Enchondroma

Summary
Description

Enchondroma is a solitary, benign, intramedullary cartilage tumor that is often found in the short tubular bones of the hands and feet, distal femur, and proximal humerus.

People and Age
The peak incidence is in the third decade and is equal between men and women.
Symptoms and Presentation
Typically the tumor itself causes no symptoms.
Brief description of the xray
Enchondromas are usually long and oval and have well-defined margins. In larger lesions, the lucent defect has endosteal scalloping and the cortex is expanded and thinned. Calcifications throughout the lesion can range from punctate to rings.
Brief desc of tx
Many lesions require no treatment, only confirmation of the diagnosis. Lesions that are causing symptoms are weakening the bone are treated with curettage.
Tumor Name
Tumor Type
Benign or Malignant
Location in bone
Periosteal reaction
Position within the bone
Tumor behavior
Tumor density
Complete Information on this Tumor
Introduction and Definition

Enchondroma is a solitary, benign, intramedullary cartilage tumor that is often found in the short tubular bones of the hands and feet, distal femur, and proximal humerus. The peak incidence is in the third decade and is equal between men and women.

Multiple enchondromatosis is a non-heritable condition also known as Ollier's disease. Multiple enchondromas and hemangiomas of soft tissue hemangiomas constitute a condition known as Maffucci's Syndrome.

Incidence and Demographics
The peak incidence is in the third decade and is equal between men and women. It is the most common primary tumor in the hand and is normally found in the diaphysis. The mature hyaline cartilage located centrally within short tubular bones usually presents clinically as a fracture due to an enlarging lesion. Enchondromas are also found incidentally in long bones and undergo malignant transformation in less than 1% of cases.
Symptoms and Presentation

Most patients have no symptoms. The most common presentation is a patient who has injured their knee or shoulder and who has an x-ray, leading to the discovery of the previously asymptomatic lesion. Lesions in the hands and the feet can weaken the bone and cause pain swelling and small pathological fractures during activities.

X-Ray Appearance and Advanced Imaging Findings
Enchondromas are usually long and oval and have well-defined margins. In larger lesions, the lucent defect has endosteal scalloping and the cortex is expanded and thinned. Calcifications throughout the lesion can range from punctate to rings. CT is useful for detecting matrix mineralization and cortex integrity. MRI is helpful for describing the non-mineralized portion of the lesion and visualizing any aggressive or destructive features.

Radiographic and imaging features of enchondroma that are considered worrisome due to the potential for malignancy include large size, a large unmineralized component, significant thinning of the adjacent cortex, and bone scan activity greater than that of the anterior superior iliac spine. Features of enchondroma that are very strongly associated with malignant transformation are progressive destruction of the chondroid matrix by an expanding, non-mineralized component, an enlarging lesion associated with pain, or an expansile soft tissue mass.
MRI Findings
The MRI has distinctive characteristics. There is typically a lobular pattern. The lesions sometimes will have a sclerotic margin seen best on MRI. Deletion is made up of cartilage which contains large amounts of water. Therefore, it will have signal intensity similar to that of water, dark on T1 and bright on T2.
CT Findings
On CT scan, the calcifications can usually be seen to have a ringlike or arc-like pattern. Calcification is variable. Lesions in younger patients typically are much less calcified and calcification increases with age. The calcification varies within the lesion, but the variation is modest. The appearance of a heavily calcified area adjacent to a minimally calcified area, especially if the on calcified area is acting aggressively is a signal of a de-differentiated sarcoma.
Laboratory Findings
no laboratory examination is helpful.
Differential Diagnosis
Other cartilaginous lesions, such as low-grade chondrosarcoma, chondromyxoid fibroma, and chondroblastoma, and lesions with scattered densification such as fibrous dysplasia should be considered. In adults, these lesions are almost always discovered as an incidental finding, are latent, nonprogressive, and do not cause any pain. If there is definite growth of the lesion, definite pain from the lesion, or the lesion is acting in an aggressive manner, such as is drawing the cortex or breaking out into the soft tissues, a different diagnosis should be considered.
Preferred Biopsy Technique for this Tumor
Minimally invasive techniques are sufficient in lesions that are documented to be latent by radiologic examination.
Histopathology findings
On gross examination, an enchondroma consists of bluish-gray lobules of fine translucent tissue. The degree of calcification of the lesion determines if the consistency is gritty.Under the microscope, a thin layer of lamellar bone surrounding the cartilage nodules is a positive sign that the lesion is benign. At low power, there are lobules of different sizes. Blood vessels are surrounded by osteoid. Enchondromas have chondrocytes without atypia inside hyaline cartilage. The nuclei are small, round and pyknotic. The cellularity varies between lesions and within the same lesion.

Each potential enchondroma needs to be evaluated for cellularity, nuclear atypia, double nucleated chondrocytes and mitotic activity in a viable area without calcifications to distinguish it from low-grade chondrosarcoma. Small peripheral lesions are more likely to be benign than large axial lesions. The pathologic diagnosis is so difficult it always needs to be made in conjunction with the radiologist and the surgeon
Treatment Options for this Tumor
A solitary painless enchondroma may be observed. Painful or worrisome lesions should be treated with biopsy followed by intralesional resection. Large defects can be filled with bone graft. All specimens must be analyzed carefully for malignancy.
Preferred Margin for this Tumor
intra-lesional
Outcomes of Treatment and Prognosis
Removal of enchondroma is curative, The lesions do not grow, therefore currents is not expected. Recurrence of the lesions considered to be an enchondroma may be a sign that the lesion is actually a low-grade chondrosarcoma. Careful consideration is required before surgery is undertaken. The surgical interventions that are required to completely remove benign enchondroma lesions can have significant complications and morbidity. Since enchondroma is a benign, latent, nonprogressive lesion, which does not present any type of risk to the patient, surgical intervention merely to remove the lesion is not warranted. Indications for surgical intervention include biopsy, and treatment of lesions that present a risk of pathological fracture or where pathological fracture has occurred.
Special and Unusual Features
Multiple enchondromatosis is a non-heritable condition also known as Ollier's disease. Multiple enchondromas and hemangiomas of soft tissue are otherwise known as Maffucci's Syndrome. In both conditions, males are affected more than women and the disease process often only affects one side of the body. In both diseases, there is a 30% risk of malignant transformation of the enchondromas. Enchondromas are difficult to differentiate from low grade chondrosarcoma by radiology. Lesions located near the shoulder or the pelvis may have a higher risk of sarcomatous degeneration (Krikun). Chondrosarcoma is much more common in older patients, so large enchondromas in older individuals demand a careful work-up.
Suggested Reading and Reference
References
Gitelis, S. et al, Benign Bone Tumors, Instructional Course Lectures, 45:p. 426-46, 1991.

Giudici, A. et al, Cartilaginous Bone Tumors, Radiologic Clinics of North Amenca, 31(2):p. 237-259, March 1993.

Bullough, Peter. Orthopaedic Pathology (third edition), Times Mirror International Publishers Limited, London, 1997.

Huvos, Andrew, Bone Tumors: Diagnosis, Treatment and Prognosis, W.B. Saunders, Co., 1991.

Krikun M. Imaging of Bone Tumors Philadelphia, W.B Saunders, 1993