In clinical work, it is observed that keloid has significantly different characteristics from other types of scar such as hypertrophic scar. The growth of keloid usually exceeds the margin of original wound and continuously invades the surrounding skin, and keloid has a certain recurrence rate after various treatment measures such as surgery and glucocorticoid injection, etc. The above phenomenon suggests that keloid has certain tumor characteristics, and we cannot judge keloid from the perspective of scar alone. This article attempts to re-describe the pathogenesis of keloid from the perspective of tumor and summarizes the tumor characteristics of keloid from self-sufficiency of growth signal, avoidance of apoptosis, and abnormal angiogenesis, etc.

The incidence and clinical manifestations of scars and keloids are different in different races, and Asians are more likely to suffer from this disease than Caucasians. China and Japan are the representative countries for medical development in Asia. There is no comprehensive study on the similarities and differences between the academic circles in the two countries in the diagnosis and treatment of scars and keloids. By comparing and analyzing the latest expert consensus in the field of scars and keloids between the two countries, we found that the organization form of expert team and main contents of the consensus from the two countries are basically similar. However, there are obvious differences in the composition of experts, logical thinking and organizational form of consensus contents, and details of the specific schemes for scar assessment, diagnosis, and treatment. The differences in the diagnosis and treatment of scars and keloids in China and Japan may indicate the direction of future cooperative research. It is necessary for the academic circles of China and Japan to strengthen academic exchanges and work hard to cooperate in high-quality research in the field of scars and keloids.

Objective To observe the effects of balance training combined with routine training on patients with lower limb motor and balance dysfunctions after severe burns. Methods A prospective randomized controlled study was conducted. From January 2016 to January 2020, sixty-four patients with lower limb motor and balance dysfunction after severe burns who met the inclusion criteria were admitted to Tongren Hospital of Wuhan University＆Wuhan Third Hospital. According to the random number table, the patients were divided into routine training (RT) group and combined training (CT) group. There were 32 cases in each group, 22 males and 10 females in RT group, aged 40.5 (35.5, 52.8) years, and 24 males and 8 females in CT group, aged 37.0 (30.0, 44.0) years. Patients in RT group performed conventional treatment including knee joint stretch, continuous passive motion, lower limb muscle strength training, and pressure therapy etc., while patients in CT group received balance training in addition to RT treatment including sitting balance, center of gravity transfer, pelvic stability, standing alternately on one leg, and standing on balance pad. Patients in both groups were treated for 4 months. Before treatment and after 4 months of treatment, the Berg Balance Scale, Lower Extremity Function Scale, and Activities-specific Balance Confidence Scale were used to evaluate the balance function, lower limb function, and balance activity self-confidence of patients respectively. Data were statistically analyzed with independent sample

test, paired sample

test, Mann-Whitney

test, Wilcoxon signed rank test or chi-square test. Results Before treatment, the Berg balance score of patients in RT group was (25±9) points, which was similar to (25±7) points in CT group (

=-0.154,

>0.05). After 4 months of treatment, the Berg balance score of patients in CT group was (43±6) points, which was significantly higher than (40±6) points in RT group (

=2.028,

<0.05). The Berg balance scores of patients in RT and CT groups after 4 months of treatment were obviously higher than those before treatment (

=-15.189, -26.200,

<0.01). Before treatment, the lower limb function score of patients in RT group was 25.0 (16.5, 30.0) points, which was similar to 23.0 (10.3, 28.8) points in CT group (

=-1.575,

>0.05). After 4 months of treatment, the lower limb function score of patients in CT group was 55.0 (35.0, 60.0) points, which was significantly higher than 43.0 (36.0, 53.0) points in RT group (

=-2.744,

<0.01). The lower limb function scores of patients in RT and CT groups after 4 months of treatment were obviously higher than those before treatment (

=-4.943, -4.955,

<0.01). Before treatment, the balance activity self-confidence scores of patients in the two groups were similar (

=-0.966,

>0.05). After 4 months of treatment, the balance activity self-confidence scores of patients in CT group was significantly higher than that in RT group (

=3.343,

<0.01). The balance activity self-confidence scores of patients in RT and CT groups after 4 months of treatment were obviously higher than those before treatment (

=-19.611, -34.300,

<0.01). Conclusions Conventional treatment combined with balance training for patients with lower limb motor and balance dysfunctions after severe burns can effectively promote the recovery of their lower limb motor and balance function.

Objective To observe the effects of hand continuous passive motion (CPM) system combined with functional training and pressure gloves in treating early scar contracture after burn on the back of the hand. Methods A retrospective cohort study was conducted in 43 patients who met the inclusion criteria and were admitted to the First Affiliated Hospital of Air Force Medical University from June 2017 to December 2019 with scar contracture after deep partial-thickness to full-thickness burn on the back of the hand. According to the treatment methods applied, 13 patients were enrolled into pressure glove alone group (9 males and 4 females, aged (31±6) years), 14 patients were enrolled into pressure glove+functional training group (11 males and 3 females, aged (30±5) years), and 16 patients were enrolled into pressure glove+functional training+CPM system group (10 males and 6 females, aged (29±5) years). All the patients in the three groups received skin grafting on the back of the hand. The corresponding rehabilitation treatment was started 6-8 days after wound healing, and the treatment lasted for 3 months. Before treatment and after 3 months of treatment, the total active motion range of the hand was measured to evaluate the motion range of the hand joint and the ratio of excellent and good was calculated; the Carroll upper limb function evaluation method was used to evaluate the upper limb function score, and the difference before and after treatment was calculated; the Vancouver Scar Scale was used to evaluate the scar score, and the difference before and after treatment was calculated. Data were statistically analyzed with chi-square test, Fisher's exact probability test, McNemar's exact probability test, one-way analysis of variance, Bonferroni correction, least significant difference test, Kruskal-Wallis test, and paired sample

test. Results The ratio of excellent and good of the motion range of the hand joint of patients in pressure glove alone group, pressure glove+functional training group, and pressure glove+functional training+CPM system group were 2/13, 2/14, and 3/16 respectively before treatment, and 4/13, 6/14, and 14/16 respectively after 3 months of treatment. The ratio of excellent and good of the motion range of the hand joint of patients was significantly higher in pressure glove+functional training+CPM system group than in the other two groups after 3 months of treatment (

<0.05 or

<0.01). Compared with that before treatment, the ratio of excellent and good of the motion range of the hand joint of patients in pressure glove+functional training+CPM system group was significantly increased after 3 months of treatment (

<0.01). Before treatment, the upper limb function score and hand scar score of patients in the three groups were similar (

=0.598, 0.035,

>0.05). After 3 months of treatment, the upper limb function score of patients was significantly higher in pressure glove+functional training+CPM system group than in pressure glove alone group (

<0.05); the hand scar score of patients was significantly lower in pressure glove+functional training group and pressure glove+functional training+CPM system group than in pressure glove alone group (

<0.05 or

<0.01), and the hand scar score of patients was significantly lower in pressure glove+functional training+CPM system group than in pressure glove+functional training group (

<0.05). Compared with those before treatment, the upper limb function scores of patients were significantly increased (

=-5.295, -7.252, -15.342,

<0.01) and the hand scar scores of patients were significantly decreased (

=13.361, 16.982, 40.334,

<0.01) in pressure glove alone group, pressure glove+functional training group, and pressure glove+functional training+CPM system group after 3 months of treatment. The differences in upper limb function score and hand scar score of patients before and after treatment in pressure glove+functional training+CPM system group were significantly higher than those in pressure glove+functional training group and pressure glove alone group (

<0.05 or

<0.01). The differences in upper limb function score and hand scar score of patients before and after treatment in pressure glove+functional training group were significantly higher than those in pressure glove alone group (

<0.05). Conclusions Hand CPM system combined with functional training and pressure gloves can significantly improve the motion range of hand joint in treating early scar contracture after burn on the back of the hand, with better restoration of hand function and improvement of hand scar. Its effect is better than routine rehabilitation treatment such as functional training, etc., which is worthy of clinical reference.

Objective To explore the effects of sequential application of intensive pulsed light and carbon dioxide laser in treating the hypertrophic scars of burn children at early stage. Methods A retrospective cohort before-after control study in the same patients was conducted. From January 2016 to December 2018, 145 burn children with hypertrophic scar at the early stage who met the inclusion criteria were admitted to the First Hospital of Jilin University, including 82 males and 63 females, aged 1 to 12 (3 (2, 6)) years. All the children were firstly treated with intense pulsed light therapy (no anesthesia or intravenous-inhalation combined anesthesia) at an interval of once per month, and then changed to carbon dioxide laser therapy (topical anesthesia or intravenous-inhalation combined anesthesia) when the degree of scar hyperemia was reduced, at an interval of once every 3 months, for a total of 3 times. Before the first intense pulsed light treatment (hereinafter referred to as before the first treatment) and 3 months after the last carbon dioxide laser treatment (hereinafter referred to as after the last treatment), scar scoring was evaluated by Vancouver Scar Scale (VSS), and scar hyperemia (denoted as hemoglobin level) was measured with Antera 3D^® camera. The times of intense pulsed light, the time of single treatment, the anesthesia method, and the time of intravenous-inhalation combined anesthesia of intense pulsed light and carbon dioxide laser treatment were analyzed. After the last treatment, Likert Scale was used to evaluate the efficacy satisfaction of both doctors and patients. Adverse reactions were recorded during the treatment. Data were statistically analyzed with Wilcoxon signed rank sum test, and paired sample

test. Results The color, vascular distribution, thickness, and softness scores, and total score in VSS scoring of scars of children after the last treatment were significantly lower than those before the first treatment (

=-6.05, -10.34, -9.84, -9.28, -10.43,

<0.01). The hemoglobin level of scar of children after the last treatment was 1.86±0.24, significantly lower than 2.27±0.32 before the first treatment (

=17.65,

<0.01). A total of 411 times of intense pulsed light therapy were performed, (2.8±0.6) times per person, and the single treatment time was 35 (20, 45) s. There were 392 times (95.38%) without anesthesia, and 19 times (4.62%) with intravenous-inhalation combined anesthesia with time of 6 (5, 8) min. The single treatment time of carbon dioxide laser therapy was 5 (3, 10) min. There were 364 times (83.68%) of topical anesthesia and 71 times (16.32%) of intravenous-inhalation combined anesthesia with time of 10 (8, 15) min. After the last treatment, the efficacy satisfaction scores of doctors and patients were (4.3±0.7) and (3.8±1.0) points, respectively. Blisters occurred in 5 cases after intense pulsed light treatment, which were healed naturally after drainage. One child developed local skin infection, skin redness and swelling accompanied by purulent exudate after carbon dioxide laser treatment, which was improved after skin disinfection and external use of mupirocin ointment. No inflammatory pigmentation, worsening of hyperplasia of scar, erythema, or other skin adverse reactions or anesthetics-related adverse reactions occurred in any child. Conclusions Sequential application of intense pulsed light and carbon dioxide laser to treat the hypertrophic scars of burn children at early stage can obviously improve the appearance and texture of scar, with higher satisfaction of doctors and patients and fewer adverse reactions.

Objective To establish a predictive model for acute respiratory distress syndrome (ARDS) in critical burn patients with the screened independent risk factors, and to validate its predictive value. Methods Totally 131 critical burn patients (101 males and 30 females, aged 18-84 years) who met the inclusion criteria were admitted to the Department of Burns of the Second Affiliated Hospital of Zhejiang University School of Medicine from January 2018 to December 2019. A retrospective case-control study was conducted. The patients were divided into ARDS group (54 cases) and non-ARDS group (77 cases) according to whether ARDS occurred or not. The statistics of patients in the two groups were recorded including the gender, age, burn index, combination of inhalation injury, smoking history, delayed resuscitation, indwelling nasogastric tube, and complication of sepsis, and the data were statistically analyzed with independent sample

test, chi-square test, and Fisher's exact probability test. The multivariate logistic regression analysis was performed on the indicators with statistically significant differences between the two groups to screen the independent risk factors for developing ARDS in critical burn patients, and the corresponding nomograph prediction model for the risk of ARDS in critical burn patients was established. The risk scores for patients developing ARDS were therefore obtained based on the above-mentioned nomograph, and the corresponding receiver operating characteristic (ROC) curve was drawn to calculate the area under the curve. The internal validation of the above-mentioned ARDS prediction model was performed using the Bootstrap method, and the area under the ROC curve was calculated for modeling group (79 cases) and validation group (52 cases), respectively. A calibration curve was drawn to assess the predictive conformity of the above-mentioned ARDS prediction model for the occurrence of ARDS in critical burn patients. Results The burn index, proportion of combination of inhalation injury, and proportion of complication of sepsis of patients were significantly higher in ARDS group than in non-ARDS group (

=0.36,

²=33.78, 49.92,

<0.01). The gender, age, smoking history, delayed resuscitation, and indwelling nasogastric tube of patients in ARDS group were close to those in non-ARDS group (

>0.05). The multivariate logistic regression analysis showed that the burn index, combination of inhalation injury, and complication of sepsis were the independent risk factors for developing ARDS in critical burn patients (odds ratio=1.05, 15.33, 5.02, 95% confidence interval=1.01-1.10, 2.65-88.42, 1.28-19.71,

<0.05 or

<0.01). The overall area under the ROC curve of the above-mentioned ARDS prediction model was 0.92 (95% confidence interval=0.88-0.97), and the area under the ROC curve was 0.95 and 0.91 (95% confidence interval=0.90-1.00, 0.86-0.97) for validation group and modeling group, respectively. When applying the above-mentioned ARDS prediction model for ARDS incidence prediction, there might be some risk of overestimating ARDS incidence when the prediction probability was <35.0% or="">85.0%, and some risk of underestimating ARDS incidence when the prediction probability was 35.0%-85.0%. Conclusions The burn index, inhalation injury, and sepsis are the independent risk factors for the occurrence of ARDS in critical burn patients. The risk prediction model for ARDS based on these three indicators has good predictive ability for ARDS in critical burn patients.

Objective To explore the epidemiological characteristics and treatment outcomes of patients with inhalation injuries combined with total burn area less than 30% total body surface area (TBSA). Methods A retrospective observational study was performed on medical records of 266 patients with inhalation injuries combined with total burn area less than 30%TBSA who were admitted to the First Affiliated Hospital of Naval Medical University from January 2008 to December 2016 and met the inclusion criteria. The following statistical data of the patients were collected, including gender, age, injury site, injurious factors of inhalation injury, degree of inhalation injury, combined total burn area, tracheotomy, time of tracheotomy, mechanical ventilation, whether stayed in intensive care unit (ICU) or not, microbial culture results of bronchoalveolar lavage fluid, length of hospital stay, length of ICU stay, mechanical ventilation days, and respiratory tract infections. Single factor and multivariate linear regression analysis were used to screen out the risk factors impacting the length of hospital stay, length of ICU stay, and mechanical ventilation days of patients. Single factor and multivariate logistic regression analysis were used to screen out the risk factors impacting respiratory tract infections of patients. Results The 266 patients included 190 males and 76 females, with the majority age of above or equal to 21 years and below 65 years (217 patients). The major injury site was confined space. The major factor causing inhalation injury was hot air. Mild and moderate inhalation injuries were more common in patients. The combined total burn area was 9.00% (3.25%, 18.00%) TBSA. In 111 patients who had tracheotomy, most of them received the procedures before being admitted to the First Affiliated Hospital of Naval Medical University. The length of hospital stay of patients was 27 (10, 55) days. The length of ICU stay of 160 patients who were hospitalized in ICU was 15.5 (6.0, 40.0) days. The mechanical ventilation days of 109 patients who were conducted with mechanical ventilation were 6.0 (1.3, 11.5) days. A total of 119 patients were diagnosed with respiratory tract infections, with 548 strains including 35 types of pathogens isolated, mainly Gram-negative bacteria. Single factor linear regression analysis showed that age, injurious factors of inhalation injury, combined total burn area, degree of inhalation injury (moderate and severe), tracheotomy, mechanical ventilation, and respiratory tract infections were the factors impacting the length of hospital stay of patients (

=-0.198, -0.224, 0.021, 0.127, 0.164, -0.298, 0.357, 0.447, 95% confidence interval (CI)=-0.397--0.001, -0.395--0.053, 0.015-0.028, 0.009-0.263, 0.008-0.319, -0.419--0.176, 0.242-0.471, 0.340-0.555,

<0.1). Multivariate linear regression analysis showed that with mechanical ventilation and respiratory tract infections were the independent risk factors impacting the length of hospital stay of patients (

=0.146, 0.383, 95% CI=0.022-0.271, 0.261-0.506,

<0.05 or

<0.01). Single factor linear regression analysis showed that injurious factors of inhalation injury, combined total burn area, degree of inhalation injury (moderate and severe), tracheotomy (no tracheotomy and prophylactic tracheotomy), mechanical ventilation, and respiratory tract infections were the factors impacting the length of ICU stay of patients (

=0.225, 0.008, 0.237, 0.203, -0.408, -0.334, 0.309, 0.523, 95% CI=0.053-0.502, 0.006-0.010, -0.018-0.457, -0.022-0.428, -0.575--0.241, -0.687--0.018, 0.132-0.486, 0.369-0.678,

<0.1). Multivariate linear regression analysis showed that with respiratory tract infections was the independent risk factor impacting the length of ICU stay of patients (

=0.440, 95% CI=0.278-0.601,

<0.01). Single factor linear regression analysis showed that injury site, injurious factors of inhalation injury (smoke and chemical gas), combined total burn area, degree of inhalation injury (moderate and severe), tracheotomy (no tracheotomy and prophylactic tracheotomy), and respiratory tract infections were the factors impacting mechanical ventilation days of patients (

=-0.300, 0.545, 0.163, 0.005, 0.487, 0.799, -0.791, -0.736, 0.300, 95% CI=-0.565--0.034, 0.145-0.946, 0.051-1.188, 0.001-0.009, 0.127-0.847, 0.436-1.162, -1.075--0.508, -1.243--0.229, 0.005-0.605,

<0.1). Multivariate linear regression analysis showed that smoke inhalation, severe inhalation injury, and respiratory tract infections were the independent risk factors impacting mechanical ventilation days of patients (

=0.210, 0.495, 0.263, 95% CI=0.138-0.560, 0.143-0.848, 0.007-0.519,

<0.05 or

<0.01). Single factor logistic regression analysis showed that age, injury site, combined total burn area (10%-19%TBSA and 20%-29%TBSA), degree of inhalation injury (moderate and severe), tracheotomy (prophylactic tracheotomy and no tracheotomy), and mechanical ventilation were the factors impacting respiratory tract infections of patients (odds ratio=1.079, 0.815, 1.400, 1.331, 1.803, 1.958, 0.990, 0.320, 3.094, 95% CI=0.840-1.362, 0.641-1.044, 1.122-1.526, 1.028-1.661, 1.344-2.405, 1.460-2.612, 0.744-1.320, 0.241-0.424, 2.331-4.090,

<0.1). Multivariate logistic regression analysis showed that with mechanical ventilation was the independent risk factor impacting respiratory tract infections of patients (odds ratio=4.300, 95% CI=2.152-8.624,

<0.01). Conclusions The patients with inhalation injuries combined with total burn area less than 30%TBSA are mainly young and middle-aged males. Smoke inhalation, degree of inhalation injury, with mechanical ventilation and respiratory tract infections are the factors that affect the outcomes of patients with inhalation injuries combined with total burn area less than 30%TBSA. Additionally, prophylactic tracheotomy shows its potential value in reducing respiratory tract infections in patients with moderate or severe inhalation injuries.

Objective To explore the clinical effects of pre-expanded anterior perforator flap of transverse cervical artery in extensive facial and cervical scar reconstruction and contralateral pre-expanded thoracic random flap in relay in donor site repair. Methods A retrospective cohort study was conducted. From May 2008 to December 2018, 10 patients with extensive facial and cervical scar after burns were treated in the Fourth Medical Center of PLA General Hospital, including 8 males and 2 females, aged 10-55 years. In the first stage of operation, two skin and soft tissue expanders of the same volume (with rated capacity of 250-600 mL) were respectively placed in the right side and left side of the chest according to the size of scar, and then the skin was expanded. The total amount of normal saline injected was 2 to 4 times of the rated capacity of the expander. In the second stage, the defect with area of 12 cm×8 cm-23 cm×15 cm caused by scar resection and release was repaired with unilateral pre-expanded anterior perforator flap of transverse cervical artery with area of 12 cm×9 cm-24 cm×16 cm. The contralateral pre-expanded thoracic random flap with the same area as that of the above-mentioned perforator flap was extended to repair the secondary defect with area of 8 cm×6 cm-17 cm×14 cm formed after transfer of the above-mentioned perforator flap. The exploration of perforating branch of transverse cervical artery, flap transfer and survival, injury repair, and complications were observed. The appearance and related function of donor and recipient sites and satisfaction of patients were followed up. Results The perforating branches of transverse cervical artery appeared stably in the 10 patients. All the flaps were transferred to the recipient area without tension and survived. Both facial and cervical injuries were repaired successfully with no common complications. During the follow-up of 6 months-8 years, the color and texture of the pre-expanded anterior perforator flap of transverse cervical artery matched with the surrounding tissue, the functions of head raising and neck rotation of patients were significantly improved compared with those before operation, the color and texture of the flap transplanted in the first donor site matched with the original skin, linear scar left at the surgical incision, and 9 patients were satisfied with the restoration of the appearance and function of donor and recipient sites. Conclusions The color and texture of the pre-expanded anterior perforator flap of transverse cervical artery match well with the face and neck, and the repairable area is large. After the perforator flap is removed, the secondary wound can be repaired with the pre-expanded thoracic random flap at the same time, and the injury of the chest donor site is alleviated. This relay repair method is a good choice for reconstructing extensive facial and cervical scar.

Objective To investigate the clinical effects of retrograde anterolateral thigh perforator flaps assisted with computed tomography angiography (CTA) in repairing skin and soft tissue defects around the knee or in proximal lower leg. Methods A retrospective cohort study was conducted. From May 2015 to October 2019, 17 patients with skin and soft tissue defects around the knee or in proximal lower leg were admitted to the Department of Orthopedics of Jizhong Energy Xingtai Mig General Hospital, including 12 males and 5 females, aged 16-65 years, with an average age of 35 years. The areas of skin and soft tissue defects after debridement ranged from 6.0 cm×3.0 cm to 15.0 cm×9.0 cm. The retrograde anterolateral thigh perforator flaps were designed according to the origin and distribution of the perforating branches in flaps and the length of the vascular pedicle examined with CTA and the condition of the wound to repair the wounds. The areas of resected flaps ranged from 6.5 cm×3.5 cm to 15.5 cm×9.5 cm. The wounds in donor sites of flaps were sutured directly or covered with medium-thickness skin grafts from healthy upper leg. The sources of the perforating branches in flaps were recorded. The lateral circumflex femoral artery, its branches, and the relative length of the vascular pedicle were compared between preoperative CTA detection and intraoperative observation. The survivals of the flaps were observed. At the last follow-up, the effects of flaps in repairing wounds were evaluated according to evaluation standard of efficacy satisfaction; the motion ranges of flexion and extension of the knee joint were measured, and the knee joint function was evaluated according to the Hohl knee joint function evaluation standard; the sensory function in the flap area was evaluated according to the sensory function evaluation standard formulated by the British Medical Research Council; the wound healing and the occurrence of complication affecting motor function of limb of flap donor sites was observed. Data were statistically analyzed with paired sample

test. Results The perforating branches in flaps originated from descending branches, oblique branches, and rectus femoris branches of lateral circumflex femoral artery in 7, 6, and 4 patients, respectively. The flaps with blood supply from descending branches, oblique branches, and rectus femoris branches of lateral circumflex femoral artery were type 1, 2, and 3 retrograde anterolateral thigh perforator flaps, respectively. The preoperative CTA examination of lateral circumflex femoral artery and its branches were consistent with those observed during operation. The relative lengths of vascular pedicles of type 1, 2, and 3 retrograde anterolateral thigh perforator flaps calculated after CTA examination were 0.32±0.13, 0.56±0.07, and 0.56±0.15, which were close to 0.35±0.12, 0.52±0.10, and 0.53±0.12 measured and calculated during operation, respectively (

=0.45, 0.80, 0.31,

>0.05). All flaps survived in 17 cases without vascular crisis. At the last follow-up, 16 patients were satisfied with effects of flaps in wound repair, with 1 patient feeling average about the effect; the flexion range of knee joint was 100-120°, and the extension range of knee joint was -2-0°; knee joint function was evaluated as excellent in 9 cases, good in 7 cases, and poor in 1 case; the sensory function of the flap area reached S₄ level in 2 cases, S₃ level in 8 cases, and S₂ level in 7 cases; the wounds in flap donor sites healed well; there was no adverse effect in motor function of limbs. Conclusions Retrograde anterolateral thigh perforator flap is an effective method for repairing skin and soft tissue defects around the knee or in proximal lower leg. Preoperative CTA examination can fully show the anatomical characteristics of the branches of the lateral circumflex femoral artery and the perforating vessels of each branch, which can guide preoperative flap design and operation, thus shortening operation time and improving flap survival rate, with good clinical effects.

Objective To explore the indications, selection, and effect of flap application in repairing scar carcinoma in the lower leg and ankle. Methods A retrospective cohort study was conducted. From June 2008 to December 2018, six male patients with scar carcinoma in the lower leg and ankle were treated in Sun Yat-Sen Memorial Hospital of Sun Yat-Sen University, aged 48-64 years, with the area of lesion ranging from 3 cm×2 cm to 15 cm×6 cm. After extended resection, the defect area ranged from 8 cm×5 cm to 22 cm×9 cm, with tissue of tendon or bone exposed. Free anterolateral thigh perforator flap, latissimus dorsi myocutaneous flap, or pedicled sural neurovascular flap was selected to repair the wound according to the location of wound in the lower extremity, selection of operation position, the location of the anastomotic vessels in the recipient area, and whether there was good skin and soft tissue available in the lower leg. The size of flap was 11 cm×8 cm-26 cm×10 cm. The donor site of free flap or myocutaneous flap was closed directly by suturing in 5 cases, and the donor site of pedicled flap was repaired with full-thickness skin graft in 1 case. The blood supply and survival of flap, quality of skin graft survival, and complication were observed postoperatively. During the follow-up period, the recurrence and metastasis of scar carcinoma, and the appearance and function of donor and recipient sites were observed. Results All the patients completed the operation successfully, all the transplanted flaps survived with good blood supply, and the skin graft in one donor site survived well. The wounds in the donor and recipient sites of all the patients healed well without infection, effusion, or dehiscence, etc. All the patients were followed up for 1-5 years. No local recurrence or distant metastasis of scar carcinoma was found. The quality of the transplanted flaps was good. The shape of the recipient area was quite good, and the function of the affected limb was fine. The appearance of the donor area was good without dysfunction. Conclusions Flap transplantation is suitable for the patients with tendon and bone exposure after the excision of scar carcinoma in the lower leg and ankle. The flap can be selected according to the location of scar carcinoma, operation position, the location of anastomotic vessels in the recipient area, and whether there is good skin and soft tissue available in the lower leg. The free anterolateral thigh perforator flap or latissimus dorsi myocutaneous flap is an ideal choice for repair, which can be obtained in a large area, and the donor site can be directly sutured without affecting the function.

Objective To investigate the expression and effect of microRNA-627 (miR-627) in human hypertrophic scar. Methods The experimental research method was used. From October 2019 to January 2020, hypertrophic scar tissue from 6 patients with hypertrophic scar (2 males and 4 females, aged (34±11) years) and the remaining normal skin tissue from 6 trauma patients (3 males and 3 females, aged (35±13) years) after flap transplantation were collected. The above-mentioned 12 patients were admitted to the General Hospital of Northern Theater Command and met the inclusion criteria. The mRNA expression of miR-627 was detected by real-time fluorescent quantitative reverse transcription polymerase chain reaction. The 3rd to 5th passages of fibroblasts (Fbs) were isolated from hypertrophic scar tissue and cultured for subsequent experiments after identification. Fbs from hypertrophic scar were divided into miR-627 negative control group, miR-627 mimic group, and miR-627 inhibitor group. The corresponding sequences were transfected respectively. At 0 (immediately), 12, 24, 36, and 48 h after transfection, the cell viability was detected by thiazolyl blue method; at 24 h after transfection, the apoptosis was detected by flow cytometry; at 24 h after transfection, the protein expression levels of insulin-like growth factor Ⅰ (IGF-Ⅰ), type Ⅰ collagen, and α smooth muscle actin (α-SMA) were detected by Western blotting. Two batches of Fbs from hypertrophic scar were used, one batch was divided into IGF-Ⅰ wild type+miR-627 negative control group and IGF-Ⅰ wild type+miR-627 mimic group, and the other batch was divided into IGF-Ⅰ mutant+miR-627 negative control group and IGF-Ⅰ mutant+miR-627 mimic group. The corresponding sequences were transfected respectively. At 48 h after transfection, the expressions of luciferase and renal luciferase were detected by luciferase reporter gene detection kit, and the ratio of the two was calculated to reflect the activity of IGF-Ⅰ. Fbs from hypertrophic scar were divided into miR-627 negative control group, miR-627 mimic alone group, and miR-627 mimic+IGF-Ⅰ group, and were transfected with the corresponding sequences respectively. At 24 h after transfection, the protein expression levels of IGF-Ⅰ, type Ⅰ collagen, and α-SMA were detected by Western blotting. The number of samples in cell experiment was 3. Data were statistically analyzed with analysis of variance for factorial design, one-way analysis of variance, independent sample

test, and chi-square test. Results The expression of miR-627 mRNA in hypertrophic scar tissue was 0.47±0.06, which was significantly lower than 1.12±0.23 in normal skin tissue (

=15.090,

<0.01). At 12, 24, 36, and 48 hours after transfection, the cell viability of miR-627 mimic group was significantly lower than that of miR-627 negative control group (

=9.918, 34.370, 13.580, 61.550,

<0.05 or

<0.01); the cell viability of miR-627 inhibitor group was significantly higher than that of miR-627 negative control group (

=4.722, 8.616, 13.330, 14.000,

<0.05 or

<0.01). At 24 h after transfection, compared with the apoptosis rate (8.42±0.47)% in miR-627 negative control group, (10.89±0.35)% in miR-627 mimic group was significantly higher (

=7.301,

<0.01), and (5.00±0.22)% in miR-627 inhibitor group was significantly lower (

=11.510,

<0.01). At 24 h after transfection, compared with the cell protein expressions of IGF-Ⅰ, type Ⅰ collagen, and α-SMA in miR-627 negative control group, those in miR-627 mimic group were significantly lower (

=25.470, 5.282, 7.415,

<0.01), and those in miR-627 inhibitor group were significantly higher (

=15.930, 8.857, 9.763,

<0.01). At 48 h after transfection, the luciferase/renal luciferase ratio of IGF-Ⅰ of cells in IGF-Ⅰ wild type+miR-627 mimic group was 0.463±0.061, which was significantly lower than 0.999±0.011 in IGF-Ⅰ wild type+miR-627 negative control group (

=16.852,

<0.01); the luciferase/renal luciferase ratio of IGF-Ⅰ of cells in IGF-Ⅰ mutant+miR-627 mimic group was 0.934±0.021, which was similar to 0.930±0.023 in IGF-Ⅰ mutant+miR-627 negative control group (

=1.959,

0.05). At 24 h after transfection, the protein expressions of IGF-Ⅰ, type Ⅰ collagen, and α-SMA of cells in miR-627 mimic alone group were 1.623±0.070, 1.363±0.042, and 1.617±0.025, which were significantly lower than 2.723±0.045, 2.147±0.067, and 2.533±0.055 in miR-627 negative control group (

=22.831, 7.280, 26.220,

<0.01); the protein expressions of IGF-Ⅰ, type Ⅰ collagen, and α-SMA of cells in mimic+IGF-Ⅰ group were 2.477±0.102, 1.760±0.046, and 2.387±0.049, which were significantly higher than those of miR-627 mimic alone group (

=3.830, 8.286, 3.436,

<0.05 or

<0.01). Conclusions miR-627 expression in human hypertrophic scars is down-regulated; miR-627 can inhibit the proliferation and promote the apoptosis of Fbs in human hypertrophic scar by targeted inhibition of IGF-Ⅰ expression.

Objective To explore the clinical effects of axillary propeller flaps in reconstructing the axillary fold scar contracture. Methods A retrospective cohort study was conducted. From July 2016 to January 2020, 11 patients with anterior axillary fold or anterior and posterior axillary fold scar contractures after burns were admitted to Xiangya Hospital of Central South University, including 7 males and 4 females, aged 8 to 48 years. The lesions involved unilateral axilla in 9 cases and bilateral axilla in 2 cases, with the joint abduction angle of the affected shoulder ranging from 25 to 100°. The axillary fold contracture scars were excised and released, resulting in wound of 8 cm×5 cm-24 cm×20 cm. According to the condition of the residual normal skin in axilla, 2, 3, and 4-leaf propeller flaps with area of 5 cm×3 cm-24 cm×10 cm were designed to repair the wounds after scar excision and release. The donor site wound was closed by suturing directly, and the residual wound that could not be completely sutured was transplanted with free full-thickness skin grafts from the inner thigh or abdomen. The application of 2, 3, and 4-leaf propeller flaps, the joint abduction angle of the affected shoulder immediately after operation, and the survival of the flaps and skin grafts after operation were recorded. The recurrence of scar contracture, the appearance of the flaps, the joint abduction angle of the affected shoulder, and the functional recovery of the affected shoulder joint and upper arm were observed through a follow-up. Results Among the 13 axillary propeller flaps transplanted in the 11 patients in this group, there were 9 double-leaf propeller flaps, two 3-leaf propeller flaps, and two 4-leaf propeller flaps. The joint abduction angle of the affected shoulder reached 110-165° immediately after operation. All the flaps survived after operation. Nine flap donor sites were repaired with free skin grafts, with skin grafts survived in 7 flap donor sites after operation. Scar erosion in incision and small area of skin graft necrosis developed in 2 flap donor sites. One of the wounds was debrided and repaired by transplantation of split-thickness skin grafts from inner thigh, and the other wound was healed after dressing changes. A follow-up of 6 to 24 months was conducted after surgery, and all the patients had no recurrence of axillary scar contracture; the color of the flap matched the receiving area; the elasticity of flap was good; the joint abduction angle of the affected shoulder reached 120-165°, and the joint pronation and supination, upper arm lifting and circular rotation of the affected shoulder were all good. Conclusions Reconstruction of the axillary fold scar contracture with axillary propeller flaps has good result, with better flap appearance and recovery of the shoulder joint activity and upper arm function after operation.

From May 2013 to March 2020, 25 patients with acute necrotizing fasciitis were admitted to Beijing Chaoyang Emergency Rescue Center, including 18 males and 7 females, aged 7 to 78 years. The lesions were mainly located in the lower extremities, with the original lesion areas ranging from 20 cm×15 cm to 83 cm×42 cm. After admission, comprehensive systemic treatment was performed, the lesion area was cut open and drained as soon as possible, and the necrotic tissue was removed. Vacuum sealing drainage was performed when the necrotic tissue in the wound was reduced. The wounds were directly sutured or repaired with thin split-thickness skin grafts taken from head and/or thigh or local skin flaps after the wounds were improved. The skin grafts and flaps survived well after surgery, and the wound was completely closed. None of the 25 patients had amputation. A total of 21 patients were followed up for more than half a year, showing no recurrence of acute necrotizing fasciitis and no difference in the function of their injured limb after the wound healing than before the onset.

Scars are the result of abnormal repair of skin tissue trauma. Recently, fractional laser is more and more widely used in the treatment of scars, but its mechanism is not clear. Studies have shown that fractional laser could produce multiple microthermal zones in target skin, induce wound repair responses, affect the function of epidermal and dermal cells, induce changes in blood vessels and collagens, and change the expression of heat shock proteins, microRNA, matrix metalloproteinases, cytokines such as transforming growth factor β, basic fibroblast growth factor, and facilitate drug delivery, thus achieving the effect of treating scars. This article reviews the mechanism of fractional laser in treating scars from three aspects, including the tissue and cell mechanism, molecular mechanism, and drug delivery.

Diabetic wound is a common complication of diabetes, and the effect of current treatment is still poor. Curcumin has many pharmacological effects, such as anti-inflammatory, anti-oxidation, antimicrobial, anti-cancer, and improving insulin resistance. In this paper, the research advances on the effects and mechanism of curcumin in promoting diabetic wound healing were mainly reviewed.

The efficient management of wounds is the focus of current research. In addition to conventional wound management and necessary surgery, the role of pro-healing drugs in wound treatment has gradually been emphasized. Platelet-rich blood products that is rich in a variety of biologically active molecules are considered as a low-cost and safe therapy in promoting tissue healing, and have great development prospects in the field of regenerative medicine. However, due to the lack of standard preparation and management and the unstable activities of the biomolecules in them, the therapeutic effects of platelet-rich blood products are uneven. In order to solve these problems, researches related to the protection and delivery of biologically active molecules in platelet-rich blood products by biomaterials have gradually increased in recent years, which is also one of the latest trends in wound treatment research. This article first briefly introduces the types of platelet-rich blood products, then outlines the latest research progress achieved by their combination with biomaterials, and finally summarizes the research progress and future research directions of the combination approach in wound treatment.