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International Journal of Applied Engineering Research

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2013

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Handa, Yashil

MEG and its Principles in Context to Deep Brain Stimulation

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Yashil Handa

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International Journal of Applied Engineering Research, Vol 8, No 1 (2013), Pagination: 67-72

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References

MattiHamalainen, RiittaHari, Risto J. Ilmoniemi, JukkaKnuutila, and Olli V. Lounasmaa, Magnetoencephalography theory, instrumentation, and applications to non-invasive studies of the working human brain, Reviews of Modern Physics, Vol. 65, No. 2, April 1993 Pg:413-87

Morten L. Kringelbach, Ned Jenkinson, Sarah L.F. Owen and Tipu Z. Aziz, Translational principles of deepbrain stimulation, NATURE REVIEWS | NEUROSCIENCE, published online 18 July 2007.

Gildenberg, P. L. Evolution of neuromodulation. Stereotact. Funct. Neurosurg. 83, 71–79 (2005).

Ranck, J. B. Jr. Which elements are excited in electrical stimulation of mammalian central nervous system: a review, Brain Res. 98, 417–440 (1975).

McIntyre, C. C., Mori, S., Sherman, D. L., Thakor, N. V. &Vitek, J. L. Electric field and stimulating influence generated by deep brain stimulation of the subthalamic nucleus. Clin. Neurophysiol. 115, 589–595 (2004).

Cummings, J. L. Depression and Parkinson’s disease: areview. Am. J. Psychiatry 149, 443–454 (1992).

Volkmann, J., Herzog, J., Kopper, F. &Deuschl, G.Introduction to the programming of deep brainstimulators. Mov. Disord. 17, S181–S187 (2002).

Hämäläinen, M., Hari, R., Ilmoniemi, R. J. &Knuutila, J. Magnetoencephalography — theory,instrumentation, and applications to noninvasivestudies of the working human brain. Rev. Mod. Phys.65, 1–93 (1993).

Van Veen, B. D., van Drongelen, W., Yuchtman, M. &Suzuki, A. Localization of brain electrical activity vialinearly constrained minimum variance spatial filtering.IEEE Trans. Biomed. Eng. 44, 867–880 (1997).

Hillebrand, A. & Barnes, G. R. A quantitativeassessment of the sensitivity of whole-head MEG toactivity in the adult human cortex. Neuroimage 16,638–650 (2002).

Ioannides, A. A. et al. MEG tomography of humancortex and brainstem activity in waking and REMsleep saccades. Cereb. Cortex 14, 56–72 (2004).

Kringelbach, M. L. The orbitofrontal cortex: linkingreward to hedonic experience. Nature Rev. Neurosci.6, 691–702 (2005).

Ray, N. J. et al. Using magnetoencephalography toinvestigate deep brain stimulation for clusterheadache. Biomed. Imaging Interv. J. 4 Mar 2007(doi:10.2349/biij.3.1.e25).

Schnitzler, A. & Gross, J. Normal and pathologicaloscillatory communication in the brain. Nature Rev.Neurosci. 6, 285–296 (2005).

Kringelbach, M. L. et al. Deep brain stimulation forchronic pain investigated with magnetoencephalography.Neuroreport 18, 223–228 (2007).

26. Kringelbach, M. L. et al. Deep brain stimulation andchronic pain mapped with MEG. Soc. Neurosci. Abstr.782.1 (2006).

History of Positron Emission Tomography

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Authors

Yashil Handa

Source

International Journal of Applied Engineering Research, Vol 8, No 1 (2013), Pagination: 73-80

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No abstract given

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References

Bailey, D.L; D.W. Townsend, P.E. Valk, M.N. Maisey (2005). Positron Emission Tomography: Basic Sciences. Secaucus, NJ: Springer-Verlag. ISBN 1-85233-798-2. Pg:11-17.

Physical Principles of PET, Introduction to PET Physics, Division of Nuclear Sciences, University of Washington, source location: http://depts.washington.edu/nucmed/IRL/ pet_intro/, cited on 15/04/2012.

2D and 3D image Reconstruction, Introduction to PET Physics, Division of Nuclear Sciences, University of Washington, source location: http://depts.washington.edu/nucmed/IRL/ pet_intro/, cited on 15/04/2012.

Andrew M Scott, PET imaging in Oncology, Bailey, D.L; D.W. Townsend, P.E. Valk, M.N. Maisey (2005). Positron Emission Tomography: Basic Sciences. Secaucus, NJ: Springer-Verlag. ISBN 1- 85233-798-2. Pg:314-324.

Valk, Peter, Dale Bailey, David Townsend, and Michael Maisey.Positron Emission Tomography: Basic Science and Clinical Practice. 1. London, UK: Springer-Verlag, 2003.

Gambhir, Sanjiv S, Molecular imaging of cancer with positron emission tomography, Nature publishing group, Volume II September 2002, Pg: 683-693.

Strijckmans, K. The isochronous cyclotron: principles and recent developments. Comput. Med. Imaging Graph. 25, 69–78 (2001).

Cherry, S. R. &Gambhir, S. S. Use of positron emission tomography in animal research. Ilar J. 42, 219–232 (2001).

Chatziioannou, A., Tai, Y. C., Doshi, N. & Cherry, S. R. Detector development for microPET II: a 1 micron resolution PET scanner for small animal imaging. Phys. Med. Biol. 46, 2899–2910 (2001).

Chatziioannou, A. F. Molecular imaging of small animals with dedicated PET

Hara, T., Kosaka, N. &Kishi, H. PET imaging of prostate cancer using carbon-11-choline. J. Nucl. Med. 39, 990–995 (1998).

Kotzerke, J. et al. Experience with carbon-11 choline positron emission tomography in prostate carcinoma. Eur. J. Nucl. Med. 27, 1415–1419 (2000).

Price, D. T. et al. Comparison of [18F]fluorocholine and [18F]fluorodeoxyglucose for positron emission tomography of androgen dependent and androgen independent prostate cancer. J. Urol. 168, 273– 280 (2002).

Jager, P. L. et al. Radiolabeled amino acids: basic aspects and clinical applications in oncology. J. Nucl. Med. 42, 432–445 (2001).

Tavitian, B. et al. In vivo imaging of oligonucleotides with positron emission tomography. Nature Med. 4, 467–471 (1998).

Tavitian, B. In vivo antisense imaging. Q. J. Nucl. Med. 44, 236–255 (2000).

Hnatowich, D. J. Antisense imaging: where are we now? Cancer Biother. Radiopharm. 15, 447–457 (2000).

Paulmurugan, R., Umezawa, Y. &Gambhir, S. S. Imaging protein–protein interactions in living subjects by a reporter protein reconstitution and complementation strategies. Mol. Imaging Biol. (in the press).

Liu, X. et al. Partial correction of endogenous ?F508 CFTR in human cystic fibrosis airway epithelia by spliceosomemediated RNA transsplicing. Nature Biotechnol. 20, 47–52 (2002).

Puttaraju, M., DiPasquale, J., Baker, C. C., Mitchell, L. G. & Garcia- Blanco, M. A. Messenger RNA repair and restoration of protein function by spliceosome-mediated RNA transsplicing. Mol. Ther. 4, 105–114 (2001).

Bhaumik, S., Lewis, X., Puttaraju, M., Mitchell, L. G. &Gambhir, S. S. Imaging mRNA levels in living animals through a novel RNA transsplicing signal amplification approach. Mol. Imaging Biol. (in the press).

Becker-Hapak, M., McAllister, S. S. & Dowdy, S. F. TATmediated protein transduction into mammalian cells. Methods 24, 247–256 (2001).

Vaalburg, W., Hendrikse, N. H. & de Vries, E. F. Drug development, radiolabelled drugs and PET. Ann. Med. 31, 432–437 (1999).

Cherry, S. R. Fundamentals of positron emission tomography and applications in preclinical drug development. J. Clin. Pharmacol. 41, 482– 491 (2001).

Price, P. Monitoring response to treatment in the development of anticancer drugs using PET. Nucl. Med. Biol. 27, 691 (2000).

Katz, R., Wagner, H. N., Fauntleroy, M., Kuwert, T. & Frank, R. The use of imaging as biomarkers in drug development: regulatory issues worldwide. J. Clin. Pharmacol. Suppl. 118S (2001).

Paans, A. M. &Vaalburg, W. Positron emission tomography in drug development and drug evaluation. Curr. Pharm. Des. 6, 1583–1591 (2000).

Fowler, J. S., Volkow, N. D., Wang, G. J., Ding, Y. S. & Dewey, S. L. PET and drug research and development. J. Nucl. Med. 40, 1154– 1163 (1999).

Phelps, Michael E., Positron emission tomography provides molecular imaging of Biological Processes, Proceedings of the National Academy of Sciences of the United States of America, Vol. 97, No. 16 (Aug. 1, 2000), pp. 9226-9233.

Sokoloff, L., Reivich, M., Kennedy, C., et al. (1977) J. Neurochem. 28, 897-916.

Phelps, M., Huang, S. C., Hoffman, E. J, Selin, C., Sokoloff, L. &Kuhl, D. E. (1979) Ann. Neurol. 6, 371-388.

Reivich, M., Kuhl, D., Wolf, A., et al. (1979) Circ. Res. 44, 117-127.

Huang, S. C., Phelps, M., Hoffman, E. J., Sideris, K., Selin, C. &Kuhl, D. E. (1980) Am. J. Physiol. 238, E69-E82.

Ido, T., Wan, C.-N., Casella, J. S., et al. (1978) J. Labelled Compd. Radiopharmac. 14, 175-183.

Sokoloff, L. (1989) in Basic Neurochemistry, eds. Siegel, G., Agranoff, B., Albers, R. W. &Molinoff, P. (Raven, New York), 565-590.

Phelps, M., Kuhl, D. E. &Mazziotta J. C. (1981) Science 211, 1445- 1448.

Greenberg, J. H., Reivick, M., Alavi A., et al. (1981) Science 212, 678- 680.

National Institute on Aging. (1996) Progress Report on Alzheimer's disease (National Institute on Aging, Bethesda, MD), National Institutes of Health Publication No. 96-4137.

Beyer, T., Townsend, D. T., Brun, T., et al. (2000) J. Nucl. Med., in press.

Patten, J. A., Delbehe, D. & Sandier, M. P. (2000) J. Nucl. Med., in press.

Cherry S, Phelps M. Positron emission tomography: methods and instrumentation. In: Sandler M, Coleman RE, Patton J, Wackers F, Gottschalk A, eds. Diagnostic nuclear medicine. Philadelphia: Lippincott Williams and Wilkins; 2003:61–83.

9. Fahey FH. Positron emission tomography instrumentation. RadiolClin North Am 2001; 39:919–929.

10. Votaw JR, White M. Comparison of 2-dimensional and 3- dimensionalcardiac 82Rb PET studies. J Nucl Med 2001; 42:701–706.

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