental Medicine and Biology, Vol. 789, pp. 157–162 (2013). [IF: 2.622]
    34. 高木俊, 木目良太郎, 庭山雅嗣, 長田卓也, 村瀬訓生, 坂本静男, 勝村俊仁, “運動形態の相違が筋酸素飽和度と最高酸素摂取量の関係に及ぼす影響,” 日本臨床スポーツ医学会誌, Vol. 21, No. 2, pp. 388–395 (2013).
    35. S. Takagi, R. Kime, M. Niwayama, N. Murase and T. Katsumura, “Muscle Oxygen Saturation Heterogeneity Among Leg Muscles During Ramp Exercise,” Advances in Experimental Medicine and Biology, Vol. 765, pp. 273–278 (2013). [IF: 2.622]
    36. N. Stuban and M. Niwayama, “Optimal filter bandwidth for pulse oximetry,” Rev. Sci. Instrum., Vol. 83, No. 10, pp.104708;1–5 (2012). [IF: 1.523]
    37. 市村志朗, 勝村俊仁, 森口哲史, 山田雄太, 中川直樹, 庭山雅嗣, 山本克之, 浜岡隆文, “自転車運動時の大腿部の筋酸素消費量と筋酸素含有量の部位差,” 脈管学, Vol. 52, pp. 115–122 (2012).
    38. N. Stuban, M. Niwayama and H. Santha, “Phantom with Pulsatile Arteries to Investigate the Influence of Blood Vessel Depth on Pulse Oximeter Signal Strength,” Sensors, Vol. 12, No. 1, pp. 895–904 (2012). [IF: 3.576]
    39. T. Hamaoka, K. McCully, M. Niwayama, and B. Chance, “The use of muscle near-infrared spectroscopy in sport, health, and medical sciences: recent developments,” Philos. Trans. R. Soc. A-Math. Phys. Eng. Sci., Vol. 369, pp. 4591–4604 (2011). [IF: 4.226]
    40. Y. Yasuda, T. Ito, M. Miyamura, and M. Niwayama, “Effect of ramp bicycle exercise on exhaled carbon monoxide in humans,” Journal of Physiological Sciences, Vol. 61, No. 4, pp. 279–286 (2011). [IF: 2.781]
    41. H. Suzuki, M. Niwayama, T. Yamakawa, M. Ohkubo, R. Kime, and T. Katsumura, “Simultaneous determination of absorption coefficients for skin and muscle tissues using spatially resolved measurements,” Advanced Materials Research, Vol. 222, pp. 309–312 (2010).
    42. T. Yamashita, M. Niwayama, and T. Yamakawa, “Accurate and fast estimation of optical properties using optical path length and spatially resolved reflectance measurement,” Advanced Materials Research, Vol. 222, pp. 318–321 (2010).
    43. R. Kime, M. Niwayama, M. Fujioka, K. Shiroishi, T. Osawa, K. Shimomura, T. Osada, N. Murase, and T. Katsumura, “Unchanged muscle deoxygenation heterogeneity during bicycle exercise after 6 week endurance training,” Advances in Experimental Medicine and Biology, Vol. 662, pp. 353–358 (2010). [IF: 2.622]
    44. N. Stuban and M. Niwayama, “Adjustable fetal phantom for pulse oximetry,” Rev. Sci. Instrum., Vol. 80, No. 5, pp. 054301;1–4 (2009). [IF: 1.523]
    45. M. Ohkubo, T. Hamaoka, M. Niwayama, N. Murase, T. Osada, R. Kime, Y. Kurosawa, A. Sakamoto, and T. Katsumura, “Local increase in trapezius muscle oxygenation during and after acupuncture,” Dynamic Medicine, Vol. 8, No. 2, pp. 1–13 (2009).
    46. N. Stuban and M. Niwayama, “Non-invasive calibration method for pulse oximeters,” Periodica Polytechnica, Vol. 52, pp. 91–94 (2008).
    47. 木目良太郎, 庭山雅嗣,曾根慎悟,白石聖, 藤岡正子, 下村浩祐, 長田卓也, 村瀬訓生, 勝村俊仁, “自転車運動時における単一筋内酸素濃度の部位差について-多チャンネル型近赤外空間分解分光法を用いて-,” 脈管学, Vol. 48, No. 4, pp. 383–388 (2008).
    48. K. J. Kek, R. Kibe, M. Niwayama, N. Kudo, and K. Yamamoto, “Optical imaging instrument for muscle oxygenation based on spatially resolved spectroscopy,” Optics Express, Vol. 16, No. 22, pp. 18173–18187 (2008). [IF: 3.894]
    49. M. Niwayama, H. Murata, S. Sone, and S. Shinohara, “Noncontact measurement of deep tissue absorption coefficient using spatially resolved near-infrared spectroscopy,” IEEJ Transactions on Electrical and Electronic Engineering, Vol. 2, No. 4, pp. 485–487 (2007). [IF:0.752]
    50. 庭山雅嗣,曾根慎悟,村田秀覚, 吉田博文,篠原茂信, “空間分解NIRSを用いた筋組織酸素濃度計測における誤差要因とその補正法,” 脈管学, Vol. 47, pp. 17–20 (2007).
    51. M. Niwayama, H. Murata, and S. Shinohara, “Non-contact tissue oxygenation measurement using near-infrared spectroscopy,” Rev. Sci. Instrum., Vol. 77, No. 7, pp. 073102;1–4 (2006). [IF: 1.523]
    52. M. Niwayama, K. Yamamoto, D. Kohata, K. Hirai, N. Kudo, T. Hamaoka, R. Kime, and T. Katsumura, “A 200-channel imaging system of muscle oxygenation using CW near-infrared spectroscopy,” IEICE Trans. Inf. & Syst., Vol. E85-D, No. 1, pp. 115–123 (2002). [IF:0.559]
    53. J. Shao, L. lin, M. Niwayama, N. Kudo, and K. Yamamoto, “Theoretical and experimental studies on linear and nonlinear algorithms for the measurement of muscle oxygenation using continous-wave near-infrared spectroscopy,” Opt. Eng., Vol. 40, No. 10, pp. 2293–2301 (2001). [IF:1.084]
    54. M. Niwayama, L. Lin, J. Shao, N. Kudo, and K. Yamamoto, “Quantitative measurement of muscle hemoglobin oxygenation using near-infrared spectroscopy with correction for the influence of a subcutaneous fat layer,” Rev. Sci. Instrum., Vol. 71, No. 12, pp. 4571–4575 (2000). [IF: 1.523]
    55. 庭山雅嗣, 浜岡隆文, 木目良太郎, 林凌, 邵軍, 工藤信樹, 加藤千恵次, 勝村俊仁, 山本克之, “NIRSによる筋組織酸素計測における脂肪層の影響補正-31P-NMRおよびPETによる筋酸素消費量との比較-,” Therapeutic Research, Vol. 21, No. 6, pp. 1520–1523 (2000).
    56. L. Lin, M. Niwayama, T. Shiga, N. Kudo, M. Takahashi, and K. Yamamoto, “Influence of a fat layer on muscle oxygenation measurement using near-IR spectroscopy: quantitative analysis based on two-layered phantom experiments and Monte Carlo simulation,” Frontiers Med. Biol. Eng., Vol. 10(1), pp. 43–58 (2000).
    57. 庭山雅嗣, 志賀利一, 林凌, 工藤信樹, 高橋誠, 山本克之, “近赤外光を用いた筋組織酸素計測における脂肪層の影響とその補正,” 医用電子と生体工学, Vol. 36(1), pp. 41–48 (1998).
    58. 山本克之, 庭山雅嗣, 林凌, 工藤信樹, 高橋試, 志賀利一, “近赤外光組織酸素計測における脂肪層の影響-マルチセンサ方式を用いた同時計測による検討-,”(短報)Therapeutic Research, Vol. 18(7), pp. 2315–2318 (1997).

    解説

    1. 金山尚裕, 内田季之 , 向麻利, 庭山雅嗣, “胎児酸素飽和度測定 (特集 産婦人科臨床研究最前線),” 産科と婦人科, No. 83, No.10, pp. 1178–1183 (2016)
    2. 金山 尚裕 , 内田 季之 , 庭山 雅嗣, “3分でわかる 周産期医療キーワード2016(第2回)内診指接着型胎児オキシメータの開発, ” ペリネイタルケア, Vol. 35, No. 2, pp. 174–176 (2016)
    3. 金山尚裕 , 内田季之 , 庭山雅嗣, “内診指接着型胎児オキシメーターの開発 ~難治性の周産期common diseaseへの挑戦~”, 臨床婦人科産科, Vol. 70, No. 1, pp. 96–104 (2016)
    4. 庭山雅嗣,”診断指接着型オキシメータ―の基礎,” 産科と婦人科, Vol. 82, No. 12, pp. 17–21 (2015)
    5. 山本克之, 庭山雅嗣, 工藤信樹, 川初清典, “近赤外光組織酸素モニタによる筋代謝の測定,” 計測と制御, Vol. 39, pp. 283–286 (2000)


    国際会議、国内一般講演

      静大データベースに記載。


    特 許

    1. 内田 真司, 楠亀 弘一, 式井 愼一, 庭山 雅嗣, “生体情報測定装置、生体情報測定方法及びプログラム,” 日本特許登録番号:第6763719号 (2020.9.14)
    2. 鹿志村剛, 平泰彦, 庭山 雅嗣, “一酸化炭素中毒解消装置並びに当該一酸化炭素中毒解消装置を有する一酸化炭素中毒治療用上着及び一酸化炭素中毒治療用カテーテル, 日本特許登録番号:第6448037号 (2018.12.14)
    3. 金山尚裕, 庭山雅嗣, “触診用近赤外酸素濃度センサ,” 日本特許登録番号:第6344725号 (2018.6.1)
    4. 庭山雅嗣, 山川俊貴, “硬膜下センサ,” 日本特許登録番号:第6296606号 (2018.3.2)
    5. 庭山雅嗣, 金山尚裕, 鈴木一有, “光学的測定装置,” 日本特許登録番号:第6344725号 (2016.7.15)
    6. 庭山雅嗣, “光学的測定装置,光学的測定方法,及び光学的測定プログラムを格納した記憶媒体,” 日本特許登録番号: 第5062698号 (2012.8.17), United States Patent登録番号:US8369914B2 (2013.2.5), European Patent登録番号:2034294 (2011.9.14), 韓国登録番号:第10-1041727号 (2011.6.8), 中国登録番号:CN101454654B (2011.4.6)
    7. 山本克之, 庭山雅嗣, 志賀利一, 田部一久, “生体組織内の吸光物質濃度および生体の介在組織厚の計測方法並びに計測装置,” 日本特許登録第3035791号 (2000.4.24)

    実 施

      ・国際公開WO 2007/139192 A1等に関して実施8件