PROSTATE CANCER Clinical Trial
Official title:
Phase II Randomized Study Comparing Ultra-high-dose Hypofractionated vs. Single-dose Image-Guided Radiotherapy (IGRT) With Urethral Sparing for Intermediate Risk Prostate Cancer
The present study evaluates clinical outcomes and treatment-related toxicity following
definitive ultra-high dose external beam radiotherapy delivered with two different regimens
in patients with intermediate-risk adenocarcinoma of the prostate. Modern computer-driven
technology enables the implementation of ultra-high hypofractionated Image-Guided
Radiotherapy (IGRT) safely.
Prostate cancer patients classified according to the current National Comprehensive Cancer
Network (NCCN) guidelines as intermediate risk (biopsy Gleason score of 7 and/or Prostate
Specific Antigen (PSA) level >10 and ≤20 ng/mL and/or Stage T1, T2a, T2b or T2c) are eligible
for this study.
Patients will undergo IGRT with volumetric intensity-modulated arc radiotherapy (VMAT) with
state-of-the-art treatment-planning and quality assurance procedures. Emphasis is placed on
normal tissue sparing and delivery accuracy via the use of devices that ensure stability and
beam location reproducibility. A rectal balloon with air filling will be used for prostate
target immobilization and anatomical reproducibility, while a urethral catheter loaded with
beacon transponders will be used to ensure set-up reproducibility and online target tracking.
Previously untreated patients with intermediate-risk prostate cancer will be prospectively
randomized to receive either 45 Gy in five fractions of 9 Gy each vs. 24 Gy in a single-dose.
Patients will be followed at one month post-treatment and every 3 months for up to 12 months
(+/- 4 weeks) and every 6 months thereafter. Acute and chronic toxicity evaluations will
focus on urinary, rectal and sexual functions and will be assessed through validated
questionnaires. Serum PSA values will be regularly acquired during follow-up. A
multiparametric MRI will be performed at baseline, 6, 12 and 24 months following
intervention. Additionally, a post-treatment diffusion-weighted MRI (DW-MRI) will be
performed within 15 minutes of the first treatment, to measure early physiologic changes,
such as perfusion and ischemia, that may correlate with clinically relevant end-points.
Post-treatment prostate needle biopsies will be obtained at 24 months to evaluate pathologic
response to therapy. The study will be continuously monitored for a minimum of 5 years. In
the event unexpected severe (grade ≥3) toxicities are observed in any one of the treatment
arms, the study will be terminated according to the stopping rule >3/first 15 patients.
The present phase II randomized study evaluates the clinical outcomes and potential
treatment-related toxicity following definitive ultra-high dose per fraction external beam
radiation therapy delivered with two different regimens in patients with intermediate-risk
adenocarcinoma of the prostate. An emerging body of data suggests that extreme
hypofractionated radiation schedules, which employ ultra-high dose per fraction (≥7 Gy) in a
small number of fractions (≤5), appear equal or superior to conventionally-fractionated (1.8-
2.0 Gy/fraction) and moderately hypo-fractionated schemes (2.5-3.5 Gy/fraction) in terms of
both tumor control and toxicity profiles. Modern computer-driven technology enables the
implementation of ultra-high hypofractionated Image-Guided Radiotherapy (IGRT) safely.
Prostate cancer patients classified according to the current National Comprehensive Cancer
Network (NCCN) guidelines as intermediate risk (biopsy Gleason score of 7 and/or Prostate
Specific Antigen (PSA) level >10 and ≤20 ng/mL and/or Stage T1, T2a, T2b or T2c) are eligible
for this study.
Extensive experience on extreme hypo-fractionation in prostate has been accrued over the past
two years using organ stabilization by means of an endorectal balloon and urethral sparing
technique with on-line target motion tracking. The standard dose prescription with this
technique has been 45 Gy over 5 consecutive days.
Outcome data on intermediate risk patients treated with single dose external beam
radiotherapy are not yet available, although experience on single dose High Dose Radiotherapy
(HDR) brachytherapy in prostate cancer indicates similar clinical outcomes and toxicity
profiles to external beam hypofractionated schedules. Experience with ultra-high single dose
radiotherapy for bone and soft tissue oligometastatic prostate cancer has been consistently
shown to locally control >90% prostate cancer lesions, clearly indicating sensitivity of
prostate cancer tissue to this mode of cancer radiotherapy. Stage IV oligometastatic prostate
cancer patients failing androgen deprivation therapy were treated according to current
standard of care with single dose 24 Gy to all foci of detectable disease, including the
radiation-naive intraprostatic lesions, with excellent early results, using the same
technique employed in the hypofractionated setting. Overall, toxicity profiles have been thus
far extremely favorable indicating the intermediate range safety of this technique when
applied to whole prostate radiotherapy. These data suggest single dose therapy when properly
employed is both safe and effective in managing intra-prostatic cancer settings. Taken
together, these observations provide the basis for the present prospective phase II study.
Patients enrolled in the study will undergo image-guided, volumetric intensity-modulated arc
radiotherapy (VMAT) with state-of-the-art treatment-planning and quality assurance procedures
with emphasis on normal tissue sparing and delivery accuracy via the use of devices that
ensure stability and beam location reproducibility. A rectal balloon with air filling will be
used for prostate target immobilization and anatomical reproducibility, while a urethral
catheter loaded with beacon transponders will be used to ensure set-up reproducibility and
online target tracking. Previously untreated patients with intermediate-risk prostate cancer
will be prospectively randomized to receive either 45 Gy in five fractions of 9 Gy each vs.
24 Gy single-dose radiotherapy.
Patients will be followed at one month post-treatment and every 3 months for up to 12 months
(+/- 4 weeks) and every 6 months thereafter. Acute and chronic toxicity evaluations will
focus, though not exclusively, on urinary, rectal and sexual functions and will be assessed
through validated questionnaires. Serum PSA values will be acquired with the same schedule as
clinical follow-up. A multiparametric MRI will be performed at baseline, 6, 12 and 24 months
following intervention. Additionally, a post-treatment diffusion-weighted MRI (DW-MRI) will
be performed within 15 minutes of the first treatment. Post-treatment prostate core needle
biopsies will be obtained once at 24 months to evaluate pathologic response to therapy.The
purpose of this scan is to measure early physiologic changes, such as perfusion and ischemia,
that may correlate with clinically relevant endpoints. The study will be continuously
monitored for a minimum of 5 years. In the event unexpected severe (grade ≥3) toxicities are
observed in any one of the treatment arms, the study will be terminated according to the
standard stopping rule >3/first 15 patients.
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