Tanwar Y et al. SA Orthop J 2020;19(1)
DOI 10.17159/2309-8309/2020/v19n1a7

South African Orthopaedic Journal 
http://journal.saoa.org.za

ORTHOPAEDIC ONCOLOGY AND INFECTIONS

Citation: Tanwar Y, Potgieter M, Oosthuizen M, Schubert P, Ferreira N. Bursal synovial chondromatosis overlying a solitary osteochondroma of the 
distal femur: a case report. SA Orthop J 2020;19(1):46-49. http://dx.doi.org/10.17159/2309-8309/2020/v19n1a7

Editor: Prof. T le Roux, University of Pretoria, Pretoria, South Africa

Received: June 2019  Accepted: September 2019  Published: March 2020

Copyright: © 2020 Tanwar Y, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution Licence, which 
permits unrestricted use, distribution and reproduction in any medium, provided the original author and source are credited.

Funding: There are no funding sources to declare.

Conflict of interest: All authors confirm they have no conflicts of interest to declare.

Abstract

Synovial chondromatosis and osteochondromas are frequently encountered benign cartilaginous lesions. The concomitant occurrence 
of these lesions is rare. We report one such case in an 11-year-old female patient and speculate on the common underlying pathogenetic 
mechanisms which might be involved.

Level of evidence: Level 5

Keywords: synovial chondromatosis, secondary synovial chondromatosis, bursal synovial chondromatosis, osteochondroma

Bursal synovial chondromatosis overlying a solitary 
osteochondroma of the distal femur: a case report
Tanwar Y¹ , Potgieter M² , Oosthuizen M³ , Schubert P4 , Ferreira N5 

1 MBBS, MS, DNB, MRCS; Stellenbosch University Limb Reconstruction Fellow, Division of Orthopaedic Surgery, Department of Surgical Sciences, 
Faculty of Medicine and Health Sciences, Stellenbosch University, Cape Town, South Africa

2 MBChB, FC Orth(SA), MMed(Orth); Consultant Orthopaedic Surgeon, Division of Orthopaedic Surgery, Department of Surgical Sciences, Faculty of 
Medicine and Health Sciences, Stellenbosch University, Cape Town, South Africa

³ MBChB; Registrar, Division of Anatomical Pathology, Tygerberg Hospital, National Health Laboratory Service, Faculty of Medicine and Health 
Sciences, Stellenbosch University, Cape Town, South Africa

4 MBChB, FCPath(Anat)(SA), MMed(Anat Path), MScMedSc(Cytopathology), MPhil(Paed Path), MIAC; Associate Professor and Consultant Anatomical  
Pathologist, Division of Anatomical Pathology, Tygerberg Hospital, National Health Laboratory Service, Faculty of Medicine and Health Sciences, 
Stellenbosch University, Cape Town, South Africa

5 BSc, MBChB, FC Orth(SA), MMed(Orth), PhD; Associate Professor, Consultant Orthopaedic Surgeon and Head of Tumour, Sepsis and 
Reconstruction Unit, Division of Orthopaedic Surgery, Department of Surgical Sciences, Faculty of Medicine and Health Sciences, Stellenbosch 
University, Cape Town, South Africa

Corresponding author: Prof. Nando Ferreira, Division of Orthopaedic Surgery, Department of Surgical Sciences, Faculty of Medicine and Health 
Sciences, Tygerberg Hospital, Stellenbosch University, Cape Town, 7505, South Africa; tel: +27 (21) 938 5456; email: nferreira@sun.ac.za

https://orcid.org/0000-0003-4606-7801
https://orcid.org/0000-0002-9611-4859
https://orcid.org/0000-0001-6820-9482
https://orcid.org/0000-0003-4422-7349
https://orcid.org/0000-0002-0567-3373


Page 47Tanwar Y et al. SA Orthop J 2020;19(1)

Introduction

Osteochondroma, a benign cartilaginous neoplasm, consisting 
of a cartilage-capped bony projection on the surface of bone, 
is one the most common benign bone tumours encountered by 
orthopaedic surgeons.1-3 Unlike chondroblastomas, they are not 
locally aggressive and do not invade the adjacent soft tissues. 
Since osteochondromas stop growing after physeal fusion, surgical 
treatment for asymptomatic lesions is rarely warranted.2 However, 
they may cause symptoms secondary to mechanical irritation or 
compression of adjacent soft tissue structures like tendons, nerves 
or vessels, in which case excision might be required. Progressive 
enlargement of an osteochondroma after skeletal maturity or 
a rapid increase in size at any age, might indicate malignant 
transformation of the overlying cartilaginous cap and will require 
surgical resection.4

Synovial chondromatosis represents a benign neoplasm 
presenting as multiple hyaline cartilage nodules in the 
subsynovial tissue of a joint, tendon sheath or bursa.5 Initially, 
investigators speculated whether osteochondromas and synovial 
osteochondromatosis represented a true neoplastic condition 
or merely metaplastic or hamartomatous lesions.1,5 Cytogenetic 
studies, however, have confirmed the true neoplastic nature of 
both these two conditions (especially multiple osteochondromas) 
with constant underlying genetic abnormalities.6,7 There have been 
few case reports of concomitant existence of osteochondromas 
and synovial chondromatosis.8-14 We report one such case in 
an 11-year-old female patient and speculate on the common 
underlying pathogenetic mechanisms which might be involved.

Case report

An 11-year-old female patient presented with the history of a 
firm, painless mass involving the medial aspect of the right distal 
thigh that had gradually been enlarging over the preceding year. 
Systemic examination did not reveal any other lesions, showed no 
distal neurovascular deficit and a normal gait. Local examination 
confirmed a 10×15 cm mass on the medial aspect of right distal 
femur that consisted of a bony component that was adherent to 
the underlying femur and an overlying soft tissue component. The 
soft tissue component was cystic and fluctuant with multiple loose 
bodies palpable within it. Knee range of motion was normal and 
painless. Laboratory investigations were unremarkable.

Plain radiographs revealed a pedunculated osteochondroma 
over the medial aspect of right distal femur and multiple well- 
circumscribed soft tissue calcifications over the adjacent soft 
tissue (Figure 1). A magnetic resonance imaging (MRI) scan 
showed a pedunculated osteochondroma with a cartilage cap 
measuring 8 mm in maximum thickness. A large surrounding 
bursa displacing and attenuating the vastus medialis muscle and 
containing multiple loose bodies of variable sizes was also noted. 
A solitary pedunculated osteochondroma with bursal formation 
and secondary synovial chondromatosis was diagnosed (Figures 2  
and 3).

Surgical excision of the lesion was performed through a 
subvastus approach. The osteochondroma and overlying bursa 
were resected en masse (Figures 4–6).

Histopathological evaluation showed nodules of variable 
sizes, with smaller nodules being embedded in hyperplastic 
subsynovial tissue with granulation tissue and fibrosis  
(Figure 7). The larger nodules were circumscribed, loose lying, 
rounded masses of hyaline cartilage with clusters of chondrocytes 
that demonstrated mild nuclear atypia with nuclear enlargement 
and occasional binucleation (Figure 8). Pleomorphism, necrosis and 
mitotic figures were absent. Sections of the femur mass revealed 

Figure 1. Antero-
posterior radiograph 
showing a pedunculated 
osteochondroma over the 
medial aspect of the right 
distal femur and multiple, 
well-circumscribed soft 
tissue calcifications over the 
adjacent soft tissue

Figures 2 and 3. MRI scan coronal and axial views showing an 
osteochondroma and a large surrounding bursa containing multiple loose 
bodies

Figure 4. Intra-operative clinical image showing a pedunculated 
osteochondroma arising from the medial aspect of the distal femur



Page 48 Tanwar Y et al. SA Orthop J 2020;19(1)

a benign cartilage tumour comprising a cartilage cap composed 
of mature hyaline cartilage with overlying fibrous perichondrium. 
Transition between bone and cartilage cap resembled the growth 
plate, demonstrating endochondral ossification into mature bone. 
No features of malignancy were seen. Histological features 
combined with a review of the radiological images supported the 
diagnosis of an osteochondroma with associated bursal synovial 
chondromatosis.

Discussion

The concomitant existence of two primary neoplastic conditions is 
a rare occurrence. There are only seven case reports of concurrent 
synovial chondromatosis and an underlying osteochondroma.8-14 
Bursa formation over the osteochondroma is secondary to 
mechanical irritation of the osteochondroma and the overlying 
tendons. Whether the bursal chondromatosis represents a 
secondary pathology due to the underlying osteochondroma 
or a true primary benign neoplastic process, is still unclear. 
Secondary synovial chondromatosis on the other hand results from 
mechanical trauma to the hyaline cartilage of a joint, which leads 
to disassociation of the cartilage cells and secondary seeding over 
the synovium.

Secondary, intra-articular synovial chondromatosis (loose 
bodies) is a common condition and is seen in osteochondritis 
dissecans, neuropathic osteoarthropathy, osteoarthritis, or 
previous insult of a joint by infection or inflammatory arthritis. 
Secondary bursal or extra-articular chondromatosis is much less 
common and is rarely reported. All reported cases have been 
associated with an underlying osteochondroma. If these lesions 
were to be truly classified as ‘secondary’, some mechanical insult 
to the cartilage cap, leading to disassociation of the cartilage 
cells and secondary seeding into the bursa would be expected. 
Dislodgement of lobulated osteochondroma nodules from constant 
friction is potentially possible, but that does not appear to be the 
case in this instance. 

Histologically, secondary synovial chondromatosis is similar 
in appearance to the primary but the former is thought not to be 
clonal and has an identifiable articular primary cause. The histology 
shows hyperplastic synovium, in which cartilaginous foci form, with 
the chondrocytes showing mild atypia, binucleation, clustered 
or diffuse growth in a hyaline cartilage background with areas 
of calcification. Pleomorphism, necrosis and mitotic figures are 
absent. 

Patients with osteochondromas and synovial chondromatosis 
have been shown to have underlying genetic abnormalities. 
Mutations in genes Extostin 1 (EXT-1) and Extostin 2 (EXT-2) are 
common in patients with osteochondromas. Both sporadic and 
multiple (hereditary) osteochondromas have been associated with 
loss of heterozygosity (or somatic loss of function of the wild type 
allele) of one or more of the EXT loci.7 The proteins encoded by  
EXT-1 and EXT-2 genes help in the formation of heparin sulphate, 
which in turn binds to Hedgehog protein ligands in the matrix of 
hyaline cartilage. The Indian Hedgehog signalling pathway inhibits 
the terminal differentiation of growth plate chondrocytes. Decreased 
heparin sulphate secondary to mutations in EXT genes leads to 
abnormal diffusion of Hedgehog ligands, which in turn leads to 
misdirected growth plate chondrocytes resulting in the formation 
of osteochondromas.15 Dysregulation of the Indian Hedgehog 
signalling pathway has also been implicated as a causative factor 
in synovial chondromatosis.6 Thus, the underlying mechanism 
remains common to both the distinct pathologies with the end 
result being diffusion of chondrocytes into the extra-cellular matrix 
resulting in either formation of synovial chondromatosis or an 
osteochondroma. Therefore, concomitant synovial chondromatosis 

Figure 5. Resected and opened bursa that was overlying the 
osteochondroma

Figure 6. Multiple synovial chondromas found within the bursa

Figure 7. Low magnification view of hypercellular hyaline cartilage nodule 
embedded in hyperplastic subsynovial tissue with granulation tissue and 
fibrosis

Figure 8. High magnification view of hyaline cartilage with clusters of 
chondrocytes that demonstrate mild nuclear atypia



Page 49Tanwar Y et al. SA Orthop J 2020;19(1)

and osteochondromas might present more than just what meets the 
eye, and that is a common underlying pathogenetic mechanism.

Lin et al. described a case of bursal osteochondromatosis 
which developed several years after osteochondroma excision.16 
They postulated that it could be due to proliferation of cartilage 
debris shed from the cartilaginous cap during surgery or biopsy. 
However, it seems very unlikely to be the case as there was a latent 
period of several years between the osteochondroma excision 
and development of bursal chondromatosis. What does seem to 
be a more plausible explanation is the possible presence of an 
underlying genetic abnormality, leading to an increased propensity 
to develop chondral tumours such as synovial chondromatosis and 
osteochondromas.

The simultaneous occurrence of chondromatosis with 
osteochondroma also poses a diagnostic dilemma, due to the 
confusing radiographic imaging that may be mimicking sarcomatous 
change in an osteochondroma.8 Both synovial chondromatosis and 
chondrosarcoma may show extension into nearby soft tissues and 
cortical erosion of the bone. An MRI is usually recommended to 
ascertain the diagnosis, with a clear margin between the underlying 
cartilage cap and the overlying calcified mass. A permeative pattern 
and infiltration of the marrow is a strong indicator of malignant 
transformation. 

With regard to the present case, we have presented the 
concomitant existence of osteochondroma with synovial 
chondromatosis and speculate on a common underlying genetic 
abnormality for this co-occurrence. Careful radiographic and 
histological analysis is necessary to exclude sarcomatous change 
which the latter might mimic.

Ethics statement
The authors declare that this submission is in accordance with the principles 
laid down by the Responsible Research Publication Position Statements as 
developed at the 2nd World Conference on Research Integrity in Singapore, 2010. 
All procedures were in accordance with the ethical standards of the responsible 
committee on human experimentation (institutional and national) and with the Helsinki 
Declaration of 1975, as revised in 2008. 
Ethical approval for this study was obtained from the Stellenbosch University Health 
Research Ethics Committee (C19/02/006).

Declaration
The authors declare authorship of this article and that they have followed sound 
scientific research practice. This research is original and does not transgress 
plagiarism policies.

Author contributions
YT: Primary author, drafting of the work, final approval of the version submitted to the 
journal.
MP: Conception and design of the work, revising it critically for important intellectual 
content; final approval of the version submitted to the journal.
MO: Review of histopathological specimens, critical revision of work for important 
intellectual content; final approval of the version submitted to the journal.
PS: Review of histopathological specimens, critical revision of work for important 
intellectual content; final approval of the version submitted to the journal.
NF: Primary surgeon and corresponding author; conception and design of the work, 
drafting of the work, revising it critically for important intellectual content; final approval 
of the version submitted to the journal.

ORCID
Tanwar Y  http://orcid.org/0000-0003-4606-7801
Potgieter M  http://orcid.org/0000-0002-9611-4859
Oosthuizen M  http://orcid.org/0000-0001-6820-9482
Schubert P  http://orcid.org/0000-0003-4422-7349
Ferreira N  http://orcid.org/0000-0002-0567-3373

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http://orcid.org/0000-0003-4606-7801
http://orcid.org/0000-0002-9611-4859
http://orcid.org/0000-0001-6820-9482
http://orcid.org/0000-0003-4422-7349
http://orcid.org/0000-0002-0567-3373

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