This book is distributed under the terms of the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0) ( http://creativecommons.org/licenses/by-nc-nd/4.0/ ), which permits others to distribute the work, provided that the article is not altered or used commercially. You are not required to obtain permission to distribute this article, provided that you credit the author and journal.
NCBI Bookshelf. A service of the National Library of Medicine, National Institutes of Health.
StatPearls [Internet]. Treasure Island (FL): StatPearls Publishing; 2024 Jan-.
StatPearls [Internet].
Show detailsContinuing Education Activity
Chondroblastoma is a benign, chondroid-producing neoplasm composed of chondroblasts. It accounts for less than 1% of all bone tumors and usually arises in the epiphyses or apophysis of skeletally immature patients. The treatment of choice of chondroblastoma is surgical. In general, chondroblastoma has a good prognosis, and patients often experience full resolution after surgical treatment. This activity reviews the pathophysiology and presentation of chondroblastoma and highlights the role of the interprofessional team in its management.
Objectives:
- Review the presentation of chondroblastoma.
- Describe the evaluation of a patient suspected of having chondroblastoma.
- Summarize the treatment options for chondroblastoma.
- Review the importance of improving care coordination among interprofessional team members to improve outcomes for patients affected by chondroblastoma.
Introduction
Chondroblastoma is a benign, chondroid-producing neoplasm composed of chondroblasts. It accounts for less than 1% of all bone tumors and usually arises in the epiphyses or apophysis of skeletally immature patients.[1] Jaffe et al. proposed the term "chondroblastoma," noting the immature chondroid cells and poorly formed matrix.[2] These neoplasms usually occur in the long bones and are important, considering both benign and malignant etiologies in the differential diagnosis. The proximal humerus is the most common site of involvement, followed by the distal femur and proximal femur.[3] Chondroblastomas require surgical treatment. In general, chondroblastoma has a good prognosis, and patients often experience full resolution after surgical treatment.
Etiology
The exact etiology to include the genetics and environmental factors that predispose patients to the formation of these neoplasms is not well understood. Although researchers have not yet observed a single chromosomal breaking point, they have described various abnormalities at 2q35, 3q21-23, 8q21, 18q21, p53, chromosome 5, 8, 11, 17 in the literature. [4][5][6][7]
Epidemiology
Chondroblastoma is a rare benign neoplasm, accounting for less than 1% of all primary bone tumors. Most chondroblastomas are diagnosed in the second to third decade of life (mean age, 19 to 23 years) with a male predominance (2 to 1).[1] More than 75% of cases involve the long bones; the most common anatomical sites are the epiphyseal regions of the proximal and distal femur, proximal tibia, and proximal humerus.[8][9] Rarely clinicians will encounter them in flat bones as or the bones of the hands and feet.[10] Chondroblastomas almost invariably involve a single bone.
Pathophysiology
Histogenesis:
The histogenesis of chondroblastomas remains controversial. Possible proposed cells of origin include cartilage germ cells or epiphyseal cartilage cells.[10] A possible multipotent mesenchymal cell or tendon sheath synovial cell origin is another proposed etiological site. [11]
Genetics:
Flow cytometric studies reveal that most chondroblastomas are diploid with low proliferation fractions.[12][13] There are reports of clonal abnormalities in 14 chondroblastomas.[14] Heterogeneous rearrangements of chromosomes 5 and 8, both balanced and unbalanced, appear to be the most common. IDH1 and IDH2 mutations are absent.[5] Recently, research has shown that chondroblastomas have distinctive driver mutations in the genes that encode histone H3.3. Chondroblastomas harbor mutations in the H3F3B gene far more commonly than the H3F3A gene.[15] Research has found an antibody directed against the H3F3 K36M mutation to be specific for chondroblastoma.[16]
Histopathology
Macroscopic findings:
Grossly, chondroblastomas appear as multiple pinkish-tan soft tissue fragments that may exhibit areas of calcification, hemorrhage, or cystic changes.
Histopathological findings:
Histologically, a chondroblastoma characteristically presents with a sheet-like proliferation of small to intermediate-sized round polygonal cells.[1] These cells have well-defined cytoplasmic borders, clear to slightly basophilic cytoplasm, and round to ovoid nucleus (chondroblasts). They often exhibit longitudinal grooves and one or more small or inconspicuous nucleoli. Randomly distributed osteoclast-type giant cells are almost always present. Variably-sized nodules of amorphous to eosinophilic material (chondroid) accompany the chondroblasts. Mature hyaline cartilage is relatively uncommon. A fine network of pericellular ''chicken wire'' calcifications is characteristic. Recurrent chondroblastomas may show cytological atypia, which the clinician should not interpret as a sign of malignant transformation.
Immunohistochemical findings:
Immunohistochemically, the chondroblasts are positive for vimentin, neuron-specific enolase, and S100 protein.[1] Sox9 is a transcriptional factor that shows positivity in chondroblastomas.[17] DOG1 is a useful marker that helps to distinguish chondroblastoma from other giant cell-containing bone tumors.[18] Observable positivity for keratins, namely 8, 18, and 19 and p63, is frequently in evidence.[19]
History and Physical
Clinical complaints are often nonspecific.[3] Symptoms are typically present for many months before the patient seeks medical attention. They include[9]:
- Insidious onset of bone pain: the most common
- Other nonspecific complaints: local swelling, joint stiffness and/or effusion, and the development of a limp
- In tumors arising from the skull bones: seizures and progressive hearing loss can also occur
Physical examination of patients with chondroblastoma can disclose the following findings[1]:
- Local tenderness
- Joint effusion
- Decreased range of motion in the affected joint
- Muscular atrophy
- Rarely: a palpable mass
Evaluation
Several imaging modalities are available for establishing the diagnosis of chondroblastoma. They include:
- Plain radiographs
- Computed tomography (CT)
- Magnetic resonance imaging (MRI)
A well-demarcated eccentric and lytic lesion with a thin rim of sclerotic bone is the typical radiologic presentation of chondroblastomas. Chondroblastomas are relatively small (3 to 6 cm) and occupy less than half of the epiphysis. There is generally no expansion of the bone.
Plain radiographs:
Plain radiographs show a fuzzy, round-to-oval, well-delineated lesion with a sclerotic rim.[20]
Computed tomography:
Computed tomography can demonstrate calcifications that are not detectable on plain radiographs. It can depict cortical erosion, matrix mineralization, and soft tissue extension.[21]
Magnetic resonance imaging:
In chondroblastomas, MRI demonstrates extensive edema surrounding the lesion. The signal intensity on T1- and T2-weighted MRI images depends on the levels of various components within the lesion. Most cases show variable intensity on T2-weighted images.[22]
Treatment / Management
The treatment of choice of chondroblastoma is surgical. It consists of complete surgical curettage with or without bone grafting, en bloc resection, or rarely, amputation. Surgical resection alleviates pain, avoids propagation into the joint and adjacent soft tissues, diminishes the likelihood of recurrence, and accurately establishes the diagnosis of chondroblastomas. Surgical management depends on[23][24]:
- The extent of bone and/or joint involvement
- Anatomic location of the lesion
- Staging
Stage 1 (latent) or stage 2 (active) may be an indication for intralesional excision.
Stage 3 (aggressive) is an indication of marginal or wide resection.[24]
Adjunctive therapy includes chemical cauterization with phenol or cryosurgery. Bone grafting and cryotherapy after surgical curettage decrease the risk of recurrence.[1] Some authors suggest that radiofrequency should be an option as an alternative treatment method in managing chondroblastomas.[10] There is no definite role for adjuvant chemotherapy or radiotherapy. For recurrent tumors, resection remains the treatment of choice.[1]
Differential Diagnosis
The differential diagnosis for chondroblastomas chiefly includes other epiphyseal lesions. These include:
- Giant cell tumor of bone
- Geode or intraosseous ganglion
- Clear cell chondrosarcoma
- Osteomyelitis
Other differentials that are possible include:
- Osteosarcoma
- Osteoblastoma
- Brown tumor
- Osteoid osteoma
- Aneurysmal bone cyst
Toxicity and Adverse Effect Management
The complications of surgical treatment include[10]:
- Damage of the articular cartilage or even an open growth plate
- Recurrence in surgically treated patients
- Hematoma
- Infection
- Fracture
- Limb-length discrepancy
Prognosis
If left untreated, chondroblastoma does not undergo spontaneous regression. Recurrence rates of chondroblastomas range from 8.3% to 21.4% and may be explainable by retained tumor material during surgery.[25][26] The risk of recurrence increases in case of inadequate surgery, location in the hip and pelvis, young age, and aneurysmal bone cyst components.[27] Rarely, pulmonary metastases occur from histologically benign chondroblastomas. However, these metastases are clinically nonprogressive and treatable by surgical resection or simple observation.[28] Malignant transformation of a chondroblastoma is extremely rare. There are no reliable histological parameters capable of predicting more aggressive behavior.
Complications
The most common complication associated with chondroblastoma is local recurrence after surgery. Patients require long term monitoring post-surgery for any recurrence of the tumor.[29][26] Pathological fractures can also occur. Rarely, a malignant transformation may take place, as documented in a few case reports.[30][31]
Consultations
- Orthopedics: treatment for chondroblastoma almost always involves surgery with intralesional curettage and packing.
Deterrence and Patient Education
Chondroblastoma is mostly a benign bone tumor, and patients and their families need education on how to recognize the early signs and symptoms of bone tumors. Patients with signs of bone pain, swelling of bones or joints, any palpable mass found on the bones, fractures not associated with trauma should seek early intervention. Treatment for chondroblastoma is predominantly surgical. Prognosis is usually good once treated. Local recurrence can occur after surgery, and rarely malignant transformation has been reported. Long term follow-up is necessary to monitor these patients closely. The interdisciplinary team includes orthopedics, oncologists, and specialty care nurses. Prompt diagnosis by primary providers with a referral for treatment is paramount. Specialty trained nurses in orthopedics assist in coordinating care, monitoring patients, arrange for follow up, and report problems to the team.
Enhancing Healthcare Team Outcomes
Chondroblastoma is ideally managed by an interprofessional team that consists of orthopedists, radiologists, and pathologists. Correlation between gross, radiographic, and microscopic features of the lesion is crucial to establish the definitive diagnosis of chondroblastoma. Postoperatively, patients require long term follow-up due to the possibility of tumor recurrence.
Review Questions
References
- 1.
- Chen W, DiFrancesco LM. Chondroblastoma: An Update. Arch Pathol Lab Med. 2017 Jun;141(6):867-871. [PubMed: 28557595]
- 2.
- Jaffe HL, Lichtenstein L. Benign Chondroblastoma of Bone: A Reinterpretation of the So-Called Calcifying or Chondromatous Giant Cell Tumor. Am J Pathol. 1942 Nov;18(6):969-91. [PMC free article: PMC2032980] [PubMed: 19970672]
- 3.
- Dahlin DC, Ivins JC. Benign chondroblastoma. A study of 125 cases. Cancer. 1972 Aug;30(2):401-13. [PubMed: 5051664]
- 4.
- De Mattos CB, Angsanuntsukh C, Arkader A, Dormans JP. Chondroblastoma and chondromyxoid fibroma. J Am Acad Orthop Surg. 2013 Apr;21(4):225-33. [PubMed: 23545728]
- 5.
- Sjögren H, Orndal C, Tingby O, Meis-Kindblom JM, Kindblom LG, Stenman G. Cytogenetic and spectral karyotype analyses of benign and malignant cartilage tumours. Int J Oncol. 2004 Jun;24(6):1385-91. [PubMed: 15138578]
- 6.
- Swarts SJ, Neff JR, Johansson SL, Nelson M, Bridge JA. Significance of abnormalities of chromosomes 5 and 8 in chondroblastoma. Clin Orthop Relat Res. 1998 Apr;(349):189-93. [PubMed: 9584382]
- 7.
- Ostrowski ML, Johnson ME, Truong LD, Hicks MJ, Smith FE, Spjut HJ. Malignant chondroblastoma presenting as a recurrent pelvic tumor with DNA aneuploidy and p53 mutation as supportive evidence of malignancy. Skeletal Radiol. 1999 Nov;28(11):644-50. [PubMed: 10591928]
- 8.
- Bloem JL, Mulder JD. Chondroblastoma: a clinical and radiological study of 104 cases. Skeletal Radiol. 1985;14(1):1-9. [PubMed: 4023729]
- 9.
- Turcotte RE, Kurt AM, Sim FH, Unni KK, McLeod RA. Chondroblastoma. Hum Pathol. 1993 Sep;24(9):944-9. [PubMed: 8253461]
- 10.
- Petsas T, Megas P, Papathanassiou Z. Radiofrequency ablation of two femoral head chondroblastomas. Eur J Radiol. 2007 Jul;63(1):63-7. [PubMed: 17482405]
- 11.
- Brien EW, Mirra JM, Ippolito V. Chondroblastoma arising from a nonepiphyseal site. Skeletal Radiol. 1995 Apr;24(3):220-2. [PubMed: 7610417]
- 12.
- el-Naggar AK, Hurr K, Tu ZN, Teague K, Raymond KA, Ayala AG, Murray J. DNA and RNA content analysis by flow cytometry in the pathobiologic assessment of bone tumors. Cytometry. 1995 Mar 01;19(3):256-62. [PubMed: 7736870]
- 13.
- Tarkkanen M, Nordling S, Böhling T, Kivioja A, Karaharju E Szymanska J, Elomaa I, Knuutila S. Comparison of cytogenetics, interphase cytogenetics, and DNA flow cytometry in bone tumors. Cytometry. 1996 Sep 15;26(3):185-91. [PubMed: 8889389]
- 14.
- Mark J, Wedell B, Dahlenfors R, Grepp C, Burian P. Human benign chondroblastoma with a pseudodiploid stemline characterized by a complex and balanced translocation. Cancer Genet Cytogenet. 1992 Jan;58(1):14-7. [PubMed: 1728944]
- 15.
- Behjati S, Tarpey PS, Presneau N, Scheipl S, Pillay N, Van Loo P, Wedge DC, Cooke SL, Gundem G, Davies H, Nik-Zainal S, Martin S, McLaren S, Goodie V, Robinson B, Butler A, Teague JW, Halai D, Khatri B, Myklebost O, Baumhoer D, Jundt G, Hamoudi R, Tirabosco R, Amary MF, Futreal PA, Stratton MR, Campbell PJ, Flanagan AM. Distinct H3F3A and H3F3B driver mutations define chondroblastoma and giant cell tumor of bone. Nat Genet. 2013 Dec;45(12):1479-82. [PMC free article: PMC3839851] [PubMed: 24162739]
- 16.
- Amary MF, Berisha F, Mozela R, Gibbons R, Guttridge A, O'Donnell P, Baumhoer D, Tirabosco R, Flanagan AM. The H3F3 K36M mutant antibody is a sensitive and specific marker for the diagnosis of chondroblastoma. Histopathology. 2016 Jul;69(1):121-7. [PubMed: 26844533]
- 17.
- Konishi E, Nakashima Y, Iwasa Y, Nakao R, Yanagisawa A. Immunohistochemical analysis for Sox9 reveals the cartilaginous character of chondroblastoma and chondromyxoid fibroma of the bone. Hum Pathol. 2010 Feb;41(2):208-13. [PubMed: 19801163]
- 18.
- Akpalo H, Lange C, Zustin J. Discovered on gastrointestinal stromal tumour 1 (DOG1): a useful immunohistochemical marker for diagnosing chondroblastoma. Histopathology. 2012 Jun;60(7):1099-106. [PubMed: 22335248]
- 19.
- Semmelink HJ, Pruszczynski M, Wiersma-van Tilburg A, Smedts F, Ramaekers FC. Cytokeratin expression in chondroblastomas. Histopathology. 1990 Mar;16(3):257-63. [PubMed: 1692005]
- 20.
- Clapper AT, DeYoung BR. Chondroblastoma of the femoral diaphysis: report of a rare phenomenon and review of literature. Hum Pathol. 2007 May;38(5):803-6. [PubMed: 17306329]
- 21.
- Yang J, Tian W, Zhu X, Wang J. Chondroblastoma in the long bone diaphysis: a report of two cases with literature review. Chin J Cancer. 2012 May;31(5):257-64. [PMC free article: PMC3777520] [PubMed: 22464651]
- 22.
- Oxtoby JW, Davies AM. MRI characteristics of chondroblastoma. Clin Radiol. 1996 Jan;51(1):22-6. [PubMed: 8549042]
- 23.
- Özer D, Arıkan Y, Gür V, Gök C, Akman YE. Chondroblastoma: An evaluation of the recurrences and functional outcomes following treatment. Acta Orthop Traumatol Turc. 2018 Nov;52(6):415-418. [PMC free article: PMC6318575] [PubMed: 30249436]
- 24.
- Angelini A, Arguedas F, Varela A, Ruggieri P. Chondroblastoma of the Foot: 40 Cases From a Single Institution. J Foot Ankle Surg. 2018 Nov-Dec;57(6):1105-1109. [PubMed: 30368424]
- 25.
- Lin PP, Thenappan A, Deavers MT, Lewis VO, Yasko AW. Treatment and prognosis of chondroblastoma. Clin Orthop Relat Res. 2005 Sep;438:103-9. [PubMed: 16131877]
- 26.
- Atalar H, Basarir K, Yildiz Y, Erekul S, Saglik Y. Management of chondroblastoma: retrospective review of 28 patients. J Orthop Sci. 2007 Jul;12(4):334-40. [PubMed: 17657552]
- 27.
- Hapa O, Karakaşlı A, Demirkıran ND, Akdeniz O, Havitçioğlu H. Operative treatment of chondroblastoma: a study of 11 cases. Acta Orthop Belg. 2016 Mar;82(1):68-71. [PubMed: 26984656]
- 28.
- Riddell RJ, Louis CJ, Bromberger NA. Pulmonary metastases from chondroblastoma of the tibia. Report of a case. J Bone Joint Surg Br. 1973 Nov;55(4):848-53. [PubMed: 4766191]
- 29.
- Sailhan F, Chotel F, Parot R., SOFOP. Chondroblastoma of bone in a pediatric population. J Bone Joint Surg Am. 2009 Sep;91(9):2159-68. [PubMed: 19723993]
- 30.
- Duttaluri R, Sultanpurkar GP, Raorane H, Vikram H. Malignant chondroblastoma of extraskeletal origin. Int J Appl Basic Med Res. 2016 Apr-Jun;6(2):146-8. [PMC free article: PMC4830158] [PubMed: 27127749]
- 31.
- Kyriakos M, Land VJ, Penning HL, Parker SG. Metastatic chondroblastoma. Report of a fatal case with a review of the literature on atypical, aggressive, and malignant chondroblastoma. Cancer. 1985 Apr 15;55(8):1770-89. [PubMed: 3978565]
Disclosure: Faten Limaiem declares no relevant financial relationships with ineligible companies.
Disclosure: Dawood Tafti declares no relevant financial relationships with ineligible companies.
Disclosure: Prashanth Rawla declares no relevant financial relationships with ineligible companies.
- Continuing Education Activity
- Introduction
- Etiology
- Epidemiology
- Pathophysiology
- Histopathology
- History and Physical
- Evaluation
- Treatment / Management
- Differential Diagnosis
- Toxicity and Adverse Effect Management
- Prognosis
- Complications
- Consultations
- Deterrence and Patient Education
- Enhancing Healthcare Team Outcomes
- Review Questions
- References
- What Happens to the Articular Surface After Curettage for Epiphyseal Chondroblastoma? A Report on Functional Results, Arthritis, and Arthroplasty.[Clin Orthop Relat Res. 2017]What Happens to the Articular Surface After Curettage for Epiphyseal Chondroblastoma? A Report on Functional Results, Arthritis, and Arthroplasty.Farfalli GL, Slullitel PA, Muscolo DL, Ayerza MA, Aponte-Tinao LA. Clin Orthop Relat Res. 2017 Mar; 475(3):760-766.
- Chondroblastoma of the medial cuneiform bone in a 32-year-old woman.[Am J Case Rep. 2014]Chondroblastoma of the medial cuneiform bone in a 32-year-old woman.Arıkan M, Aktas E, Toğral G, Yıldırım A, Kandemir O. Am J Case Rep. 2014 Jul 28; 15:317-21. Epub 2014 Jul 28.
- Cytological diagnosis of chondroblastoma: diagnostic challenge for the cytopathologist.[BMJ Case Rep. 2014]Cytological diagnosis of chondroblastoma: diagnostic challenge for the cytopathologist.Akhtar K, Qadri S, Sen Ray P, Sherwani RK. BMJ Case Rep. 2014 May 29; 2014. Epub 2014 May 29.
- Review Chondroblastoma: Cytomorphologic Analysis of 10 Cases with Review of the Literature.[Acta Cytol. 2023]Review Chondroblastoma: Cytomorphologic Analysis of 10 Cases with Review of the Literature.Saoud C, Wakely PE Jr, Pantanowitz L, Siddiqui MT, Ali SZ. Acta Cytol. 2023; 67(4):413-424. Epub 2023 Jan 4.
- Review [Chondroblastoma].[Pathologe. 2018]Review [Chondroblastoma].Jundt G, Baumhoer D. Pathologe. 2018 Mar; 39(2):132-138.
- Chondroblastoma - StatPearlsChondroblastoma - StatPearls
Your browsing activity is empty.
Activity recording is turned off.
See more...