ACR Appropriateness Criteria®
Clinical Condition: Single Brain Metastasis
Variant 1: 48-year-old man status-post left upper lobe for NSCLC two years earlier, now with 3 cm right frontal lobe lesion. No clinical or radiographic evidence of extracranial disease. KPS 2 weeks post-operatively is 100%. Lesion was completely resected, confirmed by contrast MRI scan 24 hours after surgery.
Treatment |
Appropriateness Rating |
Comments |
Focal Therapy Alone |
Stereotactic radiosurgery (SRS) |
5 |
|
Whole Brain RT (WBRT) Alone |
2000/5 |
1 |
|
3000/10 |
5 |
|
3750/15 |
5 |
|
4000/20 |
2 |
|
5000/25 |
2 |
|
Observation |
5 |
|
Combination Therapy |
SRS + WBRT |
2 |
|
Appropriateness Criteria Scale
1 2 3 4 5 6 7 8 9
1 = Least appropriate 9 = Most appropriate
|
Note: Abbreviations used in the tables are listed at the end of the "Major Recommendations" field.
Variant 2: 35-year-old woman with metastatic breast cancer to multiple boney sites with a 3 cm left parietal lesion. Systemic disease is no longer responding to chemo-hormonal therapy. Surgical resection was subtotal in nature, confirmed by postoperative MRI. KPS 90.
Treatment |
Appropriateness Rating |
Comments |
Focal Therapy Alone |
Stereotactic radiosurgery (SRS) |
6 |
|
Surgical resection |
1 |
|
Whole Brain RT (WBRT) Alone |
2000/5 |
1 |
|
3000/10 |
6 |
|
3750/15 |
8 |
|
4000/20 |
4 |
|
5000/25 |
1 |
|
Combination Therapy |
SRS + WBRT |
3 |
|
Surgery + WBRT |
2 |
|
Observation |
1 |
|
Appropriateness Criteria Scale
1 2 3 4 5 6 7 8 9
1 = Least appropriate 9 = Most appropriate
|
Note: Abbreviations used in the tables are listed at the end of the "Major Recommendations" field.
Variant 3: 77-year-old man, PET scan demonstrated widely metastatic melanoma with a 2 cm right thalamic lesion. KPS 60. Patient refuses experimental immunotherapy.
Treatment |
Appropriateness Rating |
Comments |
Whole Brain RT (WBRT) Alone |
2000/5 |
8 |
|
3000/10 |
8 |
|
3750/15 |
3 |
|
4000/20 |
2 |
|
5000/25 |
1 |
|
Focal Therapy Alone |
Stereotactic radiosurgery (SRS) |
2 |
|
Surgical resection |
1 |
|
Combination Therapy |
SRS + WBRT |
1 |
|
Surgery + WBRT |
1 |
|
Observation |
1 |
|
Appropriateness Criteria Scale
1 2 3 4 5 6 7 8 9
1 = Least appropriate 9 = Most appropriate
|
Note: Abbreviations used in the tables are listed at the end of the "Major Recommendations" field.
Variant 4: 42-year-old woman status-post nephrectomy for renal cell carcinoma six years earlier with a 1 cm lesion in the right lateral cerebellum found incidentally after MRI for head injury. CT of chest/abdomen and bone scan were negative. KPS 100.
Treatment |
Appropriateness Rating |
Comments |
Focal Therapy Alone |
Stereotactic radiosurgery (SRS) |
8 |
|
Surgical resection |
8 |
|
Whole Brain RT (WBRT) Alone |
2000/5 |
1 |
|
3000/10 |
2 |
|
3750/15 |
3 |
|
4000/20 |
3 |
|
5000/25 |
1 |
|
Combination Therapy |
SRS + WBRT |
3 |
|
Surgery + WBRT |
3 |
|
Observation |
1 |
|
Appropriateness Criteria Scale
1 2 3 4 5 6 7 8 9
1 = Least appropriate 9 = Most appropriate
|
Note: Abbreviations used in the tables are listed at the end of the "Major Recommendations" field.
Variant 5: 54-year-old man found to have wide spread metastatic small cell carcinoma to lung, bone, and liver by PET imaging with a 2 cm left anterior temporal lobe lesion. KPS 70. Responding to salvage systemic chemotherapy. No prior WBRT.
Treatment |
Appropriateness Rating |
Comments |
Whole Brain RT (WBRT) Alone |
2000/5 |
2 |
|
3000/10 |
5 |
|
3750/15 |
7 |
|
4000/20 |
2 |
|
5000/25 |
1 |
|
Focal Therapy Alone |
Stereotactic radiosurgery (SRS) |
3 |
|
Surgical resection |
2 |
|
Combination Therapy |
SRS + WBRT |
2 |
|
Surgery + WBRT |
1 |
|
Observation |
1 |
|
Appropriateness Criteria Scale
1 2 3 4 5 6 7 8 9
1 = Least appropriate 9 = Most appropriate
|
Note: Abbreviations used in the tables are listed at the end of the "Major Recommendations" field.
Variant 6: 68-year-old woman status-post chemotherapy/radiotherapy and surgery for esophageal carcinoma. No evidence of extracranial disease with 5 cm lesion in right anterior frontal lobe with 15 mm midline shift. KPS 90 on high dose steroids.
Treatment |
Appropriateness Rating |
Comments |
Focal Therapy Alone |
Stereotactic radiosurgery (SRS) |
1 |
|
Surgical resection |
5 |
|
Combination Therapy |
SRS + WBRT |
1 |
|
Surgery + WBRT |
7 |
|
Whole Brain RT (WBRT) Alone |
2000/5 |
1 |
|
3000/10 |
1 |
|
3750/15 |
1 |
|
4000/20 |
1 |
|
5000/25 |
1 |
|
Observation |
1 |
|
Appropriateness Criteria Scale
1 2 3 4 5 6 7 8 9
1 = Least appropriate 9 = Most appropriate
|
Note: Abbreviations used in the tables are listed at the end of the "Major Recommendations" field.
Variant 7: 49-year-old woman (non-smoker) recently diagnosed with 2 cm NSCLC left upper lobe with no hilar and mediastinal lymphadenopathy and asymptomatic 2 cm right frontal lesion. Abdominal CT and bone scan were negative. KPS 100.
Treatment |
Appropriateness Rating |
Comments |
Focal Therapy Alone |
Stereotactic radiosurgery (SRS) |
7 |
|
Surgical resection |
7 |
|
Combination Therapy |
SRS + WBRT |
6 |
|
Surgery + WBRT |
5 |
|
Whole Brain RT (WBRT) Alone |
2000/5 |
1 |
|
3000/10 |
2 |
|
3750/15 |
2 |
|
4000/20 |
2 |
|
5000/25 |
1 |
|
Observation |
1 |
|
Appropriateness Criteria Scale
1 2 3 4 5 6 7 8 9
1 = Least appropriate 9 = Most appropriate
|
Note: Abbreviations used in the tables are listed at the end of the "Major Recommendations" field.
The appropriate treatment for a patient with a single brain metastasis depends on several clinical factors, including neurologic condition and performance status of the patient. If the patient is suffering from significant mass effect, then surgical resection of the lesion, if feasible, is warranted. For patients with a single lesion who are relatively asymptomatic, the decision process is somewhat more complicated. The aggressiveness of therapy depends on the extent and activity of extracranial disease as well as the patient's general medical condition or performance status. Data indicate that for patients with progressive extracranial disease, surgery plus WBRT is not beneficial compared to WBRT alone. For patients with stable or absent extracranial disease, two randomized studies have clearly shown the benefit of surgical resection followed by WBRT. The benefits are expressed not only in terms of freedom from neurologic progression but also in terms of overall survival. However, a third study, failed to show a survival advantage with the addition of surgery, or an advantage in terms of quality of life. Thus, two of three randomized studies have shown a benefit of surgical resection and WBRT vs. WBRT alone.
The dose used with WBRT in patients with single brain metastasis is based mainly on studies performed in patients with multiple brain metastases. Prospective, randomized phase III clinical trials in patients with multiple brain metastases have included 1000 cGy in one fraction (1000/1), 1200/2, 1800/3, 2000/5, 3000/10, 3600/6, 4000/20, 5000/20, and 5440/34 (160 cGy BID). None of these regimens has proved superior in terms of survival or efficacy (about half of patients have an improvement in their neurologic symptoms); 3000 cGy in 10 fractions or 4000 cGy in 20 fractions represent frequently utilized dose/fractionation schedules. A randomized trial in patients with one to three brain metastases by the Radiation Therapy Oncology Group (RTOG) used 3750 cGy in 15 fractions WBRT (i.e., 250 cGy per fraction) as the standard treatment arm. This schedule is an extrapolation from two other series in the literature, one of which suggests that 300 cGy fractions given following resection of a single brain metastasis are associated with a greater likelihood of late effects to the normal brain, and another in which prophylactic cranial irradiation given in case of small-cell lung cancer with 250 cGy fractions (10 fractions) was not associated with late effects.
Whether stereotactic radiosurgery can be as effective as surgical resection has not been tested with a Phase III randomization for patients with single brain metastasis. A multi-institutional outcome study was performed on patients treated with radiosurgery and WBRT who met the same entry criteria as the patients treated in the two positive randomized trials of surgery and WBRT vs. WBRT alone. The results of this non-randomized study indicate that radiosurgery plus WBRT produces the same local control, freedom from neurological deterioration, and overall survival as surgery plus WBRT.
Some studies looking at stereotactic interstitial brachytherapy for patients with single lesions indicate that control rates are similar to those obtained with radiosurgery. However, stereotactic brachytherapy is an invasive procedure and requires hospitalization.
The issue of WBRT has been a subject of controversy in the oncology literature for patients with a single brain metastasis. The question of whether surgical resection can be performed without the addition of WBRT has now been put to a Phase III randomized trial that reveals first, that the addition of WBRT to surgical resection produces no overall survival advantage and no increase in the duration of functional independence, and second, that the overall recurrence rate either within the surgically resected area or elsewhere in the central nervous system (CNS) was 47% in patients treated with surgical resection alone versus 10% in patients treated with surgery and WBRT.
The analogous question, of whether radiosurgery can be performed without the addition of WBRT, has been studied retrospectively. Several radiosurgery studies investigating patients treated with radiosurgery alone versus radiosurgery plus WBRT for single and multiple lesions have not shown an improvement in survival with the addition of WBRT. However, an ongoing Japanese study, randomizing patients with one to four brain metastases between radiosurgery and radiosurgery plus WBRT may settle this question.
Another question, whether patients receiving WBRT for a single brain metastasis benefit from the addition of radiosurgery, has recently been answered in a randomized trial in patients with one to three brain metastases. In patients with a single brain metastasis, the addition of radiosurgery increased median survival from 4.9 months to 6.5 months (p = 0.04).
Based on current data, surgical resection or radiosurgery alone as the treatment for a single brain metastasis followed by serial radiologic examination of the brain may be appropriate. In patients who receive WBRT, the addition of radiosurgery may increase median survival by several weeks, at the cost of potential WBRT toxicity. In patients who suffer recurrence in either the locally treated region or elsewhere within the central nervous system, WBRT, focal radiotherapy, radiosurgery, or further surgical resection may be considered. There are no data indicating which of these choices is best.
Summary
Compelling evidence suggests that aggressive local therapy for patients with single brain metastasis is beneficial for survival. There is also evidence to suggest that aggressive local therapy for a patient with a single lesion improves quality of life. If patients have no evidence of progressive extracranial disease, surgical resection or radiosurgery is appropriate therapy. While it appears that the addition of WBRT does not add to survival or duration of functional independence, it does reduce the risk of further intracranial failure.
Abbreviations
- CT, computed tomography
- KPS, Karnofsky Performance Status
- MRI, magnetic resonance imaging
- NSCLC, non-small cell lung cancer
- PET, positron-emission tomography
- RT, radiotherapy