Study Results
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Basic Information
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RECRUITING
420 participants
OBSERVATIONAL
2016-07-31
2026-07-31
Brief Summary
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A technique called a Permanent Breast Seed Implant (PBSI) involving the implantation of radioactive seeds has been developed to deliver the radiation to a portion of the breast. The procedure is performed on an out-patient basis under local anesthesia and light sedation. Because the radioactive seeds are permanently implanted in the breast, the patient is able to live a normal life while the seeds deliver the prescribed radiation to the breast.
Previous studies on PBSI demonstrate that it is a safe and effective alternative form of radiation for appropriately selected patients after lumpectomy. However, those results have been obtained mainly from a single institution, with only 4 patients treated in another center. Further research is still needed to evaluate its safety in a multi-center setting. The purpose of this study is to ensure the appropriate training of clinicians who will be performing this procedure and to capture long term outcomes and rare complications if any.
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Detailed Description
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A technique called a Permanent Breast Seed Implant (PBSI) involving the implantation of radioactive seeds has been developed to deliver the radiation to a portion of the breast. The procedure is performed on an out-patient basis under local anesthesia and light sedation. Because the radioactive seeds are permanently implanted in the breast, the patient is able to live a normal life while the seeds deliver the prescribed radiation to the breast.
Previous studies on Permanent Breast Seed Implant (PBSI) demonstrate that it is a safe and effective alternative form of radiation for appropriately selected patients after lumpectomy. However, those results have been obtained mainly from a single institution, with only 4 patients treated in another center. Further research is still needed to evaluate its safety in a multi-center setting. The purpose of this study is to ensure the appropriate training of clinicians who will be performing this procedure and to capture long term outcomes and rare complications if any.
Due to the wide-spread use of mammography, breast cancer is commonly diagnosed at an early stage. The standard treatment for early-stage disease is breast conserving surgery followed by adjuvant radiation therapy to the whole breast. This approach leads to low recurrence rates with a good cosmesis and provides an effective alternative to mastectomy. However, half of these women will develop significant acute skin toxicity following whole breast irradiation. These reactions occur more frequently in the infra-mammary fold, are associated with pain, and are associated with a reduction in health-related quality of life. Whole breast radiotherapy involves several daily treatments delivered over a period of 3 to 7 weeks which can be disruptive for the patient's life.
To address these drawbacks, the concept of accelerated partial breast irradiation was proposed. It arose out of the realization that the majority of tumor recurrences occur at or near the region of the prior lumpectomy site, suggesting that for well selected patients only the breast tissue surrounding the tumor bed might need radiation treatment. Accelerated partial breast irradiation limits the radiation to a smaller portion of the breast (surrounding the tumor cavity) and has the advantages of reducing radiation-induced toxicity at increased convenience because it is delivered within a much shorter period of time. In reducing the volume of breast treated, a higher dose of radiation can be delivered in each treatment session. Accelerated partial breast irradiation advantages include a reduction of the amount of irradiated skin and therefore the possibility to reduce radiation-induced skin toxicity, and an increased convenience because it can be accelerated.
Several accelerated partial breast irradiation techniques have been reported including external beam conformal irradiation, intra-operative radiotherapy and brachytherapy techniques. Brachytherapy has been the most widely evaluated accelerated partial breast irradiation technique. It involves the insertion of radioactive material directly into the surgical cavity using tubes or catheters. Treatments are generally delivered as an outpatient procedure using high dose rate (HDR) brachytherapy, delivering multiple treatments (8 to 10) over a period of 5 to 8 days. Intra-operative radiotherapy is delivered in a single session at the time of initial surgery.
A permanent breast seed implant (PBSI) technique of partial breast irradiation using palladium (103Pd) seeds has been proposed. Similar to a permanent seed implant used to treat prostate cancer, permanent breast seed implant (PBSI) involves the insertion of stranded radioactive seeds under ultra-sound guidance. The advantages of the permanent breast seed implant (PBSI) technique over other brachytherapy techniques include: i/- it is an out-patient procedure performed in a single one-hour session under local anesthesia and light sedation; ii/- it is performed after the surgery when the final pathology report is available and the scar is completely healed; and iii/- the use of a low dose rate technique presents the possible advantage to be more efficient and better tolerated compared to high dose rate techniques.
The local recurrence rate, immediate and delayed toxicity, the radiation safety and quality assurance data suggest that permanent breast seed implant (PBSI) is a safe and acceptable option of accelerated partial breast irradiation, capable of delivering the right amount of dose in the right location for selected early stage breast cancer. However, those results have been obtained mainly from a single institution, with 4 patients treated in another center. Further research is still needed to evaluate its safety in a multi-center setting and also to detect serious adverse events when a larger number of patients are treated by a larger group of practitioners. Since brachytherapy is operator dependent, a registry represents a unique opportunity to ensure the appropriate training of radiation oncologist and to capture capturing long terms outcomes.
Conditions
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Study Design
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COHORT
PROSPECTIVE
Study Groups
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Permanent Breast Seed Implant (PBSI)
Women with eligible early stage breast cancer who received a permanent breast seed implant status post lumpectomy
Permanent Breast Seed Implant (PBSI)
Patients are pre-planned using Computerized Tomography (CT) simulation. Implant is performed after surgery under light sedation and local freezing (alternatively general anesthesia). Stranded seeds are inserted using a brachytherapy template that is immobilized to the planned target volume using a 'localization' needle. Patients are released the same day and Quality Assurance involves post-implant Computerized Tomography (CT).
Interventions
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Permanent Breast Seed Implant (PBSI)
Patients are pre-planned using Computerized Tomography (CT) simulation. Implant is performed after surgery under light sedation and local freezing (alternatively general anesthesia). Stranded seeds are inserted using a brachytherapy template that is immobilized to the planned target volume using a 'localization' needle. Patients are released the same day and Quality Assurance involves post-implant Computerized Tomography (CT).
Other Intervention Names
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Eligibility Criteria
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Inclusion Criteria
* Treated by breast conserving surgery with axillary node dissection (with a minimum of 6 nodes sampled) or sentinel lymph node biopsy
* Surgical margins clear for invasive carcinoma (no tumor at ink margin) or superior or equal to 2 mm for in-situ ductal carcinoma (DCIS)
* A maximum tumor size of 3 cm
* Age ≥50 years old
* Informed consent signed if participating in the Registry
Exclusion Criteria
* Active auto immune disorder with severe vasculitis component
* Uncontrolled and complicated insulin-dependent diabetes
* Pregnancy
* Cosmetic breast implants
* Psychiatric or addictive disorder that would preclude attending follow-up
* Post-operative breast infection requiring prolonged antibiotic therapy
* Lobular features on histology (pure or mixed) or sarcoma histology
* Node macroscopically positive on axillary dissection or in the sentinel lymph node biopsy
* Extensive in- situ carcinoma
* Multicentric disease (in more than one quadrant or separated by 2 cm or more)
* Paget's disease of the nipple
* Metastases
* Patients presenting with a large post-surgical fluid cavity as determined on the planning Ultrasound (US), resistant to the application of hot compresses for 4 weeks
* Clear delineation of the target volume on Computerized Tomography (CT) is not possible
* Volume to be implanted over 150cc
* Target volume too close to skin such that the 90% isodose overlaps the skin surface
50 Years
FEMALE
No
Sponsors
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Concure Oncology-Breast Microseed Inc.
INDUSTRY
Responsible Party
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Principal Investigators
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Juanita Crook, MD
Role: PRINCIPAL_INVESTIGATOR
British Columbia Cancer Agency
Jean-Philippe Pignol, MD, PhD
Role: PRINCIPAL_INVESTIGATOR
Erasmus Medical Center
Locations
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Allegheny General Hospital
Pittsburgh, Pennsylvania, United States
Mary Washington Hospital
Fredericksburg, Virginia, United States
Swedish Cancer Institute
Seattle, Washington, United States
Countries
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Central Contacts
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Facility Contacts
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Division of Radiation Oncology
Role: primary
References
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Pignol JP, Rakovitch E, Keller BM, Sankreacha R, Chartier C. Tolerance and acceptance results of a palladium-103 permanent breast seed implant Phase I/II study. Int J Radiat Oncol Biol Phys. 2009 Apr 1;73(5):1482-8. doi: 10.1016/j.ijrobp.2008.06.1945. Epub 2008 Oct 18.
Pignol JP, Caudrelier JM, Crook J, McCann C, Truong P, Verkooijen HA. Report on the Clinical Outcomes of Permanent Breast Seed Implant for Early-Stage Breast Cancers. Int J Radiat Oncol Biol Phys. 2015 Nov 1;93(3):614-21. doi: 10.1016/j.ijrobp.2015.07.2266. Epub 2015 Jul 21.
Pignol JP, Keller B, Rakovitch E, Sankreacha R, Easton H, Que W. First report of a permanent breast 103Pd seed implant as adjuvant radiation treatment for early-stage breast cancer. Int J Radiat Oncol Biol Phys. 2006 Jan 1;64(1):176-81. doi: 10.1016/j.ijrobp.2005.06.031. Epub 2005 Sep 22.
Keller BM, Pignol JP, Rakovitch E, Sankreacha R, O'Brien P. A radiation badge survey for family members living with patients treated with a (103)Pd permanent breast seed implant. Int J Radiat Oncol Biol Phys. 2008 Jan 1;70(1):267-71. doi: 10.1016/j.ijrobp.2007.08.006. Epub 2007 Oct 29.
Keller B, Sankreacha R, Rakovitch E, O'brien P, Pignol JP. A permanent breast seed implant as partial breast radiation therapy for early-stage patients: a comparison of palladium-103 and iodine-125 isotopes based on radiation safety considerations. Int J Radiat Oncol Biol Phys. 2005 Jun 1;62(2):358-65. doi: 10.1016/j.ijrobp.2004.10.014.
Other Identifiers
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BMS-001
Identifier Type: -
Identifier Source: org_study_id
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