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Brain radaiosurgery introduction
- 1. WHO Classification. Louis D ; Acta Neuropathol 2007WHO Classification. Louis D ; Acta Neuropathol 2007 Introduction: Radiosurgery in brain tumourIntroduction: Radiosurgery in brain tumour Total number of tumoursTotal number of tumours 132132 Total number of malignant glial tumour ~Total number of malignant glial tumour ~ 2020
- 2. Radiation therapyRadiation therapy Conventional RT: 1.8-2 Gy/# Majority of the tumours are treated with Conv RT Hypofractionated RT: >2 Gy/# Mainly for palliative treatment Radiosurgery: Single fraction high dose treatment Usually curative intent Fractionated Radiosurgery: Short course high dose treatment Usually curative
- 3. Radiosurgery:Radiosurgery: toolstools Gamma-Knife LA based SRS Systems BrainLAB Novalis Trilogy Tomotherapy CyberKnife
- 4. Gamma knifeGamma knife • Gamma-knife: 201 Cobalt source • Only for intracranial lesions • Rigid/ fixed frame required • Single fraction treatment
- 5. Gamma-knifeGamma-knife Indications - Small Meningiomas (<3 cm) - Small acuastic schwannoma (<3 cm) - Solitary / oligo brain metastasis with controlled primary (RPA Class I) - Small residual LGG - AVMs (<3 cm) - Trigeminal neuralgia (Functional disorder) More than 40 years experience / results with Gamma-Knife
- 6. CyberKnife:CyberKnife: Unique propertiesUnique properties Highly precise treatment delivery Motion management method Tumour tracking ‘Dose painting’ Excellent dose distribution Fractionation schedule No rigid fixation
- 7. ‘CyberKnife is an extension of Gamma-Knife’ - Principles of ‘field arrangement’ - Dose distribution pattern - Multiple isocentre -Treatment principles - Treatment delivery accuracy similar - Delivered dose in single fractions - Intra-cranial indications CK & GK: Similarity Hence, all the indications of GK are indications of CK also
- 8. CyberknifeCyberknife Indications for single fraction treatment as Gamma-Knife - Small Meningiomas (<3 cm) - Small acuastic schwannoma (<3 cm) - Solitary / oligo brain metastasis with controlled primary - Small residual LGG - AVMs (<3 cm) - Trigeminal neuralgia - Rec High grade glioma - Craniopharyngioma - Pituitary tumour More than 40 years experience / results with Gamma-Knife
- 9. Cyberknife Vs Gamma-Knife:Cyberknife Vs Gamma-Knife: Dissimilarity GK CK Comments Immobilization device Rigid frame Orfit CK has favorable orfit RT source Co60 6MV LA GK need to replace sources every 5/6 yrs Planning No complex planning Inverse planning Favorable dosimetry in CK Planning method Simple Complex Even neurosurgeons can plan in GK Isodose prescription Usually 50% Usually 80-95% GK: more dose heterogeniety Fractions Single May treat multiple fraction Radiobiology favorable in CK Tumour size Only smaller lesions can be treated Larger lesions also can be treated in fractionated schedule Increased indications with CK Energy source Radiation Electricity GK can work with less electricity Verification Not possible Possible Even Intra-fraction movement can be corrected Indications Only brain lesions Both extra & intra cranial CK more economical
- 10. Cyberknife Vs Gamma-Knife:Cyberknife Vs Gamma-Knife: Dissimilarity Advantage of Inverse planning GK planning CK planning Dose to mesial temporal lobe & Choclea is higher with GK Mean dose to mesial temporal lobe >6 Gy with SRS: IQ decline Romanalli, Lancet 2009
- 11. % of patient with >10% drop in IQ% of patient with >10% drop in IQ Left temporal lobe DVH p=0.39 p=0.06 p=0.03 p=0.06 Volume(cc) Jalali , Dutta et al IJROBP 2009
- 12. PTV margin in brain tumourPTV margin in brain tumour CTV-PTV Margin Systemic Error (Σ) Random Error (σ) ICRU 62 Strooms Van Herk’s NR only Group: Ant-Posterior 0.1 1.36 1.05 mm 1.15 mm 1.20 mm Med-lateral 0.28 1.04 1.01 mm 1.29 mm 1.43 mm Sup-Inferior 0.52 1.37 1.48 mm 2.0 mm 2.26 mm NRF Group: Ant-Posterior 2.24 1.28 3.14 mm 5.38 mm 6.50 mm Med-lateral 0.78 1.41 1.77 mm 2.55 mm 2.94 mm Sup-Inferior 0.94 1.39 1.91 mm 2.85 mm 3.32 mm PTV margin: 3 mm. Budrukkar , Dutta et al, JCRT 2008 Prospective study Two different head rest (NR & NRF) 220images (NR 100, NRF 120) Error estimation with 2D EPID
- 13. Cyberknife Vs Gamma-Knife Vs X-Knife:Cyberknife Vs Gamma-Knife Vs X-Knife: CK: Accuracy similar with Gamma-Knife Treatment delivery accuracy: GK: ~1 mm CK : ~1 mm LA based SRS: 1-2 mm (iso-centric inacurracy; LUTZ test) PTV margin: CK: <1 mm GK: <1 mm LA based SRS: 1-2 mm GK/CK LA based SRS CK has the accuracy of GK and flexibility of LA based SRS
- 14. Indications for CyberKnifeIndications for CyberKnife Intracranial tumours 1.‘oligo’ Brain metastasis 2.Acustic neuromas/ schwannomas 3.Meningiomas 4.Recurrent Low grade gliomas 5.Recurrent High grade gliomas 6. AVMs 7.Trigeminal neuralgias 8.Functional disorders Extra-cranial tumours 1.Early Non small cell lung cancer 2.Localized Prostate cancer 3.Small volume Liver cancer 4.Inoperable Gall bladder, pancreas cancer 5.Recurrent head & neck cancer 6.Recurrent Ca nasopharynx 7.‘Oligo’ Lung metastasis. 8.‘Oligo’ Liver metastasis. 9.‘Oligo’ bone metastasis 10.Eye lesions / tumours
- 15. Radiosurgery in brain tumour: PromisesRadiosurgery in brain tumour: Promises - - Radiosurgery is a promising area in brain tumour management -There is a definite role of radiosurgery with definite indications -Radiosurgery is a short course, high dose radiation therapy -Patient compliance is excellent, out-patient procedure -CyberKnife is the most modern radiosurgery procedure