Brain metastasis is a common complication of systemic cancers. Stereotactic radiosurgery (SRS) is an effective treatment modality for patients with a limited number of brain metastases and good performance status. SRS provides high local tumor control rates comparable to surgery but is non-invasive. While SRS alone risks new metastases developing elsewhere in the brain, combining SRS with whole brain radiation therapy improves local and distant brain control but increases risks of cognitive decline. Patient prognosis depends on factors like performance status, number and size of metastases, and control of the primary cancer.
4. IMAGING: TYPICAL PRESENTATION
The imaging of choice is a CEMRI.
multiple lesions.
localization at the grey-white matter junction.
circumscribed margins.
vasogenic edema.
9. TREATMENT :
STEROIDS – 10 mg(oral /iv) bolus f/b 6-8mg every 6-8 hrs + PPI.
(NOTE : in asymptomatic patients, steroids is reserved until the 1st neuro symptom)
WBRT : standard of care
10. SURGERY:
Immediate relief (WBRT – Days to weeks)
3 studies:
Patchell et al
Noordijk et al
Mintz et al
Fallacy: all 3 trials were on pts with single brain lesion
Resection reserved for life threatening
lesions or KPS >/=70
11. RADIOSURGERY:
SUBSTITUTE FOR SURGERY
SRS + WBRT – local control rates- 80- 90 % (similar to that of surgery)
• Brain metastasis is the most common indication for stereotactic
radiosurgery (SRS).
• SRS is a safe and effective treatment modality for patients with good
performance status and limited number of brain metastases.
• In addition, SRS serves as an adjuvant therapy for resected brain
lesions.
limited number of brain metS-
• WBRT to SRS is generally not recommended.
• SRS + WBRT - local and distant brain control
• significant cognitive decline without improvement in overall
survival
12. Advantages of Stereotactic
Radiosurgery
Advantages of Surgery
• Treatment for larger lesions (>4cm)
• Treatment of small, deep lesions• Rapid resolution of mass effect and
edema • Minimally invasive
•
•
•
Removal of cancer • General anesthesia not required
• Outpatient procedure
• Treatment of multiple lesions at same
setting
• Short recovery (<1 week)
• Potential avoidance of whole brain XRT
• Rapid initiation of chemoRx
Histologic confirmation
Rapid tapering of steroids
Less intensive follow up•
• Lower risk of radiation necrosis
13. TERMINOLOGY:
STEREOTACTIC: precise 3D mapping technique to guide a procedure.
SRS (stereotactic radiosurgery) : stereotactically guided conformal
irradiation of a defined target volume in a SINGLE SESSION.
FSR (fractionated stereotactic radiosurgery) : 2-5 SESSIONS.
SRT (stereotactic radiotherapy) : MULTIPLE FRACTIONS ( >5).
14. KEY REQUIREMENTS FOR STEREOTACTIC IRRADIATION:
TARGET- SMALL
SHARPLY DEFINED
RADIATION DELIVERY - ACCURATE
HIGHLY CONFORMAL
SENSITIVE STRUCTURES- EXCLUDED FROM TARGET.
15.
16. BASIS OF HYPOFRACTIONATION
■ Fraction Size– Increased > 2 Gy/per fraction.
■ Fraction Number– Decreased
■ Total treatment Time- Decreased
■ Rationale
Treatment completed in a shorter time.
Higher dose /# gives -
better control for larger tumors.
useful for hypoxic fraction of large tumor.
■ Disadvantage-
Higher potential for late normal tissue complications.
17.
18. Machines used to focus
highly targeted radiation or
radiosurgery (SRS or
stereotactic radiosurgery)
VitalBeam Linac
Gamma Knife
Cyberknife
Tomotherapy
19. CYBERKNIFE:
image guided frameless stereotactic
radiosurgery system for treating cranial &
extracranial lesions.
Two diagnostic xray tube mounted orthogonally
in the ceiling and 2 opposing Si-flat panel
detectors.
The robotic arm has 6 degrees of freedom and is
capable of pointing the linac beam almost
anywhere in space.
Not restricted to isocenter geometry, it can be
directed independently without a fixed
isocenter.
20. GAMMA KNIFE:
Hemispherical array of multiple fixed Co 60 beams (201 in most models)
that are sharply collimated to create small, relatively spherical treatment
volumes of varied diameter with sharp dose fall off.
21. TOMOTHERAPY:
IMRT delivery technique – combines
features of linear accelerator + helical
CT scanner.
The linear accelerator is mounted on a
CT like gantry and rotates through a full
circle.
Treatment couch is translated slowly
through a doughnut like aperture.
Creating a helical motion of the beam
with respect to the patient.
24. PATIENT SELECTION
(KPS ≥70).
( KPS <70 have poor overall prognosis - (WBRT) or best supportive care )
Indications for SRS :
1–4 brain metastases (Sx not possible).
POST OP pts with few brain metastases.
considered for patients with good performance status and 4–10 brain metastases
with low tumor burden.
25. TREATMENT PLANNING CONSIDERATIONS :
Simulation:
Position: Supine
Immobilization: Customized head cast
1 mm thick CT slices
Fuse pre- and postoperative MR for surgical bed treatment
Margins :
No CTV or PTV expansions for intact brain metastasis.
Post op cases – discussed later.
Tumor coverage considerations :
100% of GTV (or CTV for postoperative cases) receives 100% of dose (if GTV/CTV ≤20 mm)
≥95% of GTV (or CTV for postoperative cases) receives 100% of dose (if GTV/CTV >20 mm)
26. Recommendations for CTV contouring for postoperative
completely resected cavity SRS (Soliman IJROBP 2018;100:436)
• CTV should include the entire contrast-enhancing surgical cavity using the
T1-weighted gadolinium-enhanced axial MRI scan, excluding edema
determined by MRI
• CTV should include entire surgical tract seen on postoperative CT or MRI
• If the tumor was in contact with the dura preoperatively, CTV should
include a 5- to 10-mm margin along the bone flap beyond the initial region
of preoperative tumor contact.
• If the tumor was not in contact with the dura, CTV should include a
margin of 1 to 5 mm along the bone flap
• If the tumor was in contact with a venous sinus preoperatively, CTV
should include a margin of 1 to 5 mm along the sinus.
27. DOSES
• SRS FOR INTACT LESIONS:
RTOG 90-05 2cm = 24 Gy
2.1 – 3cm = 18 Gy
3.1 - 4cm = 15 Gy
FOR RADIORESISTANT HISTOLOGIES: RCC, MELANOMA, SARCOMA
Dose escalation with 30 Gy/3# can be considered.
• POSTOP SRS:
MAHAJAN 2016
</=10 cc = 16 Gy
10-15cc = 14 Gy
>/= 15cc = 12 Gy
32. WBRT +/- SRS BOOST
RTOG 95-08
WBRT + SRS WBRT
OS- 6.5 months
better local contrl
better performance status
5.7 months
OS better in
RPA I
Non small cell lung cancer
Metastatic squamous histology
DEMONSTRATED : lower oedema & corticosteroid use
CONCLUSION : SRS indicated in single mets
Routine use in multiple mets – not indicated
33. SRS +/- WBRT
JROSG 99-1
1-4 mets
KPS>/= 70
WBRT – REDUCED RATE OF NEW METS & IMPROVED 1 YR LC.
NO DIFFERENCE IN OVERALL SURVIVAL or NEUROLOGIC PRESERVATION.
35. NEUROCOGNITIVE DELAY:
1) anticonvulsants 4)chemotherapy
2) benzodiazepines 5)craniotomy
3) opioids 6)brain tumor itself
There has been efforts to reduce the neuro toxicity with hippocampal
sparing (RTOG 0933) or Memantine (RTOG 0614)
ANTICONVULSANTS –
Have a negative impact on QOL & Neurocognition
NOT TO BE STARTED UNTILL CONVULSION STARTS
36. MEMANTINE DURING WBRT-RTOG 0614
DURING & AFTER WBRT IS STANDARD OF CARE.
20mg/d within 3 days of initiating radiotherapy for 24 weeks.
Memantine – treat moderate to severe confusion in alzeimers.
In WBRT- Better cognitive function over time,
specifically delaying time to cognitive decline and
reducing the rates of decline in memory, executive
function and processing speed.
37. Brain metastasis that progressed after prior
whole-brain radiotherapy (WBXRT).
RTOG 95-08
Phase III randomized trial
Established that Radiosurgery immediately following standard WBXRT (37.5
Gy in 15 fractions) improves LC and QOL for patients with one to three brain
metastases
while
improving OS for patients with solitary metastasis,
(all compared with patients initially managed with WBXRT only.)
38. For a single lesion, radiosurgery alone may be used, but there is a higher
risk of a new lesion showing up in the brain
Aug 2012 –Treated tumor is virtually gone, but there
is a new tumor on the opposite side of the brainJan 2011 - Radiosurgery
40. Median overall survival after stereotactic radiosurgery:
13.9 m – 1 tumor.
10.8 m – 2-4 tumors.
10.8 m – 5-10 tumors.
SRS FOR PTS WITH MULTIPLE BRAIN METS
(JLGK0901): a multi-institutional prospective observational study.
Yamamoto Lancet Oncol 2014:15:387
• <4 mL were irradiated with 22 Gy
• 4-10 mL with 20 Gy.
• 1194 eligible patients
• largest tumour <10 mL .
• <3 cm
• total cumulative volume ≤15 mL.
41. Results with Radiosurgery
• In controlled studies in patients-
with tumors up to 3 cm in diameter,
SRS – LC -70% at 1 yr.
SRS + WBRT- 90% at 1 yr.
• Prospective nonrandomized data in patients-
with newly diagnosed brain metastases suggest that up to 10 tumors with a total
cumulative volume ≤15 mL may be treated in a single session with similar efficacy
and no increase in toxicity.
• When patients are treated with SRS alone, new or recurrent brain
metastases develop in approximately 25 to 50 % of patients within
the first 6 to 12 m.
42. Survival and Prognosis for People with Brain
Metastases
Karnofsky Score (KPS) = 70
Cares for self; unable to carry on normal activity or
do active work
Best prognosis In patients with
• KPS>70
• brain only mets
• age< 65 yrs
43. PROGNOSIS
GASPER ET AL : KPS & extracranial disease
3 recursive partitioning analysis classes:
RPA I KPS > 70 CONTROLLED PRIMARY
AGE< 65 YRS.
BRAIN METS ONLY
7.1 MONTHS
RPA II NOT I OR II 4.2 MONTHS
RPA III KPS< 70 2.3 MONTHS
45. Complications of Radiosurgery
• Short term side effects are uncommon (2%) with worsening symptoms or
new seizures
• About one third- mild swelling (headaches, nausea)
• Radionecrosis in 5% to 10%
46. Radionecrosis
• Symptoms:
i. asymptomatic (50%)
ii. focal neurologic signs
iii. symptoms related to cerebral edema.
• Imaging:
increased enhancement at the site of prior SRS
accompanied by surrounding edema.
• Treatment:
(largely symptomatic)
i. corticosteroids.
ii. Resection may be required
iii. bevacizumab in severe cases.
Sometimes the MRI will look worse after
radiosurgery due to radionecrosis of the
cancer
but with time this should fade away.
47. Long Term Toxicity after WBRT
• leukoencephalopathy or memory (cognitive) problems
• ( SRS+WBRT > SRS alone)
48. FOLLOW UP:
As per NCCN guidelines :
Brain MRI q2–3 months for the first year
Follow-up and imaging as clinically indicated after 1 year.
50. TAKE HOME MESSAGE :
BRAIN METS to be excluded in pts of BREAST & LUNG cancers with any new
neuro symptoms .
BE CAREFUL WITH SINGLE BRAIN LESIONS.
SRS/Sx alone = new lesions in 6-12 months
SRS/Sx + WBRT =
better local control but AT THE COST OF COGNITIVE DECLINE
no improvement in OS
SRS for every new lesion – COST ISSUE
RADIONECROSIS- Imp side effect of SRS.
IN OUR INSTITUTE-
WBRT (30Gy/10#) with SIB to the gross lesion (45Gy/10#)
Editor's Notes
NO OEDEMA IN STROKE.
LATE EFFECTS: FRACTION SIZE……..ACUTE: FRACTION SIZE & OVERALL TREATMENT TIME.