1,721,014 research outputs found
Radiotherapy and radiosurgery for benign skull base meningiomas
No full textMeningiomas located in the region of the base of skull are difficult to access. Complex combined surgical approaches are more likely to achieve complete tumor removal, but frequently at a cost of treatment related high morbidity. Local control following subtotal excision of benign meningiomas can be improved with conventional fractionated external beam radiation therapy with a reported 5-year progression-free survival up to 95%. New radiation techniques, including stereotactic radiosurgery (SRS), fractionated stereotactic radiotherapy (FSRT), and intensity-modulated radiotherapy (IMRT) have been developed as a more accurate technique of irradiation with more precise tumor localization, and consequently a reduction in the volume of normal brain irradiated to high radiation doses. SRS achieves a high tumour control rate in the range of 85- 97% at 5 years, although it should be recommended only for tumors less than 3 cm away more than 3 mm from the optic pathway because of high risk of long- term neurological deficits. Fractionated RT delivered as FSRT, IMRT and protons is useful for larger and irregularly or complex-shaped skull base meningiomas close to critical structures not suitable for single-fraction SRS. The reported results indicate a high tumour control rate in the range of 85-100% at 5 years with a low risk of significant incidence of long-term toxicity. Because of the long natural history of benign meningiomas, larger series and longer follow-up are necessary to compare results and toxicity of different techniques
An Italian Society of Radiation Oncology (AIRO) survey: radiotherapy after breast conservative treatment (BCT) for early-stage breast cancer.
No full textA systematic review of proton therapy in the treatment of chondrosarcoma of the skull base
No full textAbstract
Chondrosarcoma (CSA) of the skull base (SB) is an uncommon, slowly growing, neoplasm comprising approximately 0.1% of all intracranial tumors and 6% of SB lesions. Even though its growth is slow, CSA is a potentially lethal tumor. The therapeutic approach to CSA of the SB is still controversial and clinical experience is limited because of the relative rarity of this tumor. The use of proton therapy (PT) after maximal surgery is widely accepted, but there are no controlled studies demonstrating the need of PT and its superiority in comparison to radiotherapy with photons. We conducted a systematic review of the scientific literature published during the period between January 1980 and June 2008 on data regarding irradiation of CSA of the SB with PT and a series of inclusion criteria. During August 2008, two independent reviewers (M.A. and D.A.), by applying the key words "skull base", "chondrosarcoma", and "proton therapy" selected those studies from the PubMed database in which a minimum of ten patients received palliative, radical, or postoperative irradiation with protons and which furnished a minimum of 24 months of follow-up. Forty nine reports were retrieved. There were no prospective trials (randomized or nonrandomized) but just nine uncontrolled single-arm studies for PT mainly related to advanced and frequently incompletely resected tumors. According to the inclusion criteria, only four articles, reporting the most recent updated results of the publishing institution, were included in the analysis providing clinical outcomes for 254 patients in total. Therapeutic approach to CSA of the SB has traditionally relied on surgical control. Radiation therapy has demonstrated to be a valuable modality for local control in the postoperative setting or in advanced/inoperable cases treated with definitive intent. The use of PT following maximal surgical resection shows a very high probability of medium- and long-term cure with a relatively low risk of significant complications
Proton radiotherapy for pediatric tumors: Review of first clinical results
No full textRadiation therapy is a part of multidisciplinary management of several childhood cancers. Proton therapy is a new method of irradiation, which uses protons instead of photons. Proton radiation has been used safely and effectively for medulloblastoma, primitive neuro-ectodermal tumors, craniopharyngioma, ependymoma, germ cell intracranial tumors, low-grade glioma, retinoblastoma, rhabdomyosarcoma and other soft tissue sarcomas, Ewing's sarcoma and other bone sarcomas. Moreover, other possible applications are emerging, in particular for lymphoma and neuroblastoma. Although both photon and proton techniques allow similar target volume coverage, the main advantage of proton radiation therapy is to sparing of intermediate-to-low-dose to healthy tissues. This characteristic could translate into clinical reduction of side effects, including a lower risk for secondary cancers. The following review presents the state of the art of proton therapy in the treatment of pediatric malignancies
The role of fractionated radiotherapy and radiosurgery in the management of patients with craniopharyngioma
No full textThe optimal management of craniopharyngiomas remains controversial. The first-line treatment usually consists of surgical resection. Complete tumor removal provides a high rate of long-term control; however, aggressive surgery is associated with significant incidence of complications. Radiotherapy (RT) is currently used in patients after limited surgery and achieves excellent long-term tumor control. Stereotactic radiotherapy, both in the form of radiosurgery (RS) or fractionated stereotactic radiotherapy (FSRT), has been developed as a more accurate technique of irradiation with more precise tumor localization and consequently a reduction in the volume of normal brain irradiated to high radiation doses. We provide a review of published data on outcome of conventional fractionated RT and modern radiation techniques. FSRT is a suitable treatment technique for all sizes of craniopharyngiomas, and efficacy is comparable to conventional RT. Single-fraction stereotactic radiosurgery is usually delivered to small tumors away from critical structures. Longer follow-up is necessary to confirm the excellent tumor control and the potential reduction of long-term radiation toxicity. © 2009 Springer-Verlag
The role of fractionated radiotherapy and radiosurgery in the management of patients with craniopharyngioma
No full textThe optimal management of craniopharyngiomas remains controversial. The first-line treatment usually consists of surgical resection. Complete tumor removal provides a high rate of long-term control; however, aggressive surgery is associated with significant incidence of complications. Radiotherapy (RT) is currently used in patients after limited surgery and achieves excellent long-term tumor control. Stereotactic radiotherapy, both in the form of radiosurgery (RS) or fractionated stereotactic radiotherapy (FSRT), has been developed as a more accurate technique of irradiation with more precise tumor localization and consequently a reduction in the volume of normal brain irradiated to high radiation doses. We provide a review of published data on outcome of conventional fractionated RT and modern radiation techniques. FSRT is a suitable treatment technique for all sizes of craniopharyngiomas, and efficacy is comparable to conventional RT. Single-fraction stereotactic radiosurgery is usually delivered to small tumors away from critical structures. Longer follow-up is necessary to confirm the excellent tumor control and the potential reduction of long-term radiation toxicity
Treatment of glioblastoma in older patients
No full textThe incidence of glioblastoma in the elderly population has increased in recent decades. Current treatment of glioblastoma in the elderly includes surgery, radiotherapy and chemotherapy; however, its optimal management is still a matter of debate. Several studies have reported longer survival after extensive resection in comparison with biopsy only, but the survival advantage remains modest. Both standard (60 Gy in 30 fractions over 6 weeks) and abbreviated courses of radiotherapy (30-50 Gy in 6-20 fractions over 2-4 weeks) have been employed in elderly patients with glioblastoma with survival benefits compared with supportive care alone. Temozolomide is an alkylating agent that has been used more recently as an alternative, effective and safe therapy in older patients with newly diagnosed glioblastoma. The addition of concomitant and/or adjuvant chemotherapy with temozolomide to radiotherapy, which is currently the standard treatment in adults with glioblastoma, is emerging as a feasible therapeutic option for older patients with favorable prognostic factors; however, the impact of different schedules of radiotherapy plus temozolomide on survival and quality of life in this population needs to be addressed in future randomized studies. © 2009 Future Medicine Ltd
Radiotherapy and radiosurgery for benign skull base meningiomas
No full textAbstract Meningiomas located in the region of the base of skull are difficult to access. Complex combined surgical approaches are more likely to achieve complete tumor removal, but frequently at a cost of treatment related high morbidity. Local control following subtotal excision of benign meningiomas can be improved with conventional fractionated external beam radiation therapy with a reported 5-year progression-free survival up to 95%. New radiation techniques, including stereotactic radiosurgery (SRS), fractionated stereotactic radiotherapy (FSRT), and intensity-modulated radiotherapy (IMRT) have been developed as a more accurate technique of irradiation with more precise tumor localization, and consequently a reduction in the volume of normal brain irradiated to high radiation doses. SRS achieves a high tumour control rate in the range of 85-97% at 5 years, although it should be recommended only for tumors less than 3 cm away more than 3 mm from the optic pathway because of high risk of long-term neurological deficits. Fractionated RT delivered as FSRT, IMRT and protons is useful for larger and irregularly or complex-shaped skull base meningiomas close to critical structures not suitable for single-fraction SRS. The reported results indicate a high tumour control rate in the range of 85-100% at 5 years with a low risk of significant incidence of long-term toxicity. Because of the long natural history of benign meningiomas, larger series and longer follow-up are necessary to compare results and toxicity of different techniques.</p
Radiosurgery with photons or protons for benign and malignant tumours of the skull base: a review
Full text linkAbstract Stereotactic radiosurgery (SRS) is an important treatment option for intracranial lesions. Many studies have shown the effectiveness of photon-SRS for the treatment of skull base (SB) tumours; however, limited data are available for proton-SRS. Several photon-SRS techniques, including Gamma Knife, modified linear accelerators (Linac) and CyberKnife, have been developed and several studies have compared treatment plan characteristics between protons and photons. The principles of classical radiobiology are similar for protons and photons even though they differ in terms of physical properties and interaction with matter resulting in different dose distributions. Protons have special characteristics that allow normal tissues to be spared better than with the use of photons, although their potential clinical superiority remains to be demonstrated. A critical analysis of the fundamental radiobiological principles, dosimetric characteristics, clinical results, and toxicity of proton- and photon-SRS for SB tumours is provided and discussed with an attempt of defining the advantages and limits of each radiosurgical technique.</p
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