Relevant bibliographies by topics / Bioeffect Planning

Academic literature on the topic 'Bioeffect Planning'

Author: Grafiati
Published: 4 June 2021
Last updated: 5 February 2022

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Journal articles on the topic "Bioeffect Planning"

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Dale, R. G. "Applied Radiobiology and Bioeffect Planning." Physics in Medicine and Biology 47, no. 1 (December 19, 2001): 177. http://dx.doi.org/10.1088/0031-9155/47/1/701.

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Barton, Michael. "Applied Radiobiology and Bioeffect Planning." Australasian Radiology 48, no. 1 (March 2004): 104. http://dx.doi.org/10.1111/j.1440-1673.2004.01265.x.

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Wigg, David R. "Applied Radiobiology and Bioeffect Planning." Journal of Applied Clinical Medical Physics 3, no. 1 (January 2002): 60. http://dx.doi.org/10.1120/1.1435082.

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Wigg, David R. "A radiobiological basis for bioeffect planning." Medical Physics 27, no. 11 (November 2000): 2637. http://dx.doi.org/10.1118/1.1320061.

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Zavgorodni, Sergei. "Applied radiobiology and bioeffect planning by David R. Wigg." Australasian Physics & Engineering Sciences in Medicine 25, no. 1 (March 2002): 44. http://dx.doi.org/10.1007/bf03178374.

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Stick, L. B., I. Vogelius, A. Modiri, S. R. Rice, A. Sawant, and S. M. Bentzen. "Radiation Therapy Planning Using Bioeffect Modeling for Left-Sided Breast Cancer." International Journal of Radiation Oncology*Biology*Physics 99, no. 2 (October 2017): E52. http://dx.doi.org/10.1016/j.ijrobp.2017.06.714.

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Stick, Line Bjerregaard, Ivan Richter Vogelius, Arezoo Modiri, Stephanie Renee Rice, Maja Vestmø Maraldo, Amit Sawant, and Søren M. Bentzen. "Inverse radiotherapy planning based on bioeffect modelling for locally advanced left-sided breast cancer." Radiotherapy and Oncology 136 (July 2019): 9–14. http://dx.doi.org/10.1016/j.radonc.2019.03.018.

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Nevinson, J., T. M. lllidge, and M. Bayne. "5CT based brachytherapy planning and complimentary bioeffect dosimetry: Evaluation of combined brachytherapy and external beam radiotherapy dose distributions, in the treatment of cervical cancer." Radiotherapy and Oncology 60 (January 2001): S2. http://dx.doi.org/10.1016/s0167-8140(01)80012-8.

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9

Ho, Anthony K., Matthew B. Podgorsak, Claudio H. Sibata, and Kyu H. Shin. "Application of the “bioeffects” algorithm of a treatment planning system." Medical Dosimetry 20, no. 2 (June 1995): 139–41. http://dx.doi.org/10.1016/0958-3947(95)00010-t.

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10

Perry, Kaitlyn, Robert Staruch, Samuel Pichardo, Yuexi Huang, Merrylee McGuffin, Ari Partanen, Shun Wong, et al. "Magnetic resonance-guided high intensity focused ultrasound (MR-HIFU) hyperthermia for primary rectal cancer: A virtual feasibility analysis." Journal of Global Oncology 5, suppl (October 7, 2019): 77. http://dx.doi.org/10.1200/jgo.2019.5.suppl.77.

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Abstract:
77 Background: MR-HIFU Hyperthermia (HT) is a non-invasive treatment modality with real-time thermometry that ensures accurate and precise heating of a target with minimal effect on adjacent tissue. This energy deposition within a tumour can produce local bioeffects resulting in thermal chemo- and radiosensitization. MR-HIFU has been shown to be safe and feasible in a companion phase I study for recurrent rectal cancer. The purpose of this study is to determine the feasibility of MR-HIFU in treating primary rectal tumours. Methods: With ethics approval, the anatomic characteristics and surrounding structures of rectal tumours diagnosed at Sunnybrook from 2014-2019 were retrospectively analyzed. Three orthogonal views of MR images were used to determine the potential ultrasound (US) beam path and organs at risk (OAR). In part 2 of the study, the gross tumour volume was delineated for 30 rectal tumours (10 low, mid &high). Image datasets were imported into the Sonalleve MR-HIFU workstation for virtual treatment simulation and planning to determine tumour targetability, coverage, optimal patient set-up, and transducer positioning. Results: Of the 105 tumours analyzed, 36, 52, and 17 were low, mid, and high, respectively. The average width of the acoustic window (sciatic notch) for the US beam path was 5.8 ± 1.4cm, average tumour length was 5.24 ± 2.0cm, and average beam path (skin to tumour edge) was 7.3 ± 1.9cm. Eighty one percent of tumours were ≤ 0.3cm from an OAR. Of the 24 virtually simulated tumours to date, 6/8 lower, 6/8 mid, and 1/8 upper rectal tumours were targetable by MR-HIFU. Conclusions: This is the first virtual analysis to evaluate MR-HIFU HT targetability in primary rectal cancer. Results from this study will support MR-HIFU HT as an option to enhance the treatment of primary rectal cancer. Acknowledgments: This study has been funded by the Canadian Cancer Society. Patient & tumour characteristics. [Table: see text]
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Dissertations / Theses on the topic "Bioeffect Planning"

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Wigg, David. "Radiobiological basis for bioeffect planning." 2005. http://arrow.unisa.edu.au:8081/1959.8/46689.

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The main purpose of this thesis is to encourage the development of bioeffect planning as an experimental tool by which means bioeffect plans may be compared with standard isodose plans. This thesis also addresses the fundamental problems of the derivation of useful biological models for clinical application and the description of tumour and normal tissue parameter values and their variability. Particular emphasis has been placed on comparing the predictive value of the models and parameters against clinical results of fractionated and continuous irradiation either alone or combined.
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Books on the topic "Bioeffect Planning"

1

Wigg, David. Applied Radiobiology and Bioeffect Planning. Medical Physics Publishing Corporation, 2001.

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