1.Congenital Differences of the Upper Extremity: Classification and Treatment Principles.
Clinics in Orthopedic Surgery 2011;3(3):172-177
For hand surgeons, the treatment of children with congenital differences of the upper extremity is challenging because of the diverse spectrum of conditions encountered, but the task is also rewarding because it provides surgeons with the opportunity to impact a child's growth and development. An ideal classification of congenital differences of the upper extremity would reflect the full spectrum of morphologic abnormalities and encompass etiology, a guide to treatment, and provide prognoses. In this report, I review current classification systems and discuss their contradictions and limitations. In addition, I present a modified classification system and provide treatment principles. As our understanding of the etiology of congenital differences of the upper extremity increases and as experience of treating difficult cases accumulates, even an ideal classification system and optimal treatment strategies will undoubtedly continue to evolve.
Hand Deformities, Congenital/*classification/pathology/*surgery
;
Humans
2.Changing Paradigms in the Treatment of Radial Club Hand: Microvascular Joint Transfer for Correction of Radial Deviation and Preservation of Long-term Growth.
Johanna P DE JONG ; Steven L MORAN ; Simo K VILKKI
Clinics in Orthopedic Surgery 2012;4(1):36-44
Radial longitudinal deficiency, also known as radial club hand, is a congenital deformity of the upper extremity which can present with a spectrum of upper limb deficiencies. The typical hand and forearm deformity in such cases consists of significant forearm shortening, radial deviation of the wrist and hypoplasia or absence of a thumb. Treatment goals focus on the creation of stable centralized and functionally hand, maintenance of a mobile and stable wrist and preservation of longitudinal forearm growth. Historically centralization procedures have been the most common treatment method for this condition; unfortunately centralization procedures are associated with a high recurrence rate and have the potential for injury to the distal ulnar physis resulting in a further decrease in forearm growth. Here we advocate for the use of a vascularized second metatarsophalangeal joint transfer for stabilization of the carpus and prevention of recurrent radial deformity and subluxation of the wrist. This technique was originally described by the senior author in 1992 and he has subsequently been performed in 24 cases with an average of 11-year follow-up. In this paper we present an overview of the technique and review the expected outcomes for this method of treatment of radial longitudinal deficiency.
Forearm/abnormalities/*surgery
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Hand Deformities, Congenital/*surgery
;
Humans
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Joints/*transplantation
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Metatarsophalangeal Joint/surgery
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Radius/abnormalities/*surgery
3.Changing Paradigms in the Treatment of Radial Club Hand: Microvascular Joint Transfer for Correction of Radial Deviation and Preservation of Long-term Growth.
Johanna P DE JONG ; Steven L MORAN ; Simo K VILKKI
Clinics in Orthopedic Surgery 2012;4(1):36-44
Radial longitudinal deficiency, also known as radial club hand, is a congenital deformity of the upper extremity which can present with a spectrum of upper limb deficiencies. The typical hand and forearm deformity in such cases consists of significant forearm shortening, radial deviation of the wrist and hypoplasia or absence of a thumb. Treatment goals focus on the creation of stable centralized and functionally hand, maintenance of a mobile and stable wrist and preservation of longitudinal forearm growth. Historically centralization procedures have been the most common treatment method for this condition; unfortunately centralization procedures are associated with a high recurrence rate and have the potential for injury to the distal ulnar physis resulting in a further decrease in forearm growth. Here we advocate for the use of a vascularized second metatarsophalangeal joint transfer for stabilization of the carpus and prevention of recurrent radial deformity and subluxation of the wrist. This technique was originally described by the senior author in 1992 and he has subsequently been performed in 24 cases with an average of 11-year follow-up. In this paper we present an overview of the technique and review the expected outcomes for this method of treatment of radial longitudinal deficiency.
Forearm/abnormalities/*surgery
;
Hand Deformities, Congenital/*surgery
;
Humans
;
Joints/*transplantation
;
Metatarsophalangeal Joint/surgery
;
Radius/abnormalities/*surgery
4.Treatment of the windblow hand deformity.
Yan-Sheng WANG ; Chang-Tai XIN ; Yong SHEN ; Ying-Bo WANG ; Hui ZHANG
Chinese Journal of Plastic Surgery 2007;23(2):121-122
OBJECTIVETo discuss the treatment of the windblow hand deformity.
METHODSWe treat 18 patients with operations step by step. First phase: to improve the thumb function; Second phase: shift the flexor digitorum superficialis of the middle and little finger to improve the ulnar drift of the digits; Third phase : to solve the flection deformity of the palm and digits.
RESULTSWe follow the patients for 6 - 72 months, only lost 3.11 of 15 patients have the thumb function recovered. 9 patients had their ulnar drift of the digits corrected, 2 patients partly corrected, 4 have relapse. 5 among the 15 patients were offered second operation, to have the ulnar arthrosis bursa contracted, using abduction splint, after rehabilitation 4 patients have the deformity corrected, 1 has partly corrected.
CONCLUSIONSOperation step by step is better for the complex windblow hand deformity, solve one major problem each time,and systemic rehabilitation therapy is needed for satisfied curative effect.
Child ; Child, Preschool ; Female ; Hand Deformities, Congenital ; surgery ; Humans ; Infant ; Male ; Reconstructive Surgical Procedures ; methods
5.A clinical study of the pulp vitality after orthognathic surger: preliminary study
Byung Eun YANG ; Sang Hun SONG ; Jun Young YOU ; Yong Kwan KIM ; Dong Yong SHIN ; Chang Sun LEE
Journal of the Korean Association of Maxillofacial Plastic and Reconstructive Surgeons 1998;20(4):296-299
surgery, postoperative complications are studied by many clinician. The complications include sensory disturbance, jaw fracture, excessive bleeding, condylar positional changes and loss of pulp vitality. Few surgical procedures are as satisfying for the surgeon and patient as a well-done orthognathic surgery. On the other hand, the patient is more satisfied with the result than who are treated with only orthodontic treatment especially in severe deformity case. There are problems that patient overcome but it is not serious complications. One of these, the problem about loss of pulp vitality can't influence function but give a lot of discomfort to the patient. From September 1997 to January 1998, 7 patients who are treated for dentofacial deformity via Le Fort I osteotomy or anterior segmental osteotomy were examined pulp sensitivity using digital pulp tester. This preliminary study have a focus on the investigation of recovery of pulp vitality. The electric pulpal test were used at preoperative, postoperative, at intervals . And we report some results acquired from this study. Follwing result are obtained: 1. In anterior segmental ostetomy case (1 case), total 12 teeth were examined. Postoperative 8 weeks, 1 tooth are positive reaction. 2. In Le Fort I osteotomy case (6 case), total 71 teeth were examined. Postoperative 8 weeks, 5 teeth are positive reaction.]]>
Congenital Abnormalities
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Dentofacial Deformities
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Hand
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Hemorrhage
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Humans
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Jaw Fractures
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Orthognathic Surgery
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Osteotomy
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Postoperative Complications
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Tooth
6.Thumb Duplication: Concepts and Techniques.
Clinics in Orthopedic Surgery 2012;4(1):1-17
Within the Oberg, Manske, Tonkin (OMT) classification, thumb duplications are a failure of formation and/or differentiation affecting the radial-ulnar axis of the hand plate. The Wassel description of seven types of thumb duplication provides a good structure from which an approach to management is based. The aim of surgical reconstruction is to obtain a stable, mobile thumb of adequate size and appropriate shape. The most common form of reconstruction is removal of the lesser digit and reconstruction of the dominant digit. Surgical techniques address the problems of deviation, instability and lack of size. The disadvantages of the Bilhaut-Cloquet procedure, these being joint stiffness and a nail ridge, may be lesser concerns when reconstruction of one digit will not create a satisfactory thumb of adequate mobility, stability, alignment and size. Complicated problems of triphalangism, triplication, ulnar dimelia and the rare circumstance in which neither of the duplicated thumbs may be adequately reconstructed present specific challenges which demand alternative techniques.
Hand Deformities, Congenital/classification/*surgery
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Humans
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Orthopedic Procedures/*methods
;
Patient Care Planning
;
*Reconstructive Surgical Procedures
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Thumb/*abnormalities/*surgery
7.Thumb Duplication: Concepts and Techniques.
Clinics in Orthopedic Surgery 2012;4(1):1-17
Within the Oberg, Manske, Tonkin (OMT) classification, thumb duplications are a failure of formation and/or differentiation affecting the radial-ulnar axis of the hand plate. The Wassel description of seven types of thumb duplication provides a good structure from which an approach to management is based. The aim of surgical reconstruction is to obtain a stable, mobile thumb of adequate size and appropriate shape. The most common form of reconstruction is removal of the lesser digit and reconstruction of the dominant digit. Surgical techniques address the problems of deviation, instability and lack of size. The disadvantages of the Bilhaut-Cloquet procedure, these being joint stiffness and a nail ridge, may be lesser concerns when reconstruction of one digit will not create a satisfactory thumb of adequate mobility, stability, alignment and size. Complicated problems of triphalangism, triplication, ulnar dimelia and the rare circumstance in which neither of the duplicated thumbs may be adequately reconstructed present specific challenges which demand alternative techniques.
Hand Deformities, Congenital/classification/*surgery
;
Humans
;
Orthopedic Procedures/*methods
;
Patient Care Planning
;
*Reconstructive Surgical Procedures
;
Thumb/*abnormalities/*surgery
8.Free Fat Graft for Congenital Hand Differences.
Toshihiko OGINO ; Daisuke ISHIGAKI ; Hiroshi SATAKE ; Kousuke IBA
Clinics in Orthopedic Surgery 2012;4(1):45-57
BACKGROUND: Free fat graft has been used for the treatment of congenital hand differences. However, there have been a few reports about the outcome of that treatment. In this study, the outcome of free fat grafts for congenital hand and foot differences was investigated. METHODS: Fourteen bones with longitudinal epiphyseal bracket, 3 wrists with Madelung deformity, and 5 cases of osseous syndactyly were treated with free fat graft with osteotomy, physiolysis, or separation of osseous syndactyly. Of the fourteen bones with longitudinal epiphyseal bracket, 9 were treated with open wedge osteotomy with free fat graft and 5 with physiolysis and free fat graft. The Madelung deformity was treated with physiolysis with free fat graft. For osseous syndactyly, syndactyly release with free fat graft was performed five times on four hands. RESULTS: In the fourteen cases with longitudinal epiphyseal bracket, lateral deviation improved in all except two cases after surgery. The average lateral deviation angle changed from 32.5 degrees before surgery to 15.2 degrees after surgery. The average improvement of the lateral deviation angle was 12.2 degrees in the osteotomy group and 20.6 degrees in the physiolysis group. The mean ratio of improvement of the lateral deviation angle to the lateral deviation angle before surgery was 39.4% in the osteotomy group and 51.2% in the physiolysis group. The Madelung deformity improved after surgery in two cases but there was no improvement in one case. For these conditions, the results were not good enough when surgery was done after age 13 or at age four for severely hypoplastic brachymesophalangy. Of the 5 cases of osseous syndactyly, reunion of the separated bones occurred in one case. The grafted free fat should be deep enough to cover the osteotomy site of the bones to prevent reunion of the separated bones. CONCLUSIONS: Physiolysis and free fat graft performed during the growth period can correct the deviation due to longitudinal epiphyseal bracket and Madelung deformity. Free fat graft is also useful to prevent reunion of the bones after separation of osseous syndcatyly, if the grafted fat is securely filled into the space between the separated bones.
Adipose Tissue/*transplantation
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Adolescent
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Child
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Child, Preschool
;
Female
;
Fingers/*abnormalities/surgery
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Foot Deformities, Congenital/surgery
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Hallux Varus/surgery
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Hand Deformities, Congenital/*surgery
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Humans
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Male
;
Osteotomy
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Statistics, Nonparametric
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Syndactyly/*surgery
;
Treatment Outcome
9.Free Fat Graft for Congenital Hand Differences.
Toshihiko OGINO ; Daisuke ISHIGAKI ; Hiroshi SATAKE ; Kousuke IBA
Clinics in Orthopedic Surgery 2012;4(1):45-57
BACKGROUND: Free fat graft has been used for the treatment of congenital hand differences. However, there have been a few reports about the outcome of that treatment. In this study, the outcome of free fat grafts for congenital hand and foot differences was investigated. METHODS: Fourteen bones with longitudinal epiphyseal bracket, 3 wrists with Madelung deformity, and 5 cases of osseous syndactyly were treated with free fat graft with osteotomy, physiolysis, or separation of osseous syndactyly. Of the fourteen bones with longitudinal epiphyseal bracket, 9 were treated with open wedge osteotomy with free fat graft and 5 with physiolysis and free fat graft. The Madelung deformity was treated with physiolysis with free fat graft. For osseous syndactyly, syndactyly release with free fat graft was performed five times on four hands. RESULTS: In the fourteen cases with longitudinal epiphyseal bracket, lateral deviation improved in all except two cases after surgery. The average lateral deviation angle changed from 32.5 degrees before surgery to 15.2 degrees after surgery. The average improvement of the lateral deviation angle was 12.2 degrees in the osteotomy group and 20.6 degrees in the physiolysis group. The mean ratio of improvement of the lateral deviation angle to the lateral deviation angle before surgery was 39.4% in the osteotomy group and 51.2% in the physiolysis group. The Madelung deformity improved after surgery in two cases but there was no improvement in one case. For these conditions, the results were not good enough when surgery was done after age 13 or at age four for severely hypoplastic brachymesophalangy. Of the 5 cases of osseous syndactyly, reunion of the separated bones occurred in one case. The grafted free fat should be deep enough to cover the osteotomy site of the bones to prevent reunion of the separated bones. CONCLUSIONS: Physiolysis and free fat graft performed during the growth period can correct the deviation due to longitudinal epiphyseal bracket and Madelung deformity. Free fat graft is also useful to prevent reunion of the bones after separation of osseous syndcatyly, if the grafted fat is securely filled into the space between the separated bones.
Adipose Tissue/*transplantation
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Adolescent
;
Child
;
Child, Preschool
;
Female
;
Fingers/*abnormalities/surgery
;
Foot Deformities, Congenital/surgery
;
Hallux Varus/surgery
;
Hand Deformities, Congenital/*surgery
;
Humans
;
Male
;
Osteotomy
;
Statistics, Nonparametric
;
Syndactyly/*surgery
;
Treatment Outcome
10.Clinical analysis of 73 cases of macrodactyly.
Jing-Heng WU ; Guang-Lei TIAN ; Jun-Hui ZHAO ; Chun LI ; You-Le ZHANG ; Yong-Wei PAN
Chinese Journal of Surgery 2008;46(7):514-517
OBJECTIVETo analyze the clinical characteristics of 73 cases of macrodactyly.
METHODSReview the incidence, distribution, characteristic, X-rays, pathogenesis and treatment of involved digits on the base of the clinical documents of 73 macrodactyly which were treated from 1965 to 2006. Twenty-eight cases had been followed-up.
RESULTSUnilateral involved 71 cases, bilateral involved 2 cases. In upper deformities, the most involved digit was the index finger, followed by thumb and middle finger enlargement. In lower deformities, the second toes were affected more. There were 12 cases of static macrodactyly, which were all presented at or soon after birth. Sixty-one cases were progressive macrodactyly: 39 cases presented at birth; 17 cases occurred at about 2 years old; 5 cases were found after age 2. Thirty-seven cases of progressive type presented digital deviation; 3 cases associated with syndactyly; 16 cases complicated with thenar eminence hypertrophy; 8 cases of multiple-digit involved combined with palm and forearm hyperplasia.
CONCLUSIONSMacrodactyly in hand has a preference for the median nerve territory, mainly involving index, thumb and middle finger. Pedal macrodactyly prefers medial plantar nerve territory, the second toe is the most commonly affected. The progressive macrodactyly is more common than static. It may present at birth and combine with syndactyly, digital deviation, thenar eminence hypertrophy, palm and forearm hyperplasia.
Adolescent ; Adult ; Aged ; Child ; Child, Preschool ; Female ; Fingers ; abnormalities ; Follow-Up Studies ; Foot Deformities, Congenital ; surgery ; Hand Deformities, Congenital ; surgery ; Humans ; Infant ; Male ; Middle Aged ; Retrospective Studies ; Toes ; abnormalities ; Treatment Outcome