Summary Osteochondromas are benign chondrogenic lesions derived from aberrant cartilage from the perichondral ring that may take the form of solitary osteochondroma, or Multiple Hereditary Exostosis. Patients typically present between the ages of 10 and 30 with a painless mass. Diagnosis is made with radiographs showing sessile or pedunculated lesions found on the surface of bones. Treatment is observation for asymptomatic or minimally symptomatic cases. Surgical resection is indicated in cases of progressive and severe pain. Epidemiology Incidence the most common benign bone tumor (20-50%) occurs in about 1 in 50,000 (likely an underestimate since many are asymptomatic) Demographics common in adolescents and young adults (tested ages: 9, 10, 12, 20, 24) Anatomic location occur on the surface of the bone and often at sites of tendon insertion common locations include knee (proximal tibia, distal femur) proximal femur proximal humerus subungual exostosis (occurs most often at hallux) uncommon locations spine typically involving the posterior elements of the cervical spine Etiology Pathophysiology solitary osteochondromas can arise because of Salter-Harris fracture surgery radiation therapy (commonest benign radiation-induced bone tumor) pathoanatomy hamartomatous proliferation of bone and cartilage possibly arise from growth plate cartilage that grows through the cortex by endochondral ossification under the periosteum perichondral node of Ranvier defect may allow growth from the physis to extend from the surface the stalk of the lesion is cortical and cancellous bone formed from ossified cartilage Genetics inheritance autosomal dominant mutation mutation in EXT gene affects prehypertrophic chondrocytes of growth plate loss of regulation of Indian hedgehog protein is currently being investigated in the pathogenesis of this disease Associated conditions secondary chondrosarcoma results from malignant transformation of a solitary osteochondroma or MHE most commonly a low-grade tumor (90%) epidemiology occurs in older patients (tested ages: 50) rare in the pediatric population (< 1%) most common location of secondary chondrosarcoma is the pelvis Multiple Hereditary Exostosis (MHE) Overview disorder characterized by multiple osteochondromas 15% of osteochondroma patients Pathophysiology mutations affect the prehypertrophic chondrocytes of the physis Genetics inheritance autosomal dominant the penetrance is estimated to be 96% in females and 100% in males mutation caused by mutations in EXT1, EXT2, and EXT3 genes (tumor suppressor genes) decreases production of heparin sulfate by chondrocytes found at the physis individuals with the EXT1 mutation have a more severe presentation compared to patients with the EXT2 mutation including higher rate of chondrosarcoma more exostoses more limb malalignment with less forearm and knee range of motion more pelvic and flat bone involvement Prognosis 5%-10% malignant transformation to chondrosarcoma in patients with MHE proximal lesions more likely to undergo malignant transformation than distal lesions Presentation Solitary Osteochondroma history most lesions are asymptomatic usually present with painless mass symptoms may have mechanical symptoms or symptoms of neurovascular compression they continue to grow until skeletal maturity physical exam palpable mass may have mechanical symptoms secondary to mass Multiple hereditary exostosis (MHE) history often will have family history symptoms limb deformities most common sites of deformity include the knee, forearm, and ankle femoral shortening and limb-length discrepancy coxa valga knee valgus (because of shortened fibula) and patellar dislocation ankle valgus (because of shortened fibula) upper extremity deformities are well tolerated and lead to little loss of function ulnar shortening radial bowing and radial head dislocation may be treated with exostosis excision, ulnar lengthening and radial closing wedge osteotomy joint pain may have symptoms of premature OA physical exam most common deformities include ulnar shortening and radial bowing radial head dislocation ulnar deviation of the hand Secondary chondrosarcoma symptoms acute onset of pain in adults with MHE should raise suspicion for malignancy Imaging Radiograph recommended views AP and lateral views of the affected region findings sessile (broad base) or pedunculated (narrow stalk) lesions found on the surface of bones higher risk of malignant degeneration in sessile lesions pedunculated lesions point away from the joint continuity with native tissue cortex of the lesion continuous with cortex of the native bone medullary cavity of lesion continuous with medullary cavity of native bone (pathognomonic) cartilage cap is usually radiolucent and involutes at skeletal maturity nodules of metaplastic cartilage can occur within the bursa over cartilage caps Ultrasound indications can accurately assess cartilage cap thickness CT indications used to better characterize lesions, especially the cartilage cap MRI indications best imaging modality for assessing cartilage thickness findings cartilage will have low signal on T1 and high signal on T2 weighted images Histology Biopsy indications biopsy is not recommended for diagnosis characteristic histological findings is similar to a normal physis with cartilage cap consists of hyaline cartilage well-defined perichondrium around the cartilage cap normal primary trabeculae linear clusters of active chondrocytes may have thin cartilage cap that covers lesion only 2-3 mm thick in skeletally mature patients up to 1-3 cm in skeletally immature patients thick cartilage caps imply growth but are not a reliable indicator of malignant degeneration in children in adults, if cartilage cap thickens as an adult or is >2cm, there is increased risk of chondrosarcoma Differentials Differential of Osteochondroma Surface lesions May have similar chondrogenic histology Treatment is Observation Osteochondroma / MHE o o o Periosteal chondroma o o Parosteal osteosarcoma o Periosteal osteosarcoma o Olliers / Maffucci o Chondrosarcoma o Paget's Disease o Enchondroma o Fibrous dysplasia o NOF o Eosinophillic granuloma o Treatment Solitary Osteochondromas nonoperative observation alone indications asymptomatic or minimally symptomatic cases operative marginal resection at base of stalk, including cartilage cap indications symptomatic lesions lesion may cause inflammation to surrounding tissue lesion may be cosmetically displeasing try to delay surgery until skeletal maturity Multiple hereditary exostosis (MHE) nonoperative observation indications most patients do not require intervention prior to reaching skeletal maturity operative surgical excision of the osteochondroma indications dislocated radial heads loss of forearm rotation symptomatic lesions outcomes simple excision of the osteochondroma optimizes chance of improved motion Secondary chondrosarcoma operative wide surgical resection treat same as typical chondrosarcoma typically curative (70-90% of cases) Techniques Marginal resection indications symptomatic solitary osteochondroma technique resection complete resection of mass to decreases the risk for recurrence resect cartilage cap resect tumor at the base of the stalk fixation if there is a large defect after removal, internal fixation or bone grafting may be needed Complications Popliteal artery pseudoaneurysm incidence rare occurs in the popliteal fossa other vascular complications include vascular compression true aneurysm arterial thrombosis venous thrombosis Nerve compression incidence up to 25% of patients involved nerves sciatic nerve common peroneal nerve atrophy of anterior and lateral compartment muscles of the leg radial nerve Tendon compression incidence rare lesions around the shoulder can give rise to rotator cuff impingement subscapularis tear bicipital tendinitis Chondrosarcoma incidence <1% of osteochondromas transform 5-10% malignant transformation in MHE in adults, cartilage cap >2cm is associated with increased chance of malignancy often low grade (67-85%) Bursa formation incidence rare Recurrence incidence 2-5% of cases after resection short-term X-ray surveillance is adequate unless symptomatic later Prognosis Risk of malignant transformation is <1% with solitary osteochondroma ~5-10% with MHE develop secondary chondrosarcoma