Dr. Tomohiko Utsuki

Journal of Biomedical Research and Reviews

Biomedical Engineering

Name: Dr. Tomohiko Utsuki

Educational Qualification: Ph.D.

Designation: Associate professor at Tokai University, Japan

Department: Biomedical Engineering

University: Tokai University

Email: tom.utsuki@tokai-u.jp

Research Interests: To develop an automatic control system of physiological state, such as brain’s state including intracranial pressure, cerebral blood flow, brain temperature, etc., for future advanced medicine; To develop an advising system which judges suitable clinical department for consultation according to the automatic diagnosis of possible diseases using database and/or artificial intelligence; To construct a mathematical model of psychological procedure of such as response, decision, judgment for quantitative evaluation of communication; To solve the problem of variable sampling time, which often occer when physiological state is controlled. i.e., to control the object of which the controlled variables are sampled at variable time intervals.

Biography: Dr. Tomohiko Utsuki is currently an associate professor of biomedical engineering at Tokai University in Japan. In 2006, he obtained his Ph.D from Tokyo Medical and Dental University in Japan. His main research is “Automatic control of physiological state for future more advanced medical treatment”, especially he developed an automatic control system of brain temperature and actually applied it to patients for clinical hypothermia in the intensive care unit of Tokyo Medical and Dental University Hospital. Currently, he is constructing models concerned with blood flow, fluid migration and heat transfer in brain in order to develop an automatic integrated control system of brain's physiological state including intracranial pressure, cerebral blood flow and brain temperature, which are the most significant targets of treatment in brain resuscitation. On the other hand, he is developing an advising system which judges suitable clinical department for consultation according to the automatic diagnosis of possible diseases.

Book Chapter
1) T. Utsuki: Automatic Control of Brain Temperature by Surface Cooling. Advances in Medicine and Biology, Vol. 93. Nova Science Publishers, Inc, New York, pp.31-57, 2015.
Scientific Papers
2) T. Utsuki: A model of cerebral blood circulation for future automatic control of brain state. Proc the IASTED Int Conf Modelling Identification Control, 840-058 (paper code), 2017.
3) T. Utsuki: Model Analysis of Cerebral Circulation under the Occlusion of Right Middle Cerebral Artery. Proc 38th Ann Int Conf IEEE Eng Med Biol Soc, FrCT1.30 (paper code), 2016.
4) T. Utsuki: Development of a cerebral circulation model for the automatic control of brain physiology. Proc 37th Ann Int Conf IEEE Eng Med Biol Soc, 1890-1893, 2015.
5) T. Utsuki, H. Wakamatsu: Development of Automatic Brain Temperature Controller Based on Conditions of Clinical Use. Electronics and Communications in Japan, 97(4):19-29, April 2014.
6) T. Utsuki: Development of Inferring System of Body Fluid Distribution using Fuzzy Network. Proc 1st Glob Conf Biomed Eng, E2-0514-1, 2014.
7) T. Utsuki: Automatic Control System of Brain Temperature by Air-Surface Cooling for Therapeutic Hypothermia. Proc 35th Ann Int Conf IEEE Eng Med Biol Soc, 3741-3744, 2013.
8) T. Utsuki, H. Wakamatsu: Development of Automatic Controller of Brain Temperature Based on the Conditions of Clinical Use. IEEJ Transactions on Electronics, Information and Systems, 132(4)?615-622?2012. [in Japanese]
9) H. Wakamatsu, T. Utsuki, C. Mitaka, K. Ohno: Clinical system engineering of long-term automatic thermal control during brain hypothermia under changing conditions. Technology and Health Care, 18(3):181-201, 2010.
10)H. Wakamatsu, T. Utsuki: Development of a basic air-cooling fuzzy control system for hypothermia. Journal of Artificial Life and Robotics, 14(12): 311-317, 2009.
11)H.Wakamatsu, T.Utsuki, T.Wakatsuki: Basic air-cooling fuzzy control system for brain hypothermia. IFMBE Proceedings, 25(7):153-156, 2009.
12)H. Wakamatsu , S. Honma, T. Takahashi, T. Utsuki: International conference as an application of BPSE remote communication system. Japan journal of rural and remote area nursing, 4:59-68, 2009.
13)H. Homma, H. Wakamatsu, T. Takahashi, T. Utsuki: Proposal of remote welfare system using wide area wireless LAN. ProcWalfare Eng Symp, 65-66, 2009.
14)H. Wakamatsu, T. Utsuki, T. Wakatsuki, H. Toriyama, T. Momose, M. Tamaki, M. Mukawa, M. Aoyagi, C. Mitaka, K. Ohno: Automatic clinical control of brain temperature by adaptive control system. Proc 8th Asia-Pacific Conf Control & Meas, 1-6, 2008.
15)T. Utsuki, T. Takahashi, H. Wakamatsu, M. Nobuta: Development of Remote Communication
System for Nursing in Isolated Islands and Rural Areas. Japan journal of rural and remote area nursing, 3:103-115, 2008. [in Japanese]
16)T. UTsuki, T. Wakatsuki, H. Wakamatsu: Development of Automatic Water Temperature Controller by Water?surface Cooling for Brain Hypothermia treatment. Transactions of Japanese Society for Medical and Biological Engineering, 45(1): 1-10,2007. [in Japanese]
17)H Wakamatsu, T Wakatsuki, T Utsuki: Comparison of Fuzzy Control Systems for Hypothermal Brain Temperature Regulation. Journal of Artificial Life and Robotics, 11(2): 183-189, 2007.
18)H Wakamatsu, T Wakatsuki, T Utsuki: Experimental Qualification of Automatic Fuzzy Control Systems of Brain Temperature in Clinical Hypothermia Treatment Using Human Thermal Model. Japanese Journal of Clinical Physiology, 36(6): 289-296, 2006.
19)T. UTsuki, T. Wakatsuki, H. Wakamatsu: Model reference control of brain temperature with 2 degrees of freedom for brain hypothermia treatment. Transactions of the Society of Instrument and Control Engineers, 42(6):683-690, 2006. [in Japanese]
20)T. Utsuki: Automatic Control System of Brain Temperature by Surface Cooling Method. The Ochanomizu medical journal, 54(1):1-14, 2006. [in Japanese]
21)H. Wakamatsu, K. Takahara, S. Honma, T. Takahashi, M. Nobuta, T. Utsuki, T. Wakatsuki: Development of remote welfare system using internet environment. Proc 7th Asia-Pacific Conf Control & Meas, 283-288, 2006.
22)H. Wakamatsu, T. Wakatsuki, T. Utsuki: Experimental qualification of fuzzy control systems for brain hypothermia treatment using human thermal model. Proc 7th Asia-Pacific Conf Control & Meas, 3-8, 2006.
23)H. Wakamatsu, T. Wakatsuki, T. Utsuki: Model reference fuzzy control system of brain temperature for hypothermia treatment. Proc 16th Int Fed Autom Ctrl, Fr-A03-TP/11 (Paper Code), 2005.
24)T. Wakatsuki, T. Utsuki, H. Wakamatsu: Fuzzy Control of Brain temperature for Brain Hypothermia Treatment. Japanese journal of clinical physiology, 35(5):269-275, 2005. [in Japanese]
25)H. Wakamatsu, Lu Gaohua, T. Utsuki: Requirements for the automatic control system of brain temperature for adult patients. Brain Death & Resuscitation, 17(1):139-145, 2005. [in Japanese]
26)H. Wakamatsu, Lu Gaohua, T. Utsuki: Automatic optimal-adaptive control of brain temperature by water-cooling system. Proc 6th Asia-Pacific Conf Control & Meas 22-27, 2004.
27)H. Wakamatsu, T. Utsuki: Feasibility of Automatic Control System for Brain Hypothermia Treatment. Japanese Journal of Clinical Physiology, 34(4):169-178, 2004. [in Japanese]
28)T. Utsuki, H. Wakamatsu: Background of Parents’ Concerns about Dietary Habits and Nutrition of Their Children. Health Sciences, 20(1):115-124, 2004. [in Japanese]
29)H. Wakamatsu, T. Utsuki: Estimation of Confounding Properties from the Investigation of Parents’ Concerns about Their Children in Dietary Habits and Nutrition. Health Sciences, 19(3):184193, 2003. [in Japanese]
30)T. Utsuki, H. Wakamatsu: Theoretical analysis of CO2 gas exchange involving structure and physical property in alveolar tissue. Japanese Journal of Clinical Physiology, 33(2):119-132, 2003. [in Japanese]
31)H. Wakamatsu, T. Utsuki: CO2 diffusion flow and distribution of pulmonary capillary PCO2 in resting respiration -Development and analysis of CO2 gas exchange model including effect of ventilation-. Japanese Journal of Clinical Physiology, 32(2):93-99, 2002. [in Japanese]
32)H. Wakamatsu, T. Utsuki: Mathematical model of CO2 diffusion system in inclusive of dynamics of alveolar PCO2. Proc Symp Biol Physiol Eng, 15:57-60, 2000. [in Japanese]

Serial no:IIEBM0338

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Dr. Tomohiko Utsuki

Journal of Biomedical Research and Reviews

Biomedical Engineering

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