Objective: To explore the family rehabilitation model for children with scar contracture after hand burns and observe its efficacy. Methods: A retrospective non-randomized controlled study was conducted. From March 2020 to March 2021, 30 children with scar contracture after deep partial-thickness to full-thickness burns of hands, who met the inclusion criteria, were hospitalized in the Burn Center of PLA of the First Affiliated Hospital of Air Force Medical University. According to the rehabilitation model adopted, 18 children (23 affected hands) were included in a group mainly treated by family rehabilitation (hereinafter referred to as family rehabilitation group), and 12 children (15 affected hands) were included in another group mainly treated by hospital rehabilitation (hereinafter referred to as hospital rehabilitation group). In the former group, there were 11 males and 7 females, aged (4.8±2.1) years, who began rehabilitation treatment (3.1±0.8) d after wound healing; in the latter group, there were 7 males and 5 females, aged (4.6±2.1) years, who began rehabilitation treatment (2.8±0.7) d after wound healing. The children in hospital rehabilitation group mainly received active and passive rehabilitation training in the hospital, supplemented by independent rehabilitation training after returning home; after 1-2 weeks of active and passive rehabilitation training in the hospital, the children in family rehabilitation group received active and passive rehabilitation training at home under the guidance of rehabilitation therapists through WeChat platform. Both groups of children were treated for 6 months. During the treatment, they wore pressure gloves and used hand flexion training belts and finger splitting braces. Before treatment and after 6 months of treatment, the modified Vancouver scar scale, the total active movement of the hand method, and Carroll quantitative test of upper extremity function were used to score/rate the scar of the affected hand (with the difference of scar score between before treatment and after treatment being calculated), the joint range of motion (with excellent and good ratio being calculated), and the function of the affected limb, respectively. Data were statistically analyzed with independent sample t test, equivalence test, Fisher's exact probability test, and Mann-Whitney U test. Results: The differences of scar scores of the affected hands of children in family rehabilitation group and hospital rehabilitation group between after 6 months of treatment and those before treatment were 3.0 (2.0, 7.0) and 3.0 (2.0, 8.0) respectively (with 95% confidence interval of 2.37-5.38 and 1.95-5.91). The 95% confidence interval of the difference between the differences of the two groups was -2.43-2.21, which was within the equivalent boundary value of -3-3 (P<0.05). The excellent and good ratios of joint range of motion of the affected hand of children in family rehabilitation group and hospital rehabilitation group were 3/23 and 2/15 respectively before treatment, and 15/23 and 12/15 respectively after 6 months of treatment. The ratings of joint range of motion of the affected hand of children in family rehabilitation group and hospital rehabilitation group after 6 months of treatment were significantly higher than those before treatment (with Z values of 3.58 and 2.30, respectively, P<0.05), but the ratings of joint range of motion of the affected hand between the two groups were similar before treatment and after 6 months of treatment (with Z values of 0.39 and 0.55, respectively, P>0.05). The functional ratings of the affected limbs of children in family rehabilitation group and hospital rehabilitation group after 6 months of treatment were significantly higher than those before treatment (with Z values of 3.98 and 3.51, respectively, P<0.05), but the functional ratings of the affected limbs between the two groups were similar before treatment and after 6 months of treatment (with Z values of 1.27 and 0.38, respectively, P>0.05). Conclusions: The WeChat platform assisted rehabilitation treatment with mainly family rehabilitation, combined with hand flexion and extension brace can effectively reduce the scarring after children's hand burns, improve the joint range of motion of the affected hands, and promote the recovery of affected limb function. The effect is similar to that of hospital-based rehabilitation providing an optional rehabilitation, treatment method for children who cannot continue to receive treatment in hospital.
Male ; Female ; Humans ; Child ; Cicatrix/therapy* ; Retrospective Studies ; Treatment Outcome ; Wound Healing ; Hand Injuries/rehabilitation* ; Wrist Injuries ; Contracture/etiology* ; Burns/complications*

Patients with burns are predisposed to heterotopic ossification and contracture formation. While radiographs and bone scans are used to detect heterotopic ossification, musculoskeletal ultrasound can be used to diagnose and localize the lesion in patients with contractures. A 14-year-old girl with multiple contractures of the limbs from thermal burn injury sustained three years ago underwent in-patient rehabilitation in a sub-acute burn rehabilitation unit. Despite close monitoring and daily therapy sessions, the patient had minimal improvement in the range of motion of bilateral hips. Musculoskeletal ultrasound demonstrated hyperechogenic focus on the posterolateral aspect of the bilateral hips. This report documents the advantage of diagnostic musculoskeletal ultrasound in localizing and guiding the treatment of heterotopic ossification in a burn patient with contractures.
Diagnostic Imaging ; Ossification, Heterotopic ; Burns ; Rehabilitation ; Pediatrics

Patients with deep burns are prone to suffer cicatrix hyperplasia or contracture, leading to problems including dysfunction in limbs, which impacts patients' life quality and makes it difficult for them to return to society. Thereby, the rehabilitation treatment after deep burns is particularly important. Currently, exercise therapy plays an important role in burn rehabilitation, which is mainly based on therapies such as continuous manual assistance training and manual stretching practice to provide patients with physical exercise to limbs and to correct the functional dysfunction of limbs in patients. With the continuous progress in technology, functional training robots have been developed to meet the needs. The emergence of functional training robots saves manpower and provides patients refined and standardized functional exercise treatment. From the aspects of production technology and multi-technology integration, this paper mainly introduces the recent innovation and development of functional training robots and the advantages of the application of functional training robots in the field of burn rehabilitation.
Burns/rehabilitation* ; Cicatrix ; Contracture ; Exercise Therapy ; Humans ; Robotics

A 49-year-old female patient suffered a suspicious scalding burn in her right hand and forearm during a seizure, and visited the clinic 16 hours after injury without appropriate initial treatment. The wound was covered with multiple bullae, was cold and pale, and the extension and flexion functions were decreased. The intrafascial pressure was measured as 19~95 mmHg (mean 46.9), confirming compartment syndrome. The pressure was improved following fasciotomy to 23~32 mmHg (mean 27); escharectomy, split thickness skin grafting and partial ostectomy was then performed, and an abdominal flap operation was conducted. The patient underwent a delayed procedure 14 days after the operation, and on the 18th day, subcutaneous fat and fascia tissues from the subcutaneous layer were removed from the skin; after sculpturing, split thickness skin grafting was performed. On the 21st day after flap separation, stump revisions were performed. The patient is currently undergoing rehabilitation; the metacarpophalangeal joint exhibits a normal range of motion, and the proximal interphalangeal joint has a range of motion of 30~45°. The abdominal flap operation was performed for soft tissue defects in the extensor tendon and bone exposure. Thus, various long-term processes were avoided, and by implementing a short operation time and low-cost surgery, relatively quick rehabilitation treatment could be initiated.
Burns* ; Compartment Syndromes ; Fascia ; Female ; Fingers* ; Forearm ; Hand ; Humans ; Joints ; Metacarpophalangeal Joint ; Middle Aged ; Range of Motion, Articular ; Reference Values ; Rehabilitation ; Seizures ; Skin ; Skin Transplantation ; Subcutaneous Fat ; Tendons ; Wounds and Injuries

Amputation stump pains can be developed in amputation sites after high voltage electrical burn injuries. We experienced one case of these severe stump pains in an upper extremity amputation patient. A 35-year-old man had a 38% total body surface area high voltage electrical burn. The patient underwent skin grafting and left shoulder disarticulation. During the rehabilitation period, he complained about severe stump area pains and phantom pains. We injected 0.5% Bupivacaine and Triamcinolone on the stump neuroma site but the pain sustained. After extracorporeal shock wave therapy (ESWT,) the pain subsided and did not recur. The patient was satisfied with functional and pain outcomes, so we report this case.
Adult ; Amputation ; Amputation Stumps ; Body Surface Area ; Bupivacaine ; Burns ; Disarticulation ; Humans ; Neuroma ; Phantom Limb ; Rehabilitation ; Shock* ; Shoulder ; Skin Transplantation ; Triamcinolone ; Upper Extremity

BACKGROUND: Upper extremity soft tissue defects with complete circumferential involvement are not common. Coupled with the unique anatomy of the upper extremity, the underlying etiology of such circumferential soft tissue defects represent additional reconstructive challenges that require treatment to be tailored to both the patient and the wound. The aim of this study is to review the various options for soft tissue reconstruction of complete circumferential defects in the upper extremity. METHODS: A literature review of PubMed and MEDLINE up to December 2016 was performed. The current study focuses on forearm and arm defects from the level at or proximal to the wrist and were assessed based on Tajima's classification (J Trauma 1974). Data reviewed for analysis included patient demographics, causality, defect size, reconstructive technique(s) employed, and postoperative follow-up and functional outcomes (when available). RESULTS: In accordance with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses guidelines, 14 unique articles were identified for a total of 50 patients (mean=28.1 years). Underlying etiologies varied from extensive thermal or electrical burns to high impact trauma leading to degloving or avulsion, crush injuries, or even occur iatrogenically after tumor extirpation or extensive debridement. Treatment options ranged from the application of negative pressure wound dressings to the opposite end of the spectrum in hand transplantation. CONCLUSIONS: With the evolution of reconstructive techniques over time, the extent of functional and aesthetic rehabilitation of these complex upper extremity injuries has also improved. The proposed management algorithm comprehensively addresses the inherent challenges associated with these complex cases.
Arm ; Bandages ; Burns ; Classification ; Debridement ; Demography ; Follow-Up Studies ; Forearm ; Hand Transplantation ; Humans ; Reconstructive Surgical Procedures ; Rehabilitation ; Soft Tissue Injuries ; Upper Extremity* ; Wounds and Injuries ; Wrist

We present the case of a 33-year-old man who experienced a 10,000-V electrical shock when working with electrical wiring. He suffered third-degree burns on his scalp at the right occiput (entry wound) and on his left arm (exit would), and a second-degree burn on his left foot (exit wound). He presented with severe spasticity of both lower extremities, motor weakness with a Medical Research Council grade of 3, and sensory impairments below thoracic level 11 that included an inability to sense light touch and defects in proprioception. Initial magnetic resonance imaging (MRI) scans of his spine and brain showed no definite abnormalities. However, tractography obtained by diffusion tensor imaging of the brain showed absence of the right medial lemniscus tract. A cervical MRI scan 1 month later showed spinal cord swelling from cervical 1-5 levels, and signal changes in the lateral and posterior white matter in the axial view. After 6 months of rehabilitation, he recovered almost normal degree of motor function in his lower extremities and disappearance of spasticity. However, since the sensory impairments persisted, especially defects in proprioception, he was unable to walk independently.
Adult ; Arm ; Brain ; Burns ; Diffusion Tensor Imaging ; Electric Injuries ; Electric Wiring ; Foot ; Humans ; Lower Extremity ; Magnetic Resonance Imaging ; Muscle Spasticity ; Proprioception ; Rehabilitation ; Scalp ; Shock ; Spinal Cord ; Spine ; White Matter

OBJECTIVE: To evaluate the effect of a modified hand compression bandage in patients with a post-burn hand edema. METHODS: Patients were recruited from burn centers. We classified the patients into two groups: the modified hand compression bandage group comprising of 22 patients who had a modified hand compression bandage and received conventional physical therapy and the conventionally treated group, comprising of 20 patients who received only conventional physical therapy during the 4-week period post-burn. Hand circumference, hand skin thickness, and hand function were evaluated by grip strength, active range of motion (ROM), Jebsen hand function test, and visual analogue scale (VAS). These assessments were used to evaluate treatment effectiveness prior to the first treatment, 2 weeks after the first treatment, 4 weeks after the first treatment, and 4 months after the first treatment. RESULTS: As a result of repeated-measures analysis of variance on hand circumference, skin thickness, VAS, and each metacarpophalangeal joint ROM, we found significant differences that corresponded to time effect (p<0.05) and time×group (reciprocal action) effect (p<0.05). The results of grasp power, Jebsen hand function test, and each proximal interphalangeal joint ROM, show significant differences in accordance with the time effect (p<0.05), however, there was no reciprocal action effect (p>0.05). CONCLUSION: The modified hand compression bandage will be clinically useful for the treatment of patients with post-burn hand edemas.
Burn Units ; Burns ; Compression Bandages* ; Edema* ; Hand Strength ; Hand* ; Humans ; Joints ; Metacarpophalangeal Joint ; Range of Motion, Articular ; Rehabilitation ; Skin ; Treatment Outcome

Pudendal nerve entrapment syndrome is an unusual cause of chronic pelvic pain. We experienced a case of pudendal neuralgia associated with a ganglion cyst. A 60-year-old male patient with a tingling sensation and burning pain in the right buttock and perineal area visited our outpatient rehabilitation center. Pelvis magnetic resonance imaging showed the presence of multiple ganglion cysts around the right ischial spine and sacrospinous ligament, and the pudendal nerve and vessel bundle were located between the ischial spine and ganglion cyst at the entrance of Alcock's canal. We aspirated the lesions under ultrasound guidance, and consequently his symptoms subsided during a 6-month follow-up. This is the first report of pudendal neuralgia caused by compression from a ganglion cyst around the sacrospinous ligament.
Burns ; Buttocks ; Follow-Up Studies ; Ganglion Cysts* ; Humans ; Ligaments ; Magnetic Resonance Imaging ; Male ; Middle Aged ; Outpatients ; Pelvic Pain ; Pelvis ; Pudendal Nerve* ; Pudendal Neuralgia* ; Rehabilitation Centers ; Sensation ; Spine ; Ultrasonography

OBJECTIVETo analyze the effects of metacarpus and phalanx traction on correction of scar contracture of hand after burn on the palm side retrospectively.

METHODSA total of 32 patients with 39 affected hands with scar contracture on the palm side after burn were hospitalized from May 2010 to December 2014. Method of treatment: scar contracture was conservatively released followed by skin grafting, which was referred to as method A; Kirschner wire was inserted into the middle or distal phalanx of finger with contracture and the corresponding metacarpus in the shape of U for 2 to 7 weeks' traction, which was referred to as method B; traction frame was built based on the traction pile and anchor formed by Kirschner wire inserted through the second to the fifth metacarpus and distal phalanx of finger with contracture, and then the affected fingers were pulled into a straight position with rubber bands for 2 to 6 months, which was referred to as method C. Method A was used in patients who would be treated with thorough release of scar followed by skin grafting routinely. Method B was used in patients who would be treated with intramedullary Kirschner wire fixation after release of scar contracture and skin transplantation routinely. Method C was further used in patients when methods A and B failed to accomplish the expected result. Method C was used in the first place followed by method A in whom there might be vascular decompensation or exposure of tendon and bone after scar release, and those who failed to meet the expectation were treated with method C in addition. Patients who were unwilling to undergo surgery were treated with method C exclusively. During the course of treatment, the presence or absence of infection and slipping of Kirschner wire or its slitting through soft tissue were observed. The presence or absence of tendency of recurrence of scar contracture within 1 to 2 weeks after treatment was observed. The length of palmar skin measuring from the root of finger with contracture to wrist crease was measured before treatment, at the termination of treatment, and 1 month after the termination of treatment. Scar condition was assessed with the Vancouver Scar Scale (VSS) before treatment and 1, 3, and 6 month(s) after the termination of treatment. Before treatment and 1 month after the termination of treatment, the range of motion was measured with the Total Active Movement (TAM) method; band function was evaluated by the Jebsen Test of Hand Function (JTHF), and the completion time was recorded. Data were processed with analysis of variance, LSD-t test, and t test.

RESULTSTwenty-four patients with 27 affected hands were treated with scheme A + B; 5 patients with 7 affected hands were treated with method C exclusively; 2 patients with 3 affected hands were treated with scheme A + B + C; 1 patient with 2 affected hands were treated with scheme C + A + C. During the course of treatment, no complication such as infection or slicing of tissue was observed, but there was a slight shifting of U-shaped Kirschner wire in 14 affected hands of 13 patients. Tendency of recurrence of scar contracture was observed in 11 affected hands of 10 patients, but the scar contracture did not reoccur after treatment with orthosis. The skin length of palmar side was respectively (131.8 ± 9.8) and (127.6 ± 7.5) mm at the termination of treatment and 1 month after, and they were both significantly longer than that before treatment [(114.5 ± 2.4) mm, with values respectively 10.71 and 10.39, P values below 0.001]. The score of VSS was respectively (9.8 ± 2.4), (9.7 ± 1.7), (9.3 ± 0.8), and (7.7 ± 0.5) points before treatment and 1, 3, and 6 month(s) after the termination of treatment. Only the score at 6 months after the termination of treatment was significantly lower than that before treatment (t = 3.28, P < 0.01). The ratio of excellent and good results according to method TAM was respectively 2.6% (1/39) and 94.9% (37/39) before treatment and 1 month after the termination of treatment. The time for JTHF measurement was (13.9 ± 4.1) min before treatment, and it was shortened to (11.0 ± 2.8) min 1 month after the termination of treatment (t = 3.65, P < 0.001).

CONCLUSIONSSingle application of metacarpus and phalanx traction or its combination with skin transplantation after scar release in correcting scar contracture of the palm of hand after burn can lengthen the contracted tissue, and it is beneficial for the restoration of function and appearance of affected hand.

Burns ; rehabilitation ; therapy ; Cicatrix ; therapy ; Contracture ; surgery ; Hand Injuries ; rehabilitation ; therapy ; Humans ; Metacarpus ; Orthotic Devices ; Range of Motion, Articular ; Reconstructive Surgical Procedures ; methods ; Retrospective Studies ; Skin ; Skin Transplantation ; Tendons ; Time ; Traction ; Treatment Outcome