Magnetic Resonance Microscopy

Здесь есть возможность читать онлайн «Magnetic Resonance Microscopy» — ознакомительный отрывок электронной книги совершенно бесплатно, а после прочтения отрывка купить полную версию. В некоторых случаях можно слушать аудио, скачать через торрент в формате fb2 и присутствует краткое содержание. Жанр: unrecognised, на английском языке. Описание произведения, (предисловие) а так же отзывы посетителей доступны на портале библиотеки ЛибКат.

Magnetic Resonance Microscopy: краткое содержание, описание и аннотация

Предлагаем к чтению аннотацию, описание, краткое содержание или предисловие (зависит от того, что написал сам автор книги «Magnetic Resonance Microscopy»). Если вы не нашли необходимую информацию о книге — напишите в комментариях, мы постараемся отыскать её.

Magnetic Resonance Microscopy
Explore the interdisciplinary applications of magnetic resonance microscopy in this one-of-a-kind resource Magnetic Resonance Microscopy: Instrumentation and Applications in Engineering, Life Science and Energy Research,
Magnetic Resonance Microscopy: Instrumentation and Applications in Engineering, Life Science and Energy Research
Magnetic Resonance Microscopy: Instrumentation and Applications in Engineering, Life Science and Energy Research

Magnetic Resonance Microscopy — читать онлайн ознакомительный отрывок

Ниже представлен текст книги, разбитый по страницам. Система сохранения места последней прочитанной страницы, позволяет с удобством читать онлайн бесплатно книгу «Magnetic Resonance Microscopy», без необходимости каждый раз заново искать на чём Вы остановились. Поставьте закладку, и сможете в любой момент перейти на страницу, на которой закончили чтение.

Тёмная тема
Сбросить

Интервал:

Закладка:

Сделать

11 11Geethanath, S.and Vaughan, J.T., Jr. (2019). Accessible magnetic resonance imaging: A review. Journal of Magnetic Resonance Imaging 49 (7): e65–e77.

12 12Lazaro, P., Beerra, A., Luengo, S.et al. (1994). Health care expenditures and expensive medical technology; the paradox of low-income countries. Annual Meeting International Society of Technology Assessment in Health Care, Baltimore USA.

13 13Saslow, E. (2019). “Out here, it’s just me”: In the medical desert of rural America, one doctor for 11,000 square miles. The Washington Post 28 September.

14 14panel discussion (2019). ISMRM Workshop on Accessible MRI. New Delhi, India.

15 15Wald, L.L., McDaniel, P.C., Witzel, T.et al. (2020). Low-cost and portable MRI. Journal of Magnetic Resonance Imaging 52 (3): 686–696.

16 16Nakagomi, M., Kajiwara, M., Matsuzaki, J.et al. (2019). Development of a small car-mounted magnetic resonance imaging system for human elbows using a 0.2T permanent magnet. Journal of Magnetic Resonance 304: 1–6.

17 17Coffey, A.M., Truong, M.L., and Chekmenev, E.Y. (2013). Low-field MRI can be more sensitive than high-field MRI. Journal of Magnetic Resonance 237: 169–174.

18 18Marques, J.P., Simonis, F.F.J., Webb, A.G., and Low-field, M.R.I. (2019). An MR physics perspective. Journal of Magnetic Resonance Imaging 49 (6): 1528–1542.

19 19O’Reilly, T.and Webb, A. (2019). Deconstructing and reconstructing MRI hardware. Journal of Magnetic Resonance 306: 134–138.

20 20Cooley, C.Z., McDaniel, P.C., Stockmann, J.P.et al. (2021). A portable scanner for magnetic resonance imaging of the brain. Nature Biomedical Engineering 5 (3): 229–239.

21 21Cooley, C.Z., Stockmann, J.P., Armstrong, B.D.et al. (2014). 2D imaging in a lightweight portable MRI scanner without gradient coils. Proceedings of the ISMRM Annual Meeting, Milan, Italy.

22 22Cooley, C.Z., Stockmann, J.P., Armstrong, B.D.et al. (2015). Two-dimensional imaging in a lightweight portable MRI scanner without gradient coils. Magnetic Resonance in Medicine 73 (2): 872–883.

23 23 Blumler, P. (2016). Proposal for a permanent magnet system with a constant gradient mechanically adjustable in direction and strength. Concepts in Magnetic Resonance. Part B, Magnetic Resonance Engineering 46 (1): 41–48.

24 24 Ren, Z.H., Maréchal, L., Luo, W.et al. (2015). Magnet array for a portable magnetic resonance imaging system. 2015 IEEE MTT-S 2015 International Microwave Workshop Series on RF and Wireless Technologies for Biomedical and Healthcare Applications (IMWS-BIO), Taipei, Taiwan.

25 25Ren, Z.H., Obruchkov, S., Lu, D.W.et al. (2017). A low-field portable magnetic resonance imaging system for head imaging. 2017 Progress in Electromagnetics Research Symposium – Fall (PIERS – FALL), Singapore.

26 26 McDaniel, P.C., Cooley, C.Z., Stockmann, J.P.et al. (2019). The MR cap: A single-sided MRI system designed for potential point-of-care limited field-of-view brain imaging. Magnetic Resonance in Medicine in press 82 (5): 1946–1950.

27 27 Vogel, M.W., Giorni, A., Vegh, V.et al. (2016). Rotatable small permanent magnet array for ultra-low field nuclear magnetic resonance instrumentation: A concept study. PLoS ONE 11 (6): e0157040.

28 28Runge, V.M.and Heverhagen, J.T. (2020). The next generation- advanced design low-field MR systems. Siemens Magnetom Flash Special Issue: Head-to-toe Imaging: 11–19.

29 29Mohr, C. (2002). The Siemens ultra high-field program MAGNETOM Allegra and Trio 3T MR: The next dimension in clinical and research MR systems. Siemens Magnetom Flash 1: 21–22.

30 30Foo, T., Vermilyea, M., Xu, M.et al. (2016). Dedicated high-performance, lightweight, low-cryogen compact 3.0T MRI system for advanced brain imaging. Proceedings of the ISMRM, Singapore.

31 31Campbell-Washburn, A.E., Ramasawmy, R., Restivo, M.C.et al. (2019). Opportunities in interventional and diagnostic imaging by using high-performance low-field-strength MRI. Radiology 293 (2): 384–393.

32 32Panther, A., Thevathasan, G., Connell, I.et al. (2019). A dedicated head-only MRI scanner for point-of-care imaging. Proceeding of the ISMRM, Montreal.

33 33 Stainsby, J., Bindseil, G., Connell, I.et al. (2019). Imaging at 0.5T with high-performance system components. Proceeding of the ISMRM, Montreal, 1194.

34 34Stainsby, J., Harris, C., Bindseil, G.et al. High-performance diffusion imaging on a 0,5T system. Proceedings of the ISMRM, Montreal.

35 35Vaughan, J., Wang, B., Idiyatullin, D.et al. (2016). Progress toward a portable MRI system for human brain imaging. Proceedings of the ISMRM, Singapore.

36 36Sheth, K.N., Mazurek, M.H., Yuen, M.M.et al. (2020). Assessment of brain injury using portable, low-field magnetic resonance imaging at the bedside of critically ill patients. JAMA Neurology 78 (1): 41–47.

37 37Welch, B., By, S., Chen, G.et al. (2020). Use environments and clinical feasibility of portable point-of-care bedside brain MRI. Proceedings of the ISMRM, virtual.

38 38McDaniel, P.C., Cooley, C.Z., Stockmann, J.P.et al. (2019). Numerically optimized design for a low-cost, lightweight 86 mT whole-brain magnet. Proceeding of the ISMRM, Montreal, Canada.

39 39Blumler, P.and Casanova, F. (2016). Hardware developments: Halbach magnet arrays. In: Mobile NMR and MRI; Developments and Applications (eds. M. Johns, E.O. Findjonson, S. Vogt, and A. Haber), 133–155. Cambridge, UK: Royal Society of Chemistry.

40 40Brown, M.C., Verganelakis, D.A., Mallett, M.J.et al. (2004). Surface normal imaging with a hand-held NMR device. Journal of Magnetic Resonance 169 (2): 308–312.

41 41Danieli, E.and Blumich, B. (2013). Single-sided magnetic resonance profiling in biological and materials science. Journal of Magnetic Resonance 229: 142–154.

42 42 Van Landeghem, M., Danieli, E., Perlo, J.et al. (2012). Low-gradient single-sided NMR sensor for one-shot profiling of human skin. Journal of Magnetic Resonance 215: 74–84.

43 43Backhouse, L., Dias, M., Gorce, J.P.et al. (2004). GARField magnetic resonance profiling of the ingress of model skin-care product ingredients into human skin in vitro. Journal of Pharmaceutical Sciences 93 (9): 2274–2283.

44 44Greer, M., Chen, C., and Mandal, S. (2019). An easily reproducible, hand-held, single-sided, MRI sensor. Journal of Magnetic Resonance 308: 106591.

45 45Ali, T.S., Tourell, M.C., Hugo, H.J.et al. (2019). Transverse relaxation-based assessment of mammographic density and breast tissue composition by single-sided portable NMR. Magnetic Resonance in Medicine 82 (3): 1199–1213.

46 46Tourell, M.C., Ali, T.S., Hugo, H.J.et al. (2018). T1-based sensing of mammographic density using single-sided portable NMR. Magnetic Resonance in Medicine 80 (3): 1243–1251.

47 47Colucci, L.A., Corapi, K.M., Li, M.et al. (2019). Fluid assessment in dialysis patients by point-of-care magnetic relaxometry. Science Translational Medicine 11 (502).

48 48Li, M., Vassiliou, C.C., Colucci, L.A.et al. (2015). (1)H nuclear magnetic resonance (NMR) as a tool to measure dehydration in mice. NMR in Biomedicine 28 (8): 1031–1039.

49 49Perlo, J., Casanova, F., and Blumich, B. (2004). 3D imaging with a single-sided sensor: An open tomograph. Journal of Magnetic Resonance 166 (2): 228–235.

50 50He, Z., He, W., Wu, J.et al. (2017). The novel design of a single-sided MRI probe for assessing burn depth. Sensors 17 (3).

51 51McDaniel, P.C., Cooley, C.Z., Stockmann, J.P.et al. (2019). The MR cap: A single-sided MRI system designed for potential point-of-care limited field-of-view brain imaging. Magnetic Resonance in Medicine 82 (5): 1946–1960.

52 52Bhat, S.S., Fernandes, T.T., Poojar, P.et al. (2020). Low-field MRI of stroke: Challenges and opportunities. Journal of Magnetic Resonance Imaging e27324 54 (2): 372–390

Читать дальше
Тёмная тема
Сбросить

Интервал:

Закладка:

Сделать

Похожие книги на «Magnetic Resonance Microscopy»

Представляем Вашему вниманию похожие книги на «Magnetic Resonance Microscopy» списком для выбора. Мы отобрали схожую по названию и смыслу литературу в надежде предоставить читателям больше вариантов отыскать новые, интересные, ещё непрочитанные произведения.


libcat.ru: книга без обложки
Nick Stephenson
Jill Shalvis - Animal Magnetism
Jill Shalvis
Рита Браун - Animal Magnetism
Рита Браун
Diatom Microscopy
Неизвестный Автор
Scott D. Sudhoff - Power Magnetic Devices
Scott D. Sudhoff
Magnetic Nanoparticles in Human Health and Medicine
Неизвестный Автор
Отзывы о книге «Magnetic Resonance Microscopy»

Обсуждение, отзывы о книге «Magnetic Resonance Microscopy» и просто собственные мнения читателей. Оставьте ваши комментарии, напишите, что Вы думаете о произведении, его смысле или главных героях. Укажите что конкретно понравилось, а что нет, и почему Вы так считаете.

x