Congenital isolated right radial club hand

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Apr 1, 2010 - reproduction in any medium, provided the original work is properly cited. 1. Citation: Libyan J Med 2010, 5: 5090 - DOI: 10.3402/ljm.v5i0.5090 ...
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Congenital isolated right radial club hand Sajad Ahmad Salati* and Sari M. Rabah Department of Plastic & Reconstructive Surgery, King Fahad Medical City, Riyadh, Saudi Arabia

Congenital radial club hand (RCH) is an uncommon congenital anomaly characterized by various degrees of deficiency along the preaxial or radial side of the extremity. We present one such case of Type 4 congenital isolated RCH who presented to a tertiary care center in the Middle East. Keywords: club hand; congenital anomaly; radial deficiency

Received: 18 February 2010; Accepted in revised form: 5 March 2010; Published: 1 April 2010

four-month-old male child was referred for evaluation of right upper limb deformity. He was born at term by normal delivery following an uneventful pregnancy and there was no significant past medical or surgical history. He was the first child of non-consanguineous parents and there was no family history of congenital anomalies. Physical examination of the baby revealed deformity of right forearm which appeared shorter than contra lateral side with radial deviation at the wrist (Fig. 1). All the fingers of the affected hand including the thumb were however normal. Physical examination by our team and by the pediatricians revealed no other abnormalities. Hemoglobin, total and differential leucocytes count, platelet count, and renal function tests were all within normal limits in more than one occasion. Radiographs of both upper limbs revealed complete aplasia of radius and shortening of the ulna on the right side (Fig. 2). Skeletal survey, ultrasonogram of abdomen, and cardiac echocardiogram ruled out any other associated congenital anomalies. The diagnosis of isolated right congenital radial club hand (RCH) Type IV was made and the parents were counseled. The management of the child was started in collaboration with physiotherapists and the family were taught some simple and easily reproducible exercises to passively stretch the radial structures. Custom-made splints were also fabricated by the orthotics division for nocturnal application to the affected limb with the aim of stretching the radial wrist structures. In future, when the level of deformity is deemed optimal for operative intervention (expected by age of one year), operative centralization of the wrist on ulna will be undertaken.

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Discussion Congenital RCH, also called longitudinal radial deficiency or radial dysplasia, is an uncommon congenital anomaly characterized by various degrees of deficiency along the preaxial or radial side of the extremity (1). The ulna is typically 60% of normal length. The incidence of RCH is estimated to be 1 in 30,000 to 1 in 100,000 live births (2). It is bilateral in 3858% of cases. Bayne and Klug classified radial deficiency into four types (3): Type I: Mildest form with defective distal radial epiphysis. Minor radial deviation of the hand is apparent, although considerable thumb hypoplasia may be evident. Type II: Involves limited growth of the radius on both its distal and proximal sides and characterized by a miniature radius and moderate radial deviation of the wrist. Type III: Absence of two-thirds of the radius, most commonly the distal side and severe radial deviation of the wrist. Type IV: This type of RCH is the most common and most severe and involves complete absence of the radius. The hand tends to develop a perpendicular relationship to the forearm. Our patient belonged to this type. RCH usually occurs sporadically with no known cause. About 40% of patients with unilateral club hand and 27% with bilateral club hand have associated congenital anomalies involving cardiac, genitourinary, skeletal, and hematopoietic system (4). The prominent syndromes associated with RCH include: Holt-Oram syndrome; thrombocytopenia-absent radius (TAR) syndrome; vertebral, anal, cardiac, tracheal, esophageal, renal, and

Libyan J Med 2010. # 2010 Sajad Ahmad Salati and Sari M. Rabah. This is an Open Access article distributed under the terms of the Creative Commons Attribution-Noncommercial 3.0 Unported License (http://creativecommons.org/licenses/by-nc/3.0/), permitting all non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited. Citation: Libyan J Med 2010, 5: 5090 - DOI: 10.3402/ljm.v5i0.5090

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Sajad Ahmad Salati and Sari M. Rabah

ment comprises of stretching of the taut radial structures by physiotherapy and splintage (6). Some centers utilize the appliances based on principles of distraction  osteogenesis (Ilazarov technique) to decrease the magnitude of contracture before definitive surgery (7). Operative management aims at centralization of the wrist on the ulna (8). Centralization is indicated in RCH Types II, III, and IV. The cases of RCH need to be kept under follow-up upto adulthood to prevent the recurrence of the deformity (5), and monitor the function of the affected limb and undertake corrective operative and non-operative interventions as warranted. Fig. 1. Right congenital radial club hand.

Conflict of interest and funding The authors have not received any funding or benefits from industry to conduct this study.

References

Fig. 2. Type IV radial club hand with complete absence of radius.

limb (VACTERL) syndrome; and Fanconi anemia. The latter is a serious associated condition which usually manifests as aplastic anemia between 3 and 12 years of age. Correction of RCH requires a combination of nonoperative and operative management that should start immediately after diagnosis. Patients should be assessed thoroughly to identify any possible associated anomalies. The basic goals of correction include correction of radial deviation of wrist, balancing the wrist on forearm, maintenance of wrist and finger flexion, promotion of growth of the forearm, and improving the cosmetic appearance of the limb (5). The non-operative manage-

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1. Goldberg MJ, Meyn M. The radial clubhand. Orthop Clin North Am. 1976; 7: 34159. 2. Urban MA, Osterman LA. Management of radial dysplasia. Hand Clin. 1990; 6: 589605. 3. Waters MP. The upper limb. In: Morrissy RT, Weinstein SL, editors. Lovell and Winters pediatric orthopedics. 5th ed. Philadelphia, PA: Lippincott Williams and Wilkins 2001. p. 841903. 4. Kozin SH. Upper-extremity congenital anomalies. J Bone Joint Surg Am. 2003; 85: 156476. 5. Damore E, Kozin SH, Thoder JJ, Porter S. The recurrence of deformity after surgical centralization for radial clubhand. J Hand Surg [Am]. 2000; 25: 74551. 6. Thirkannad SM, Burgess RC. A technique for using the Ilizarov fixator for primary centralization in radial club hand. Tech Hand Up Extrem Surg. 2008; 12: 718. 7. Goldfarb CA, Murtha YM, Gordon JE, Manske PR. Soft-tissue distraction with a ring external fixator before centralization for radial longitudinal deficiency. J Hand Surg [Am]. 2006; 31:9529. 8. Manske PR, McCarroll HR Jr, Swanson K. Centralization of the radial club hand: an ulnar surgical approach. J Hand Surg [Am]. 1981; 6: 42333. *Sajad Ahmad Salati Department of Plastic & Reconstructive Surgery King Fahad Medical City Riyadh, Saudi Arabia Tel: 00966530435652 Email: [email protected]

Citation: Libyan J Med 2010, 5: 5090 - DOI: 10.3402/ljm.v5i0.5090