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Late Preterm Infant Diagnosed with Thrombocytopenia Absent Radius Syndrome/Gec Preterm Bir Yenidoganda Tani Alan Trombositopeni Radius Yoklugu Sendromu.


Thrombocytopenia absent radius (TAR) syndrome is a rare genetic anomaly presenting with bilateral radial aplasia and thrombocytopenia. Pathophysiology is not fully understood. Patients may need to receive thrombocyte transfusions for better neurological outcome and frequent followup may prevent serious complications such as intracranial hemorrhage. Here we report a one-day-old late preterm neonate diagnosed with TAR syndrome by clinical and laboratory data, and confirmed by genetic studies.

Keywords: Thrombocytopenia absent radius, thrombocytopenia, radius, neonate, preterm


Trombositopeni radius yoklugu (TAR) sendromu, nadir gorulen bilateral radius yoklugu ve trombositopeni ile karakterize bir sendromdur. Patofizyolojisi tam olarak anlasilamamistir. Hastalar norolojik gelisimlerinin etkilenmemesi ve intrakraniyal kanama gibi izlemde gelisebilecek komplikasyonlardan korunmak icin trombosit transfuzyonuna gereksinim duyabilirler. Burada bir gunluk gec preterm bir yenidoganda klinik ve laboratuvar olarak tani konulan ve genetik calismalar ile konfirme edilen TAR sendromu olgusu sunulmustur.

Anahtar Kelimeler: Trombositopeni radius yoklugu, trombositopeni, radius, yenidogan, premature


Thrombocytopenia absent radius (TAR) syndrome is a rare genetic condition, characterized by bilateral absence of the radii while both thumbs are present, and thrombocytopenia. Skeletal, hematologic, and cardiac system involvement may also occur. Incidence of TAR syndrome is 0.42 per 100000 births. Intracranial hemorrhages due to thrombocytopenia or serious cardiac defects are often the cause of death (1). Mental retardation may develop secondary to intracranial hemorrhage (2). Epilepsy, learning difficulties, intracranial vascular malformations, sensorineural hearing loss, hypoplasia of corpus callosum and cerebellar dysgenesis have been reported as associated neurological abnormalities. Although primordial megakaryocytes are suspected to take part in pathogenesis due to their role in formation of blood vessels, the mechanism leading to this congenital phenomenon is not fully understood (3).

Herein we report a late preterm one-day-old neonate diagnosed with TAR syndrome by clinical and laboratory data, and confirmed by genetic studies.

Case Report

A 36 5/7-week gestation male infant, with a birth weight of 2600 grams, was born by normal vaginal delivery to a 28-year-old Syrian mother and admitted to neonatal intensive care unit for upper limb hypoplasia. Detailed prenatal history was absent due to communication issues.

Physical examination revealed radially deviated upper limbs with no thumb deformity but hypoplastic fingers. There were no deformities in the lower limbs other than laterally deviated bilateral halluces (Figure 1). Abdominal examination revealed no organomegaly. On cardiac auscultation, a soft (2/6) systolic murmur was heard over the left sternal side.

Complete blood count showed white cell count of 29800/[mm.sup.3] and platelet count of 36000/[mm.sup.3]. Other laboratory results were within normal ranges. Radiography of forearms revealed bilateral absence of radii (Figure 2). Echocardiography was performed, which showed ventricular septal defect (VSD), patent ductus arteriosus (PDA), atrial septal defect (ASD) and pulmonary hypertension. Transcranial and abdominal ultrasonography were normal. The patient was administered platelet transfusion when complete blood count revealed that the platelet count was below 25000/[mm.sup.3]. Platelet levels increased to 129000/[mm.sup.3] following transfusion. Monitoring the case continues in the postnatal 3rd month.


Thrombocytopenia associated with TAR syndrome is believed to be related to a process of defective megakaryopoiesis resulting from a faulty progenitor cell. Patients usually become symptomatic within the first 4 months of life, and deaths from intracranial hemorrhages often occur in this period (2,4). In a previously published case series of 77 patients, overall mortality rate was 27% and of these, 21 deaths (66.6%) occurred within the first four months, 28.5% in between 4-14 months, and 4.7% after one month (5). Episodes of thrombocytopenia often are triggered by infections, surgical interventions and in some cases, after ingestion of cow's milk. Episode intervals become less frequent, and the severity of the attacks decreases by the time patient reaches the age of two. In our case, the patient received platelet transfusion when severe thrombocytopenia was detected in order to prevent complications.

Leukemoid reaction triggered by stress and infections may occur mostly within the first year of life (6). Leukocyte levels can increase up to 35000/[mm.sup.3]. Thrombocytopenia may worsen and hepatomegaly can be detected on physical examination (3). We didn't determine leukemoid reaction in the laboratory analysis of our case.

Pathophysiology of anemia, developing in the patients with TAR syndrome within the first year of life, is not clear. It may be due to hemolysis, thrombocytopenia related blood loss, or short lifespan of the erythrocytes (3). We neither observed symptoms related to anemia, nor determined abnormal laboratory analysis in the reported case. The most important skeletal abnormality detected in TAR syndrome is bilateral radius hypoplasia. Autopsy findings have shown that patients have normally attached muscles to carpal bones, and they always have both thumbs and fingers. Upper extremity anomalies associated with TAR syndrome include hypoplastic ulna, hypoplastic humerus and syndactyly. In the reported case, bilateral radii were absent and the hands were deviated toward ulna, but there was no finger abnormality. Abnormalities associated with the lower extremity in TAR syndrome are mild (5,7). In the reported patient, we did not observe pathological findings related to lower limbs, except laterally deviated halluces. The ratio of cardiac problems is 30% among patients with TAR syndrome, and the most common heart defects are tetralogy of Fallot (17.6%), ASD (17.6%), and VSD (17.6%). Echocardiographic evaluation of our case revealed VSD, PDA, ASD, and pulmonary hypertension.

Hedberg and Lipton (5) showed that TAR syndrome has 18% mortality and the most common causes of death include hemorrhages (88.8%) (intracranial, visceral, and pulmonary), sepsis (5.5%), and congestive heart failure (5.5%).

TAR syndrome can be diagnosed antenatally after 16 weeks of gestation by fetoscopy, X-rays and ultrasonography (8). In our case, the mother had no follow-up during pregnancy. When diagnosed, patients with TAR syndrome should be monitored closely and collaboration should be made with an orthopedics department. Life expectancy is reported normal with successful follow-up. The treatment of thrombocytopenia is also important to prevent complications, and thrombocyte transfusion is necessary when values reach critical level.


Informed Consent: Written informed consent was declared by the authors.

Peer-review: Externally peer-reviewed.

Authorship Contributions

Surgical and Medical Practices: O.B., T.D.T., S.H., Design: E.C., O.B., T.D.T., Data Collection or Processing: O.B., S.B., Literature Search: S.B., S.H., Writing: T.D.T., E.C.

Conflict of Interest: No conflict of interest was declared by the authors.

Financial Disclosure: The authors declared that this study has received no financial support.


(1.) Kumar C, Sharma D, Pandita A, Bhalerao S. Thrombocytopenia absent radius syndrome with Tetralogy of Fallot: a rare association. Int Med Case Rep J 2015;8:81-5.

(2.) McLaurin TM, Bukrey CD, Lovett RJ, Mochel DM. Management of thrombocytopenia-absent radius (TAR) syndrome. J Pediatr Orthop 1999;19:289-96.

(3.) Hall JG. Thrombocytopenia and absent radius syndrome. J Med Genet 1987;24:79-83.

(4.) Labrune P, Pons JC, Khalil M, et al. Antenatal thrombocytopenia in three patients with TAR (thrombocytopenia with absent radii) syndrome. Prenat Diagn 1993;13:463-6.

(5.) Hedberg VA, Lipton JM. Thrombocytopenia with absent radii. A review of 100 cases. Am J Pediatr Hematol Oncol 1988;10:51-64.

(6.) Teufel M, Enders H, Dopfer R. Consanguinity in a Turkish family with thrombocytopenia with absent radii (TAR) syndrome. Hum Genet 1983;64:94-6.

(7.) Fromm B, Niethard FU, Marquardt E. Thrombocytopenia and absent radius (TAR) syndrome. Int Orthop 1991;15:95-9.

(8.) Gounder DS, Pullon HW, Ockelford PA, Nicol RO. Clinical manifestations of the thrombocytopenia and absent radii (TAR) syndrome. Aust N Z J Med 1989;19:479-82.

Ovgu Buke, Sultan Bent, Tugce Damla Turkpence, Sahin Hamilcikan, Emrah Can

University of Health Sciences, Bagcilar Training and Research Hospital, Clinic of Pediatrics, Istanbul, Turkey

Address for Correspondence/ Yazisma Adresi

Emrah Can MD, University of Health Sciences, Bagcilar Training and Research Hospital, Clinic of Pediatrics, Istanbul, Turkey

Phone: +90 532 512 36 06 E-mail:

Received/ Gelis tarihi: 15.02.2016

Accepted/ Kabul tarihi: 14.04.2016

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Title Annotation:Case Report / Olgu Sunumu
Author:Buke, Ovgu; Bent, Sultan; Turkpence, Tugce Damla; Hamilcikan, Sahin; Can, Emrah
Publication:The Journal of Pediatric Research
Article Type:Report
Date:Jun 1, 2017
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