Orthopaedics Vol3 No4


SA Orthopaedic Journal  Summer 2015 | Vol 14 • No 4 Page 67

Rosai-Dorfman disease of the 
distal radius in a child: 

A case report and review of the literature
Dr MN Rasool MBChB, FCS Orth(SA), PhD(UKZN) 

Consultant Orthopaedic Surgeon

Dr V Genzengane MBChB 
Registrar Orthopaedics

Corresponding author:
Dr MN Rasool

Department of Orthopaedic Surgery
University of KwaZulu-Natal

Nelson R Mandela School of Medicine
Private Bag 7

Congella, Durban, 4001
Tel: 031-2604297

Email: rasool@ukzn.ac.za

Introduction

Rosai–Dorfman disease (RDD) is a non-neoplastic, self-
limiting disease of bone marrow stem cell origin. It 
is characterised by bilateral painless cervical
lymphadenopathy accompanied by fever, leucocytosis,
elevated ESR and hypergammaglobulinaemia.1 The
disease has a predilection for the head and neck including
the nasal, oral cavities and paranasal sinuses.2 Although
extranodal involvement can occur, primary osseous
lesions without lymphadenopathy are rare, <2%. It
typically affects young adults and adolescents and has a
high incidence in people of African descent.2 RDD is 
also known as sinus histiocytosis with massive
lymphadenopathy (SHML).

Clinically and radiologically the condition can mimic
various solitary bone lesions including tumours and
infection.3,4 A primary lesion in the right distal radius in a
15-month-old child is reported.

Case report 

A 15-month-old girl presented with pain and swelling of the
distal forearm of 3 months’ duration. Clinical examination
revealed bony swelling of the distal radius (Figure 1). There
was no fluctuance, slight tenderness on palpation and no
cervical or axillary nodes. Radiologically a well-defined
lucent intramedullary lesion, slightly expansile adjacent to
the physis, 5 cm × 3 cm, was seen with slight periosteal
reaction. The radial margin was sclerosed and ulna margin
eroded (Figure 2). The Hb was 9 g/dl, WCC 13.0 × 109/L,
ESR 20 mm/hr and CRP <5. The differential count and
protein electrophoresis were normal. The Mantoux test was
negative. CT scan showed a lucent lesion with scalloping
and a thin rim. There was no calcification or fluid in the
matrix (Figure 3). 

Abstract

Rosai–Dorfman disease (RDD) is a non-neoplastic self-limiting disease of bone marrow stem cell origin 
characterised by cervical lymphadenopathy. Primary osseous lesions are rare and the condition can mimic
various solitary bone lesions radiologically. A 15-month-old child presented with an isolated, well-defined,
lucent lesion of the distal radius. Histology demonstrated numerous large histiocytes with intracytoplasmic
lymphocytes, plasma cells and neutrophils. Immunohistochemistry showed CD 68 immunopositivity, confirming
RDD. Healing of the lesion was seen 6 months post-operatively following curettage.

Isolated extranodal osseous lesions are very rare in children and can mimic several osseous conditions.

Key words: Rosai–Dorfman disease, distal radius, emperipolesis

http://dx.doi.org/10.17159/2309-8309/2015/v14n410

it typically affects young adults and adolescents and has 
a high incidence in people of African descent

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Page 68 SA Orthopaedic Journal  Summer 2015 | Vol 14 • No 4

Surgical exploration from a dorsal approach revealed a
cavity filled with tissue resembling a caseating granulo-
matous lesion similar to tuberculosis, extending into the
volar aspect of the radius. The cavity was well 
demarcated; the ulna border was deficient.

Histology demonstrated granulomatous tissue with a
mixed inflammatory cell infiltrate composed of plasma
cells, lymphocytes, neutrophils and numerous large 
histiocytes which demonstrated ‘emperipolesis’ (intracy-
toplasmic lymphocytes, plasma cells and neutrophils). The
histiocytes showed S-100 and CD-68 immunopositivity.
No evidence of tuberculosis or malignancy was seen.
Cultures for pyogenic infection were negative. The
features were consistent with Rosai–Dorfman disease.
Post-operatively the patient recovered well. At 6-months’
follow-up, radiographs showed healing of the cavity
(Figure 4).

Discussion 

The histiocytoses are a group of haematologic disorders
defined by the pathologic infiltration of normal tissues by
cells of the mononuclear phagocytic system. The patho-
genic cells central to the development of the histiocytosis
arise from a common haematopoetic progenitor. The
central cell of this system, the mononuclear phagocyte or
histiocyte, represents a group of cells arising from a
common precursor, the haematopoetic stem cell.

Figure 1. Clinical picture showing diffuse swelling of
dorsal forearm

Figure 4. radiographs showing healing with sclerosis at
6-months’ follow-up

Figure 2. radiographs showing radiolucent expansile
lesion in the distal radius, adjacent to the physis, some
sclerosis of the radial border and deficiency of the ulnar
border. Slight periosteal reaction is seen.

Surgical exploration from a dorsal approach revealed a cavity filled with
tissue resembling a caseating granulomatous lesion similar to tuberculosis

Figure 3. Ct sections confirming a radiolucent lesion in the radius
with deficiency of ulnar border. there is no calcification or 
trabeculation in the cavity.

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SA Orthopaedic Journal  Summer 2015 | Vol 14 • No 4 Page 69

Mononuclear phagocytes can be divided into two major
classes, macrophages and dendritic cells. The World
Health Organisation classified histiocytic disorders into
three classes based on pathologic cells present within the
lesions namely, dendritic cell histiocytoses, non-
dendritic cell histiocytoses and malignant histiocytoses
(Table I).

Langerhans cell histiocytosis (LCH) is the most
common of the dendritic cell-related histiocytic
disorders. LCH includes the previously identified
disorders known as eosinophilic granuloma,
Letterer–Siwe disease and Hand–Schuller–Christian
disease. 

Sinus histiocytosis with massive lymphadenopathy
(SHML) also known as Rosai–Dorfman disease (RDD), is
the most common type in the class II group. It is charac-
terised by a lymphohistiocytic accumulation in the
sinuses of the lymph nodes.5

Rosai–Dorfman disease is a benign disorder of histio-
cytic proliferation of unknown cause, initially described
by Rosai and Dorfman in 1969.1 It is a non-neoplastic
systemic disease of bone marrow stem cell origin which
commonly presents with bilateral, non-tender, painless
cervical lymphadenopathy which may be accompanied
by fever, raised ESR, weight loss, leucocytosis, anaemia
and hypergammaglobulinaemia. Other nodes are less
frequently involved.1-3

Extranodal RDD involving the bone poses a clinical and
radiological challenge. Primary osseous lesions are rarely
reported in children. Sundaram reviewed the literature and
found seven cases of primary osseous involvement in
children <17 years of age. The lesions were mainly lytic or
cystic in appearance with cortical erosions. Periosteal
reaction was uncommon.

Extranodal RDD occurs in 43% of patients with 23%
experiencing isolated extranodal disease, commonly
involving the head and trunk.2-4 Osseous involvement with
nodal disease is rare <8%; most of these consist of multiple
lesions involving the same bone. Primary solitary osseous
manifestation without lymphadenopathy is even more rare
accounting for <2% of all reported cases.6-8

The aetiology of RDD is unknown. It is thought to be
genetic or an immunological disorder, postulated to be a
response to an infectious agent with subsequent lymph node
proliferation.2,8 This in turn leads to an immunosuppressed
state as proliferates of histiocytes phagocytose active
lymphocytes. It has also been documented with immune
disorders.2 Other infectious agents such as herpes virus,
Epstein–Barr virus and cytomegalovirus have also been
implicated to be associated with RDD.2

The mean age of onset is usually about 20 years.2 In
isolated osseous involvement the location of the lesions was
mainly in the lower limbs (tibia and femur). Lesions in the
hand, spine, facial and skull bones have been reported. In
children distal radius involvement has been reported on two
occasions only.6,9 Pain and swelling were the main features.
The lesions were part of a multifocal involvement.

Radiographs commonly show a lytic medullary lesion
with a sclerotic border. There may be cortical erosion and
periosteal reaction.5 A bone scan is useful to show other
areas of increased uptake. CT and MRI scans may help with
evaluation of the extent of the lesion, the contents of the
lesion and any fluid levels in the cystic cavities.

The radiological and clinical features of RDD can mimic
various common osseous lesions and the diagnosis can be
delayed. Simple and aneurysmal bone cysts, tuberculosis,
subacute osteomyelitis, Langerhan’s cell histiocytosis
(LCH), chondroblastoma, non-ossifying fibroma,
monostotic fibrous dysplasia, lymphoma, leukaemia and
metastases have been considered by some authors in
children.3,7-11 All these conditions have variable presen-
tations clinically and radiologically which makes the
diagnosis more difficult.

In the literature Langerhans cell histiocytosis (LCH) is the
most closely related condition to RDD based on radiological
findings. However LCH differs from RDD based on histo-
logical presentation. LCH usually exhibits many eosinophils
and histiocytes. Immuno-histochemical staining is always
CD1a positive in LCH. Eosinophils are absent in RDD and
CD-68 immunopositivity is the distinguishing feature.

table i: WhO classification of histiocytic disorders

Class I: Dendritic cell histiocytoses

• Langerhans cell histiocytosis
• Secondary dendritic cell processes
• Juvenile xanthogranuloma and related disorders

•  Erdheim–Chester disease
• Solitary histiocytomas of various dendritic cell phenotypes

Class II: Non-dendritic cell histiocytoses

• Primary haemophagocytic lymphohistiocytosis
•  Familial haemophagocytic lymphohistiocytosis

• Secondary haemophagocytic lymphohistiocytosis

•  Infection-associated
•  Malignancy-associated

• Rosai–Dorfman disease (sinus histiocytosis with massive
lymphadenopathy)

• Solitary histiocytoma with macrophage phenotype

Class III: Malignant histiocytoses

• Monocyte-related
• Leukaemias (FAB and revised FAB classification)

•  Monocytic leukaemiaM5A and M5B

•  Acute myelomonocytic leukaemias M4
•  Chronic myelomonocytic leukaemias

• Extramedullary monocytic tumour or sarcoma
• Dendritic cell-related histiocytic sarcoma
• Macrophage-related histiocytic sarcoma

FAB: French-American-British

radiographs commonly show a lytic medullary lesion with a 
sclerotic border. there may be cortical erosion and periosteal reaction

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Page 70 SA Orthopaedic Journal  Summer 2015 | Vol 14 • No 4

The diagnosis is confirmed on characteristic histological
features of ‘emperipolesis’, i.e. histiocytic phagocytosis,
which is characterised by intact inflammatory cells in the
cytoplasm of large histiocytes in RDD. This is an
important clue in the pathological diagnosis. Although the
typically described intracytoplasmic inflammatory cells
are lymphocytes, other cells such as plasma cells, erythro-
cytes and polymorphonuclear leucocytes can be present. 

In our environment cystic tuberculosis, subacute
osteomyelitis and fungal infections are more common
conditions that can resemble RDD.7 Primary lymphoma of
bone can present with destructive bone lesions, typically 
B cell non-Hodgkin’s variety. This tumour is becoming
more prevalent in our environment due to HIV infection.12

Nephroblastoma is the commonest primary tumour with
metastases to bone.

The clinical course of RDD is typically self-limiting.
Greater than 70% have spontaneous resolution.1,2,10,11

A small subset relapse. The prognosis is worse with
disseminated involvement of nodal sites. No malignant
transformations have been reported. Studies that have
focused on skeletal manifestations have documented
success with curettage or surgical resection.13 Bone graft
was used to fill defects of the talus in one report.3 Steroid
administration induces the disappearance of fever and
reduction of lymph node size in patients with soft tissue
involvement.14 There is no information on its use in
preventing osseous disease. Extraosseous and
intraosseous lesions can develop after a disease-free
interval.1,8 Although response to chemotherapy has been
documented, including a combination of alkylating agents
with vincristine and steroids and the combination of
methotrexate and vincristine, chemotherapy has been
shown to be ineffective.15 Radiotherapy has limited
efficacy, but occasional response may occur.15 Further data
on the use of interferon is needed to define the role of
immunomodulators in RDD.

In conclusion, extranodal primary osseous presentation
of RDD may present a diagnostic challenge. The condition
must be included in the differential diagnosis of lytic or
lucent lesions of the skeleton.

No benefits of any form have been or are to be received from a

commercial party related directly or indirectly to the subject of

the article

References
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lymphadenopathy a newly recognized benign clinico-
pathological entity. Arch Pathol. 1969;87:63–70.

2. Foucar E, Rosai J, Dorfman RF. Sinus histiocytosis with
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3. Allegranza A, Barbareschi M, Solero CL, et al. Primary
lymphohistiocytic tumour of bone: a primary osseous
localization of Rosai-Dorfman disease. Histopathology.
1991;18:83–86.

4. Walker PD, Rosai J, Dorfman RF. The osseous manifesta-
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5. Shahlaee AH, Arceci RJ. Histiocytic disorders. In Arceci
RJ, Hann IM, Smith OP (eds). Paediatric Haematology
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6. Sundaram C, Uppin SG, Chandrashekar P, et al.
Multifocal osseous involvement as the sole manifestation
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7. Rasool MN, Ramdial PK. Osseous localization of Rosai-
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8. Kang RW, McGill KC, Lin J, Gitelis S. Chronic ankle pain
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12. Opie J. Haematological complications of HIV infection. S
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13. Walczak BE, Halperin DM, Bdeir RW and Irwin RB. A 50-
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14. Oka M, Kamo T, Goto N, et al. Successful treatment of
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J Dermatol. 2009;36:237–40.

15. Pulsoni A, Anghel G, Falcucci P, et al. Treatment of sinus
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