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| Elulookirjeldus (CV) | ||
| 1. | Eesnimi | Jüri |
| 2. | Perekonnanimi | Vedru |
| 3. | Töökoht | Tartu Ülikool Eksperimentaalfüüsika ja tehnoloogia instituut (FKEF) |
| 4. | Ametikoht | Meditsiinifüüsika ja biomeditsiinitehnika dotsent |
| 5. | Sünniaeg | 24.12.1948 (päev.kuu.aasta) |
| 6. | Haridus | Tartu Riiklik Ülikool, teoreetilise füüsika eriala, cum laude, 1972 |
| 7. | Teenistuskäik | 1972-1981: Tartu Riiklik Ülikool, lepinguline nooremteadur ja vanemteadur spordimeditsiini kat. juures 1982-1984: NSVL Meditsiiniteaduste Akadeemia Bakulevi-nim. Südame- ja Veresoonkonnakirurgia Inst. Moskvas, aspirant 1985-1992: TÜ Üld- ja Molekulaarpatoloogia Instituudis, juhtivinsener, seejärel teadur ja vanemteadur 1992-1997: 0,5 k. vanemteadur TÜ ÜMPI-s ja 0,5 k. dotsent TÜ füüsika didaktika instituudis 1997-2002: 0,5 k. vanemteadur TÜ füsioloogia instituudis ja 0,5 k. dotsent TÜ materjaliteaduse instituudis 2002 - : dotsent TÜ eksperimentaalfüüsika ja tehnoloogia instituudis. |
| 8. | Teaduskraad | Bioloogiakandidaat |
| 9. | Teaduskraadi välja andnud asutus, aasta |
Tartu Ülikool, 1988 |
| 10. | Tunnustused | |
| 11. | Teadusorganisatsiooniline ja –administratiivne tegevus |
1995-st : Eesti Biomeditsiinitehnika ja Meditsiinifüüsika Ühingu liige, sealhulgas 1995-1996: ühingu juhatuse liige; 1996-st : Rahvusvahelise Bioelektromagnetismi Ühingu liige; 1997-st : Põhjamaade Elektrilise Bioimpedantsi Klubi liige; 2003-st : Eesti Füüsika Seltsi liige. |
| 12. | Juhendamisel kaitstud väitekirjad |
Boriss Mahrov, MSc, 2000, juh. Jüri Vedru. Foucault' kardiograafia pöörisvooluväljade arvutusmeetodi kõlblikkuse hindamine. Tartu Ülikool Jaanus Trolla, MSc, 2000, juh. Jüri Vedru. Foucault' kardiograafi katseeksemplari ehitamine ja uurimine. Tartu Ülikool Konstantin Skaburskas, MSc, 2000, juh. Jüri Vedru. Võrkmudel Foucault' kardiograafia pöörisvooluväljade jaoks: Arvutus sõlmpingete meetodil. Tartu Ülikool Sergei Maltšenko, MSc, 2000, juh. Jüri Vedru. Inimese südame väliskuju normaalse funktsioneerimise protsessis tsüklilise muutumise mudel. Tartu Ülikool |
| 13. | Teadustöö põhisuunad | Meditsiinifüüsika ja biomeditsiinitehnika: Foucault’ kardiograafia (pöörisvoolukardiograafia) ja teised elektriimpedantsmeetodid südame väljutuse ja vereringe jälgimiseks Füsioloogiliste süsteemide arvutimodelleerimine (ereiti vereringesüsteemi mehaanika ja regulatsiooni modelleerimine); Meditsiinilste signaalide töötlemine |
| 14. | Jooksvad grandid | Eesti TF grant nr. 5530: Mitmeinduktorilise Foucault' kardiograafia evitamine inimese südame liikumise komponentide eristamiseks ja jälgimiseks |
| 15. | Teaduspublikatsioonid |
Ovetchko N., Tchironova N., Ollik R., Kivimäe R., Vedru J. Ascertaining the link between the heart motion and Foucault cardiogram. – Proc. Int. Conf. Biomedical Engineering, Kaunas, Oct. 2005, – Kaunas, 2005. – Pp. 111-114. Vedru J. Foucault Principle Based Inductive Measurement of Bioimpedance Variation. - Proc. XII Int. Conf. Electrical Bio-impedance & V EIT, Gdansk, June 2004. - Gdansk, 2004. – Pp. 305-308. Malchenko S., Vedru J. Model of Heart Shape Cyclic variation for Foucault Cardiography Simulations. – Int. J. Bioelectromagnetism, 2003. – Vol. 5, No 1. – Pp. 318-319. Skaburskas K., Vedru J. Origination of Foucault Cardiogram by Impedance Redistribution: Transfer Coefficient Approach. – Int. J. Bioelectromagnetism, 2003. – Vol. 5, No 1. – Pp. 32-33. Tehver M, Vainikko E, Skaburskas K, Vedru J. Remote Access and Scheduling for Parallel Applications on Distributed Systems. – Computational Science – Proc. ICCS 2002 Int. Conf., Amsterdam, The Netherlands, April 21-24, 2002.- Part 1. – Pp. 633-642. Trolla J., Vedru J. On the Safety of Foucault Cardiography. – Proc. XI Int. Conf. Electrical Bio-impedance, Oslo, June 17-21, 2001. – Oslo, 2001. – Pp. 649-652. Vedru J., Makarova O., Tina V. Averaged Waveforms of Electrical Bioimpedance: Construction and Comparison. – Proc. XI Int. Conf. Electrical Bio-impedance, Oslo, June 17-21, 2001. – Oslo, 2001. – Pp. 631-635. Vedru J., Skaburskas K., Malchenko S. Solving Simply the Forward Problem for Foucault Cardiography. – Proc. XI Int. Conf. Electrical Bio-impedance, Oslo, June 17-21, 2001. – Oslo, 2001. – Pp. 565-568. Makarova O., Vedru J. Ensemble-averaged Waveform of Foucault Cardiogram. – Proc. Int. Conf. Biomedical Engineering, Kaunas, Oct. 19-20, 2000. – Kaunas, Technologija, 2000. – Pp. 117-120. Vedru J., Skaburskas K., Humal L.-H. Considerations on the Use of the Node Voltages Method for Solving of the Direct Problem of Foucault Cardiography. – Proc. Int. Conf. Biomedical Engineering, Kaunas, 22-23 October 1999. – Kaunas, Technologija, 1999. – Pp. 88-91. Vedru J., Trolla J., Humal L.-H., Lugna V., Vesselova S. Magnitude Distribution of Foucault Cardiogram on Human Thoracic Surface. – Medical & Biological Engineering & Computing, 1999. – Vol. 37, Suppl.1 – Pp. 251-252. Mahrov B., Vedru J. Calculation of Foucault Cardiographic Eddy Current Fields. – Proc. Int. Conf. Biomedical Engineering, Kaunas, 22-23 October 1998. – Kaunas, Technologija, 1998. – Pp. 70-73. Vedru J., Trolla J., Loog P., Talts J. Prospect of Foucault cardiography for the monitoring of cardiac output. – Proc. Int. Conf. Biomedical Engineering, Kaunas, 22-23 October 1998. – Kaunas, Technologija, 1998. – Pp. 12-15. Humal L.-H., Vedru J., Vladimirov A. Sensitivity Distribution for Foucault Cardiography Using Physical and Mathematical Models. – Medical & Biological Engineering & Computing, 1997. – Vol. 35, Suppl., Part 1. – P. 341. Humal L.-H., Vedru J. Physiological Measurement Based on Foucault Principle: Set-up of the Problem. – Medical & Biological Engineering & Computing, 1996 – Vol. 34, Suppl.1, Part 2 – Pp. 183-184. Vedru J. Electrical impedance methods for the measurement of stroke volume in man: State of art. – Acta et Comm. Univ. Tartuensis, 1994. – No 974. – Pp. 110-129. Kullus R., Laane E., Vedru J. Noninvasive method for assessment of cardiorespiratory reserve mechanisms. – Abstr. Book 3rd Intern. Conf. Preventive Cardiology, Oslo, 1993. – Oslo, 1993. P. 123. Ведру Ю., Яксман С. Монитор легочной вентиляции человека на основе термоанемометрического датчика. – Acta et Comm. Univ. Tartuensis, 1990. – No 886. – Pp. 83-92. Ведру Ю.В. Математическая модель сердечно-сосудистой системы для прикладных имитационных задач физиологии и медицины. [translation of the title: A Mathematical Model of the Cardiovascular System for Applied Simulations in Physiology and Medicine]. – Acta et Comm. Univ. Tartuensis. 1988. – No 800. – Pp. 92-113. Бураковский В.И., Лищук В.А., Мироненко В.И., Ведру Ю.В., Ганичкин Ю.Н., Мосткова Е.В., Садоян Д.Г., Сазыкина Л.В. Комплекс математических моделей и методов для индивидуальной диагностики и терапии больных с острыми и тяжелыми расстройствами кровообращения и дыхания. – Вопр. кибернетики. – 1985. – Вып. 85. –С. 36-54. Ведру Ю.В. Имитационная модель сердечно-сосудистой системы для решения задач кардиохирургии. – Применение математических методов обработки медико-биологических данных и ЭВМ в медицинской технике. – Москва, 1984. – С. 122-124. Ведру Ю.В., Везломцев Д.В., Неклюдова И.В., Садоян Д.Г., Шидловский В.А. К понятию силы сокращения сердца. – Физиология и патофизиология сердца и коронарного кровообращения. – Киев, 1983. – С. 21-22. Стороженко И.Н., Подгорный В.Ф., Ганичкин Ю.Н., Цховребов С.П., Владимиров П.В., Ведру Ю.В., Думпе А.Н., Кичкина Г.К., Колесник Т.Ф., Брод П.Г., Ольшанникова И.Л. Сравнение способа тетраполярной реокардиографии в применении к определению минутного объема кровообращения в кардиохирургической клинике. – Методы комплексной оценки недостаточности миокарда. – Иркутск, 1983. – С. 129-140. Хумаль Л.-Х. А., Ведру Ю.В. Усовершенствованный способ распознавания QRS-комплекса. – Теория и практика автоматизации электрокардиологических и клинических исследований. – Каунас, 1977. – С. 225-228. |
viimati muudetud: 27.11.2005
| Curriculum Vitae (CV) | ||
| 1. | First Name | Jüri |
| 2. | Surname | Vedru |
| 3. | Institution | University of Tartu Institute of Experimental Physics and Technology |
| 4. | Position | Docent of Medical Physics and Biomedical Engineering |
| 5. | Date of birth | 24.12.1948 (day.month.year) |
| 6. | Education | Tartu State University, Theoretical physics, cum laude, 1972 |
| 7. | Research and professional experience |
1972-1981: Tartu State University, Junior and later Senior Researcher at Dept. of Sports Medicine 1982-1984: Post-graduate Student at the Bakulev Institute of Cardio- vascular Surgery, Academy of Medical Sci. of the USSR, Moscow 1985-1992: Institute of General and Molecular Pathology (IGMP) of the University of Tartu (UT) Leading Engineer > Researcher > Senior Researcher; 1992-1997: IGMP, UT, half-time Sen. Researcher and Inst. for Teaching Physics, UT, half-time Assoc.Prof. 1997-2002: Inst. of Physiology, UT, half-time Sen. Researcher and Inst. of Materials Science, UT, half-time Assoc. Prof. 2002 - : Assoc. Prof. at Inst. of Experimental Physics and Technology, UT |
| 8. | Academic degree | PhD (USSR degree: Candidate of Biological Sci.) |
| 9. | Dates and sites of earning the degrees |
University of Tartu, 1988 |
| 10. | Honours/awards | |
| 11. | Research-administrative experience |
From 1995: member of the Estonian Society of Biomedical Engineering and Medical Physics, including 1995-1996: member of the Board of the Society; From 1996: member of the International Society for Bioelectromagnetism; From 1997 member of the Nordic Electrical Bioimpedance Club; From 2003 member of the Estonian Physics Society. |
| 12. | Supervised dissertations |
Boriss Mahrov, MSc, 2000, superv. Jüri Vedru. Foucault' kardiograafia pöörisvooluväljade arvutusmeetodi kõlblikkuse hindamine. Tartu Ülikool Jaanus Trolla, MSc, 2000, superv. Jüri Vedru. Foucault' kardiograafi katseeksemplari ehitamine ja uurimine. Tartu Ülikool Konstantin Skaburskas, MSc, 2000, superv. Jüri Vedru. Võrkmudel Foucault' kardiograafia pöörisvooluväljade jaoks: Arvutus sõlmpingete meetodil. Tartu Ülikool Sergei Maltšenko, MSc, 2000, superv. Jüri Vedru. Inimese südame väliskuju normaalse funktsioneerimise protsessis tsüklilise muutumise mudel. Tartu Ülikool |
| 13. | Current research program | Medical physics and biomedical engineering: Foucault cardiography (eddy current cardiography) and other electrical impedance methods for cardiac output and blood circulation measurement; Computer simulation of physiological systems (especially mechanics and regulation of the circulation system); Medical signal processing |
| 14. | Current grant funding | Estonian SF grant no. 5530: Development of multiple-inductor Foucault cardiography for discrimination and tracking of the components of human heart motion |
| 15. | List of most important publications |
Ovetchko N., Tchironova N., Ollik R., Kivimäe R., Vedru J. Ascertaining the link between the heart motion and Foucault cardiogram. – Proc. Int. Conf. Biomedical Engineering, Kaunas, Oct. 2005, – Kaunas, 2005. – Pp. 111-114. Vedru J. Foucault Principle Based Inductive Measurement of Bioimpedance Variation. - Proc. XII Int. Conf. Electrical Bio-impedance & V EIT, Gdansk, June 2004. - Gdansk, 2004. – Pp. 305-308. Malchenko S., Vedru J. Model of Heart Shape Cyclic variation for Foucault Cardiography Simulations. – Int. J. Bioelectromagnetism, 2003. – Vol. 5, No 1. – Pp. 318-319. Skaburskas K., Vedru J. Origination of Foucault Cardiogram by Impedance Redistribution: Transfer Coefficient Approach. – Int. J. Bioelectromagnetism, 2003. – Vol. 5, No 1. – Pp. 32-33. Tehver M, Vainikko E, Skaburskas K, Vedru J. Remote Access and Scheduling for Parallel Applications on Distributed Systems. – Computational Science – Proc. ICCS 2002 Int. Conf., Amsterdam, The Netherlands, April 21-24, 2002.- Part 1. – Pp. 633-642. Trolla J., Vedru J. On the Safety of Foucault Cardiography. – Proc. XI Int. Conf. Electrical Bio-impedance, Oslo, June 17-21, 2001. – Oslo, 2001. – Pp. 649-652. Vedru J., Makarova O., Tina V. Averaged Waveforms of Electrical Bioimpedance: Construction and Comparison. – Proc. XI Int. Conf. Electrical Bio-impedance, Oslo, June 17-21, 2001. – Oslo, 2001. – Pp. 631-635. Vedru J., Skaburskas K., Malchenko S. Solving Simply the Forward Problem for Foucault Cardiography. – Proc. XI Int. Conf. Electrical Bio-impedance, Oslo, June 17-21, 2001. – Oslo, 2001. – Pp. 565-568. Makarova O., Vedru J. Ensemble-averaged Waveform of Foucault Cardiogram. – Proc. Int. Conf. Biomedical Engineering, Kaunas, Oct. 19-20, 2000. – Kaunas, Technologija, 2000. – Pp. 117-120. Vedru J., Skaburskas K., Humal L.-H. Considerations on the Use of the Node Voltages Method for Solving of the Direct Problem of Foucault Cardiography. – Proc. Int. Conf. Biomedical Engineering, Kaunas, 22-23 October 1999. – Kaunas, Technologija, 1999. – Pp. 88-91. Vedru J., Trolla J., Humal L.-H., Lugna V., Vesselova S. Magnitude Distribution of Foucault Cardiogram on Human Thoracic Surface. – Medical & Biological Engineering & Computing, 1999. – Vol. 37, Suppl.1 – Pp. 251-252. Mahrov B., Vedru J. Calculation of Foucault Cardiographic Eddy Current Fields. – Proc. Int. Conf. Biomedical Engineering, Kaunas, 22-23 October 1998. – Kaunas, Technologija, 1998. – Pp. 70-73. Vedru J., Trolla J., Loog P., Talts J. Prospect of Foucault cardiography for the monitoring of cardiac output. – Proc. Int. Conf. Biomedical Engineering, Kaunas, 22-23 October 1998. – Kaunas, Technologija, 1998. – Pp. 12-15. Humal L.-H., Vedru J., Vladimirov A. Sensitivity Distribution for Foucault Cardiography Using Physical and Mathematical Models. – Medical & Biological Engineering & Computing, 1997. – Vol. 35, Suppl., Part 1. – P. 341. Humal L.-H., Vedru J. Physiological Measurement Based on Foucault Principle: Set-up of the Problem. – Medical & Biological Engineering & Computing, 1996 – Vol. 34, Suppl.1, Part 2 – Pp. 183-184. Vedru J. Electrical impedance methods for the measurement of stroke volume in man: State of art. – Acta et Comm. Univ. Tartuensis, 1994. – No 974. – Pp. 110-129. Kullus R., Laane E., Vedru J. Noninvasive method for assessment of cardiorespiratory reserve mechanisms. – Abstr. Book 3rd Intern. Conf. Preventive Cardiology, Oslo, 1993. – Oslo, 1993. P. 123. Ведру Ю., Яксман С. Монитор легочной вентиляции человека на основе термоанемометрического датчика. – Acta et Comm. Univ. Tartuensis, 1990. – No 886. – Pp. 83-92. Ведру Ю.В. Математическая модель сердечно-сосудистой системы для прикладных имитационных задач физиологии и медицины. [translation of the title: A Mathematical Model of the Cardiovascular System for Applied Simulations in Physiology and Medicine]. – Acta et Comm. Univ. Tartuensis. 1988. – No 800. – Pp. 92-113. Бураковский В.И., Лищук В.А., Мироненко В.И., Ведру Ю.В., Ганичкин Ю.Н., Мосткова Е.В., Садоян Д.Г., Сазыкина Л.В. Комплекс математических моделей и методов для индивидуальной диагностики и терапии больных с острыми и тяжелыми расстройствами кровообращения и дыхания. – Вопр. кибернетики. – 1985. – Вып. 85. –С. 36-54. Ведру Ю.В. Имитационная модель сердечно-сосудистой системы для решения задач кардиохирургии. – Применение математических методов обработки медико-биологических данных и ЭВМ в медицинской технике. – Москва, 1984. – С. 122-124. Ведру Ю.В., Везломцев Д.В., Неклюдова И.В., Садоян Д.Г., Шидловский В.А. К понятию силы сокращения сердца. – Физиология и патофизиология сердца и коронарного кровообращения. – Киев, 1983. – С. 21-22. Стороженко И.Н., Подгорный В.Ф., Ганичкин Ю.Н., Цховребов С.П., Владимиров П.В., Ведру Ю.В., Думпе А.Н., Кичкина Г.К., Колесник Т.Ф., Брод П.Г., Ольшанникова И.Л. Сравнение способа тетраполярной реокардиографии в применении к определению минутного объема кровообращения в кардиохирургической клинике. – Методы комплексной оценки недостаточности миокарда. – Иркутск, 1983. – С. 129-140. Хумаль Л.-Х. А., Ведру Ю.В. Усовершенствованный способ распознавания QRS-комплекса. – Теория и практика автоматизации электрокардиологических и клинических исследований. – Каунас, 1977. – С. 225-228. |
last updated: 27.11.2005
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