Canine Osteosarcoma: Part 2

Nicole Ehrhart, VMD, MS, Colorado State University

ArticleLast Updated August 20146 min readPeer Reviewed
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Part 2 of this 2-part series on canine osteosarcoma discusses treatment and follow-up protocols, along with cost and prognosis. Part 1 includes patient history and diagnosis of the disease.

Treatment

Inpatient or Outpatient

  • Patients typically require brief hospitalization after amputation or limb salvage surgery.

  • Outpatient treatment can be initiated for the remainder of the treatment course, provided no severe adverse effects develop.

Surgical

Amputation

  • Amputation followed by chemotherapy is the most common surgical combination treatment.

  • Large- and giant-breed dogs typically function well after limb amputation.

  • Most owners are pleased with their pets’ mobility and quality of life after surgery.

  • Moderate preexisting degenerative joint disease found in most older, large-breed dogs is not a contraindication for amputation.

  • Severe preexisting orthopedic or neurologic conditions may cause poor results; careful preoperative examination is important.

  • Complete forequarter amputation is generally recommended for forelimb lesions, as is coxofemoral disarticulation amputation for hindlimb lesions.

  • This level of amputation assures complete removal of local disease and results in an optimal cosmetic and functional outcome.

  • For proximal femoral lesions, complete amputation with en bloc acetabulectomy is recommended to obtain proximal soft tissue margins.

  • Surgery alone must be considered palliative, as it does not address risk for metastatic disease.

Limb Salvage

  • Although most dogs function well following amputation, limb sparing is preferable in dogs with severe preexisting orthopedic or neurologic disease.

  • Until recently, only a few reports of limb salvage in dogs have appeared in the literature.

  • Limb function has generally been good, and survival has not been adversely affected.

  • However, limb salvage has a much higher complication rate than does amputation.

  • Chemotherapy is required to prolong survival.

  • Suitable candidates for limb salvage include dogs with appendicular OSA or those otherwise in good general health.

  • Other criteria include absence of pathologic fracture, <360° involvement of soft tissue, and presence of a firm/definable soft tissue mass versus edematous lesion.

  • The most suitable cases for limb salvage are dogs with tumors in the distal radius or ulna.

  • Current limb salvage procedures require arthrodesis.

  • Arthrodesis of the scapulohumeral, coxofemoral, stifle, or tarsal joints following limb sparing generally results in only fair-to-poor function.

  • This has generally prevented surgeons from recommending limb salvage near these joints.

  • Limb salvage surgery and aftercare are complicated and expensive.

  • A coordinated team effort among surgical and medical oncologists, radiologists, pathologists, and technical staff is required.

  • Described methods of limb salvage include massive allografts, autografts, metal endoprostheses, distraction osteogenesis, and vascularized bone transfer.

  • Each method has unique advantages and limitations.

  • Choice of limb-sparing method depends on several factors (eg, owner choice, patient disposition, individual risks).

Medical

Palliative Treatment

  • Oral analgesics (eg, NSAIDs, narcotics, amantadine [NMDA receptor antagonist], gabapentin [GABA analogue]) can be prescribed to control pain.

  • Response to analgesics can decrease as local disease progresses.

  • Palliative radiation therapy can help control pain.

  • Effective at relieving pain and lameness for approximately 3–4 months and typically has no adverse effects

  • Typically administered during 2–4 outpatient sessions with the patient anesthetized or heavily sedated to prevent movement during radiation

  • Palliative radiation therapy does not lower risk for pathologic fracture or extend survival, unless combined with chemotherapy.1

  • Amputation may be a palliative treatment in patients with pathologic fracture or marked pain, or when palliative radiation therapy is not available.

  • Amputation can remove the source of pain, but without chemotherapy metastatic disease can occur within 1–3 months following amputation.2

  • Typical expected survival time with palliative analgesic therapy alone is 3 months; median survival time for palliative radiation or amputation (both without chemotherapy) is 5 months.2,3

Curative-Intent Treatment

  • OSA is rarely cured with chemotherapy alone, but surgery or radiation combined with chemotherapy can markedly prolong survival.

  • The keystone of curative-intent treatment is adjuvant chemotherapy.

  • Chemotherapy can prolong survival time when used in combination with amputation, limb salvage, or certain forms of radiation therapy.

  • Chemotherapy is most effective at delaying the onset of metastatic disease.

  • When used without surgery or radiation, it cannot adequately eliminate the pain and progressive growth of the primary tumor.

  • The most common chemotherapy agents used are carboplatin and doxorubicin, either as single-agent or combination therapy.

  • Dogs can typically tolerate chemotherapy better than humans.

  • Adverse effects in dogs are typically minimal.

  • Severe adverse effects requiring hospitalization occur in very few patients.

  • When chemotherapy is used in combination with surgery or certain forms of radiation therapy, average survival time is >1 year.

  • This represents a 4- to 6-fold increase in survival time as compared with palliative treatment.1

  • Chemotherapy is typically given q3wk for 4–6 treatments.

  • Some patients that receive curative-intent therapy may live up to 2 years; fewer may live ≥5 years.

Stereotactic Radiotherapy

  • Stereotactic radiotherapy (SRT) is a recent development in the treatment of OSA.

  • Sometimes referred to as stereotactic radiosurgery, SRT uses specialized radiation treatment units with on-board CT imaging and specialized targeting ability to deliver very high doses of radiation to the tumor while protecting nearby normal structures from harmful doses.

  • This treatment has shown promise  in the development of a “nonsurgical limb” salvage technique using radiation to kill the tumor followed by chemotherapy.

  • Complications include fracture and infection of the involved limb.

  • Chemotherapy is still required to achieve the prolonged survival.

Nutritional Aspects

  • Many claims have been made about the benefits of specific diets or supplements, but little substantiating objective evidence exists.

  • Most oncologists currently recommend choosing a well-balanced, high-quality diet.

Activity

  • Recommendations for activity after therapy depend on the treatment protocol.

  • With amputation, activity does not need to be restricted once tissues have healed.

  • Other treatments (eg, palliative, limb salvage) may require prolonged activity restrictions for the best outcomes.

Client Education

  • It is important to give the client all possible options to make an informed choice (see Alternative Therapy).

  • This includes honest discussion of  benefits and disadvantages of curative-intent treatment vs palliative-intent treatment, costs, expected survival times, and possible complications.

  • Referral to an oncologist should be offered.

Follow-up

Patient Monitoring

  • Dogs require very close follow-up throughout treatment and for 1 year thereafter.

  • Typical follow-up after treatment includes monthly rechecks for 3 months, q3mo for 1 year, and q6mo thereafter.

  • Complete history and physical examination, thoracic radiography (3 views), CBC, and serum chemistry panel should be performed at each visit.

  • Particular attention should be  directed to examining the limb (or amputation site) and addressing general lameness issues to detect regrowth of tumor or spread to other bony sites.

  • Thoracic radiographs should be examined for evidence of metastatic disease.

In General

Relative Costs

  • Curative-intent therapy: $$$$$

  • Palliative therapy: $$–$$$$$

Cost Key

 

$

up to $100

$$

$101-$250

$$$

$251-$500

$$$$

$501-$1000

$$$$$

More than $1000

Prognosis

  • With curative-intent treatment, median survival time is 1 year (50% of dogs alive at 12 months) and 10%–30% of dogs alive at 2 years.

  • Patients are usually euthanized because of metastatic disease.

  • With palliative treatment, the median survival time is 3–5 months.

  • Patients are usually euthanized for pain related to the primary tumor or pathologic fracture (with analgesia and radiation therapy) or metastatic disease (for palliative amputation).

Future Considerations

  • Oncology is a constantly evolving field.

  • It is important to consult with a medical oncologist and surgical oncologist before initiating treatment to ensure owners are presented with all available options.

  • Treatment modalities can change rapidly as new information becomes available.

OSA = osteosarcoma, GABA = gamma-aminobutyric acid, NMDA = N-methyl-d-aspartate, SRT = stereotactic radiotherapy