Sultan Qaboos University Med J, May 2013, Vol. 13, Iss. 2, pp. 301-305, Epub. 9th May 13
Submitted 2ND Sep 12
Revision Req. 24TH Nov 12, Revision Recd. 24TH Nov 12
Accepted 24TH Nov 12

Stuve-Weidemann syndrome (STWS) [MIM #601599], also known as neonatal Schwartz-Jampel syndrome type 2 
(SJS-2), is a severe neuromuscular disorder of 
prenatal onset characterised by congenital joint 
contractures, distinctive campomelic metaphyseal 
skeletal dysplasia, respiratory and feeding 
difficulties, dysautonomia with a tendency towards 
hyperthermia, and frequent death in infancy.1 The 
condition is classified as a genetic skeletal disorder 
in the congenital bent bone dysplasia group, as 
the bowing of the long bones in these disorders is 
a major manifestation. Infants with STWS usually 
present with joint stiffness, and difficulty in feeding 

or opening their eyes. These infants are usually 
affected with mask-like facies, hypotonia, bowing of 
the long bones (particularly the tibia and the femur), 
camptodactyly, and autonomic disturbances. 
Hypotonia is a common presentation in childhood, 
and STWS should be considered in the differential 
diagnosis.2 

We report three Omani siblings born with 
STWS to consanguineous parents, having 
neonatal hypotonia as the presenting feature, 
with intermittent pyrexia, mild incurvature and 
shortening of their long bones, and myotonia in 
one case. The constellation of these signs, family 
history, and radiographic features pointed to the 

Departments of 1Child Health and 2Radiology & Molecular Imaging, Sultan Qaboos University Hospital, Muscat, Oman
*Corresponding Author e-mail: roshankoul@hotmail.com

واحدة يف ثالثة : أمراض احنناء العظام اخللقية وحرارة مفرطة متقطّعة يف 
ثالثة أشقاء مع متالزمة ستوف-ويدمان

رو�شن كول ،عديلة الكندي، رجنيث ماين ، ديليب �شنكهال ، اأمنة الفطي�شي

امللخ�ص: متالزمة �ضتوف-ويدماّن ا�ضطراب نادر يتمّيز باإنحناء خلقي للعظام الطويلة, تقفعات املفا�ضل, �ضيق يف التنف�ص منذ الوالدة, 
�ضعوبات يف امل�ص و البلع, ا�ضطراب ع�ضبي ذاتي يكون على �ضكل حمى مفرطة عر�ضّية, وعادة موت مبّكر. ثالثة ا�ضقاء ولدوا من زواج 
اقارب و ظهرت عليهم �ضمات �رسيرّية مماثلة على مدى 16 عاما. مت ت�ضحي�ص املتالزمة لدى العائلة عند والدة اخر طفلة يف بداية 
2012. كان جميع االأطفال يف البداية يعانون منذ الوالدة من حمى مفرطة ونق�ص التوتر العام. ك�ضف الفح�ص ال�رسيري جلميع الر�ضع 
عن انعطاف االإ�ضبع امل�ضتدمي, �ضغر الفك, انحناء العظام الطويلة مع كرادي�ص وا�ضعة, ونق�ص التوتر. فقط كان الطفل الثاين مت�رسرا من 
التوتر الع�ضلي من خالل ر�ضم كهرباء الع�ضل. احلمى املفرطة �ضمة غري عادية يف هذه املتالزمه وميكن ان ت�ضاعد على التعرف املبكر لهذه 
املتالزمة بحيث ميكن جتنب عمل فحو�ضات مو�ضعة ومف�ضلة. هذه املتالزمة نتيجة طفرة يف جني م�ضتقبالت العامل املثبط ل�رسطان الدم.

مفتاح الكلمات: متالزمة �شتوف-ويدمان؛ متالزمة �شوارتز جامبل؛ التوتر الع�شلي؛ حمى؛ تقرير حاله؛ عمان.

abstract: Stuve-Wiedemann syndrome (STWS) is a rare disorder characterised by congenital bowing of the 
long bones, contractures of the joints, neonatal onset of respiratory distress, sucking and swallowing difficulties, 
dysautonomia presenting as episodic hyperthermia, and usually an early death. Three siblings from a consanguineous 
marriage presented with similar clinical features over 16 years. STWS was established with their last child at the 
beginning of 2012. All the children exhibited the onset of STWS in the neonatal period with fever and generalised 
hypotonia. Examinations of all the infants revealed camptodactyly, micrognathia, bent long bones with wide 
metaphyses, and hypotonia. Only the second affected child had myotonia, demonstrated by electromyography. 
Unusual pyrexia as a presenting feature in this syndrome needs early recognition so that extensive and elaborate 
investigations can be avoided. The disorder is usually caused by a mutation in the leukaemia inhibitory factor 
receptor gene.

Keywords: Stuve-Weidemann syndrome; Schwartz-Jampel syndrome; Myotonia; Pyrexia; Case report; Oman.

One in Three: Congenital Bent Bone Disease 
and Intermittent Hyperthermia in Three Siblings 

with Stuve-Wiedemann Syndrome
*Roshan Koul,1 Adila Al-Kindy,1 Renjith Mani,1 Dilip Sankhla,2 Amna Al-Futaisi1

Case report



One in Three: Congenital Bent Bone Disease and Intermittent Hyperthermia in Three Siblings with 
Stuve-Wiedemann Syndrome

302 | SQU Medical Journal, May 2013, Volume 13, Issue 2

diagnosis of STWS, especially when associated 
with myotonia as this is an uncommon presentation 
during childhood. Pyrexia as a presenting feature 
due to autonomic instability and should not always 
be considered as a sign of infection. Although the 
condition is rare worldwide, it is relatively common 
in the Middle East.3 

Case One
The couple’s third child, a female, was first seen 
16 years ago at Sultan Qaboos University Hospital 
(SQUH), Oman. She was referred at 26 days of 
age with poor feeding, hypotonia, severe failure to 
thrive, intermittent fever, and recurrent infections. 
On examination, she had micrognathia, low-
set ears, narrow and short palpebral fissures, 
long eyelashes, and short curved limbs. She was 
hypotonic with flexion deformities of both the 
upper and lower limbs. The basic blood work-up 
was normal including a septic work-up and a serum 
creatine kinase (S-CK) test. The nerve conduction 
study (NCS) and electromyography (EMG) were 
both normal. No definitive diagnosis was made and 
the child died at 3 months of age from a respiratory 
infection.

Case Two
The second affected infant was the couple’s seventh 
child. He was referred to SQUH at the age of 4 
months with poor feeding habits and failure to 
thrive. He was born full-term after a vacuum 
extraction for shoulder dystocia. His Apgar scores 

were 6 and 8 at 1 and 5 minutes, respectively. He had 
a history of abnormal movements (shaking of the 
lower limbs) noted transiently in the first week of 
life, and presented with recurrent episodes of a high-
grade fever. On examination, he was microcephalic 
and emaciated, with hypotonia, bilateral elbow 
contractures and facial myotonia presenting 
with blepharospasms and pursing of the lips on 
stimulation. In addition, he was micrognathic and 
dysmorphic, with long eyelashes, low-set ears, an 
inverted V-shaped mouth, and pectus carinatum. A 
baseline blood work-up, septic work-up, and S-CK 
were normal, as was the NCS. An EMG showed 
myotonia at rest and at action with no denervation 
pattern. In view of the infant’s clinical features and 
the EMG findings, a diagnosis of SJS-2 was made. 
The child died at 11 months of age.

Case Three
The third affected child was the couple’s ninth 
child. The mother had had two spontaneous 
mid-trimester abortions before this baby’s birth, 
but her four other offspring were healthy [Figure 
1]. Antenatally, she had had oligohydramnios 
late in the pregnancy and reported normal fetal 
movements. This child was first seen at 14 days of 
age with hypotonia, a weak cry, and poor sucking. 
He was born post-term at 41 weeks’ gestation by 
an emergency lower segment Caesarean section 
due to non-progress of the labour. The infant’s 
Apgar scores were 8 and 9 at 1 and 5 minutes, 
respectively. His birth parameters were appropriate 
for gestation. He developed respiratory distress and 

 
Figure 1: The family tree showing affected siblings and consanguineous parents.



Roshan Koul, Adila Al-Kindy, Renjith Mani, Dilip Sankhla and Amna Al-Futaisi

Case Report | 303

desaturation one hour after birth and required facial 
oxygen. Clinically, he had a poor sucking reflex, a 
weak cry, hypotonia, and generalised weakness 
of grade 4/5 with normal reflexes. He also had 
recurrent episodes of pyrexia with a normal septic 
work-up. He was still tube-fed at 8 months of age 
and exhibited a failure to thrive, with his weight 
well below the 3rd centile, a head circumference on 
the 3rd centile, and length on the 50th centile. He 
was noted to have dysmorphic features including 
a narrow and short palpebral fissure, a broad nasal 
bridge, a short nose with a wide base, low-set ears, 
and micrognathia. He had limited extension of the 
elbow and knees and camptodactyly [Figure 2]. 
He had fixed contracture of the right thumb and 
single palmar creases. His lower extremities were 
short and mildly curved with bilateral prominent 
heels. He had no myotonia clinically or on EMG. 
The blood tests at SQUH, including complete blood 
count, liver function, electrolytes, blood gases, 
lactate, and ammonia, were all normal. Tandem 
mass spectrometry and S-CK levels were also 
normal.

A complete skeletal survey revealed bent long 
bones and an increase in cortical thickness of the 

tibia bone at the point of angulation (dysplastic 
femora epiphysis) [Figures 3–5]. There was a 
widening of the metaphyses with trabeculation 
[Figure 3]. Echocardiography showed a small 
atrial septal defect. An ultrasound and computed 
tomography (CT) scan of the head and an 
ophthalmology examination were normal. The 
parents refused molecular studies despite detailed 
genetic counselling. At the time of writing this child 
was still alive.

Discussion
All three siblings had similar clinical features with a 
neonatal onset of hypotonia, feeding difficulties, and 
hyperthermia. Clinically, they all exhibited short, 
bowed long bones and camptodactyly. Only Case 
Two had clinical and EMG evidence of myotonia. 
The classical facies of STWS with blepharospasm 
and pursing of the lips were also noted in this case. 
The clinical and radiological features of these 3 
cases were characteristic of STWS. Although this 
is a rare condition affecting all ethnic groups, it is 
over-represented in Middle Eastern populations due 
to the high coefficient of inbreeding. It should be 

 
Figure 2: X-ray of the left hand showing camptodactyly 
(bent fingers and thumb).

 
Figure 3: X-ray of lower limbs showing the thickened 
cortex and bent long bones with enlarged diaphysis.



One in Three: Congenital Bent Bone Disease and Intermittent Hyperthermia in Three Siblings with 
Stuve-Wiedemann Syndrome

304 | SQU Medical Journal, May 2013, Volume 13, Issue 2

considered in the differential diagnosis of a neonate 
presenting with recurrent fevers, hypotonia, and 
respiratory and feeding difficulties who is not 
responding to broad-spectrum antibiotics and 
who presents with a normal metabolic work-up. 
These infants usually have bent long bones and 
camptodactyly with evidence of facial myotonia on 
clinical examination.1 

The condition was first described by Stuve 
and Wiedemann in 1971 in a patient with bowing 
of the long bones, camptodactyly, respiratory 
distress, hyperthermic episodes, and death in the 
first year of life.2 Long term survival has rarely 
been reported.1 This syndrome has features similar 
to SJS-2, which was once described as a separate 
entity but is now regarded as STWS.3–5 There have 
been a number of reports from the Arabian Gulf in 
genaral, and Oman in particular, of children with 
SJS-2.3,6 STWS should be suspected in the prenatal 
period when encountering ultrasonographic 
findings of oligohydramnios; sometimes in cases 
of intrauterine growth restriction; in cases of mild 
to moderate shortening and bowing of the long 
bones; when noting reduced fetal movements, or 
in a family with a previous history of a similarly 
affected child. Abnormal skeletal features can be 
recognised on examination, and a skeletal survey 
can confirm the campomelic dysplasia affecting 

the tibia more than the femur, with internal 
cortical thickening of the medial part of the long 
bones, relative sparing of fibula and upper limb 
involvement, and normal thoracic dimensions. 
Enlarged metaphyses with an abnormal trabecular 
pattern are invariably present. STWS is one of the 
differential diagnoses of campomelic dysplasia. The 
myotonia, if present, can be clinically recognised 
by pursed lips and blepharospasms. Recurrent 
respiratory infections and hyperthermia are typical 
features in the first year of life usually resulting 
in early death. Other typical features, apart 
from the bowing and shortening of the lower 
limbs which can be recognised in utero, are the 
enlarged joints and contractures at the elbows, 
knees, and fingers. Differential diagnoses include 
other congenital bent long bone dysplasias such 
as campomelic dysplasia [MIM #11429]. This is an 
autosomal dominant condition that usually presents 
with sex reversal and severe respiratory distress 
due to severe tracheobronchial and pulmonary 
hypoplasia, and distinctive skeletal radiographic 
abnormalities. Another differential diagnosis is 
kyphomelic dyslasia [MIM #211350], a probable 

 
Figure 4: X-ray of right upper limb showing the thick 
and bent long bones.

 
Figure 5: X-ray of left upper limb showing the thick and 
bent long bones.



Roshan Koul, Adila Al-Kindy, Renjith Mani, Dilip Sankhla and Amna Al-Futaisi

Case Report | 305

X-linked, autosomal recessive disorder with 
major incurvature of the femur and short stature, 
sometimes associated with immunodeficiency.7

Management of STWS is symptomatic, 
requiring intensive care initially, including 
attention to feeding and nutrition, physiotherapy, 
and orthopedic intervention for the progressive 
skeletal abnormalities and osteopaenia in the few 
long term survivors.8 The main cause of death in 
infancy is aspiration pneumonia due to defective 
swallowing, which improves with age in some 
patients. Management of the consequences of 
dysautonomia include protection of the tongue 
and eyes against repeated trauma because of the 
reduced pain sensation. Excessive sweating and 
intermittent hyperthermia should be managed 
by hydration and environmental modification 
without antipyretics. The microcephaly seen in our 
second and third cases could be a result of overall 
malnutrition. Microcephaly is not a feature of 
STWS and development is usually normal in these 
children. 

The diagnosis of STWS can usually be confirmed 
molecularly by a finding of null mutations in the 
leukaemia inhibitory factor receptor (LIFR) gene 
which usually leads to the absence of LIFR protein. 
This is a transmembrane protein important in 
intracellular signalling of the Janus kinase-signal 
transducer and activator of transcription (JAK/
STAT)-3 signalling pathway.9 The JAK-STAT 
signalling pathway plays an important role in 
transmitting information from extracellular 
polypeptide signals to target gene promoters 
in the nucleus. JAK-STAT signalling regulates 
many cellular processes, including development, 
cell proliferation, differentiation, and apoptosis. 
However, the causative mutations in the LIFR 
gene are not found in some patients with STWS, 
suggesting genetic heterogeneity. Null mutations 
in the LIFR gene have also been found to cause 
both SJS-2 and STWS, leading to the conclusion 
that these disorders should be considered a single, 
homogeneous disease.7

Conclusion
Neonatal presentation of campomelic dysplasia 
with normal thoracic dimensions, unexplained 
fevers, and consanguinity in the Middle Eastern 
population should alert paediatricians to a 

differential diagnosis of STWS, a potentially lethal 
condition. Myotonia is a classic symptom of this 
condition. Molecular testing can not only confirm 
the clinical diagnosis but also provide reproductive 
choices for the family and their relatives. Extensive 
genetic counselling, coupled with carrier screening 
and premarital testing, should be undertaken as a 
preventative strategy in families with a history of 
this mutation. 

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