Soft Tissue Sarcoma
Conditions
Keywords
extremity soft tissue sarcoma, proton radiation, preoperative radiation
Brief summary
When treated with surgery alone, many soft-tissue sarcomas have a high chance of coming back. Radiation therapy is frequently used in addition to surgery to reduce the chances of the sarcoma coming back. However, radiation can have long-term side effects on the normal tissues surrounding the tumor, leading to problems such as swelling, scarring, and joint stiffness. Recently, there have been advances in the way that radiation therapy can be given. Proton radiation therapy is one of those advances. With proton radiation, it is possible to give radiation over a smaller area surrounding the tumor, resulting in less radiation to the surrounding normal tissues. The purpose of this study is to determine whether proton radiation decreases the long-term side effects of radiation on normal tissues and if smaller proton radiation fields reduce local recurrence compared to the larger radiation fields that have been used in prior studies.
Detailed description
Data support preoperative radiotherapy as one of the standard options in the management of large or high-grade extremity soft tissue sarcomas (STS). The advantages of preoperative radiotherapy are lower doses and smaller radiation volumes; these may be used to effect improvement of long-term side effects and extremity function. Another potential advantage is assisting surgery through tumor shrinkage and reduction of tumor cell seeding. The disadvantage of preoperative radiation is the higher likelihood of postoperative wound complications, but in a prospective phase III trial these complications were found to be generally temporary and without significant effect on long term function. Combined conservative surgery and radiotherapy has shown to achieve excellent local control in sarcoma patients following margin-negative surgery, but late radiation morbidity and reduced quality of life may result from adjuvant radiation. The dosimetric advantage of proton radiotherapy may translate into reduced acute and late effects due to improved normal-tissue sparing in the treatment of extremity and truncal STS. However, these potential advantages need to be validated in clinical trials. The investigators propose a phase II study to evaluate the effect of preoperative proton radiotherapy on the reduction of late radiation morbidity, patterns of failure, and impact of late radiation morbidity on general quality of life (QOL).
Interventions
RADIATIONproton radiation
proton radiation: 2 GyE/Day to isocenter, one treatment per day, 5 days per week for 25 treatments (=50 GyE to isocenter/25 fractions)
PROCEDUREsurgery (wide local excision; limb preservation surgery)
In areas with ample soft tissue that can be removed without compromising future function or wound closure, wide margins is the goal of treatment; associated rates of local failure are low in such instances. Margins will be determined by the surgeon; the goal is to achieve at least a 2 mm negative margin resection. However, smaller margins can be acceptable if it allows for limb-sparing surgery with conserved functional outcomes. Every effort will be made to have limb preservation surgery unless there is documented evidence of tumor progression during or after the course of radiation that would require amputation for an appropriate margin resection.
Sponsors
Loma Linda University
Study design
Allocation
NA
Intervention model
SINGLE_GROUP
Primary purpose
TREATMENT
Masking
NONE
Eligibility
Sex/Gender
ALL
Age
18 Years to 98 Years
Healthy volunteers
No
Inclusion criteria
* Histologically proven primary soft tissue sarcoma of the upper extremity (including shoulder), lower extremity (including hip) or body trunk (excluding retroperitoneum). * No clinical evidence of distant metastatic disease * Evaluation by surgeon, with documentation that the tumor is resectable * ECOG performance status 0-1 * For females of childbearing potential, a serum pregnancy test within 4 weeks prior to registration * Patient must practice adequate contraception * Adequate bone marrow function
Exclusion criteria
* Patients with sarcoma of the head, neck, intra-abdominal or retroperitoneal region, hand or foot * Histopathology demonstrating rhabdomyosarcoma, extraosseous primitive neuroectodermal tumor (PNET), soft tissue Ewing's sarcoma, osteosarcoma, Kaposi's sarcoma, angiosarcoma, aggressive fibromatosis, dermatofibrosarcoma protuberans or chondrosarcoma * Clinical evidence of regional lymph node or distant metastatic disease * Prior invasive malignancy (except non-melanomatous skin cancer or early stage prostate cancer) unless disease free for a minimum of 3 years * Prior radiotherapy to the potential target anatomic region would result in overlap of radiation fields for current sarcoma * Pregnancy or women of childbearing potential and men who are sexually active and not willing/able to used medically acceptable forms of contraception
Design outcomes
Primary
| Measure | Time frame | Description |
|---|---|---|
| Late Radiation Toxicities at 2 Years From the Start of Radiation Treatment | at 2 years from the start of radiation treatment | To report the number of participants with late radiation morbidity Late subcutaneous fibrosis and joint stiffness are assessed using the European Organization for Research and Treatment of Cancer/Radiation Therapy Oncology Group (EORTC/RTOG) late toxicity scoring criteria below: Subcutaneous tissue: Grade 1(slight fibrosis; subcutaneous fat loss), Grade 2(moderate fibrosis: slight field contracture), Grade 3(severe fibrosis; field contracture \>10%), Grade 4(necrosis), Grade 0 (none) Joint stiffness: Grade 1(mild stiffness; slight range of motion loss), Grade 2(Moderate stiffness, pain, range of motion loss), Grade 3(Severe stiffness, pain, range of motion loss), Grade 4(necrosis; complete fixation), Grade 0 (none) Lymphedema is measured according to the criteria of Stern: Score 0(none), Score 1(Mild but definite swelling), Score 2(Moderate), Score 3(Severe, considerable swelling), Grade 4(Very severe (skin shiny & tight) |
Secondary
| Measure | Time frame | Description |
|---|---|---|
| Grade 3-5 Adverse Events at 6 Months From the Start of Radiation Treatment. | 6 months | This study will utilize the Common Terminology Criteria for Adverse Events (CTCAE) version 4.0 for reporting of adverse events. |
| Patterns of Failure at 6 Months From the Start of Radiation Treatment | 6 months | Prespecified patterns of failure, including local failure, regional failure, distant failure, and death without disease progression at 6 months from the start of radiation treatment measured by CT or MRI scan |
| Patterns of Failure at 6 Months | 6 months | Patterns of failure including local failure, distant failure, distant-disease-free survival, disease-free survival, overall survival rates, and second primary tumor at 6 month from the start of radiation treatment on CT or MRI scan. |
| Wound Complication Rates Infection, Dehiscence at 6 Months From the Start of Radiation Treatment. | 6 months | Wound complications - Major wound complications, such as secondary operations, re-admissions, and/or invasive procedures for wound complication (deep wound packing and/or prolonged dressing changes) due to Infection, dehiscence. |
| Report of Late Radiation Morbidity at 2 Years | at 2 years | To report the number of participants with late radiation morbidity using quality of life survey including physical, emotional, social/family and functional well-being. |
Countries
United States
Participant flow
Participants by arm
| Arm | Count |
|---|---|
| Preoperative Proton Radiation Patients will receive 50 Gray equivalents (GyE) in 25 fractions with proton therapy, followed by surgery 4-8 weeks after completion of radiation.
proton radiation: proton radiation: 2 GyE/Day to isocenter, one treatment per day, 5 days per week for 25 treatments (=50 GyE to isocenter/25 fractions)
surgery (wide local excision; limb preservation surgery): In areas with ample soft tissue that can be removed without compromising future function or wound closure, wide margins is the goal of treatment; associated rates of local failure are low in such instances. Margins will be determined by the surgeon; the goal is to achieve at least a 2 mm negative margin resection. However, smaller margins can be acceptable if it allows for limb-sparing surgery with conserved functional outcomes. Every effort will be made to have limb preservation surgery unless there is documented evidence of tumor progression during or after the course of radiation that would require amputation for an appropriate margin resection. | 6 |
| Total | 6 |
Withdrawals & dropouts
| Period | Reason | FG000 |
|---|---|---|
| Overall Study | Withdrawal by Subject | 1 |
Baseline characteristics
| Characteristic | Preoperative Proton Radiation |
|---|---|
| Age, Categorical <=18 years | 0 Participants |
| Age, Categorical >=65 years | 1 Participants |
| Age, Categorical Between 18 and 65 years | 5 Participants |
| Ethnicity (NIH/OMB) Hispanic or Latino | 1 Participants |
| Ethnicity (NIH/OMB) Not Hispanic or Latino | 5 Participants |
| Ethnicity (NIH/OMB) Unknown or Not Reported | 0 Participants |
| Race (NIH/OMB) American Indian or Alaska Native | 0 Participants |
| Race (NIH/OMB) Asian | 1 Participants |
| Race (NIH/OMB) Black or African American | 1 Participants |
| Race (NIH/OMB) More than one race | 0 Participants |
| Race (NIH/OMB) Native Hawaiian or Other Pacific Islander | 0 Participants |
| Race (NIH/OMB) Unknown or Not Reported | 0 Participants |
| Race (NIH/OMB) White | 4 Participants |
| Region of Enrollment United States | 6 participants |
| Sex: Female, Male Female | 1 Participants |
| Sex: Female, Male Male | 5 Participants |
Adverse events
| Event type | EG000 affected / at risk |
|---|---|
| deaths Total, all-cause mortality | 0 / 6 |
| other Total, other adverse events | 0 / 6 |
| serious Total, serious adverse events | 1 / 6 |
Outcome results
Primary
Late Radiation Toxicities at 2 Years From the Start of Radiation Treatment
To report the number of participants with late radiation morbidity Late subcutaneous fibrosis and joint stiffness are assessed using the European Organization for Research and Treatment of Cancer/Radiation Therapy Oncology Group (EORTC/RTOG) late toxicity scoring criteria below: Subcutaneous tissue: Grade 1(slight fibrosis; subcutaneous fat loss), Grade 2(moderate fibrosis: slight field contracture), Grade 3(severe fibrosis; field contracture \>10%), Grade 4(necrosis), Grade 0 (none) Joint stiffness: Grade 1(mild stiffness; slight range of motion loss), Grade 2(Moderate stiffness, pain, range of motion loss), Grade 3(Severe stiffness, pain, range of motion loss), Grade 4(necrosis; complete fixation), Grade 0 (none) Lymphedema is measured according to the criteria of Stern: Score 0(none), Score 1(Mild but definite swelling), Score 2(Moderate), Score 3(Severe, considerable swelling), Grade 4(Very severe (skin shiny & tight)
Time frame: at 2 years from the start of radiation treatment
| Arm | Measure | Value (COUNT_OF_PARTICIPANTS) |
|---|---|---|
| Preoperative Proton Radiation | Late Radiation Toxicities at 2 Years From the Start of Radiation Treatment | 0 Participants |
Secondary
Grade 3-5 Adverse Events at 6 Months From the Start of Radiation Treatment.
This study will utilize the Common Terminology Criteria for Adverse Events (CTCAE) version 4.0 for reporting of adverse events.
Time frame: 6 months
| Arm | Measure | Value (COUNT_OF_PARTICIPANTS) |
|---|---|---|
| Preoperative Proton Radiation | Grade 3-5 Adverse Events at 6 Months From the Start of Radiation Treatment. | 0 Participants |
Secondary
Patterns of Failure at 6 Months
Patterns of failure including local failure, distant failure, distant-disease-free survival, disease-free survival, overall survival rates, and second primary tumor at 6 month from the start of radiation treatment on CT or MRI scan.
Time frame: 6 months
| Arm | Measure | Group | Value (NUMBER) |
|---|---|---|---|
| Preoperative Proton Radiation | Patterns of Failure at 6 Months | local failure | 0 participants |
| Preoperative Proton Radiation | Patterns of Failure at 6 Months | distant failure | 1 participants |
| Preoperative Proton Radiation | Patterns of Failure at 6 Months | distant-disease-free survival | 5 participants |
| Preoperative Proton Radiation | Patterns of Failure at 6 Months | disease-free survival | 5 participants |
| Preoperative Proton Radiation | Patterns of Failure at 6 Months | overall survival | 6 participants |
| Preoperative Proton Radiation | Patterns of Failure at 6 Months | second primary tumor | 0 participants |
Secondary
Patterns of Failure at 6 Months From the Start of Radiation Treatment
Prespecified patterns of failure, including local failure, regional failure, distant failure, and death without disease progression at 6 months from the start of radiation treatment measured by CT or MRI scan
Time frame: 6 months
| Arm | Measure | Value (COUNT_OF_PARTICIPANTS) |
|---|---|---|
| Preoperative Proton Radiation | Patterns of Failure at 6 Months From the Start of Radiation Treatment | 1 Participants |
Secondary
Report of Late Radiation Morbidity at 2 Years
To report the number of participants with late radiation morbidity using quality of life survey including physical, emotional, social/family and functional well-being.
Time frame: at 2 years
| Arm | Measure | Value (COUNT_OF_PARTICIPANTS) |
|---|---|---|
| Preoperative Proton Radiation | Report of Late Radiation Morbidity at 2 Years | 5 Participants |
Secondary
Wound Complication Rates Infection, Dehiscence at 6 Months From the Start of Radiation Treatment.
Wound complications - Major wound complications, such as secondary operations, re-admissions, and/or invasive procedures for wound complication (deep wound packing and/or prolonged dressing changes) due to Infection, dehiscence.
Time frame: 6 months
| Arm | Measure | Value (COUNT_OF_PARTICIPANTS) |
|---|---|---|
| Preoperative Proton Radiation | Wound Complication Rates Infection, Dehiscence at 6 Months From the Start of Radiation Treatment. | 1 Participants |