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5/14/2013
1
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
This presenter has no conflict of interest to report regarding any commercial
product/manufacturer that may be referenced during this presentation.
Learning Objectives
• Understand and Gain Knowledge of– Etiologies, symptoms, and treatments of primary
bone and soft tissue cancers vs. metastatic bone disease
– Precautions and restrictions with patients with bone disease
– Surgical procedures for treatment of bone disease
– Appropriate rehabilitation strategies and interventions
– Continuum of care for orthopedic patients throughout their cancer treatment and beyond
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Primary Sarcomas Versus Metastatic Bone Disease
Primary Sarcomas
• Primary bone sarcomas: cancer which originates in bone tissue itself
• Primary soft tissue sarcomas: cancer that develops from soft tissues like fat, muscle, nerves, fibrous tissues, blood vessels, or deep skin tissues
Statistics
• Primary bone sarcomas– <0.2% of all cancers
• 3,010 new cases
• Primary soft tissue sarcomas– 11,410 new cases
will be diagnosed will be diagnosed
• 1,440 deaths from these cancers are expected*
– 4,390 deaths from these cancers are expected*
*The American Cancer Society's Estimates for 2013
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Primary Sarcomas
• Etiology– Exact cause unknown, potential risk factors may
include• Genetics• Genetics• Previous exposure to large doses of radiation or
radioactive materials
Primary Sarcomas
• Bone sarcomas:– Osteosarcoma– Chondrosarcoma– Ewing’s sarcoma
• Soft tissue sarcomas (50 subtypes)
– Rhabdomyosarcoma– LiposarcomaEwing s sarcoma
– Chordoma– Giant cell tumor – Fibrosarcoma
– Malignant fibrous histiocytoma– Synovial sarcoma– Fibrosarcoma– Leiomyosarcoma
Primary Sarcomas
Primary Sarcoma
Incidence bytype
Origin Location of Tumor/s
5-year Survival
Osteosarcoma •Adults: 28%•Children & adolescents: 56%
Bone cells •Distal femur•Proximal tibia•Proximalhumerus
•Localizedtumors: 60-80%•Metastatic tumors: 15-30%
Chondrosarcoma Adults: 40% Cartilage cells •Shoulder girdle•Pelvis•Proximal femur
~80%
Ewing’s Sarcoma •Adults: 8% •Children & adolescents: 34%
Cartilage cells •Shoulder girdle•Ribs•Proximal humerus•Pelvis•Proximal femur
•Localized tumors: 70%•Metastatic tumors: 15-30%•MSKCC: 85%
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Metastatic Bone Disease
• Cancer cells that break off from a primary tumor and spread to the bone via the bloodstream or lymph vessels.
• More common than primary bone cancers,More common than primary bone cancers, especially in adults.
• Prognosis – varied but dependent upon– Primary cancer– Extent of metastases– Treatment options
Metastatic Bone Disease
• Primary cancers with likelihood of metastasis to bone:– Prostate– Breast– Kidney– Lung– Thyroid
Metastatic Bone Disease
• Most common locations for bone metastases:– Most common in axial skeleton
• Spine• Pelvis• Femur• Humerus• Ribs• Skull
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Metastatic Bone Disease
• Types of bone metastases– Osteolytic
• Cancer cells bone destruction– Osteoblastic
• Cancer cells bone formation– Mixed
• Cancer cells both bone destruction and bone formation
Primary Sarcomas and Metastatic Bone Disease
• Diagnosis– Signs and symptoms
• Pain• Swelling• Palpable mass
– Biopsy• Provides definitive diagnosis
– Imagingp• Sensory and/or motor
changes• Functional changes• Gait disturbances• Systemic symptoms
(fever, malaise, weight loss…)
• X-ray• Bone scan• CT scan• MRI• PET scan• Ultrasound
Primary Sarcomas and Metastatic Bone Disease
• Systemic treatment– Chemotherapy– Hormone therapy– Other drugs (bisphosphonates,
di h ti l D b)radiopharmaceuticals, Denosumab)• Localized treatment
– Radiation– Surgery
• Goals of care: curative versus palliative
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
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Principles of Rehabilitation Following Surgery
General Orthopedic Post-Operative Considerations
• Weight bearing (WB) restrictions • Range of Motion (ROM) restrictions • Activity restrictions
Lab value and imaging results• Lab value and imaging results • DVT/PE• History of present illness, past medical
history, social history
Post-Operative Treatment Guidelines
Lab Values
Lab Values HOLD
Hemoglobin <8Platelets <20
DVT/PE
Location of clot
When can therapy begin?
Lowerextremity
Patient on therapeuticdose of anticoagulation
INR >3.0extremity dose of anticoagulation
AND/ORIVC filter in place
Upperextremity
Patient on therapeuticdose of anticoagulation
PE Patient on therapeuticdose of anticoagulation
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
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Basic OT and PT Assessment Principles
• Vital signs and pain **• Cognition**• ROM• Strength• Sensation• Sensation• Functional transfers • Functional mobility and gait • Balance• ADL• Adaptive equipment, assistive devices, DME
Excision
• Goal is to remove the cancer– Wide-excision – removal of tumor and some
normal-appearing surrounding tissue to ensure that all of the cancer is removed
– Excisions may or may not require surgical fixation or stabilization (intramedullary nail, screws, rods or cement)
Excision with Stabilization
• Surgical stabilization photos (ORIF, nails, screws)
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Joint Replacements
• Partial and total joint replacements– Proximal humerus replacement– Proximal femur replacement– Total hip replacement (THR)– Total knee replacement (TKR)
• Unique post-op considerations with oncologic population– Have standard joint replacement precautions– May have additional treatment or disease-related
conditions or impairments • These may affect or require additional restrictions and/or precautions
Joint Replacements
• Joint replacement photos
Excisions and Joint Replacements
• Post-op considerations– WB status – NWBWBAT– Activity restrictions related to procedure (ROM,
THP)• Rehab implications and plan of care (POC)Rehab implications and plan of care (POC)
– Bed mobility*– Functional transfers*– ADL modifications*– Adaptive equipment, assistive devices, DME*– Balance– Gait training*
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Upper Extremity Resections
• Scapulectomy– Partial– Total– Tikoff-Linberg procedure – gold standardTikoff Linberg procedure gold standard
• Amputation
Scapulectomy
• Tikhoff-Linberg– Limb-sparing surgery for tumors in and around
the proximal humerus and shoulder girdle – Portions of the scapula, clavicle, and proximal p p
humerus are resected along with all muscles originating from or inserting on the involved bones.
– Optimal function is achieved with muscle transfers and skeletal reconstruction.
Scapulectomy
• Post-op considerations– WB status – NWB– Immobilization – Shoulder abduction brace
• Rehab implications and plan of care (POC)– Bed mobility*Bed mobility– Functional transfers*– ADL modifications*– Balance*– Gait training– ROM (elbowdigits)– Adaptive equipment, assistive devices, DME*
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Shoulder Abduction BraceM
SKC
C P
hoto
s
MSK
CC
Pho
tos
Literature Review
• Vitale KC, Jimenez A., 20094
– Developed sample rehabilitation protocol after scapulectomy
– Always consult with surgeon before advancing therapy**• Elbow flexion allowed; limit elbow extension first 2 weeks;• Strengthening allowed after 4-6 weeks• Address posture and balance in sitting, stance, and gait• Strict NWB of UE, limit shoulder ROM• Shoulder sling x 2-4 weeks• Wrist and digit AROM allowed
Literature Review
• Hayashi et al., 20115
– Functional outcomes of 7 patients assessed after total scapulectomy
– Enneking scoring system: asses pain, function, emotional acceptance, hand positioning, strength, manual dexteritymanual dexterity
• Shoulder ROM severely limited in most cases• No significant difference of functional parameters
observed between soft tissue reconstruction and non-reconstruction groups
• Mean total score overall satisfactory score • Pain and dexterity scores satisfactory
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Upper Extremity Amputation
• Post-op considerations– WB status – NWB– Activity as tolerated– Positioning
• To promote wound healing and joint integrity• To prevent contractures and skin breakdown
– Phantom sensation and pain• Rehab implications and plan of care (POC)
– Bed mobility*– Functional transfers*– ADL modifications*– Residual limb management*– Adaptive equipment, assistive devices, DME*– Balance*– Gait training
Lower Extremity Resections
• Sacrectomy• Amputation• Hemipelvectomy
Internal– Internal– External
• Rotationplasty
Sacrectomy
• Partial or complete removal of the sacrum and attachments to lumbar vertebrae and ilium
• Resection of S3, S2, possibly S1 nerveResection of S3, S2, possibly S1 nerve• Reconstruction
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
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Sacrectomy
Sacrectomy
• Post-op considerations– WB status - WBAT– Activity determined by
wound closure• Pressure-relieving mattress• No sitting allowed (6 weeks)• No supine (rare)
• Rehab implications and Plan of Care (POC)– Bed mobility/Functional
transfers – side-lyingstand*ADL modifications*• No supine (rare)
– Orthostatic hypotension– Neurological deficits– Bowel/bladder dysfunction
– ADL modifications– Adaptive equipment,
assistive devices, DME*– Balance– Gait training– Orthotics
Pressure-Relieving Mattress and Cushioning
MSK
CC
Pho
tos
MSK
CC
Pho
tos
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Lower Extremity Amputation• Post-op considerations
– WB status - NWB– Activity as tolerated– Positioning
• To promote wound healing and joint integrity• To prevent contractures and skin breakdown
– Phantom sensation and painPhantom sensation and pain• Rehab implications and plan of care (POC)
– Bed mobility– Functional transfers*– ADL modifications– Residual limb management*– Adaptive equipment, assistive devices, DME*– Balance*– Gait training*
Hemipelvectomy• Internal hemipelvectomy (Internal hemi-pelvic resection)
– Resection• Part or all of unilateral pelvis• Proximal femur
– Preservation• Neurovascular bundle• Neurovascular bundle• Lower extremity
• External hemipelvectomy– Resection
• Entire unilateral pelvis with disarticulation at SI joint and pubic symphysis
• Entire lower extremity
Internal Hemipelvectomy• Post-op considerations
– WB status• WBAT, PWB, FFWB (foot-flat weight bearing)
– Activity as tolerated• Rehab considerations and Plan of Care (POC)
– Bed mobilityy– Functional training– ADL*– Balance– ROM and strengthening of uninvolved extremities– Adaptive equipment, assistive devices, DME*– Gait training*– Leg length discrepancy*– Orthotics*
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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External Hemipelvectomy• Post-op considerations
– WBAT through remaining extremities– Activity determined by wound closure
• Pressure-relieving mattress• No prolonged sitting initially
– Phantom sensation and pain– Psychosocial considerationsy
• Rehab implications and Plan of Care (POC)– Bed mobility– Functional transfers
• Cushioning for comfort and OOB tolerance*– ROM and strengthening of uninvolved extremities– Adaptive equipment, assistive devices, DME*– ADL– Balance*– Gait training*
External Hemipelvectomy
MSK
CC
Pho
tos
Cushioning
MSK
CC
Pho
tos
MSK
CC
Pho
tos
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
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Literature Review
• Beck et al., 20086
– Patients after internal versus external hemipelvectomies– Functional outcomes using the Barthel Index and quality
of life using the Linear Analog Self-Assessment tool (LASA)(LASA)
• Overall no significant difference in functional abilities between the groups at 3 different time points
• LASA subcategories showed no difference between groups, except in pain category
Literature Review
• Guo et al., 20117
– Postoperative rehabilitation, functional outcome, and pain management following internal versus external hemipelvectomy
• Inpatient rehabilitation admission associated with older age, l ti i l t d t li tiplastic surgery involvement, and post-op complications
• Significant FIM increases from initial evaluation to discharge in both groups
• Patients following external hemipelvectomy required higher demands for pain medication and increased hospital LOS
Rotationplasty
• Above the knee amputation for tumor of distal femur• Resection of
– Entire knee with both the distal femur and proximal tibia en bloc
– All the surrounding soft tissue t e su ou d g so t t ssue– Except popliteal artery and vein and tibial and peroneal
nerves • Distal portion of the extremity is rotated 180 degrees
and the bones and soft tissues are re-approximated
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Rotationplasty
Rotationplasty• Post-op considerations
– WB status – NWB (6 weeks)– Activity as tolerated– Positioning
• To promote wound healing and joint integrity– To prevent Phantom sensation and pain
Psychosocial considerations– Psychosocial considerations• Contractures and skin breakdown
• Rehab implications and Plan of Care (POC)– Adaptive equipment, assistive devices, DME*– Bed mobility/functional transfers– ADL– Balance– Gait training*
Rotationplasty
• Rehab implications (continued)– ANKLE ROM and STRENGTHENING– Must be able to achieve NEUTRAL dorsiflexion– Prosthetic preparation
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Continuum of Care
Discharge Planning
• Once patients are medically stable, discharged to:– Acute rehabilitation– Sub-acute rehabilitation– HomeHome
• With services (RN, PT, OT)• No services
– Outpatient rehabilitation– Skilled Nursing Facility– Hospice
Discharge Planning
• Multi-factorial approach to goals and discharge planning– Patients’ and families’ directives– Functional status– Activity restrictions and allowances at time of DC– Home environment– Patients’ support system– Medical needs– Cancer treatment options (current and future)– Prognosis– Insurance
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
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Discharge Planning
• Immediate equipment needs for safe DC home– AAD– DME– Adapted, off-the-shelf cushions, bracing, orthotics– Wheelchair
• Long-term equipment needsCustomized cushioning bracing orthotics prosthetics– Customized cushioning, bracing, orthotics, prosthetics
– Customized wheelchair– Home adaptations and renovations for accessibility
• Optimal equipment needs often not able to be determined initially because:– Cancer and treatment-related long-term effects– Maximum return of function not always initially evident– Post-operative complications– Prognosis
Immediate Rehab Considerations After Discharge
• Oncology rehabilitation rapidly growing, however still a small community
• These patients can and will be encountered in any settingsetting– NEED for increased knowledge!
• Orthopedic restrictions• Basic oncology history• Current and future POC
Long-term Rehab Considerations
• Advances in treatment increased survivorship– Progression of disease– Delayed or chronic treatment side-effectsy– NED(No Evidence of Disease)
• Co-morbidities
• NEED for continued rehabilitation services!
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.
5/14/2013
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Literature Review
• Silver JK, Gilchrist LS, 20118
– “Without specific training dedicated to learning the nuances of oncology rehabilitation, it can be challenging to become skilled and effective providers.”
– “More rehabilitation professionals (including, but not limited to, physiatrists, physical therapists, occupational therapists, and speech and language pathologists) need to have specific training in the field of oncology rehabilitation.”
Conclusion
• Primary sarcomas and metastatic bone disease often require surgical interventions.
• These patients have complex medical and rehabilitation needs.
• Well-informed rehabilitation professionals are vital pin returning function and improving quality of life.
• A multi-disciplinary and multi-factorial approach to rehab POC is crucial.
• Increased survivorship = increased short-term and long- term rehabilitation needs.
References
1. American Cancer Society. Cancer facts and figures. Available at http://www.cancer.org/cancer. Accessibility verified February 7, 2013.
2. American Joint Committee on Cancer. What is cancer staging? Available at http://www.cancerstaging.org. Accessibility verified February 7, 2013.
3. Stubblefield MD, O’Dell MW, eds. Cancer Rehabilitation Principles and Practice. New York: Demos Medical; 2009.
4. Vitale KC, Jimenez A. Rehabilitation after scapulectomy. American Journal of Physical Medicine & Rehablitation. 2009; 88(4):267-271.
5. Hayashi K, et al. Functional outcomes after total scapulectomy for malignant bone or ft ti t i th h ld i dl I t ti l J l f Cli i l O lsoft tissue tumors in the shoulder girdle. International Journal of Clinical Oncology.
2011; 16:568-573.6. Beck LA, Einertson MJ, Winemiller MH, DePompolo RW, Hoppe KM, Sim FF.
Functional outcomes and quality of life after tumor-related hemipelvectomy. PhysTher. 2008; 88:916-927.
7. Guo Y, Fu J, Palmer L, Hanohano J, Cote C, Bruera E. Comparison of postoperative rehabilitation in cancer patients undergoind internal and external hemipelvectomy. Arch Phys Med Rehabil. 2011; 92:620-625.
8. Silver JK, Gilchrist LS. Cancer rehabilitation with a focus on evidenced-based outpatient physical and occupational therapy interventions. American Journal of Physical Medicine & Rehabilitation. 2011; 90(5):S5-S15.
© 2013 Memorial Sloan-Kettering Cancer Center, All Rights Reserved.