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Radiation Therapy in Prostate Cancer Current Status and New Advances

Radiation Therapy in Prostate Cancer Current Status and New Advances. Mahdi Aghili MD ,AFSA Cancer Institute -Department of Radiation Oncology Associated Professor of Tehran University of Medical Sciences 2/11/1390. History of Radiation Therapy in Prostate cancer. Radiation Modalities.

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Radiation Therapy in Prostate Cancer Current Status and New Advances

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  1. Radiation Therapy in Prostate CancerCurrent Status and New Advances MahdiAghili MD ,AFSA Cancer Institute -Department of Radiation Oncology Associated Professor of Tehran University of Medical Sciences 2/11/1390

  2. History of Radiation Therapy in Prostate cancer

  3. Radiation Modalities External Beam → Involves the use of photons and electrons ←Brachytherapy “Close therapy” Radioactive sources placed within the prostate

  4. History of RT in Prostate Cancer

  5. Early Prostate Brachytherapy Prostate Implant (1917)

  6. •Recognized that a superior approach would be to insert radium needles directly into the prostate •More of the prostate could be treated with less damage to the urethra Radiation Therapy and Prostate Cancer Prostate Brachytherapy Urology Textbook (1926)

  7. Radiation Therapy in Prostate Cancer • Enthusiasm for brachytherapy and RT in general decreased after World War II • Many patients were not cured • Mainstay of treatment became surgery • Excitement also surrounded discovery of the hormonal therapy

  8. Prostate Brachytherapy • Newer techniques allow seeds to be better distributed throughout the prostate • Interest decreased today with permanent seed implants due to urinary side effects and advances in external beam RT

  9. Radiation Therapy in Prostate Cancer • Interest returned in the 1960s • Development of megavoltage (high energy machines) • Highly penetrating beams which treat the prostate • without excessive skin toxicity Malcolm Bagshaw Stanford University Demonstrated that prostate cancer is curable with external beam (megavoltage) RT

  10. External Beam Treatment Machines 1920’s Low energy Poor penetration Unable to treat the prostate without skin toxicity 1950s Moderate Energy Improved penetration Less skin toxicity Today Computer controlled Linear accelerators Multiple high energy beams IMRT and IGRT

  11. External Beam Treatment • Advancing rapidly • Better, more powerful machines • New sophisticated approaches - Intensity Modulated RT (IMRT) • Image-Guided RT (IGRT) • Proton Therapy

  12. Radiation Techniques

  13. External Radiotherapy ( Teletherapy ) • The radiation source outside of body • Fractionated • Higher integral dose • Conventional or newer technology (3D conformal ,IMRT &proton beam) • 66-81 Gy depend to radiation technique

  14. Conventional vs. IMRT

  15. IMRT in Prostate Cancer • Better focusing allows us to reduce risk of toxicity to rectum and bladder • Also allows us to safely use higher doses to improve cure rates • Also being used to potentially reduce risk of impotence by reducing irradiation of the penile bulb

  16. IMRT Intensity Map MLC Segments

  17. IGRT

  18. Prostate Movement during 8 minutes One slice each 5 seconds

  19. Image Guided RT (IGRT) • Current interest focused on image guided RT (IGRT) • Method to use imaging in the treatment room to improve the delivery of IMRT • Not a replacement for IMRT • IMRT focuses the radiation on the prostate while IGRT ensures that it is aimed correctly everyday

  20. Small gold seeds implanted in prostate • IGRT system used to match position everyday A more sophisticated method is to perform daily CT • Used to ensure proper alignment of prostate

  21. Tomotherapy • RT is delivered slice-by-slice • is a form of Computer Tomogeraphy(CT) guided Intensity Modulated RadioTherapy(IMRT)

  22. CyberknifeRadiosurgery • frameless robotic radiosurgery system • Small linear accelerator and a robotic arm • Total body radiosurgery • Image guided • Multiple shuts of RT beams • 1-5 fractions

  23. Modern Brachytherapy

  24. I-125 seed

  25. Quality of life after seed implants • Morbidity Incidence Mean duration • Difficulty urinating 80-95% 6-24 months • Urinary retention 12% 2 weeks • Urinary Incontinence <1-2% • Rectal bleeding ? • Impotency 30-40%

  26. Seed Summary • Convenient out patiant treatment for early postate cancer • As effecting that removing the prostate • Less side effects

  27. Why HDR • Seeds are permanent • Needle tracks not straight • Difficult to get adequate dose in periprostatic tissue

  28. HDR Prostate Brachytherapy • Practical advantage • Physical advantage • Biological advantage

  29. HDR vs. LDR • Practical advantage • - No worries re : Seed Supply. • - No worries re : Lost Seeds. • - No worries re : Radiation Exposure. • - No worries re : Seed Migration. • - No worries re : Seed Emboli. • - No worries re : Pre-Plan Matching. • - No worries re : EPE. • - No worries re : SVI • - No worries re : Pubic Arch. • - No worries re : Volume.

  30. Radiotherapy (indications and results)

  31. Radiotherapy • There are no randomized studies comparing radical prostatectomy (RP) with RT either EBRTor BTfor localized prostate cancer • External irradiation offers the same long-term survival results as surgery; moreover, EBRT provides a quality of life at least as good as that provided by surgery* *the National Institutes of Health (NIH)-1988

  32. In daily practice, a minimum dose of > 74 Gy is recommended with short-term androgen deprivation therapy (ADT) is recommended (based on the results of a phase III RCT) • Higher Dose RT provide a significant increase in 5-year freedom from clinical or biochemical failure for patients in an intermediate-risk group • Dutch Trial :68 Gy with 78 Gy • MRC RT01 study: 64 Gy with 74 Gy • MD Anderson study specially in high risk group

  33. Dose Escalation for HR Pca • Dose escalation protocols showed that better BRFI and local control specially in high risk group - Dose radiation by 10% can increase local control by 20% - 3D Conformal, IMRT, HDR Brachytherapy boost • Higher dose fractions may improve disease specific survival • HDR has lower margin of healthy organ than IMRT and 3D-CRT

  34. Result of dose escalation in HR and LR groups

  35. Dose Escalation • In cases of intermediate- or high-risk localisedPCa, brachytherapy in combination with supplemental external irradiation or neoadjuvant hormonal treatment may be considered • Compared to EBRT alone, the combination of EBRT and HDR brachytherapy showed a significant improvement in biochemical relapse free survival (p = 0.03)

  36. Late effects • the prospective EORTC randomised trial 22863 (1987-1995) : • ≤ 70 Gy with older RT techniques • 90% of patients were diagnosed as stage T3-4 • 91% evaluated for urinary or intestinal complications or leg oedema • 19% grade 2 , 3.8% grade3 and 1% death Newer techniques (3D-CR & IMRT ) • Recent data from MSKCC: grade 2 or more GI toxicity was 5% with IMRT, compared with 13% with 3D-CR and for late GU toxicity was 20% in patients treated with 81 Gy, compared with 12% in patients treated with lower doses

  37. Incidence of late toxicity by RTOG grade Toxicity(from EORTC trial 22863)

  38. Impotency • Radiotherapy affects erectile function to a lesser degree than RP according to retrospective surveys of patients • A recent meta-analysis has shown that the 1 and 2 yearrate of probability for maintaining erectile function: • brachytherapy :0.76 and 0.70 • ERT+ BT:0.60 and 0.60 • External irradiation:0.55 and 0.52 • nerve-sparing RP:0.34 and 0.25 • Standard RP:0.25 and 0.25

  39. Adjuvant or salvage RT

  40. Adjuvant RT • Immediate post-operative for pT3 • 3 RCT have assessed the role of immediate post-operative radiotherapy • EORTC trial (1005 pts):pT3 pN0 with risk factors R1 and pT2R1 after RP immediate post op 60 Gy or 70 Gy after PSA rising: improves 5-year clinical or biological survival: 72.2% vs51.8% (p < 0.0001) ,and 3% survival benefit after 10 yrs ,risk of grade 3-4 GU toxcisitiy <3.5% • ARO trial 96-02(385 pts): improvement in BFS of 72% versus 54% respectively (p = 0.0015)

  41. SWOG 8794 trial(425pts):in pT3 patients with median follow-up of more than 12 years ; adjuvant radiation significantly improved metastasis-free survival, with a 10-year metastasis-free survival of 71% versus 61% (median: 1.8 years prolongation, p = 0.016) • 10-year overall survival of 74% versus 66% (median: 1.9 years prolongation, p = 0.023)

  42. Adjuvant RT • Patients with pT3 pN0 have a high risk of local failure after RP due to positive margins (highest impact), capsule rupture, and/or invasion of the seminal vesicles, who present even if with a PSA level of < 0.1 ng/mL • two options can be offered to pT3 - Either an immediate radiotherapy to the surgical bed upon recovery of urinary function; • or clinical and biological monitoring followed by salvage radiotherapy when the PSA exceeds 0.5 ng/ml • so providing patients with the chance of about 80% being Progression free 5 years later

  43. Salvage treatment • 1) After Radical Prostatectmy • Usually define by PSA rising • RT may curable in 50% of patients specially if PSA<1.5 ng/ml • ERT 66-70 Gy to prostate bed • Hormon therapy ?? • 2)After External RT • PSA rising in absent of regional or distant mets • Should be confirmed by biopsy or MRI-MRS • Hormontherapy, Brachytherapy(seed or HDR), Surgery, Cryotherapy or HIFU

  44. Salvage treatment after Radiotherapy BRFS(5 yrs)Complications • Salvage Surgery 44-65% Incontinence 40% Stricture 25% • Cryotherapy 58% Incontinence15% fistula 10% rectal and perineal pain35% • HIFU 10-50% Stricture 11%, rectal fistula up to66% • Brachytherapy34 -75% (LDR) Incontinence 6%,GU (G3-4)17% 89% (2 yrs for HDR) GI 7%

  45. Conclusion • Radiotherapy is a good option as surgery in early stage prostate cancer with acceptable long term results and complications • Newer techniques 3D-CRT, IMRT, IGRT, SBRT , Brachytherapy improved local control and reduced complications

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