516:(MGH) started an IORT program. The MGH doctors scheduled one of their conventional therapy rooms for IOERT one afternoon a week, performed surgery in the OR, and transported the patient to the radiation therapy room during surgery. This used the radiation equipment more efficiently and required no additional capital outlay. However, about 30-50% of the patients planned for IOERT were found to be unsuitable candidates for IORT at the time of surgery, mainly because the disease had spread to adjacent organs. This factor, combined with the risks and complexities of moving a patient during surgery, severely limited the number of patients who could be treated using the MGH method of IOERT. Consequently, conventional fractionated external beam irradiation was added to the IOERT dose, either prior to or subsequent to the surgery, in the MGH IOERT program.
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scheduling only those patients known to be suitable for IOERT, they made more efficient use of their radiation therapy machine, but at the cost of subjecting patients to a second surgery. Subsequently, the Mayo Clinic remodeled an OR and installed a conventional radiation therapy machine with its required massive shield walls, and the clinic now routinely treats over 100 IORT patients per year. After 1985, Siemens
Medical Systems offered a specialized LINAC for IOERT. It was designed to be used in the OR, but it weighed more than eight tons and required about 100 tons of shielding. This proved to be too expensive an approach for the medical community, and only seven of these specialized units were ever sold.
546:, attempted to reduce the cost of performing IORT in an OR by using orthovoltage X-rays to provide the intraoperative dose, which was similar to the approach used in Germany in 1915. But this was less than ideal. While the shielding costs and the cost and weight of the equipment compared favorably with conventional electron accelerators, dose distributions were inferior; treatment times were longer; and bones received a higher radiation dose. For these reasons, the centers rejected IO orthovoltage (X-rays) radiation therapy machines. In addition, these orthovoltage machines (300 kvp) were not designed to be mobile.
558:, LIAC, and NOVAC-7 -- and the increasing use of IOERT to treat breast cancer. Prior to the invention of portable LINACs for IOERT, clinicians could only treat IORT patients in specially shielded operating rooms, which were expensive to build, or in a radiotherapy room, which required transporting the anesthetized patient from the OR to the LINAC for treatment. These factors were major obstructions to the widespread adoption of IORT because they added significant cost to treatment as well as logistical complications to surgery, including an increased risk of infection to the patient.
523:(NCI) started an IOERT program in 1979. Their approach combined maximal surgical resection and IOERT and, in most cases, did not include conventional external beam therapy as part of the treatment. Because the NCI protocol relied on IOERT radiation alone, the IOERT fields were often very large, sometimes requiring two or three adjacent and overlapping fields to cover the tumor site. While the NCI results for these very large tumors were not encouraging, they showed that even the combination of aggressive surgery and large IOERT fields had acceptable
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solution has its own disadvantages: Remodeling an OR and purchasing an accelerator is expensive. Moreover, IORT is restricted to that one, specialized OR. Even so, the Mayo Clinic model demonstrated that when therapy equipment is located within an OR, the number of IOERT procedures will increase. In 1985, IOERT began in Italy and involved a specialized method to facilitate surgery followed by transport to the radiotherapy treatment room. Around the same time in France, another IOERT method was developed using the Lyon intra-operative device.
376:, at a median follow-up of 20 months, there was an in-breast tumor recurrence rate of only 1.05%. Other studies show that IOERT provides acceptable results when treating breast cancer in low-risk patients. More research is needed for defining the optimal dose of IOERT, alone or in combination with EBRT, and for determining when it may be appropriate to use it as part of the treatment for higher risk patients.
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372:. Local recurrence rates are greatly reduced by postoperative radiotherapy, which translates into improved survival: Preventing four local recurrences can prevent one breast cancer death. In one of the largest published studies so far called (ELIOT), researchers found that after treating 574 patients with full-dose IOERT with 21
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and did not use bending magnets, the secondary radiation emitted was so low that it didnât require permanent shielding in the operating room. This greatly reduced the cost of either constructing a new OR or retrofitting an old one. By using mobile units, the possibility of treating patients with IORT
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Studies suggest that electron IORT may play an important and useful role in the treatment of patients with locally advanced and recurrent gynecologic cancers, especially for patients with locally recurrent cancer after treatment for their primary lesion. Further research into radiation doses and how
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tried yet another arrangement. They built an OR adjacent to the radiation therapy department. Potential IOERT patients underwent surgery in the regular OR suite. If they were found to be candidates for IOERT, a second surgical procedure was scheduled in the OR adjacent to the radiation facility. By
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treatments with low energy or "orthovoltage" X-rays gained advocates throughout the 1930s and 1940s, but the results were inconsistent. The X-rays penetrated beyond the tumor bed to the normal tissues beneath, had poor dose distributions, and took a relatively long time to administer. The technique
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IOERT has been called "precision radiotherapy," because the physician has direct visualization of the tumor and can exclude normal tissue from the field while protecting critical structures within the field and underlying the target volume. One advantage of IOERT is that it can be given at the time
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With the
Japanese IOERT technique, relatively large single doses of radiation were administered during surgery, and most patients received no follow-up external radiation treatment. Even though this reduced the overall dose that could potentially be delivered to the tumor site, the early Japanese
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In the U.S., pancreatic cancer is the fourth leading cause of cancer death, even though there has been a slight improvement in mortality rates in recent years. Although the optimal treatment plan remains debated, a combination of radiotherapy and chemotherapy is favored in the U.S. As part of a
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Dedicating an OR to IOERT increases the number of patients that can be treated and eliminates the risks of double surgeries and moving a patient during surgery. It also eliminates the complex logistics involved in moving patients from the OR to the therapy room and back to the OR. However, this
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in 1976 and followed the
Japanese protocol of a large, single dose. Howard built a standard radiation therapy facility with one room that could be used as an OR as well as for conventional treatment. Because the radiation equipment was also used for conventional therapy, the competition for the
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X-ray beams, electron beams improved IOERT dose distributions, limited penetration beyond the tumor, and delivered the required dose much more rapidly. Normal tissue beneath the tumor bed could be protected and shielded, if required, and the treatment took only a few minutes to deliver. These
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New techniques in electron beam intraoperative robotic radiotherapy (IOEBRT) for cancers at higt risk of locoregional recurrences. Cancer detection and prevention, vol.20, / Issue 5, Novel
Therapies I. 1996. Abstracts of Cancer detection and prevention Meeting October 26â28, 1996, Nice,
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Intraoperative
Radiation Therapy in the Treatment of Cancer, Proceedings of 6th International IORT Symposium and 31st San Francisco Cancer Symposium, San Francisco, Calif., September 22â25, 1996. Frontiers of Radiation Therapy and Oncology vol 31. Editor(s): Vaeth, J.M. (Mill Valley,
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Over the past 30 years, treatment of locally advanced colorectal cancer has evolved, particularly in the area of local control â stopping the spread of cancer from the tumor site. IOERT shows promising results. When combined with preoperative external beam irradiation plus
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443:. Used together, IOERT and EBRT appear to be improving local control, and this method is being refined so that it can effectively be used in combination with other interventions if indicated. In studies regarding the delivery of therapeutic radiation in the
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Kinsella Tj, William F. Sindelar, WF, et al : Tolerance of peripheral nerve to intraoperative radiotherapy (IORT): Clinical and experimental studies. International
Journal of Radiation Oncology * Biology * Physics Volume 11, Issue 9, Pages 1579-1585,
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to extremity soft tissue sarcomas, electron IORT has been called âprecision radiotherapyâ by some, because the treating physician has direct visualization of the tumor or surgical cavity and can manually exclude normal tissue from the field.
573:, LIAC, and NOVAC-7 linear accelerators are improving patient care by delivering intraoperative radiation electron beam therapy to cancer patients during surgery. All three units are compact and mobile. Invented in the U.S. in 1997, the
712:âIntraoperative radiotherapy versus external radiotherapy for early breast cancer (ELIOT): a randomised controlled equivalence trialâ.]âLancet Oncol. â 2013 Dec;14(13):1269-77. doi: 10.1016/S1470-2045(13)70497-2. Epub 2013 Nov 11.
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to best combine IOERT with other interventions will help to define the sequencing of treatment and the patients who would most benefit from receiving electron IORT, as part of the multimodality treatment of this disease.
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Fraass B.A. et al, Intraoperative radiation therapy at the
National Cancer Institute: Technical innovations and dosimetry, International Journal of Radiation Oncology * Biology * PhysicsVolume 11, Issue 7, Pages
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Tyvin A. Rich et al : Orthovoltage intraoperative radiotherapy: a new look at an old idea
International Journal of Radiation Oncology * Biology * Physics, Volume 10, Issue 10, Pages 1957-1965, October
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Comas C., Prio A. Irradiation roentgen intra-abdominale, après intervention chirurgicale dans un cas de cancer de lâuterus, Congres
International dâElectrologie.Imprenta Francesca Badia, Barcelona, pp 5-14,
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Cattaneo G.M., Calandrino R. et al : A Modified IORT, Procedure: dosimetric results; in abstracts of IInd
International Symposium on intraoperative radiation therapy, Innsbruck, September 11â14, 1988.
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Sentenac I. et al.: The L. Intra Operative Device. : description of an original system in abstracts of IInd International Symposium on intraoperative radiation therapy, Innsbruck, September 11â14,
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Updated long-term outcomes and prognostic factors for patients with unresectable locally advanced pancreatic cancer treated with intraoperative radiotherapy at the Massachusetts General Hospital, 1978 to
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Kinsella T, J, Peter Johnstone P., Sindelar W.F.: Intraoperative radiotherapy - Current status, International Journal of Radiation Oncology * Biology * Physics 1993 (Vol. 27Supplement 1, Page 116),1993.
356:. In virtually every tumor site, electron IORT improves local control, reducing the need for additional surgeries or interventions. The following is a list of disease sites currently treated by IOERT:
414:. IOERT is an effective means of treating locally advanced or recurrent head and neck cancers. Furthermore, research shows that a boost given by IOERT reduces the ability for surviving tumor cells to
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advantages made electrons the preferred radiation for IOERT. The technique gained favor in Japan. Other Japanese hospitals initiated IOERT using electron beams, principally generated from linear
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Intraoperative radiotherapy (with robotic shaping and dosing). Abstracts book of 8th International Meeting of the Society of Minimally Invasive Therapy, September,18-20 1996 Cernobbio, Italy.
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Calvo FA, et al, . Intraoperative radiation therapy. In: Perez CA, Brady LW, Halperin EC, Schmidt-Ullrich RK, eds. Principles and Practice of Radiation Oncology, Lippincott 2004; 4th Ed 428-56.
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Timothy M. Pawlik et al Potential applicability of balloon catheterâbased accelerated partial breast irradiation after conservative surgery for breast carcinoma, Cancer,100, (3), 490â498, 2004
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Radiation Therapy Intraoperative Radiation Therapy (Proceedings of the Third International Symposium on Intraoperative) edited by M. Abe and M. Takahashi; pages 129-130; Pergamon Press, 1991.
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Sutton, Elizabeth J., Tong, Ricky T et al, "Decreased aortic growth and middle aortic syndrome in patients with neuroblastoma after radiation therapy." Pediatr Radiol;39(11):1194-1202.2009
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can be effectively treated by electron IORT, which appears to be gaining acceptance as the current practice for sarcomas in combination with EBRT (preferably preoperative) and maximal
460:(IORT) in an attempt to eradicate residual tumors left behind after surgical resection. However, radiation equipment in the early twentieth-century could only deliver low energy
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527:. Furthermore, they introduced several technical innovations to IOERT, including the use of television for simultaneous periscopic viewing of the tumor by the surgical team.
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G Loi et al.Neutron production from a mobile linear accelerator operating in electron mode for intraoperative radiation therapy. Phys. Med. Biol.; 51(3):695-702.2006.
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technology and a hard-docking system. The NOVAC-7 became available for clinical use in the 1990s while the LIAC was introduced to a clinical environment in 2003.
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Skandarajah AR, Lynch AC, Mackay JR, Ngan S, Heriot AG (March 2009). "The role of intraoperative radiotherapy in solid tumors." Ann. Surg. Oncol. 16 (3): 735â44
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Veronesi U., Roberto OrecchiaR., et al. Full-Dose Intraoperative Radiotherapy With Electrons During Breast-Conserving Surgery Ann. Surg., 242(1): 101â106. 2005.
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Shipley WU, Wood WC, Tepper JE, et al. Intraoperative electron beam irradiation for patients with unresectable pancreatic carcinoma. Ann Surg pp 289-295,1984.
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Soriani A, Felici G, Fantini M et al. Radiation protection measurements around a 12 MeV mobile dedicated IORT accelerator. Med Phys.; 37(3):995 1003. 2010.
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464:, which had relatively poor penetration; high doses of radiation could not be applied externally without doing unacceptable damage to normal tissues.
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Beck C.On external roentgen treatment of internal structures (eventration treatment). New York Medical Journal, Volumen LXXXIX No. 13: 621-622, 1909.
682:[October 14â16, 2010, 6th International Conference of the International Society of Intraoperative Radiation Therapy (ISIORT) in Scottsdale, Arizona
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Abe M. History of Intraoperative radiation therapy. In:Debelbower RR, Abe M (eds) Intraoperative radiation therapy. CRC, Boca Raton; :1-10, 1989.
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787:âIntraoperative radiation therapy as an âearly boostâ in locally advanced head and neck cancer: Preliminary results of a feasibility studyâ
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Intraoperative Irradiation. Techniques and Results. by: L. L.Gunderson, C. G. Wilett, L. B. Harrison and F. A. Calvo.Springer-Verlag 1999.
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493:. At most institutions, patients were operated on in the operating room (OR) and were transported to the radiation facility for treatment.
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In the 1990s, electron IORT experienced resurgence, due to the development of mobile linear accelerators that used electron beamsâthe
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608:. TARGIT uses a miniature and mobile X-ray source that emits low energy X-ray radiation (max. 50 kV) in isotropic distribution. (IO)-
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multimodality treatment, IOERT appears to reduce local recurrence when combined with EBRT, chemoradiation, and surgical resection.
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of surgery when microscopic residual tumor cells are most vulnerable to destruction. Also, IOERT is often used in combination with
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Garton GR, Intraoperative radiation therapy in gynecologic cancer: the Mayo Clinic experience Gynecol Oncol. 48(3):328-32. 1993
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was no longer restricted to the availability of special shielded operating rooms, but could be done in regular unshielded ORs.
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The Japanese experience was encouraging enough for several U.S. centers to institute IOERT programs. The first one began at
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M.Abe, M.Takahashi, Intraoperative Radiotherapy: the Japanese Experience. Int.J. Radiat.Oncol.Biol. Phys. 7:863-868; 1981.
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Accelerated partial breast irradiation using only intraoperative electron radiation therapy in early stage breast cancer.
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771:âIntraoperative Electron Beam Radiotherapy (IOERT) in the management of locally advanced or recurrent cervical cancer.
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IOERT has a long history of clinical applications, with promising results, in the management of solid tumors (e.g.,
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Interest in this treatment technique is growing, due in part to the development of LINAC for IOERT by factories.
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Combined modality therapy including intraoperative electron irradiation for locally recurrent colorectal cancer.
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Jayant S Vaidya, et al. Intraoperative radiotherapy for breast cancer, Lancet Oncol,5 (3): 165â73, 2004
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Donald A. Goer, EBRT and IOERT: A Winning Combination, Radiology Today, Vol. 9, No. 7, P. 29. 2008.
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Because portable LINACs for IOERT produced electron beams of energy less than or equal to 12
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Goldson A., Past, present and prospects of intraoperative radiotherapy (IOR). Semin Oncol 1981.
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radiation equipment, which enabled the delivery of more penetrating external radiation.
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It may require cleanup to comply with Knowledge (XXG)'s content policies, particularly
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Other non-IOERT mobile units have been developed as well. In 1998, a technique called
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Intraoperative radiotherapy for parotid cancer: a single-institution experience.
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2012 Oct 1;84(2):e145-52. doi: 10.1016/j.ijrobp.2012.03.013. Epub 2012 Apr 28.
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2012 Apr 1;82(5):1831-6. doi: 10.1016/j.ijrobp.2011.02.033. Epub 2011 Apr 20.
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2011 Jan 1;79(1):143-50. doi: 10.1016/j.ijrobp.2009.10.046. Epub 2010 Apr 13.
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machine limited the number of patients that could be scheduled for IOERT.
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Since 1975, breast cancer rates have declined in the U.S., largely due to
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585:. The LIAC and NOVAC-7 are robotic devices developed in Italy that use
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if you can. Unsourced or poorly sourced material may be challenged and
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Spanish and German doctors, in 1905 and 1915 respectively, used
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In 1982 the Joint Center for Radiation Therapy (JCRT), at
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where patients were treated with electrons generated by a
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Gunderson LL, Willett CG, Calvo FA, Harrison LB, eds.
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Gunderson LL, Willett CG, Calvo FA, Harrison LB, eds.
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Gunderson LL, Willett CG, Calvo FA, Harrison LB, eds.
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Gunderson LL, Willett CG, Calvo FA, Harrison LB, eds.
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Gunderson LL, Willett CG, Calvo FA, Harrison LB, eds.
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Gunderson LL, Willett CG, Calvo FA, Harrison LB, eds.
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Veronesi U, Orecchia R, Patrick Maisonneuve p, et al.
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for treating the tumor bed after wide local excision (
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A major contributor to this article appears to have a
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Second edition. New York: NY; Humana Press, 2011:107.
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Second edition. New York: NY; Humana Press, 2011:249.
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Second edition. New York: NY; Humana Press, 2011:189.
1706: Also known as sealed-source radiation therapy.
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with MammoSite is also used to treat breast cancer.
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801:Zeidan YH1, Shiue K, Weed D, Johnstone PA, et al,
724:Intraoperative Irradiation: Techniques and Results
1700: Also known as external-beam radiotherapy.
304:radiation treatment because, depending on the
147:Please review the contents of the article and
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874:Tinkle CL, Weinberg V, Braunstein SE, et al.
776:2013 Apr 8;8:80. doi: 10.1186/1748-717X-8-80.
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368:and the use of adjuvant treatments such as
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53:Learn how and when to remove these messages
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497:results were impressive, particularly for
484:Compared with other forms of IORT such as
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245:Intraoperative electron radiation therapy
230:Learn how and when to remove this message
105:Learn how and when to remove this message
785:Marucci L, Pichi B, Iaccarino G, et al.
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1736:Electron beams in medical applications
1192:Internal radiation therapy, cancer.org
850:Miller ED, Xu-Welliver M, Haglund KE.
550:Advent of Portable Linear Accelerators
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881:2015 9;2015:913565. Epub 2015 Aug 9.
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1408:Selective internal radiation therapy
833:Cai S1, Hong TS, Goldberg SI, et al.
637:Targeted intraoperative radiotherapy
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753:Haddock MG1, Miller RC, Nelson H.
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34:This article has multiple issues.
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85:. Please discuss further on the
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42:or discuss these issues on the
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855:Journal of Surgical Oncology.
514:Massachusetts General Hospital
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1712: Also known as systemic
1548:Radiation-induced lung injury
806:Int J Radiat Oncol Biol Phys.
758:Int J Radiat Oncol Biol Phys.
1741:Radiation therapy procedures
1678:Radiation treatment planning
16:Radiation therapy for Cancer
1663:Percentage depth dose curve
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625:External beam radiotherapy
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742:J Radiat Oncol Biol Phys.
598:University College London
521:National Cancer Institute
292:directly to the residual
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1603:Dose verification system
889:. Accessed 2016-11-07.
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544:Harvard Medical School
285:is the application of
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491:particle accelerators
445:limb-sparing approach
83:neutral point of view
1668:Radiation oncologist
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406:Head and neck cancer
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159:Find sources:
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130:This article
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1714:radioisotope
1628:Monitor unit
1598:Dose profile
1568:Features and
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1434:radiotherapy
1414: /
1410: /
1351:fast neutron
1289: /
1287:Radiosurgery
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693:. Retrieved
689:the original
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530:In 1981 the
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486:orthovoltage
475:
455:
435:Soft tissue
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409:
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389:and maximal
387:chemotherapy
383:
370:radiotherapy
363:
354:brain tumors
342:gynaecologic
323:
320:Medical uses
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138:verification
131:
101:
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37:
36:Please help
33:
1518:Tomotherapy
1416:TheraSphere
1412:SIR-Spheres
1301:Gamma Knife
1254:Teletherapy
685:"Home Page"
532:Mayo Clinic
471:megavoltage
250:Other names
132:needs more
1730:Categories
1588:Bragg peak
1531:Conditions
1463:Lexidronam
1448:Iobenguane
1296:Cyberknife
695:2010-02-26
644:References
602:lumpectomy
412:metastasis
366:mammograms
174:newspapers
39:improve it
1618:Isocenter
1613:Dosimetry
1570:equipment
1404: (I)
1245:therapies
512:In 1978,
441:resection
416:replicate
290:radiation
95:July 2016
87:talk page
45:talk page
1716:therapy.
1623:Mobetron
1506:electron
1385:Prostate
1319:electron
1243:Specific
1195:Archived
1124:Calif.).
700:(ISIORT)
639:(TARGIT)
619:See also
575:Mobetron
571:Mobetron
556:Mobetron
525:toxicity
482:betatron
437:sarcomas
338:sarcomas
287:electron
259:ICD-9-CM
1578:BEAMnrc
1465: (
1450: (
1418: (
1134:France.
879:Sarcoma
452:History
188:scholar
153:removed
1653:Pencil
1511:TARGIT
1361:proton
1338:hadron
1264:photon
839:Cancer
633:(IORT)
627:(EBRT)
594:TARGIT
587:S-band
579:X-band
462:X-rays
190:
183:
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169:
161:
1583:Bolus
1494:Other
1036:1984.
1008:1988.
836:2010.
604:) of
577:uses
294:tumor
271:[
264:92.41
253:IOERT
195:JSTOR
181:books
989:1985
899:1907
519:The
466:IORT
352:and
344:and
167:news
136:for
1593:D50
1336:by
1317:by
1262:by
883:doi
859:doi
563:MeV
1732::
1473:Sr
1467:Sm
1395:Pd
1041:^
501:.
374:Gy
336:,
332:,
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