1. SPINE SBRT: The MSKCC Spine Service IAEA Singapore SBRT Symposium
Josh Yamada MD FRCPC
Mark Bilsky MD
Departments of Radiation Oncology and Neurosurgery
Memorial Sloan Kettering Cancer Center
NY NY USA

2. Disclosures Varian Medical Systems Consultant
Continuing Medical Education Institute Speakers Bureau

3. MSKCC Spine Service Radiation Oncology Josh Yamada, M.D. Radiology
Eric Lis, M.D.
George Krol, M.D.
Sasan Karimi, M.D.
Pierre Gobin, M.D.
Athos Patsilides, M.D.
Orthopedic Surgery
Patrick Boland, M.D.
Neurosurgery
Mark Bilsky, M.D.
Ilya Laufer, M.D.
Neurology
Edward Avila, D.O.
Xi Chen, M.D.
Sonia Sandhu, D.O
Pain
Roma Tickoo, M.D.
Kenneth Cubert, M.D.
Vinay Puttaniah, M.D.
Amitabh Gulati, M.D.
Physiatry
Michael Stubblefield,M.D.
Jonas Sokolof, D.O.
Christian Custodio, M.D.
PT/OT
Nursing
Joan Zatcky, NP
Cynthia Correa, RN
Ruth Gargan-Klinger, NP
Jane Yoffe, NP
Solange Inglis, NP
Marie Marte, NP

4. Goals of Treatment Multi-disciplinary Approach
Metastasis
Palliation
Pain Control
Neurology
Oncology
Mechanical Stability

5. The Spine Service at MSKCC: Multidisciplinary Care
Spine oncology requires multidisciplinary care
Spine conference
All physicians in the hospital bring their spine patient questions for multidisciplinary assessment—meets weekly
Spine clinic
Joint clinic with neurosurgery, interventional radiology and radiation oncology
NOMS assessment

6. Treatment Considerations NOMS1,2
Neurologic
Oncologic
Mechanical Stability
Systemic disease
Systemic Therapy
Radiation Therapy
Surgery
To decide best therapy in this incredibily complicated patient population, 4 fundamental assessments are made that re incorporated into a decision framework referred to as NOMS , Neurologic Oncologic Mechanical Instability, and systemic disease
vs.
1Bilsky MH, Smith M. Surgical approach to epidural spinal cord compression. Hematology/Oncology Clinics of North America.;20(6): , 2006
2Bilsky MH, Azeem S. The NOMS framework for decision making in metastatic cervical spine tumors. Current Opinions in Orthopedics 2007;18(3):

7. Options for Therapy Multi-disciplinary Approach
Systemic Therapy
Chemo/Immuno-/Hormonal therapy
Targeted Therapy
Radiation Therapy
Conventional EBRT (30 Gy in 10 fractions)
Image-guided intensity modulated RT
Hypofractionated RT (10 Gy x 3)
Single Fraction RT (24 Gy)
Brachytherapy: p32 plaque
Surgery
Percutaneous Cement Augmentation
Open: Anterior, Posterolateral, Combined
En bloc resection for margins

8. Presentation Three Predominant Pain Syndromes: Biologic Mechanical
Radiculopathy
Myelopathy
Significant treatment implications

9. Presentation Biologic pain Indicative of bone pathology
Predominant pain syndrome (95%)
Night or morning pain that resolves over the course of the day
Mechanism: Diurnal variation in endogenous steroid secretion
Treatment: Steroids/RT

10. Presentation Mechanical Pain Indicative of bone pathology
Movement-related pain
Level dependent
AA: Flexion/extension/rotation
SAC: Flexion/extension
Thoracic: Extension
Lumbar: Mechanical Radiculopathy
Radiographic correlates
Treatment: Surgery or Kyphoplasty followed
by RT

11. Presentation Radiculopathy Indicative of neuroforaminal disease
Differentiate from the following:
Bone lesion (eg. L3 vs. femur fracture)
Neuropathy
Brachial/Lumbosacral Plexus Tumor
Leptomeningeal Tumor
Treatment: Dependent on tumor histology and degree of ESCC, often RT in absence of instability

12. Presentation Myelopathy: Indicative of high-grade ESCC
Spinothalamic tracts (Pinprick)
Corticospinal tracts (Motor)
Posterior Columns (Proprioception)
Autonomic (Bowel and Bladder)
Neurogenic vs. other (eg. narcotics)
Perineal numbness
Conus medullaris or sacrum
Other spinal levels: Significant degree of paralysis
Treatment: Dependent on the radiosensitivity of the tumor

13. NOMS Assessment Neurologic Oncologic Mechanical Instability
Myelopathy
Functional Radiculopathy
Degree of epidural spinal cord compression
Oncologic
Tumor Histology
Radiation or Chemosensitivity
Mechanical Instability
Systemic Disease and Medical Co-morbidity

14. O: Radiation Sensitivity
NOMS
N: ESCC
O: Radiation Sensitivity
Radiation Sensitivity
Tumor Histology
Sensitive
Myeloma
Lymphoma
Moderately Sensitive
Breast
Moderately Resistant
Colon
NSCLC
Highly Resistant
Thyroid
Renal
Sarcoma
Melanoma 2 3 1

15. O: Radiation Sensitivity
NOMS
O: Radiation Sensitivity
N: ESCC
Radiation Sensitivity
Tumor Histology
Sensitive
Myeloma
Lymphoma
Moderately Sensitive
Breast
Moderately Resistant
Colon
NSCLC
Highly Resistant
Thyroid
Renal
Sarcoma
Melanoma 2 3 1
cEBRT
30 Gy in 3 Gy/fraction

16. O: Radiation Sensitivity
NOMS
N: ESCC
O: Radiation Sensitivity
Radiation Sensitivity
Tumor Histology
Sensitive
Myeloma
Lymphoma
Moderately Sensitive
Breast
Moderately Resistant
Colon
NSCLC
Highly Resistant
Thyroid
Renal
Sarcoma
Melanoma 2 3 1
SRS

17. O: Radiation Sensitivity
NOMS
N: ESCC
O: Radiation Sensitivity
Radiation Sensitivity
Tumor Histology
Sensitive
Myeloma
Lymphoma
Moderately Sensitive
Breast
Moderately Resistant
Colon
NSCLC
Highly Resistant
Thyroid
Renal
Sarcoma
Melanoma 2 3 1
Surgery + SRS

18. Histologic Classification Radiosensitivity to cEBRT (30 Gy in 10)
Lymphoma
Seminoma
Myeloma
Breast
Prostate
Sarcoma
Melanoma GI
NSCLC
Renal
Gilbert F U
Maranzano
Rades I
Katagiri
Responses: F-Favorable, I-Intermediate, U-Unfavorable
Gerszten PC, Mendel E, Yamada Y. Radiotherapy and radiosurgery for metastatic spine disease: What are the options, indications, and outcomes. Spine 34(22S):S78-92, 2009

19. Local Control Histology
413 patients
Histology
3 Yr Local Control
Breast
98% GI
H&N
93%
Lung
Melanoma
90%
Unknown
91%
Prostate
Renal
89%
Sarcoma
96%
Thyroid
92%

20. Radiosurgery Recommendations
A strong recommendation can be made with low-quality evidence that radiosurgery should be considered over conventional fractionated radiotherapy for the treatment of solid tumor spine metastases in the setting of oligometastatic disease and/or radioresistant histology in which no relative contraindications exist.
Gerszten PC, Mendel E, Yamada Y. Radiotherapy and radiosurgery for metastatic spine disease: What are the options, indications, and outcomes. Spine 34(22S):S78-92, 2009

21. Case Solitary T10 RCC

22. RCC/Melanoma Stereotactic Radiosurgery
80 patients
SSRS 18 to 24 Gy x 1
Imaging and PE q 4 months
Radiographic/Symptom Control: 92%
Trend towards better control at 24 Gy:
97% vs. 83%
Thiagaragan A, et.al. Stereotactic radiosurgery: A new paradigm
For melanoma and renal cell carcinoma spine metastases. Presented
ASCO, 2010

23. NOMS Assessment Neurologic Oncologic Mechanical Instability
Myelopathy
Functional Radiculopathy
Degree of epidural spinal cord compression
Oncologic
Tumor Histology: RCC
Radiation or Chemosensitivity
Mechanical Instability
Systemic Disease and Medical Co-morbidity

24. SRS NOMS Assessment Neurologic Oncologic Mechanical Stability: Stable
Myelopathy
Functional Radiculopathy
Degree of epidural spinal cord compression: ESCC 1b
Oncologic
Tumor Histology: RCC
Radiation: Sensitive to SRS
Mechanical Stability: Stable
Systemic Disease and Medical Co-morbidity
Needle biopsy revealed mutliple myeloma. The NOMS assess changes to RT sensitive and appropriately this patient was irradiated. With cEBRT with an excellent response
SRS

25. RCC SRS:24 Gy, Cord dMax:14Gy f/u 26 months
Bilsky M,, et.al. Shifting Paradigms in the Treatment of Metastatic Spine Disease .Spine. 34(22S) Supplement:S101-S107, 2009.

26. SRS:24 Gy, Cord dMax:14Gy f/u 26 months
RCC
A strong recommendation is made that patients with solid renal cell carcinoma in the absence of epidural disease may benefit from stereotactic radiosurgery as first line therapy rather than en bloc excision.
SRS:24 Gy, Cord dMax:14Gy f/u 26 months
Bilsky M,, et.al. Shifting Paradigms in the Treatment of Metastatic Spine Disease .Spine. 34(22S) Supplement:S101-S107, 2009.

27. O: Radiation Sensitivity
NOMS
N: ESCC
O: Radiation Sensitivity
Radiation Sensitivity
Tumor Histology
Sensitive
Myeloma
Lymphoma
Moderately Sensitive
Breast
Moderately Resistant
Colon
NSCLC
Highly Resistant
Thyroid
Renal
Sarcoma
Melanoma 2 3 1
Surgery + SRS

28. SRS and High-Grade ESCC
7 local failures received <15 Gy to small percentage of PTV
Currently, dMax Cord <14 Gy with 10% per mm falloff:
Cytotoxic tumoral dose risks overdosing the spinal cord
Subtherapeutic dose that spares spinal cord tolerance risks epidural tumor progression
Resolution of soft tissue disease can take
months:
No effective decompression of epidural disease
Caveat: SRS for RT-sensitive disease
(Median 16Gy)1
Under-dosed sub-volume
Cord
Tumor (gross target volume)
Tumor (gross target volume)
Prescription isodose 28
1Ryu S., et.al Radiosurgical decompression of metastatic epidural compression. Cancer 116(9): 2250, 2010

29. Neurologic Oncologic Assessment
Prospective randomized trial
Solid tumors
HG-ESCC with myelopathy
Surgery + cEBRT vs. cEBRT alone
Exclusion criteria
RT-sensitive tumors ie. Hematologic malignancies and GCT
Multi-level disease
Systemic contraindications to surgery
The best evidence that patients with high-grade spinal cord compression are best served with surgical decompression comes from a prospective randomized trial from Roy Patchell and Tibbs from U of K published in Lancet 2005
RA Patchell, et al., Direct decompressive surgical resection in the treatment of spinal cord compression caused by metastatic cancer: a randomized trial. Lancet 366: 643, 2005

30. Results Surgery Radiation Significance Overall Ambulation 84% (42/50)
57% (29/51)
p=.001
Duration
122 days
13 days
p=.003
Recover Ambulation
62% (10/16)
19% (3/16)
p= .012
Continence
155 days
17 days
p=.016
Narcotics (MSO4)
.4mgs
4-8 mgs
p=.002
Survival Time
126 days
100 days
p=.033
RA Patchell, et al., Direct decompressive surgical resection in the treatment of spinal cord compression caused by metastatic cancer: a randomized trial. Lancet 366: 643, 2005

31. Evidence-based Recommendations (GRADE methodology) :
Results
Surgery
Radiation
Significance
Overall Ambulation
84% (42/50)
57% (29/51)
p=.001
Duration
122 days
13 days
p=.003
Recover Ambulation
62% (10/16)
19% (3/16)
p= .012
Continence
155 days
17 days
p=.016
Narcotics (MSO4)
.4mgs
4-8 mgs
p=.002
Survival Time
126 days
100 days
p=.033
Evidence-based Recommendations (GRADE methodology) :
A strong recommendation is made for patients with high-grade spinal cord compression due to solid tumor malignancy undergo surgical decompression and stabilization followed by RT.1
Bilsky M,, et.al. Shifting Paradigms in the Treatment of Metastatic Spine Disease. Spine 34(22S): S101-S107, 2009

32. Radiosurgery Recommendations
A strong recommendation can be made with low-quality evidence that radiosurgery should be considered over conventional fractionated radiotherapy for the treatment of solid tumor spine metastases in the setting of oligometastatic disease and/or radioresistant histology in which no relative contraindications exist.
Gerszten PC, Mendel E, Yamada Y. Radiotherapy and radiosurgery for metastatic spine disease: What are the options, indications, and outcomes. Spine 34(22S):S78-92, 2009

33. Postoperative Adjuvant Radiation
101 patients/106 metastases operated between1977 to 1996
Surgery:
Posterolateral: 79%
Anterior: 12%
Combined Anterior/Posterior: 9%
Partial (48%) or Complete Resection (43%): 91%
Adjuvant Treatment: 100%
Local Control: 6 months
1 year
4 years
Significant Predictors of Recurrence:
Ambulation, Tumor Histology, Completeness of Resection
Klekamp J, Samii. Surgical results for spinal metastases.
Acta Neurochir (Wien) 140 (9): , 1998

34. Postoperative Adjuvant Radiation
MSKCC Data: 21 patients
RT-resistant tumors: 100%
Melanoma
Renal Cell Carcinoma
Sarcoma
Colorectal Carcinoma
Surgical Indication:
High Grade ESCC (Grade 2 or 3): 96%
Mechanical Radiculopathy: 4%
SRS Single Fraction: 18 to 24 Gy
GTV contoured to the preoperative tumor volume
Myelogram/CT
Moulding, et.al. Local disease control after decompressive surgery and high-dose single fraction radiation for spine metastases. J Neurosurg Spine 13(1): 87-93, 2010

35. Local Control Surgery + SRS
LD:40%
HD:94%
Moulding, et.al. Local disease control after decompressive surgery and
adjuvant high-dose single fraction radiation for spine metastases.
J Neurosurg Spine 13(1): 87-93, 2010

36. Local Control Separation Surgery + SRS
192 pts.
SRS: 90%
Hypo LD:78%
Hypo HD: 95.8%

37. “Separation Surgery” + SRS
86 year old
Papillary thyroid
ASIA C
Absent proprioception
N: HG ESCC
O: RT-resistant
M: Stable
S: Tolerable

38. “Separation Surgery” + SRS

39. RCC En bloc excision Published literature: 6 case series:15 patients
Operative times: 8 to 12 hours
Transfusion data: Melcher
- PRBC-15.7units/FFP-20units
No complications reported
Recurrences:13%
Median follow-up 16 months
Bilsky M, et.al. Shifting Paradigms in the Treatment of Metastatic Spine Disease .Spine. 34(22S) Supplement:S101-S107, 2009. 2

40. “Separation Surgery” + SRS
SST post RT/Chemo
Tumor progression with instability
T3 vertebral body
Massive brachial plexus
N: ESCC 2
Radiculopathy/plexopathy
O: Resistant
M: Unstable
S: Tolerate an operation

41. NOMS Assessment Neurologic Oncologic Mechanical Stability
Myelopathy
Functional Radiculopathy
Degree of epidural spinal cord compression
Oncologic
Tumor Histology: RCC
Radiation or Chemosensitivity
Mechanical Stability
Systemic Disease and Medical Co-morbidity
Needle biopsy revealed mutliple myeloma. The NOMS assess changes to RT sensitive and appropriately this patient was irradiated. With cEBRT with an excellent response

42. NOMS Assessment Neurologic Oncologic Mechanical Stability
Myelopathy
Functional Radiculopathy
Degree of epidural spinal cord compression
Oncologic
Tumor Histology: RCC
Radiation or Chemosensitivity
Mechanical Stability
Systemic Disease and Medical Co-morbidity
Needle biopsy revealed mutliple myeloma. The NOMS assess changes to RT sensitive and appropriately this patient was irradiated. With cEBRT with an excellent response

43. NOMS Assessment Neurologic Oncologic Mechanical Stability
Myelopathy
Functional Radiculopathy
Degree of epidural spinal cord compression
Oncologic
Tumor Histology: RCC
Radiation or Chemosensitivity
Mechanical Stability
Systemic Disease and Medical Co-morbidity
Needle biopsy revealed mutliple myeloma. The NOMS assess changes to RT sensitive and appropriately this patient was irradiated. With cEBRT with an excellent response
High-dose steroids
Embolization

44. Posterolateral decompression Instrumentation /SRS + /- p32 plaque
NOMS Assessment
Neurologic
Myelopathy
Functional Radiculopathy
Degree of epidural spinal cord compression
Oncologic
Tumor Histology: RCC
Radiation or Chemosensitivity
Mechanical Stability
Systemic Disease and Medical Co-morbidity
Needle biopsy revealed mutliple myeloma. The NOMS assess changes to RT sensitive and appropriately this patient was irradiated. With cEBRT with an excellent response
Posterolateral decompression
Instrumentation /SRS + /- p32 plaque

45. NOMS Assessment Neurologic Oncologic Mechanical Stability
Myelopathy
Functional Radiculopathy
Degree of epidural spinal cord compression
Oncologic
Tumor Histology: Lymphoma
Radiation or Chemosensitivity
Mechanical Stability
Systemic Disease and Medical Co-morbidity
Needle biopsy revealed mutliple myeloma. The NOMS assess changes to RT sensitive and appropriately this patient was irradiated. With cEBRT with an excellent response

46. cEBRT (30 Gy in 10 fractions)
NOMS Assessment
Neurologic
Myelopathy
Functional Radiculopathy
Degree of epidural spinal cord compression
Oncologic
Tumor Histology: Lymphoma
Radiation or Chemosensitivity
Mechanical Stability
Systemic Disease and Medical Co-morbidity
Needle biopsy revealed mutliple myeloma. The NOMS assess changes to RT sensitive and appropriately this patient was irradiated. With cEBRT with an excellent response
High-dose steroids
cEBRT (30 Gy in 10 fractions)

47. NOMS Assessment Neurologic Oncologic Mechanical Stability
Myelopathy
Functional Radiculopathy
Degree of epidural spinal cord compression
Oncologic
Tumor Histology: Unknown
Radiation or Chemosensitivity
Mechanical Stability
Systemic Disease and Medical Co-morbidity
Needle biopsy revealed mutliple myeloma. The NOMS assess changes to RT sensitive and appropriately this patient was irradiated. With cEBRT with an excellent response

48. Establish RT-sensitive: RT
NOMS Assessment
Neurologic
Myelopathy
Functional Radiculopathy
Degree of epidural spinal cord compression
Oncologic
Tumor Histology: Unknown
Radiation or Chemosensitivity
Mechanical Stability
Systemic Disease and Medical Co-morbidity
Needle biopsy revealed mutliple myeloma. The NOMS assess changes to RT sensitive and appropriately this patient was irradiated. With cEBRT with an excellent response
High-dose steroids
Establish RT-sensitive: RT
No Dx: Surgery

49. NOMechanical InstabilityS
Recognition of instability as an indication for surgery or percutaneous cement augmentation prior to RT
Spine Oncology Study Group (SOSG) created a scoring system Spine Instability Neoplastic Score or SINS1
-Integrates systematic literature review with expert opinion
-Reliable: High inter and intra-relater reliability2
-Valid: Substantial agreement between SINS score and expert opinion2
Part of our failure to recognize instability in the neoplastic setting is that it is very different from the traumatic setting.
1Fisher CG, et al. A novel classification system for spinal instability in neoplastic disease: an evidence-based approach and expert consensus from the Spine Oncology Study Group. Spine. 2010;35(22):E
2Fourney DR, et al. Spinal instability neoplastic score: an analysis of reliability and validity from the spine oncology study group. J Clin Oncol 2011;29(22): .

50. Spine Instability Neoplastic Score (SINS)
SINS Component
Description
Score
Location
Junctional (Occ-C2, C7-T2, T11-L1, L5-S)
Mobile (C3-6, L2-4)
Semirigid (T3-10)
Rigid (S2-5) 3 2 1
Pain
Yes*
Occasional non-mechanical pain No
Bone Lesion
Lytic
Mixed
Blastic
Alignment
Subluxation / translation
De novo deformity
Normal 4
Vertebral Body
>50% collapse
<50% collapse
No collapse with >50% VB involved
None of above
Posterolateral Involvement
Bilateral
Unilateral
None
Tallied Score from 6 components
Stable
Potentially Unstable
Unstable
0-6
7-12
13-18
The points alloted were contributions to instabiity
Location: Junctional areas were considered significantly more unstable than rigid spines
Pain: Mechanical pain is axial load or movement related . Non-mechanical pain is biologic pain that is night or morning pain that resolves over the course of the day and is responsive to steroids, but does not denote instability.
Bone lesions lytic disease is impacts instabiity significantly more than sclerotic bone disease.
Alignment: subluxation translation had the highest point total
veretbral body was degree of collapse and involvement of the vertebral bdoy, posterior elements included joints, pedicle and ribs.
Fisher CG, et al. A novel classification system for spinal instability in neoplastic disease: an evidence-based approach and expert consensus from the Spine Oncology Study Group. Spine 35(22):E1221-9, 2010

51. Spine Instability Neoplastic Score (SINS)
SINS Component
Description
Score
Location
Junctional (Occ-C2, C7-T2, T11-L1, L5-S)
Mobile (C3-6, L2-4)
Semirigid (T3-10)
Rigid (S2-5) 3 2 1
Pain
Yes*
Occasional non-mechanical pain No
Bone Lesion
Lytic
Mixed
Blastic
Alignment
Subluxation / translation
De novo deformity
Normal 4
Vertebral Body
>50% collapse
<50% collapse
No collapse with >50% VB involved
None of above
Posterolateral Involvement
Bilateral
Unilateral
None
Tallied Score from 6 components
Stable
Potentially Unstable
Unstable
0-6
7-12
13-18
The points alloted were contributions to instabiity
Location: Junctional areas were considered significantly more unstable than rigid spines
Pain: Mechanical pain is axial load or movement related . Non-mechanical pain is biologic pain that is night or morning pain that resolves over the course of the day and is responsive to steroids, but does not denote instability.
Bone lesions lytic disease is impacts instabiity significantly more than sclerotic bone disease.
Alignment: subluxation translation had the highest point total
veretbral body was degree of collapse and involvement of the vertebral bdoy, posterior elements included joints, pedicle and ribs.
Fisher CG, et al. A novel classification system for spinal instability in neoplastic disease: an evidence-based approach and expert consensus from the Spine Oncology Study Group. Spine 35(22):E1221-9, 2010

52. Spine Instability Neoplastic Score (SINS)
SINS Component
Description
Score
Location
Junctional (Occ-C2, C7-T2, T11-L1, L5-S)
Mobile (C3-6, L2-4)
Semirigid (T3-10)
Rigid (S2-5) 3 2 1
Pain
Yes*
Occasional non-mechanical pain No
Bone Lesion
Lytic
Mixed
Blastic
Alignment
Subluxation / translation
De novo deformity
Normal 4
Vertebral Body
>50% collapse
<50% collapse
No collapse with >50% VB involved
None of above
Posterolateral Involvement
Bilateral
Unilateral
None
Tallied Score from 6 components
Stable
Potentially Unstable
Unstable
0-6
7-12
13-18
The points alloted were contributions to instabiity
Location: Junctional areas were considered significantly more unstable than rigid spines
Pain: Mechanical pain is axial load or movement related . Non-mechanical pain is biologic pain that is night or morning pain that resolves over the course of the day and is responsive to steroids, but does not denote instability.
Bone lesions lytic disease is impacts instabiity significantly more than sclerotic bone disease.
Alignment: subluxation translation had the highest point total
veretbral body was degree of collapse and involvement of the vertebral bdoy, posterior elements included joints, pedicle and ribs.
Fisher CG, et al. A novel classification system for spinal instability in neoplastic disease: an evidence-based approach and expert consensus from the Spine Oncology Study Group. Spine 35(22):E1221-9, 2010

53. Spine Instability Neoplastic Score (SINS)
SINS Component
Description
Score
Location
Junctional (Occ-C2, C7-T2, T11-L1, L5-S)
Mobile (C3-6, L2-4)
Semirigid (T3-10)
Rigid (S2-5) 3 2 1
Pain
Yes*
Occasional non-mechanical pain No
Bone Lesion
Lytic
Mixed
Blastic
Alignment
Subluxation / translation
De novo deformity
Normal 4
Vertebral Body
>50% collapse
<50% collapse
No collapse with >50% VB involved
None of above
Posterolateral Involvement
Bilateral
Unilateral
None
Tallied Score from 6 components
Stable
Potentially Unstable
Unstable
0-6
7-12
13-18
The points alloted were contributions to instabiity
Location: Junctional areas were considered significantly more unstable than rigid spines
Pain: Mechanical pain is axial load or movement related . Non-mechanical pain is biologic pain that is night or morning pain that resolves over the course of the day and is responsive to steroids, but does not denote instability.
Bone lesions lytic disease is impacts instabiity significantly more than sclerotic bone disease.
Alignment: subluxation translation had the highest point total
veretbral body was degree of collapse and involvement of the vertebral bdoy, posterior elements included joints, pedicle and ribs.
Fisher CG, et al. A novel classification system for spinal instability in neoplastic disease: an evidence-based approach and expert consensus from the Spine Oncology Study Group. Spine 35(22):E1221-9, 2010

54. Spine Instability Neoplastic Score (SINS)
SINS Component
Description
Score
Location
Junctional (Occ-C2, C7-T2, T11-L1, L5-S)
Mobile (C3-6, L2-4)
Semirigid (T3-10)
Rigid (S2-5) 3 2 1
Pain
Yes*
Occasional non-mechanical pain No
Bone Lesion
Lytic
Mixed
Blastic
Alignment
Subluxation / translation
De novo deformity
Normal 4
Vertebral Body
>50% collapse
<50% collapse
No collapse with >50% VB involved
None of above
Posterolateral Involvement
Bilateral
Unilateral
None
Tallied Score from 6 components
Stable
Potentially Unstable
Unstable
0-6
7-12
13-18
The points alloted were contributions to instabiity
Location: Junctional areas were considered significantly more unstable than rigid spines
Pain: Mechanical pain is axial load or movement related . Non-mechanical pain is biologic pain that is night or morning pain that resolves over the course of the day and is responsive to steroids, but does not denote instability.
Bone lesions lytic disease is impacts instabiity significantly more than sclerotic bone disease.
Alignment: subluxation translation had the highest point total
veretbral body was degree of collapse and involvement of the vertebral bdoy, posterior elements included joints, pedicle and ribs.
Fisher CG, et al. A novel classification system for spinal instability in neoplastic disease: an evidence-based approach and expert consensus from the Spine Oncology Study Group. Spine 35(22):E1221-9, 2010

55. Spine Instability Neoplastic Score (SINS)
SINS Component
Description
Score
Location
Junctional (Occ-C2, C7-T2, T11-L1, L5-S)
Mobile (C3-6, L2-4)
Semirigid (T3-10)
Rigid (S2-5) 3 2 1
Pain
Yes*
Occasional non-mechanical pain No
Bone Lesion
Lytic
Mixed
Blastic
Alignment
Subluxation / translation
De novo deformity
Normal 4
Vertebral Body
>50% collapse
<50% collapse
No collapse with >50% VB involved
None of above
Posterolateral Involvement
Bilateral
Unilateral
None
Tallied Score from 6 components
Stable
Potentially Unstable
Unstable
0-6
7-12
13-18
The points alloted were contributions to instabiity
Location: Junctional areas were considered significantly more unstable than rigid spines
Pain: Mechanical pain is axial load or movement related . Non-mechanical pain is biologic pain that is night or morning pain that resolves over the course of the day and is responsive to steroids, but does not denote instability.
Bone lesions lytic disease is impacts instabiity significantly more than sclerotic bone disease.
Alignment: subluxation translation had the highest point total
veretbral body was degree of collapse and involvement of the vertebral bdoy, posterior elements included joints, pedicle and ribs.
Fisher CG, et al. A novel classification system for spinal instability in neoplastic disease: an evidence-based approach and expert consensus from the Spine Oncology Study Group. Spine 35(22):E1221-9, 2010

56. Spine Instability Neoplastic Score (SINS)
SINS Component
Description
Score
Location
Junctional (Occ-C2, C7-T2, T11-L1, L5-S)
Mobile (C3-6, L2-4)
Semirigid (T3-10)
Rigid (S2-5) 3 2 1
Pain
Yes*
Occasional non-mechanical pain No
Bone Lesion
Lytic
Mixed
Blastic
Alignment
Subluxation / translation
De novo deformity
Normal 4
Vertebral Body
>50% collapse
<50% collapse
No collapse with >50% VB involved
None of above
Posterolateral Involvement
Bilateral
Unilateral
None
Tallied Score from 6 components
Stable
Potentially Unstable
Unstable
0-6
7-12
13-18
The points alloted were contributions to instabiity
Location: Junctional areas were considered significantly more unstable than rigid spines
Pain: Mechanical pain is axial load or movement related . Non-mechanical pain is biologic pain that is night or morning pain that resolves over the course of the day and is responsive to steroids, but does not denote instability.
Bone lesions lytic disease is impacts instabiity significantly more than sclerotic bone disease.
Alignment: subluxation translation had the highest point total
veretbral body was degree of collapse and involvement of the vertebral bdoy, posterior elements included joints, pedicle and ribs.
Fisher CG, et al. A novel classification system for spinal instability in neoplastic disease: an evidence-based approach and expert consensus from the Spine Oncology Study Group. Spine 35(22):E1221-9, 2010

57. Spine Instability Neoplastic Score (SINS)
SINS Component
Description
Score
Location
Junctional (Occ-C2, C7-T2, T11-L1, L5-S1)
Mobile (C3-6, L2-4)
Semirigid (T3-10)
Rigid (S2-5) 3 2 1
Pain
Yes*
Occasional non-mechanical pain No
Bone Lesion
Lytic
Mixed
Blastic
Alignment
Subluxation / translation
De novo deformity
Normal 4
Vertebral Body
>50% collapse
<50% collapse
No collapse with >50% VB involved
None of above
Posterolateral Involvement
Bilateral
Unilateral
None
Tallied Score from 6 components
Stable
Potentially Unstable
Unstable
0-6
7-12
13-18
The points alloted were contributions to instabiity
Location: Junctional areas were considered significantly more unstable than rigid spines
Pain: Mechanical pain is axial load or movement related . Non-mechanical pain is biologic pain that is night or morning pain that resolves over the course of the day and is responsive to steroids, but does not denote instability.
Bone lesions lytic disease is impacts instabiity significantly more than sclerotic bone disease.
Alignment: subluxation translation had the highest point total
veretbral body was degree of collapse and involvement of the vertebral bdoy, posterior elements included joints, pedicle and ribs.
Fisher CG, et al. A novel classification system for spinal instability in neoplastic disease: an evidence-based approach and expert consensus from the Spine Oncology Study Group. Spine 35(22):E1221-9, 2010

59. SRS
NOMS Algorithm

60. Summary
NOMS provides a comprehensive approach to the multidisciplinary management of spine metastases
Metastatic cancer patients are a unique cohort
Integration of new technologies and therapeutic options
Most effective and low impact = best palliatiion
NOMS provides a vehicle for surgeons, medical and radiation oncologists to speak a common language