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INTRAOPERATIVE RADIATION THERAPY (IORT) for EARLY-STAGE BREAST CANCER Dr. Maria C.E. Jacobs Director, Radiation Oncology Mercy Medical Center Baltimore, Maryland EARLY-STAGE BREAST: Local Breast Treatment • BCT consisting of conservative surgery (CS) with lumpectomy/partial mastectomy and RT • Mastectomy +/- immediate reconstruction BREAST CONSERVATION THERAPY: Treatment Objectives • Optimize local control • Minimize acute and long-term complications • Maintain optimal cosmesis Breast Conservation Therapy (BCT) is a standard of care supported by years of data. • BCT refers to breast-conserving surgery (BCS) + radiotherapy. • 27+ years of data support BCT as a standard of care. • Six modern, prospective randomized trials found no significant differences when comparing BCT to mastectomy. – Clinical trials compared local recurrence, distant metastasis, and long-term survival. RANDOMIZED TRIALS COMPARING MASTECTOMY vs. BCT • NCI (Milan) • NCI (USA) • NSABP B-06 • EORTC • NCI (France) • Danish Group Prospective Randomized Trials comparing Mastectomy (M) vs. BCT Trial No. of Pts %Local Recurrence %Survival F/U Interval BCT M BCT M (YR) NASBP 1219 12 8 63 59 15 MILAN 701 7 4 65 65 18 NCI 237 16 6 77 75 10 EORTC 868 20 12 65 66 10 IGR 179 9 14 73 65 15 DBCG 904 5 6 79 82 6 Summary of Randomized Trials: BCT vs. Mastectomy • Continuous follow-up demonstrates NO significant differences between BCT and mastectomy in: - loco-regional control - distant metastases - overall survival • No disadvantage in the use of BCT for patients with positive axillary lymph nodes • No significant differences in the rate of second malignancies or contralateral breast cancer Critical Elements in the Selection of Patients for BCT • History and Physical Exam: - Age should not be a contraindication for BCT - Comorbid conditions should be considered prior to BCT - Locally-advanced disease • Radiological Evaluation: - Multicentricity - Extent of calcifications Critical Elements in the Selection of Patients for BCT • Pathologic Evaluation: - Positive axillary lymph nodes are NOT a contraindication for BCT - NEGATIVE margins of resection • Needs and Expectations: - Self-esteem/Sexuality - Sense of disease control - Functionality - Overall quality of life Contraindications for BCT • Absolute: - More than two primaries in separate quadrants - Diffuse and pleomorphic calcifications - History of previous RT to the breast - Pregnancy in the first and second trimesters. Surgery can be performed in third trimester and RT can be deferred until after delivery - Persistent positive margins of resection after “reasonable” surgical attempts Contraindications for BCT • Relative: - History of collagen vascular disease. Scleroderma and active systemic lupus are ABSOLUTE contraindications - Large tumor in small breast - Large and pendulous breast preventing daily reproducibility and dose homogeneity Non-Mitigating Factors in the Selection of Patients for BCT (factors not affecting acceptability) • Family history of breast cancer is NOT a contraindication for BCT • BRCA 1 and 2 mutations are NOT a contraindication for BCT • High risk for systemic relapse is NOT a contraindication for BCT. It is a determinant for adjuvant systemic management • BCT can be offered to patients with positive axillary lymph nodes Radiation Therapy for Early-Stage Breast Cancer (post-lumpectomy) • Whole Breast Irradiation for 4500-5000 centiGray in 25-28 daily fractions of 180-200 centiGray/fraction • Tangential fields, 6-18 MV photon beam • “Boost” for 1500-2000 centiGray in 8-10 fractions using an electron beam or “mini-tangential fields depending on tumor bed depth Standard Breast Irradiation: Side Effects and Long-Term Complications • Acute - Skin: discoloration, dry and moist desquamation - Fatigue - Anemia is rare • Long-Term - Arm and breast edema - Myositis - Pneumonitis Under-Utilization of BCT 240,000 Breast Cancer Cases in 20071 ~180,000 Eligible for Breast Conservation Therapy (BCT)2 a ~72,153 40% BCT Mastectomy Lumpectomy No Radiation Receive BCT Lumpectomy + WBRT or APBI Eligible for lumpectomy but receive mastectomy Receive BCS w/o Radiation ~34,273 19% ~73,957 41% 108,2303 No Radiation Source: 12007 Cancer Facts & Figures American Cancer Society 2U.S. Department of Health and Human Services, Office on Women’s Health 3SEER Data 2000-2004 Incidence Rates, NCI Women Eligible for Breast Conservation Therapy 41% mastectomies1 Reasons cited:2 19% lumpectomy w/o radiation.1 - Time commitment - Inconvenience - Fear of radiation - Treating physician bias Reasons cited:3 - Limited radiotherapy resources - Treatment-related morbidity - Loss of income due to prolonged treatment duration with radiation 46% with DCIS have lumpectomy alone.4 Causative factors associated with under-treatment include issues with transportation, insurance coverage, employment and physical limitations.5 1Cancer Trends Progress Report - 2005 Update, National Cancer Institute, NIH, DHHS, Bethesda, MD, December 2005, http://progressreport.cancer.gov. ME. Breast Cancer Res. 2005;7:106-109. 3Vinh-Hung et al. J Nat Cancer Inst. 2004:96:115-121. 4Baxter et al. J Natl Cancer Inst. 2004;96:443-448. 5Jeruss et al. Ann Surg Oncol. 2006;13:967-976. 2Keisch Is it Safe to Omit Radiation Therapy After BCS? • Several randomized trials have been conducted to determine if radiation therapy (RT) can be omitted after breast-conserving surgery. • No subset of patients has been identified that can conclusively be treated with surgery alone. 1 Baxter et al. J Natl Cancer Inst. 2004;96:443-448. et al. N Engl J Med. 2004;350:1430-1441. 3 Houghton et al. Lancet. 2003;362:95-102. 4 Julien et al. Lancet. 2000;355:528-533. 5 Fisher et al. N Engl J Med. 1993;328:1581-1586. 2 Burstein Is Excision Alone Adequate in Any Subset of Patients • According to previous clinical trials, all subsets of patients benefit from RT • Risk factors for local recurrence after lumpectomy alone include tumor size, margins, grade, EIC and receptor status • A very selected group of patients may not require RT • RT is still STANDARD following CS CS vs. CS AND RT for Early-Stage Breast Cancer: Impact of RT Trial NSABP Ontario Milan Scottish English Uppsala-Orebro % Local Recurrence %Reduction (Recurrence) CS CS+RT 36 12 35 11 24 6 25 6 35 13 24 9 CS vs. CS+RT 67 69 75 76 63 63 Prospective Trials comparing CS vs. CS and RT • These trials have variables including extent of the surgical resection (wide excision vs. quadrantectomy) and length of follow-up • However, they all show a substantial reduction in the local recurrence rate with the addition of radiotherapy Is Excision Alone Adequate in Any Subset of Patients • According to previous clinical trials, all subsets of patients benefit from RT • Risk factors for local recurrence after lumpectomy alone include tumor size, margins, grade, EIC and receptor status • A very selected group of patients may not require RT • RT is still STANDARD following CS New/Alternative Treatment Approaches • Is excision alone adequate therapy? • Is the “boost” necessary? • Is partial breast irradiation an acceptable treatment modality? • Is accelerated partial breast irradiation (APBI) an acceptable option? How Did the Concept of Accelerated Partial Breast Irradiation Originate? • Findings suggest that the major benefit of radiation therapy is derived from radiation directed at the breast tissue immediately surrounding the lumpectomy site.1 – The majority of local recurrences after breast-conserving therapy occur at or near the tumor bed.1 • The incidence of “elsewhere” failures appears to be unaffected by whole breast irradiation: 1-5% of patients fail elsewhere regardless of radiation.1,2 – Whole breast irradiation may not be needed in appropriately selected patients.2 1King et al. Am J Surg. 2000;180:299-304. 2Arthur et al. Brachytherapy. 2002;1:184-190. “Elsewhere” Failures • Incidence of failures outside of tumor bed in randomized trials comparing lumpectomy with or without postoperative irradiation.1 Surgery Alone Surgery Plus RT Median f/u (mo) N % N % NSABP-B06 125 17 / 636 2.7 24/629 3.8 Milan 39 4 / 273 1.5 0/294 0 Ontario 43 15 / 421 3.5 4/416 1.0 116 - - 27/974 2.8 Trial The data suggest WBRT does not protect against new disease development elsewhere in the breast. 1Baglan et al. Int J Radiat Oncol Biol Phys. 2001;50:1003-1011. Disease Extension Illustrated Imamura 40-64 >64 100% ISO 75% ISO Imamura1: Max 8.32 mm Ohtake ≥50 100% ISO 75% ISO Ohtake2: Max 7.7 mm Red Line is MammoSite Radiation Prescription Depth at 100% Isodose: 1 cm. Green line is 75% Isodose. 1Imamura 2Ohtake et al. Breast Cancer Res Treat. 2000;62:177-184. et al. Cancer. 1995;76:32-45. Accelerated Fractionation Schedules: Partial Breast Irradiation • Brachytherapy • External Beam Radiotherapy • Intraoperative Radiotherapy APBI Techniques External Beam for APBI CONTURA MammoSite Interstitial multi-catheter SAVI Breast Brachytherapy Scientific Rationale Published data reports low local recurrence rates, ranging from 0.0 - 4.4 %, in patients treated with brachytherapy as primary treatment. Interstitial Brachytherapy – Multi-Entry/Multi-Catheter Arthur and Vicini, 2005 Published Data on Breast Brachytherapy as Primary Treatment: > 5-year Median Follow-up Institution 1 # Patients Follow-Up % Local Recurrence Ochsner Clinic1 New Orleans, Louisiana 51 75 2.0 William Beaumont Hospital2 199 72 1.1 National Institute Oncology3 128 66 4.7 Totals 378 70 2.4% King et al. Am J Surg. 2000;180: 299-304. Vicini et al. JNCI. 2003;95:1205-1210. 3 Polgar et al. Int J Radiat Oncol Biol Phys. 2007;69:694-702. 2 William Beaumont Hospital Trial: Cosmetic Outcomes with APBI1 • Population: 199 consecutive patients with invasive early-stage (I–II) breast carcinoma. • Treatment: Hypofractionated APBI using interstitial brachytherapy directed only at the region of the tumor bed. Cosmetic Outcome <6 months 2 years >5 years Excellent 10% 29% 33% Good 85% 68% 66% Fair 1% 2% 1% Total (Good + Excellent) 95% 97% 99% 1Chen et al. Cancer. 2006;106(5):991-999. MammoSite Rationale 2002 IJROBP MammoSite Dosimetry Publication: • Presents dosimetric characteristics of MammoSite • Analysis by William Beaumont, leader in breast brachytherapy • Key findings comparing MammoSite to multicatheter interstitial brachytherapy: - Favorable volume coverage and reproducibility MammoSite – Single Entry/Single Catheter Arthur and Vicini, 2005 Contura ApplicatorSingle Entry/Multi-Catheter PTV for Contura Balloon MammoSite SAVI Applicator – Single Entry/Multi-Catheter ABS and ASBS Patient Selection Criteria Age Diagnosis ASBS Recommendations2 (updated February 2007) (updated December 2005) ≥ 50 Infiltrating ductal carcinoma Tumor Size ≤ 3 cm Surgical Margins Negative microscopic surgical margins of excision Nodal Status 1American ABS Recommendations1 ≥ 45 Invasive ductal carcinoma or DCIS ≤ 3 cm Negative microscopic surgical margins of excision NØ Brachytherapy Society, Breast Brachytherapy Task Group, February 2007. statement for accelerated partial breast irradiation. American Society of Breast Surgeons, 2005. 2Consensus NØ NSABP B-39 /RTOG 0413: Phase III Trial ABS Recommendations (Updated February 2007) ASBS Recommendations (Updated December 2005) *NSABP B39 - RTOG 0413 Eligibility Criteria Age >50 >45 >18 Diagnosis Infiltrating ductal carcinoma Invasive ductal carcinoma or DCIS Invasive adenocarcinoma or DCIS Tumor size <3cm <3cm <3cm Surgical margins Nodal status Negative Negative microscopic surgical microscopic surgical margins of excision margins of excision NØ NØ Negative microscopic surgical margins of excision by NSABP definition NØ; N1 (1-3 nodes) *NSABP B-39 enrollment now closed to lower risk patients: DCIS patients ≥ 50 years AND Invasive Breast Cancer patients ≥ 50 years who are node negative and hormone-receptor positive. ACCELERATED PARTIAL BREAST IRRATDIATON • Reduction of treatment time from 6-7 weeks to 5 days • It decreases the target volume (lumpectomy plus 1-2 cm margin • Increases dose per fraction: 340 cGy twice daily (BID) x 5 days= 3,400 cGy • Use highly conformal dose delivery using CT based 3D-CRT Lessons learned from APBI Patient Appeal Decreased Overall Treatment Time: Radiotherapy: 1 week vs. 6-7 weeks CS--chemotherapy (4-6 months)--RT(6-7weeks) VS. CS------- RT (1 week) ------- Chemotherapy Less skin toxicity Less systemic toxicity INTRAOPERATIVE RADIATION THERAPY (IORT): DEFINITION Intraoperative Radiation Therapy (IORT) is the delivery of a single high dose of radiation to the target area/tumor bed at the time of surgery. IORT It is TRULY a multidisciplinary approach during which the surgeon removes the tumor and the radiation oncologist directs the radiation to the tumor bed, with both physicians working together, hand in hand, to spare surrounding normal tissues. IORT IORT is NOT a new approach to cancer management. As the result of pioneering work by Dr. Abe in Kyoto, Japan, IORT using linear accelerators has been used in the U.S.A., Europe and Japan for the treatment of malignancies in the abdomen (sarcomas, rectum, gynecologic and retroperitoneal tumors) IORT: History • 1909: Beck treated a patient with colon cancer using low-energy X-rays • Early 1970, Dr. Abe in University of Kyoto, Japan • 1978, IORT pioneered in the U.S.A.: - Howard University/N.C.I., Washington, D.C. - Massachusetts General Hospital Why IORT? • Partial breast Irradiation experience promising excellent local control and acceptability by patients • Single fraction • Treatment delivered in sterile environment, reducing risk for infection • AIMING RADIATION where RADIATION IS NEEDED Intraoperative Radiation Devices Device Beam Delivery time IntraBeam photon 40/50 kV 20 min Breast, skin, gyn, brain 1.5 - 5-cm Reusable 20 min Breast, skin, gyn 1 - 5-cm Single use 2 min Breast, skin, gyn, rectal, pancreas, sarcoma, pediatric 3 - 10 cm Reusable Axxent eBx photon 50kV Mobetron electron 4-12MeV Ash, RB, et al, Oncology, 107 (2013) Sites Applicators IORT Systems of kV versus MV Devices Carl Zeiss INTRABEAM and Xoft Axxent eBx vs IntraOp Medical Mobetron Carl Zeiss IORTArm IntraBeam stand with x-ray System X-ray source source Control Workstation Solid applicator and balloon Applicator on the x-ray source Solid applicator size available: 1.5, 2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0 cm in diameter, labeled by A, B, C, D, E, F, G, and H for the part number. Reusable 100 times. Balloon size available: 3.0, 3.5, 4.0, 4.5, 5.0 cm in diameter. Single use. Spatial distribution of X-ray beam -1.5 mm 50 kV, 40 µA 0 +1.5 mm 7 6 5 4 3 2 1 Gy/min IORT Procedure with Solid Applicator Step 1: The lumpectomy, immediately following tumor removal. Step 2: After the surgeon has removed the tumor, the radiation oncologist positions the INTRABEAM applicator in the area of the breast where the tumor was located. Step 3: Low energy radiation is delivered locally to the targeted tissue in the tumor bed, minimizing healthy tissue exposure to radiation. Step 4: After 20-30 minutes of radiotherapy, the applicator is removed and the surgeon then closes the incision. Carl Zeiss IORT IntraBeam System in OR Radiation from a mini-xray source of 50kV Drape Applicator Lead Shield A solid applicator with X-ray source ready to insert Why the excitement for IORT? TARGETED INTRAOPERATIVE RADIOTHERAPY vs. WHOLE BREAST RADIOTHERAPY TARGIT-A TRIAL Lancet Vol. 376 July 10, 2010 PATIENT SELECTION for TARGIT • Age: 45 or older suitable for wide local excision • Unifocal invasive ductal carcinoma (lobular was excluded) • Tumor size < 3.5 cm • Clinically N0 • ECOG performance 0-3 • No neoadjuvant chemotherapy TREATMENT PARAMETERS • Lumpectomy and Sentinel Lymph Node (SLN) Biopsy • If negative SLN, sizing of the lumpectomy cavity and placement of IORT device • Ultrasound for measuring skin-to-device distance • Placement of shield to protect heart and lung • Dosimetry in preparation for treatment delivery • Single dose of 20 Gray prescribed to the surface of the applicator TARGIT-A Trial with IORT • Four year median follow-up • Local recurrence •0.95% WBI with EBRT •1.2% IORT with IntraBeam Vaidya et al in 2010 3,451 patients as of 2013 • Local recurrence compared with ELIOT trial • 3 year median follow-up • 2.3 % IORT with electrons IORT FOR BREAST CANCER: MERCY MEDICAL CENTER September 7, 2012 - February 20, 2014, 67 patients 68 IORT delivered (1 pt with bilateral breast cancer) 12 patients received additional whole breast irradiation: beginning of IORT program Margins multifocality 2 patients had mastectomy (multiple involved margins) COMPLICATIONS • Intraoperative: None • Post-operative: erythema infection dehiscence • COSMESIS: good to excellence CONCLUSIONS • Large body of publications supporting that PBI in selected group of patients can optimize local control while minimizing radiation toxicity. • TARGIT-A trial showed comparable results to PBI. • Further trials are in progress using IORT (TARGIT-US) as a registry trial following breast conserving surgery. Thank You! Muchas gracias!!
