Humans ; Soft Tissue Injuries ; surgery ; Surgical Flaps ; Thumb ; abnormalities ; surgery

Metatarsal Bones/surgery* ; Thumb/abnormalities* ; Metacarpal Bones/surgery* ; Plastic Surgery Procedures

OBJECTIVETo investigate the optimal surgical timing and treatment of congenital duplication of the thumb in children.

METHODSA clinical study was performed on 154 fingers of the 132 patients (including 85 males, 47 females;mean age (1.53 +/- 2.47) years; ranged from 2 months to 13 years). Duplicated thumbs were surgically treated from December 2007 to February 2012. All patients underwent detailed physical examination and radiological assessment. Surgical methods should be selected according to the age, Wassel classification and deformity. The operation steps included resection of the most hypoplastic thumb, followed by skin flap plasty, tendon shift (transplantation) , reconstruction of collateral ligament and articular capsule. 11 cases over the age of 6 underwent osteotomy discretion as appropriate.

RESULTSA total of 117 fingers of the 104 patients were followed up for an average 36. 7 months (range,6-55 months). We adopted upgrade Tada standard to evaluate the follow-up results as excellent in 77 thumbs, good in 21 thumbs, fair in 15 thumbs and poor in 4 thumbs. Three thumbs appeared secondary angular deformity 2 years after operation and one thumb appeared residual osteoepiphysis in the radial side of metacarpophalangeal joint 3 years after operation. The appearance and the function were almost normal after second operation.

CONCLUSIONSThe optimal surgical timing of congenital duplication of thumb should be based on the appearance of thumb ossification center. The surgical timing of Wassel type- I and II should be chosen at 1. 5 years old when the ossification center of distal phalanx appears, Wassel type-III and IV should be chosen at 1 year old when the ossification center of proximal phalanx appears, Wassel type-V and VI should be chosen at 2. 5 years old when the ossification center of metacarpal appears, and Wassel type-VII should be chosen at 2. 5 years old. The surgical method should be selected on individualized principle. The key points are reconstruction of collateral ligament, tendon and articular capsule and correction of ulnar deviation (or radial deviation).

Adolescent ; Child ; Child, Preschool ; Female ; Hand Deformities ; surgery ; Humans ; Infant ; Male ; Polydactyly ; surgery ; Reconstructive Surgical Procedures ; methods ; Thumb ; abnormalities ; surgery

OBJECTIVETo investigate an effective therapeutic method for the secondary deformity after the correction of the Wassel type IV thumb duplication.

METHODS9 cases of Wassel W-D Complex thumb deformities in children with postoperative secondary deformity, including 6 males and 3 female, were treated. The age ranged from 2.0 to 14 years old with an average of 5.3 years old. During the operation, the anatomical structure was dissected to observe the structure and alignment of the flexor tendon as well as anatomical structure of the joint. In the meantime, the flexor pollicis longus tendon was shifted, A2 pulley was reconstructed, joint capsule was released and contracted, the end point of thenar was shifted. Kirschner wires fixation were used for about 4-5 weeks, the brace fixation for about 3 months.

RESULTSAll the patients had radial side skin contracture of the interphalangeal joint, radial deviation of the thumb tip, radial side contracture and ulnar relaxation of the joint capsule. Flexor hallucis longus tendon was located in front of the radial side of the proximal phalanx, with no wrapped sheath or A2 pulley. Flexor hallucis longus tendon was attached to the thumb tip substrate, of which 1/3 was located in the center and 2/3 in the radial side. The thumb tip rotated about 10 degrees-15 degrees to the radial side. The patients were followed up for 6-38 months, with an average of 24 months. We adopted Tada standard to evaluate the follow-up results as excellent in 7 cases, good in 1 case, poor in 1 case.

CONCLUSIONSSoft tissue reconstruction for the secondary deformity after the correction of the Wassel type IV-D thumb duplication is an effective method. Application of the brace after removal of Kirschner wires has an important role in preventing the secondary deformity.

Adolescent ; Child ; Child, Preschool ; Female ; Hand Deformities ; etiology ; surgery ; Humans ; Male ; Reconstructive Surgical Procedures ; methods ; Syndactyly ; surgery ; Thumb ; abnormalities ; surgery

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

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

Pollicization substitutes a functioning finger for a deficient thumb. The most indication is thumb hypoplasia with absence or instability of the carpometacarpal joint. However, there are additional causes that may negate thumb function, such as trauma, macrodactyly, multi-fingered hand, and a mirror hand. The technique of pollicization represents a consolidation of contributions from surgeons over the last 100 years. A meticulous stepwise approach from incision to closure is necessary to optimize outcome. Following pollicization, cortical plasticity and motor relearning play a pivotal role in function following pollicization with connections and adjacent sprouting from nearby cortical and/or subcortical territories. Occupational therapy is necessary to encourage large object acquisition followed by smaller objects and ultimately fine pinch. Pollicization is more reliable in patients with isolated thumb hypoplasia and a mobile index finger with robust extrinsic and intrinsic muscle-tendon units compared to and patients with radial forearm deficiencies and diminished index mobility.
Fingers/abnormalities/*surgery ; Hand Deformities, Congenital/rehabilitation/*surgery ; Humans ; Orthopedic Procedures/*methods/rehabilitation ; Reconstructive Surgical Procedures/*methods/rehabilitation ; Thumb/abnormalities/*surgery

Pollicization substitutes a functioning finger for a deficient thumb. The most indication is thumb hypoplasia with absence or instability of the carpometacarpal joint. However, there are additional causes that may negate thumb function, such as trauma, macrodactyly, multi-fingered hand, and a mirror hand. The technique of pollicization represents a consolidation of contributions from surgeons over the last 100 years. A meticulous stepwise approach from incision to closure is necessary to optimize outcome. Following pollicization, cortical plasticity and motor relearning play a pivotal role in function following pollicization with connections and adjacent sprouting from nearby cortical and/or subcortical territories. Occupational therapy is necessary to encourage large object acquisition followed by smaller objects and ultimately fine pinch. Pollicization is more reliable in patients with isolated thumb hypoplasia and a mobile index finger with robust extrinsic and intrinsic muscle-tendon units compared to and patients with radial forearm deficiencies and diminished index mobility.
Fingers/abnormalities/*surgery ; Hand Deformities, Congenital/rehabilitation/*surgery ; Humans ; Orthopedic Procedures/*methods/rehabilitation ; Reconstructive Surgical Procedures/*methods/rehabilitation ; Thumb/abnormalities/*surgery

OBJECTIVETo study the classification and individualized treatment of the terminal phalanx of thumb duplication.

METHODSFrom Apr. 2003 to Dec. 2012, 76 patients with 77 involved thumbs duplication at the level which is distal to the interphalangeal joint were retrospectively studied. Based on the morphology (the nail width and the thumb circumference) and the deviation of the thumb, we classified the terminal phalanx of thumb duplication into 5 types as Type A (no bony connection called floating thumb), Type B(asymmetry and no deviation), Type C(asymmetry and deviation), Type D (symmetry and no deviation) and Type E(symmetry and deviation). Different surgical procedures were selected according to different types. Simple excision of the smaller thumb was adopted for Type A case. Removement of the smaller thumb (usually the radial) and of the collateral ligament of the interphalangeal joint were selected for Type B. Removement of the smaller thumb (usually the radial) and reconstruction of the collateral ligament of the interphalangeal joint, as well as corrective osteotomies at the neck of the proximal phalanx were performed for Type C. The modified Bilhaut-Cloquet procedure with reconstruction of the collateral ligament of the interphalangeal joint were adopted in Type D. The classical Bilhaut-Cloquet procedure, or the modified Bilhaut-Cloquet procedure with reconstruction of the collateral ligament of the interphalangeal joint and corrective osteotomies at the neck of the proximal phalanx were performed in Type E. The results were assessed by an evaluation form for thumb duplication by the Japanese Society for Surgery of the Hand.

RESULTSAccording to our new classification standard, there were 3 cases with Type A duplicated thumbs, 36 with Type B, 13 with Type C, 15 with Type D, 10 with Type E. All the 76 patients underwent the individualized surgical treatment. The patients were followed up for 6-60 months. According to the evaluation form, excellent results were achieved in 66 thumbs, good in 9 thumbs and fair in 2 thumbs.

CONCLUSIONSThe new classification could comprehensively describe the clinical features of the terminal phalanx of congenital thumb duplication. Individualized therapy, including basic and repeated surgical procedure could be adopted for each type with satisfactory results.

Child ; Collateral Ligaments ; surgery ; Finger Phalanges ; surgery ; Humans ; Orthopedic Procedures ; methods ; Osteotomy ; methods ; Polydactyly ; classification ; surgery ; Reconstructive Surgical Procedures ; methods ; Retrospective Studies ; Thumb ; abnormalities

BackgroundHand injuries are very common in sports, such as skiing and ball sports. One of the major reasons causing hand and finger deformity is due to ligament and tendon injury. The aim of this study was to investigate if the high-resolution 3T magnetic resonance imaging (MRI) can demonstrate the complex anatomy of the fingers and thumb, especially the tendons and ligaments, and provide the accurate diagnosis of clinically important fingers and thumbs deformity due to ligamentous and tendinous injuries during sport activities.

MethodsSixteen fresh un-embalmed cadaveric hands were harvested from eight cadavers. A total of 20 healthy volunteers' hands and 44 patients with fingers or thumb deformity due to sports-related injuries were included in this study. All subjects had MR examination with T1-weighted images and proton density-weighted imaging with fat suppression (PD FS) in axial, coronal, and sagittal plane, respectively. Subsequently, all 16 cadaveric hands were sliced into 2-mm thick slab with a band saw (six in coronal plane, six in sagittal plane, and four in axial plane). The correlation of anatomic sections and the MRI characteristics of tendons of fingers and the ulnar collateral ligament (UCL) at the metacarpal phalangeal joint (MCPJ) of thumb between 20 healthy volunteers and 44 patients (confirmed by surgery) were analyzed.

ResultsThe normal ligaments and tendons in 16 cadaveric hands and 20 volunteers' hands showed uniform low-signal intensity on all the sequences of the MRI. Among 44 patients with tendinous and ligamentous injuries in the fingers or thumb, 12 cases with UCL injury at MCPJ of the thumb (Stener lesion = 8 and non-Stener lesion = 4), 6 cases with the central slip injury, 12 cases with terminal tendon injury, and 14 cases with flexor digitorum profundus injury. The ligaments and tendons disruption manifested as increased signal intensity and poor definition, discontinuity, and heterogeneous signal intensity of the involved ligaments and tendons.

ConclusionsSports injury-related fingers and thumb deformity are relatively common. MRI is an accurate method for evaluation of the anatomy and pathologic conditions of the fingers and thumb. It is a useful tool for accurate diagnosis of the sports-related ligaments and tendons injuries in hand.

Adult ; Athletic Injuries ; diagnosis ; surgery ; Female ; Hand Deformities ; diagnosis ; surgery ; Humans ; Ligaments ; diagnostic imaging ; surgery ; Magnetic Resonance Imaging ; Male ; Metacarpophalangeal Joint ; diagnostic imaging ; surgery ; Middle Aged ; Soft Tissue Injuries ; diagnostic imaging ; surgery ; Tendon Injuries ; diagnostic imaging ; surgery ; Thumb ; abnormalities ; surgery