In a previous article, we looked at the experimental use of extreme
hypofractionated radiation therapy, SBRT or SABR, to treat high-risk patients.
Here, we take a closer look at an early safety study by Bauman et al. that shows why radiation safety is more complicated than just setting
the treatment dose.
Bauman et al. treated 15 high-risk men who were either frail
and elderly, or who refused a long course of IMRT. They were all given 12
months of ADT beginning 2 months before SBRT.
After 6 months of follow up, the following rates of
genitourinary (GU) and gastrointestinal (GI) toxicity were observed:
- · Acute GU toxicity: Grade 2: 27%, none higher
- · Acute GI toxicity: no Grade 2 or higher
- · Late-term GU toxicity: Grade 2: 33%, Grade 3: 7%
- · Late-term GI toxicity: Grade 2: 27%, Grade 3: 20%, Grade 4: 7%
- · Toxicity was not correlated with patient frailty
All of the toxicities were higher than expected, and the
high rates of high-grade late-term GI toxicity were particularly troubling. As
a result, the treatment plans have been altered. They eliminated the dose to the pelvic
lymph nodes entirely, extended the ADT treatment to 18 months, and reduced the
dose to the prostate to 35 Gy across 5 treatments, with only one treatment per
week. This is similar to the plan that Dr.Katz has been using for his high risk
patients with 6 years of reported follow up with very low rates of toxicity (see Katz and Kang 2014).
Dr. King has been using the same prostate dose that Dr.
Bauman used -- 40 Gy across 5 treatments (NCT02296229). Dr. King
has used this dose for all his patients (not just high-risk ones) since 2008
with low rates of toxicity, and he is now treating pelvic lymph nodes on select
high-risk patients with 25 Gy. Both King and Bauman use an arc radiation
therapy machine, although the brands they use differ – Varian and Elekta,
respectively. So what accounts for the very different toxicity outcomes they
are getting? Let’s look a little closer.
The following table highlights key dosimetric differences
between King and Bauman’s high-risk SBRT protocols.
|
|
Bauman
|
King
|
|
Prescribed dose to prostate
|
40 Gy (8 Gy x 5)
|
40 Gy (8 Gy x 5)
|
|
5 mm all around
|
5 mm, except 4 mm posterior
|
|
Prescribed dose to SV
|
40 Gy (8 Gy x 5) in first cm of SV
|
25 Gy (5 Gy x 5) to entire SV
|
|
5 mm
|
No margin
|
|
Pelvic lymph nodes
|
25 Gy (5 Gy x 5)
|
25 Gy (5 Gy x
5)
|
|
5 mm
|
none
|
|
Bladder dose constraints:
|
≤50% receives >29 Gy
≤30% receives >35 Gy
|
<10 cc receives >25 Gy
Max. point dose= 40 Gy
|
|
Rectal dose constraints:
|
≤50% receives >27 Gy
≤20% receives >35 Gy
|
<5 cc receives >25 Gy
Max. point dose= 42 Gy
(additional specific constraints for each side of the
rectal wall)
|
|
Small bowel dose constraints:
|
<2 cc receives >27.5 Gy
<190 cc receives >25 Gy
|
<10 cc receives >20 Gy
Max. point dose= 25 Gy
|
|
Imaging for planning
|
CT
|
CT/MRI fused images
|
|
Inter-fractional motion tracking
|
Cone beam CT
|
Cone beam CT with fiducials
|
|
Intra-fractional motion tracking
|
none
|
Stereoscopic X-rays. Fiducials were realigned every
half-arc, approximately 40 seconds.
|
In comparing the treatment parameters of the two plans, we
begin to see why the original Bauman plan would have greater toxicity in spite
of the fact that the prescribed dose to the prostate was the same. Perhaps the
single biggest drawback to the Bauman plan was the lack of tracking of
intra-fractional motion. The prostate can move quite a bit during the
treatment. With the low doses of IMRT (1.8-2.0 Gy each) it would not matter so
much, but with the higher SBRT doses (8 Gy each), significant amounts of
radiation may inadvertently hit the bladder and rectum if the motion is not
controlled for.
The other advantages of the King plan include:
- · Smaller margins where the prostate abuts the rectum
- · No margins around the pelvic lymph nodes that could impact the small bowel
- · No margins around the seminal vesicles that might hit the bladder neck
- · Tighter bladder and rectal dose constraints
- · MRI for more precise planning
- · Fiducials for more precise image alignment
- · Alignment is frequent and automatic. It’s not dependent on human intervention.
- · Optional selection of patients suitable for nodal radiation (e.g., no anatomic abnormalities, presence of visceral fat, high risk of nodal involvement)
- · Only 9 months of optional ADT are used
Dr. King has so far treated 19 high-risk patients on his
protocol, 10 with nodal radiation. So far there have been no Grade 3 or higher
toxicities of any kind. King uses Varian’s Truebeam with RapidArc and realigns
four times during each fraction. The total treatment time is about 5-10 minutes
each, with hundreds of beams emitted during each 40 second arc. Accuray’s
CyberKnife, the most prevalent platform for SBRT, realigns the beams with the
fiducials every few beams, and there are hundreds of beams. That extends the
treatment time to about an hour each. While many different brands of linear
accelerator platforms and image-guidance systems can be used for SBRT, it is
vital that continual motion tracking or prostate stabilization (e.g., using a
rectal balloon) be incorporated.
Other clinicians have sought the optimal SBRT treatment dose
while all the other treatment parameters are held constant. Katz et al. (2011)
tried two different doses, 36.5 Gy and 35 Gy, and found the lower dose had
similar oncological results. While urinary toxicity was lower for the lower
dose in a matched pairs analysis, the difference was not statistically
significant. In contrast to Katz, Bernetich et al. found that there was a
better oncological response to higher doses (37.5 Gy) for higher risk patients,
but they also observed an increase in persistent GU toxicity, while GI toxicity
remained low and unaffected by dose. In a study that I consider to be of questionable ethics, Kim et al. experimented with SBRT doses as high as 50 Gy to find the SBRT dose
limit for rectal tolerance, and not unexpectedly, found very high amounts of
rectal toxicity associated with it. Currently, Dr. Zelefsky is the lead investigator on clinical trial at Memorial Sloan Kettering Cancer Center where
he is raising the dose incrementally in successive cohorts of low and
intermediate risk patients after insuring the safety of each lower dose. He has
so far raised the SBRT treatment dose as high as 45 Gy. Clearly, there are many
factors that affect SBRT toxicity, and there are still many details to be
learned about SBRT dosimetry.
note: Thanks to Dr. King for supplying the details of his protocol for high-risk patients
and his update so far.
No comments:
Post a Comment