Application of Digital Artery Transposition in the Replantation of Severed Fingers with Vessel Defects and its Influence on Nerve Function and Joint Function Recovery.

OBJECTIVE: To investigate the application of digital artery transposition in replanting severed fingers with vascular defects and its impact on nerve and joint function recovery. METHODS: 200 patients who received replantation of severed fingers were randomly divided into artery transposition group (n = 100) and vein transplantation group (n = 100). The digital artery transposition technique was used in the artery transposition group, and the autologous vein bridging technique was used in the vein transplantation group. The clinical efficacy and survival rate of severed fingers were compared between the two groups. RESULTS: The clinical excellent and good rate in artery transposition group was significantly higher than that in vein transplantation group (P < 0.05). CONCLUSION: The transposition of digital artery is effective and safe in replantation of severed fingers with vascular defects.

A novel nerve block technique for nail surgery.

In pediatric patients, nail unit anesthesia is frequently required for procedures including matrixectomy or nail avulsion. However, nail unit anesthesia is very painful and requires a significant amount of time to take complete effect, causing a great deal of distress for most pediatric patients. By targeting the palmar and dorsal digital nerves in the distal part of the fingers, our method enables fast, simple, and less painful anesthesia.

Repair of distal finger soft-tissue defects with free fibular great toe neurovascular flaps.

BACKGROUND: This work aimed to investigate the change in fingerprint depth and the recovery rule of fingerprint biological recognition function after repairing finger abdominal defects and rebuilding fingerprint with a free flap. METHOD: From April 2018 to March 2023, we collected a total of 43 cases of repairing finger pulp defects using the free flap of the fibular side of the great toe with the digital nerve. After surgery, irregular follow-up visits were conducted to observe fingerprint clarity, perform the ninhydrin test or detect visible sweating with the naked eye. We recorded fingerprint clarity, nail shape, two-point discrimination, cold perception, warm perception and fingerprint recognition using smartphones. The reconstruction process of the repaired finger was recorded to understand the changes in various observation indicators and their relationship with the depth of the fingerprint. The correlation between fingerprint depth and neural repair was determined, and the process of fingerprint biological recognition function repair was elucidated. RESULT: All flaps survived, and we observed various manifestations in different stages of nerve recovery. The reconstructed fingerprint had a clear fuzzy process, and the depth changes of the fingerprint were consistent with the changes in the biological recognition function curve. CONCLUSION: The free flap with the digital nerve is used to repair finger pulp defects. The reconstructed fingerprint has a biological recognition function, and the depth of the fingerprint is correlated with the process of nerve repair. The fingerprint morphology has a dynamic recovery process, and it can reach a stable state after 6-8 months.

Amputated Digit Replantations: Critical Digit Ischemia Timing, Temperature, and Other Predictors of Survival.

INTRODUCTION: A common consideration for replantation success is the ischemia time following injury and the preservation temperature. A classic principle within the hand surgery community describes 12 hours of warm ischemia and 24 hours of cold ischemia as the upper limits for digit replantation; however, these limits are largely anecdotal and based on older studies. We aimed to compare survival data from the large body of literature to aid surgeons and all those involved in the replantation process in hopes of optimizing success rates. METHODS: The PubMed database was queried on April 4th, 2023, for articles that included data on digit replantation survival in terms of temperature of preservation and ischemia time. All primary outcomes were analyzed with the Mantel-Haenszel method within a random effects model. Secondary outcomes were pooled and analyzed using the chi-square statistic. Statistical analysis and forest plot generation were completed with RevMan 5.4 software with odds ratios calculated within a 95% confidence interval. RESULTS: Our meta-analysis identified that digits preserved in cold ischemia for over 12 hours had significantly higher odds of replantation success than the amputated digits replanted with 0-12 hours of warm ischemia time ( P ≤ 0.05). The odds of survival in the early (0-6 hours) replantation group were around 40% greater than the later (6-12 hours) replantation group ( P ≤ 0.05). Secondary outcomes that were associated with higher survival rates included a clean-cut amputation, increased venous and arterial anastomosis, a repair that did not require a vein graft, and replants performed in nonsmokers ( P ≤ 0.05). DISCUSSION: Overall, these findings suggest that when predicting digit replantation success, time is of the essence when the digit has yet to be preserved in a cold environment. This benefit, however, is almost completely diminished when the amputated digit is appropriately maintained in a cold environment soon after injury. In conclusion, our results suggest that there is potential for broadening the ischemia time limits for digit replant survival outlined in the literature, particularly for digits that have been stored correctly in cold ischemia.

Reversed distal laterodigital adipofascial flap for nail-bed reconstruction.

BACKGROUND: Lesions of the distal phalanges of the fingers frequently involve the nail bed. There are few therapeutic options for nail-bed reconstruction and they often lead to painful scars and onychodystrophy. We present our experience with the distal adipofascial laterodigital reverse flap. METHODS: Fifteen patients (average age 46.33 years, range 28-73) with tumors or traumatic injuries (crush injuries, nail avulsion, and partial fingertip amputations) of the nail bed, underwent digital reconstruction through the distal adipofascial laterodigital reverse flap from June 2018 to August 2019. The size of the fingertip defect covered with the flap was ranged between 1.1 × 1.1 and 1.6 × 1.2 cm (average size 1.4 × 1.2 cm). The flap was harvested enrolling subcutaneous tissue from the lateral aspect of the middle and distal phalanx from the less damaged side. RESULTS: The average size of the harvested flaps was 1.3 × 1.2 cm (range 1.1 × 1.0 to 1.4 × 1.1 cm). All adipofascial flaps survived entirely and the nail bed healed in all patients, with an average healing time of 21 days and a subsequent regrowth of the nail. The follow up ranged from 6 to 12 months, with a mean of 7 months. CONCLUSIONS: The distal reverse adipofascial flap provides a very versatile and reliable coverage of the distal finger and its nail bed. It is a rapid and reproducible surgical procedure with poor morbidity for the donor site. LEVEL OF EVIDENCE: IV.

Reconstruction of finger contracture with an expanded first dorsal metacarpal artery perforator flap: A case report.

Volar finger contractures can be challenging for plastic surgeons. The dorsal metacarpal artery perforator (DMCAP) flap is frequently used to cover bones, tendons, and neurovascular structures in the dorsum of the hand after trauma and burns as an alternative to grafts and free flaps. We aimed to report volar finger defect reconstruction with expanded DMCAP flap. A 9-year-old male patient applied to our clinic with the complaint of inability to open the second finger of the left hand after an electrical burn that caused proximal and distal interphalangeal joints flexion contractures. Reconstruction was planned for the patient with a two-session expanded first DMCAP flap. A 16 mL 5 × 3 cm tissue expander was placed in the prepared area from the vertical incision in the first session. The tissue expander was inflated with 4 mL of isotonic solution. The DMCA area was enlarged 6 weeks later by giving 22 mL of isotonic solution. After the pedicle dissection, the 9 × 3 cm DMCAP flap was elevated by dissection over the paratenon. With 180° of rotation, the left-hand second finger was adapted to the 6 × 2 cm defect area on the volar face. The flap donor site was closed primarily. The operation was terminated by placing the hand on a protective splint. There were no complications in the flap in the postoperative 6 months. The patient was referred to the physical therapy and rehabilitation department. As a result, an expanded DMCAP flap may cover volar tissue defects up to the distal phalanx. This report may present the first case in which volar finger contracture reconstruction was performed with an expanded first DMCAP flap after an electrical burn in a pediatric patient.

Repair of Finger Pulp Defect and Sensory Reconstruction Using Reverse Homodigital Artery Island Flap With Palmar Cutaneous Branches of the Proper Digital Nerve.

OBJECTIVE: To illustrate the clinical outcomes of the reverse digital proper artery island flap with anastomosing the palmar cutaneous branches of the proper digital nerve for the reconstruction of finger pulp defects. METHODS: From December 2007 to December 2017, a total of 20 patients with finger pulp defects were treated with reverse digital proper artery island flap for innervated construction. Functional outcomes, aesthetic appearance, and complications were evaluated. Functional outcomes were assessed according to range of motion, sensory grade (S0-S4), static 2-point discrimination, Semmes-Weinstein monofilament test, and Cold Intolerance Severity Score. Aesthetic appearance was evaluated according to the Michigan Hand Outcomes Questionnaire. RESULTS: All flaps survived completely without any complications, and all patients were followed up for at least 12 months. The average static 2-point discrimination, Semmes-Weinstein monofilament, and Cold Intolerance Severity Score results of the injured fingers were 6.35 mm (range, 5-8 mm), 3.64 (range, 2.83-4.17), and 19 (range, 8-24), respectively. All patients achieved recovery in sensation from S3+ to S4. The active ranges of motion of the metacarpophalangeal, proximal interphalangeal, and distal interphalangeal joints of the affected fingers were satisfactory. Based on the Michigan Hand Outcomes Questionnaire, 11 patients were strongly satisfied, and 9 were satisfied with the appearance of the injured finger. CONCLUSIONS: The reverse digital proper artery island flap with anastomosing the palmar cutaneous branches of the proper digital nerve is an effective and reliable alternative for the reconstruction of finger pulp defect. In the recovery of sensation, this flap leads to satisfactory effects.

The Efficacy of Subdermal Pocket Procedure in Fingertip Replantation With Composite Graft.

BACKGROUND: Microsurgical replantation of fingertip amputation is sometimes difficult because of a lack of available vessels. Composite grafting is an alternative method for nonvascularized replantation, but it has a limited success rate. The subdermal pocket (SDP) procedure is proposed to increase the survival of composite graft. AIM AND OBJECTIVES: We aimed to compare the success rate of the composite graft used in fingertip replantation with or without application of the SDP procedure. PATIENTS AND METHODS: From 2000 to 2020, 29 fingertip amputations (28 complete amputations, 1 near-complete amputation) from 28 patients were included. Five of the fingertip amputations were classified as Ishikawa zone Ib and 24 as Ishikawa zone II. Seventeen fingers underwent replantation with composite graft plus SDP procedure, whereas the remaining 12 fingers received replantation with composite graft only. RESULTS: The overall success rate was 70.59% (12 of 17) in the SDP group and 41.67% (5 of 12) in the composite graft-only group ( P = 0.119; odds ratio, 3.36). In the subgroup of Ishikawa zone II fingertip amputations, the success rate was 66.67% (10 of 15) in the SDP group and 22.22% (2 of 9) in the composite graft-only group ( P = 0.035; odds ratio, 7.0). CONCLUSIONS: The SDP procedure could increase the success rate of fingertip replantation with composite graft, especially for Ishikawa zone II amputations.

An Evolution of the Surgical Management of Synpolydactyly: A Case Series of 21 Hands.

INTRODUCTION: Synpolydactyly is a rare congenital anomaly characterized by syndactyly and polydactyly in the central hand. Limited treatment guidelines exist for this complex condition. METHODS: A retrospective review of synpolydactyly patients was conducted at a large, tertiary pediatric referral center to describe our surgical experience and evolution of management. The Wall classification system was used to categorize cases. RESULTS: Eleven patients (21 hands) with synpolydactyly were identified. Most of the patients were White and had at least one first-degree relative who also had synpolydactyly. The Wall classification yielded the following results: 7 type 1A hands, 4 type 2B hands, 6 type 3 hands, and 4 uncategorizable hands. Each patient had an average of 2.6 surgeries and an average follow-up time of 5.2 years. The rates of postoperative angulation and flexion deformities were 24% and 38%, respectively, with many of these cases also demonstrating preoperative alignment abnormalities. These cases often required additional surgeries including osteotomies, capsulectomies, and/or soft tissue releases. The rate of web creep was 14% with 2 of these patients requiring revision surgery. Despite these findings, at the time of final follow-up, most patients had favorable functional outcomes, were able to engage in bimanual tasks, and were able to perform activities of daily living independently. CONCLUSIONS: Synpolydactyly is a rare congenital hand anomaly with a significant degree of variability in clinical presentation. The rates of angulation and flexion deformities as well as web creep are not insignificant. We have learned to prioritize correcting contractures, angulation deformities, and skin fusion, over simply trying to delete the "extra" number of bones as this may destabilize the digit(s).

Congenital Palmar Duplication of the Index Finger: Ventral Polydactyly With Ventral Dimelia.

This report describes the case of a 10-month-old boy who presented with a duplicated index finger enveloped by palmar skin on the palmar side of the first web of the left hand. He was healthy without any other abnormalities except the hand anomaly. Surgical resection of the extra finger was performed with triangular flap at 15 months of age. The resected finger was composed of only palmar components: skin without nail or hair; flexor tendons; and digital nerves branching from the median nerve. Histological examination of the specimen demonstrated similar structures on both palmar and dorsal sides, that is, ridged, hairless, and glabrous skin with a high number of epithelial layers and thick corneous stratum and similar shaped tendons inserted into the symmetrical phalanx. This appears to be the first report in literature of an ectopic palmar index finger, a ventral polydactyly with ventral dimelia.

The Effect of Flexor Digitorum Profundus Repair Position Relative to Camper Chiasm on Tendon Biomechanics.

PURPOSE: The purpose of this study was to investigate the impact of repairing a zone II flexor digitorum profundus (FDP) laceration anatomically versus extra-anatomically on tendon loads and work of flexion (WOF). METHODS: Twenty digits from 5 cadaveric specimens were tested using an in vitro active finger motion simulator under 2 FDP tendon repair conditions: anatomic and extra-anatomic. Tensile loads in FDP and flexor digitorum superficialis (FDS), WOF, and total active finger range of motion (ROM) were measured using in-line load cells and electromagnetic tracking, respectively. RESULTS: The anatomic repairs had no effect on tendon loads or WOF for either FDP or FDS. The extra-anatomic repairs increased FDP loads by 32% and decreased FDS loads by 9% compared with those in the intact condition. This pattern was similar for WOF following extra-anatomic repairs, which increased FDP WOF by 31% and decreased FDS WOF by 18%. Comparing the 2 repairs, FDP loads and WOF were 25% and 22% greater, respectively, with extra-anatomic repairs compared with anatomic repairs, with no significant change in FDS. Total active ROM was not affected by either repair. CONCLUSIONS: In this in vitro cadaveric model, extra-anatomic repairs of FDP increased tendon loads and WOF compared with anatomic repairs. CLINICAL RELEVANCE: On the basis of this study, reconstitution of the anatomic relationship of FDP and FDS at the Camper chiasm during the repair of zone II flexor tendon lacerations is recommended.

Outcome After Reconstruction of 43 Digital Nerve Defects With Muscle-in-Vein Conduits.

PURPOSE: Muscle-in-vein conduits provide an alternative for bridging digital nerve defects when tension-free suture is not possible. Low donor site morbidity and absence of additional costs are favorable advantages compared with autografts or conduits. METHODS: We retrospectively reviewed 37 patients with 43 defects of proper palmar digital nerves. Primary repair by muscle-in-vein conduits was performed in 22 cases, whereas 21 cases underwent secondary reconstruction. Recovery of sensibility was assessed using static and moving 2-point discrimination and Semmes-Weinstein monofilament testing. Results were compared with the contralateral side serving as a control. Outcome data were stratified according to international guidelines and evaluated for differences in terms of age, gap length, time of reconstruction, and concomitant injuries. RESULTS: The median gap length was 20 mm (range, 9-60 mm). After a median follow-up of 25.0 months (interquartile range, 29.0 months), the median static and moving 2-point discrimination were 7.0 mm and 5.0 mm (interquartile range, 3.0 mm), respectively. The evaluation with Semmes-Weinstein monofilament revealed a median reduction of sensibility of 2 levels compared with the contralateral side. According to the American Society for Surgery of the Hand guidelines, 81.4% of the results were classified as excellent or good, whereas fair and poor results were noted in 9.3% of the cases each. The modified Highet and Sander's criteria rated complete clinical recovery in 13 cases; 23 results were regarded as S3+. CONCLUSIONS: Muscle-in-vein conduits can be considered for primary and secondary reconstruction of digital nerves. Successful sensory recovery in terms of measurable 2-point discrimination was achieved in 91% of all cases. TYPE OF STUDY/LEVEL OF EVIDENCE: Therapeutic IV.

Outcomes of Wide-Awake Flexor Tendon Repairs in 58 Fingers and 9 Thumbs.

PURPOSE: The purpose of this study was to present the outcomes of wide-awake flexor tendon repairs in zones 1 and 2 in a major hand trauma referral center. METHODS: Zone 1 and zone 2 wide-awake flexor tendon repairs performed between August 2018 and March 2020 were analyzed retrospectively. Outcomes were assessed by the original Strickland-Glogovac criteria for fingers and Buck-Gramcko scoring system for thumbs. Further descriptive analysis of the groups according to potential negative factors, such as injury mechanism, concomitant neurovascular injury, and the extent of injury in zone 2, were performed. RESULTS: A total of 94 tendons were repaired in 67 digits (58 fingers, 9 thumbs) of the 61 patients included in the study. Satisfactory results were achieved in 89.6% of the fingers and 77.8% of the thumbs. Intraoperative gapping was corrected after active digital extension-flexion test in 1 patient. Rupture was seen in 1 patient for a rate of 1.5%. The tenolysis indication rate was 5.1% for fingers and 11.1% for thumbs. CONCLUSIONS: In our series, functional outcome scores, tenolysis, and rupture rates remained similar with findings in the literature. The outcome of a flexor tendon repair is influenced by many factors that cannot be controlled intraoperatively. To assess the effect of performing the repair in a wide-awake setting on the outcome, clinical trials with large patient groups are needed. TYPE OF STUDY/LEVEL OF EVIDENCE: Therapeutic IV.

The Role of Intravenous Heparin Following Digital Replantation: A Retrospective Cohort Study on 1,155 Digits.

PURPOSE: The purpose of this study was to determine if the use of postoperative therapeutic dose intravenous heparin (POTDIVH) was indicated in digital replantation and revascularization by assessing digit survival and complications associated with heparin. METHODS: All patients with amputation distal to the carpal tunnel treated at our center from 2004 to 2020 were included for chart review. Digit survival and complication rates were compared between patients who received POTDIVH (group A) and those who did not (group B). Logistic regression analysis and subgroup analysis were conducted. RESULTS: A total of 795 patients (1,155 digits) were included in this study (248 patients/374 digits in group A and 547 patients/781 digits in group B). The overall revascularization and replantation success rate was 79.9% in the POTDIVH group and 92.8% in the non-POTDIVH group. In our retrospective regression and subgroup analyses, group A demonstrated increased odds of failure compared with group B and was associated with increased bleeding-related complications. Subgroup analyses stratified by the mechanism of injury and vein grafting also showed a significantly decreased survival in the POTDIVH group. CONCLUSIONS: Our retrospective data seem to indicate that heparin in digit replantation and revascularization appears to have no benefit on digit survival across all subgroups, including crush and avulsion injuries, and is associated with a significantly increased rate of complications. TYPE OF STUDY/LEVEL OF EVIDENCE: Therapeutic IV.

Flexor Tendon Repair in Zone II Augmented With an Externalized Detensioning Suture: Protected Flexor Tendon Repair.

Flexor tendon repair in zone II benefits from early finger motion to prevent stiffness. This article presents a technique that serves to augment a zone II flexor tendon repair with an externalized detensioning suture that can be used following any commonly employed repair method. This simple technique enables early active motion and is suited for patients who are less likely to be compliant after surgery or when the soft-tissue injury to the finger and hand is substantial. Although this technique substantially strengthens the repair, a possible drawback is that the tendon excursion distal to the repair is limited until the externalized suture is removed, which may lead to less motion of the distal interphalangeal than what may have occurred without the detensioning suture.

The Effect of Epiphysiodesis on the Longitudinal Bone Growth of Hands or Feet in Children With Macrodactyly Based on Long-term Quantitative Analysis.

BACKGROUND: Treatment protocols for macrodactyly have not been elucidated due to its rarity and variety of clinical manifestations. This study aims to share our long-term clinical results of epiphysiodesis in children with macrodactyly. METHODS: A retrospective chart review was performed for 17 patients with isolated macrodactyly treated with epiphysiodesis over 20 years. Length and width of each phalanx in both the affected finger and the corresponding unaffected finger in the contralateral hand were measured. Results were presented in ratios of the affected to unaffected side for each phalanx. Measuring of length and width of phalanx was performed preoperatively and postoperatively at 6, 12, and 24 months, and the last follow-up session. Postoperative satisfaction scoring was done with visual analogue scale. RESULTS: The mean follow-up period was 7 years and 2 months. In the proximal phalanx, length ratio significantly decreased compared with preoperative state at after more than 24 months, in the middle phalanx after 6 months, in the distal phalanx after 12 months. When classified by the growth patterns, the progressive type showed significant decrease in length ratio at after 6 months, and the static type after 12 months. Patients were overall satisfied with the results. CONCLUSION: Epiphysiodesis effectively regulated longitudinal growth with different degree of control for different phalanges in the long-term follow-up.

Reconstruction of the central slip insertion of the extensor tendon with the partial slip of the flexor digitorum superficialis tendon.

INTRODUCTION: To introduce the surgical approach and clinical effect of transferring the partial slips of the flexor digitorum superficialis (FDS) tendon to reconstruct the insertion of the central slip of the extensor tendon (CSET) through an established bone tunnel (BT). MATERIALS AND METHODS: From April 2019 to March 2021, nine patients (six males and three females) with the CSET insertion rupture or defect were admitted to the institution and the CSET insertion was reconstructed with partial tendon slips on both sides of the FDS. The active range of motion of the interphalangeal joint of the affected finger was measured by a goniometer, the degree of pain was evaluated by visual analogue scale (VAS), and the grip strength of the affected limb was measured by an electronic hand dynamometer. RESULTS: The average postoperative follow-up was 12 months. No complications occurred. At the last follow-up, six of the patients were very satisfied and three were satisfied with their recovery. CONCLUSION: The reconstruction of the CSET insertion by transferring the partial tendon slips of the FDS seem to be safe and feasible with minimal invasion to the donor tendon. TYPE OF STUDY/LEVEL OF EVIDENCE: Therapeutic IV.

Long-term preservation of metacarpophalangeal joint function in traumatic defects by metatarsophalangeal osteochondral transplantation.

INTRODUCTION: The integrity of the metacarpophalangeal (MCP) joints is essential for finger and hand function. Preservation of range-of-motion is one of the aims in reconstruction of complex injuries to these joints. Osteochondral transplants have shown to be reliable in reconstruction of various joint defects. This series presents three patients with traumatic injuries to four MCP joints, which were reconstructed by seven avascular osteochondral transplants of metatarsophalangeal (MTP) joints. The joints were examined for radiographic signs of resorption or joint space narrowing, and if this would affect the joints' function in the long term. METHODS: In three patients (40, 45 and 48 years) with complex injuries to their MCP joints (one milling, two saw injuries), four joints were reconstructed by three metatarsal head and four osteochondral transplants of the base of the proximal toe phalanges. Beside the joint itself, various soft tissue defects were reconstructed in each patient. The patients were clinically and radiographically examined after 9, 6, respectively, 7 years. RESULTS: All patients were satisfied with the result without any pain in the MCP joints. Range-of-motion in the four affected joints rated 25, 60, 75, and 80°, DASH scores rated 13, 29, and 17, respectively. None of the patients complained of problems at their feet. Radiographic examination revealed moderate joint space narrowing in one of the four joints. In another patient, localized osteolysis was found around the screws' heads, so that the screws were removed 7 years post-op. CONCLUSIONS: Osteochondral transplants for reconstruction of MCP defects are able to preserve function in severely injured joints even in the long term. Joint space narrowing may occur, which is not accompanied by pain, however. Since localized osteolysis can cause screw head prominence, mid-term radiographic follow-up is necessary to prevent damage to the joint. In the long term, remaining bone stock may be adequate for total joint replacement.

Heterotopic Digital Replantation in Mutilating Hand Injuries: An Algorithmic Approach Based on 53 Cases and Literature Review.

BACKGROUND: Reconstruction of the mutilated hand is one of the most difficult challenges for hand microsurgeons. When multiple digits are amputated, orthotopic digital replantation of the available remnants may not adequately restore the hand function. In such cases, heterotopic digital replantation may provide a more functional reconstruction. METHODS: Between 1997 and 2018, 53 patients with mutilating hand injuries were treated with heterotopic digital replantation at our institution. A retrospective chart review was conducted to determine the details of the injury, indications for heterotopic digital replantation, and functional outcomes. RESULTS: In total, 173 digits were amputated from 53 patients (one patient suffered from bilateral hand injuries, so totally 54 hands). Sixty-eight digits underwent heterotopic digital replantation, 30 digits had orthotopic digital replantation, and 75 stumps were terminalized. The survival rate of digits treated by heterotopic digital replantation and orthotopic digital replantation was 83.8% (57/68) and 86.7% (26/30), respectively (p = 1). Tripod grip was achieved in 83.3% (45/54) of patients following replantation and optional secondary reconstructive surgeries. CONCLUSION: Heterotopic digital replantation is a practical and reliable method for achieving optimal hand function following mutilating hand injuries. The basic principles are to restore a functional thumb in the first instance, followed by at least two adjacent fingers against which the thumb can oppose. This method is particularly indicated when orthotopic digital replantation of the available amputated parts would yield a suboptimal result.

Repair of complex digital soft-tissue defects using a free composite ulnar artery perforator flap from the volar wrist.

Digital skin defects resulting from trauma are often associated with dysfunction of the digital nerve and the extensor and flexor tendons in the affected fingers. The repair of these complex tissue defects requires a graft containing multiple tissues that can be used to reconstruct the tendons and nerves and restore the skin. Such procedures can cause multiple injuries and significant damage to the donor site. The current study used a novel technique to repair complex dorsal and palmar digital soft-tissue defects. First, multiple tissues were cut and collected from the donor site. Then, part of the flexor carpi ulnaris tendon was transplanted to repair the tendon defect, and a medial antebrachial cutaneous nerve graft was used to repair the digital nerve defect. Finally, a skin flap was used to cover the skin defect. This paper reports on 31 cases of complex soft-tissue digital defects, with defect areas of 2-18 cm2 . One patient presented with a postoperative arterial crisis in the flap. All other patients recovered without experiencing a vascular crisis, flap necrosis, or wound infection. The postoperative flaps were similar in texture to the original digital skin. The sensation and the extension/flexion functions in the affected fingers recovered well. The effect on grip strength, wrist flexion, and forearm sensation was minor and the postoperative total active motion scores of the affected digits were good or excellent in 96.77% of the cases. The flap sensation recovery rate was also excellent in 83.87% of the cases. The present technique facilitates the repair of multiple dorsal and palmar digital soft-tissue, tendon and nerve defects, reduces the damage to the donor site, and significantly improves the success of surgical repair.