OBJECTIVE: To review the nomenclature, functional unit construction, technical essentials, and prevention and treatment of complications of functional perforator flaps, so as to provide references for the structural and functional reconstruction of composite tissue defects. METHODS: By retrieving and analyzing domestic and foreign literature on anatomical research, technical innovation and clinical application of functional design and application of perforator flaps, combined with the clinical practice of our team, the methods for harvesting and integrating functional units of perforator flaps were summarized. RESULTS: Functional perforator flap refers to a perforator flap that, on the basis of perforator blood supply, carries one or more tissue functional units (such as muscles, nerves, lymphatic vessels, lymph nodes, bones, mucous membranes, joints or articular cartilages, etc.) with sufficient blood supply located in the supra-fascia and/or sub-fascia, and is used to reconstruct one or more functions of the recipient site. The design and transfer of functional perforator flaps should not only meet the needs of precise coverage of the wound, but also reconstruct the functions of the recipient site such as muscle contraction, flap sensation, lymphatic drainage, blood flow bridging, bone growth, glandular secretion or joint movement, while avoiding iatrogenic dysfunction in the donor site. CONCLUSION Functional perforator flaps have broken through the limitation of "wound coverage" and realize the integrated reconstruction of "structure-function-aesthetics".
Humans ; Perforator Flap/blood supply* ; Plastic Surgery Procedures/methods* ; Soft Tissue Injuries/surgery* ; Tissue and Organ Harvesting/methods* ; Skin Transplantation/methods*

OBJECTIVE: To review the clinical applications of functional perforator flaps in restoring human body functions. METHODS: An extensive literature review was conducted on both domestic and international publications to summarize the clinical use of functional perforator flaps for functional restoration. RESULTS: Perforator flaps are among the most commonly used flaps in reconstructive surgery. Beyond providing soft tissue repair, they are increasingly employed to reconstruct diverse bodily functions, leading us to propose the concept of the "functional perforator flap". Although various forms of functional perforator flaps are currently utilized, reports are predominantly scattered case studies, lacking systematic organization. Commonly used functional perforator flaps can be categorized into five types: chimeric perforator flaps, perforator flaps for nerve function restoration, perforator flaps for lymphatic drainage enhancement, flow-through perforator flaps, and perforator flaps for restoring bone and joint motion. These flaps significantly broaden the application scope of perforator flaps, elevating the goal of reconstruction from mere wound repair to achieving repair concurrent with functional reconstruction. CONCLUSION The application of various functional perforator flap designs significantly improves wound reconstruction outcomes and represents an effective approach for managing complex defects. Future developments will undoubtedly see more forms of functional perforator flaps reported to meet increasingly sophisticated reconstructive demands.
Humans ; Perforator Flap/blood supply* ; Plastic Surgery Procedures/methods* ; Soft Tissue Injuries/surgery* ; Skin Transplantation/methods* ; Wound Healing

OBJECTIVE: To explore the application value of infrared thermography in the design and harvesting of ultrathin anterolateral thigh perforator flaps. METHODS: Between June 2024 and December 2024, 9 cases of ultrathin anterolateral thigh perforator flaps were designed and harvested with the assistance of infrared thermography. There were 7 males and 2 females, aged 21-61 years (mean, 39.8 years). The body mass index ranged from 19.49 to 26.45 kg/m² (mean, 23.85 kg/m²). Causes of injury included 5 cases of traffic accident injuries and 4 cases of machine crush injuries. There were 3 cases of leg wounds, 2 cases of foot wounds, and 4 cases of hand wounds. After debridement, the size of wound ranged from 7 cm×4 cm to 13 cm×11 cm. The time from admission to flap repair surgery was 5-12 days (mean, 7 days). Preoperatively, perforator localization was performed using a traditional Doppler flow detector and infrared thermography, respectively. The results were compared with the actual intraoperative locations; a discrepancy ≤10 mm was considered as consistent localization (positive), and the positive predictive value was calculated. All 9 cases were repaired with ultrathin anterolateral thigh perforator flaps designed and harvested based on thermographic images. The size of flap ranged from 8 cm×5 cm to 14 cm×8 cm, with a thickness of 3-6 mm (mean, 5.2 mm). One donor site was repaired with a full-thickness skin graft, and the others were sutured directly. Postoperatively, anti-inflammatory, anticoagulant, and anti-vascular spasm treatments were administered, and follow-up was conducted. RESULTS: The Doppler flow detector identified 22 perforating vessels within the set range, among which 16 were confirmed as superficial fascia layer perforators intraoperatively, with a positive predictive value of 72.7%. The infrared thermograph detected 23 superficial fascia layer perforating vessels, and 21 were verified intraoperatively, with a positive predictive value of 91.3%. There was no significant difference between the two methods [OR (95%CI)=3.93 (0.70, 22.15), P=0.100]. The perforator localization time of the infrared thermograph was (5.1±1.3) minutes, which was significantly shorter than that of the Doppler flow detector [(10.1±2.6) minutes; MD (95%CI)=-5.00 (-7.08, -2.91), P<0.001]. Postoperatively, 1 case of distal flap necrosis healed after dressing change; all other flaps survived successfully. The skin grafts at donor site survived, and all incisions healed by first intention. All patients were followed up 3-6 months (mean, 4.7 months). No pain or other discomfort occurred at the donor or recipient sites. All patients with foot wounds could walk with shoes, and no secondary flap revision was required. Flaps in 3 hand wound cases, 2 foot wound cases, and 3 leg wound cases recovered light touch and pressure sensation, but not pain or temperature sensation; the remaining 2 cases had no sensory recovery. CONCLUSION Preoperative localization using infrared thermography for repairing ultrathin anterolateral thigh perforator flaps can help evaluate the blood supply status of perforators, reduce complications, and improve surgical safety and flap survival rate.
Humans ; Perforator Flap/blood supply* ; Adult ; Male ; Thermography/methods* ; Female ; Thigh/blood supply* ; Middle Aged ; Plastic Surgery Procedures/methods* ; Tissue and Organ Harvesting/methods* ; Infrared Rays ; Skin Transplantation/methods* ; Soft Tissue Injuries/surgery* ; Young Adult

Objective:To explore the surgical techniques and effects of transfer of the free chimeric functional thoracodorsal artery perforator flap (TDAPF) with latissimus dorsi in reconstruction of dynamic muscle and soft tissue defects in forearm.Methods:From January 2014 to December 2020, a total of 13 transfer surgery of free chimeric functional TDAPF with vascularised latissimus dorsi were performed in the Department of Hand Surgery, Plastic & Reconstructive Surgery, Ningbo Sixth Hospital, to reconstruct forearm composite defects. The patients were 12 males and 1 female with an average age of 33.2 years old. They all had open forearm injuries, with 5 in the left and 8 in the right. Removal of inactivated muscles, exploration and repair of blood vessels and nerves were performed in emergency surgery, and VSD were applied after the surgery. Phase II reconstructive surgery were completed within 4 to 12 days, with 7.5 days in average. The wounds and flaps sized were 9.0 cm×8.0 cm - 21.0 cm×11.0 cm and were 10.0 cm×9.0 cm - 22.0 cm×12.0 cm, respectively. The volume of transferred muscles ranged were 9.0 cm × 2.0 cm × 1.5 cm - 19.0 cm × 9.0 cm × 1.5 cm. Free chimeric functional muscular flaps were transferred to reconstruct the musculus flexor digitorum profundus in 4 patients, the musculus extensor digitorum communis in 8 patients, the musculus flexor carpi radialis in 3 patients, and the musculus flexor pollicis longus in 1 patient. Reconstruction of both of musculus flexor carpi radialis and musculus extensor digitorum communis with 2 functional sub-blocks of latissimus dorsi were performed in 3 patients. All donor sites were closed primarily. All patients were included in the postoperative follow-up to evaluate the appearance of flaps, range of motion of the digits, recovery of muscle strength and gripping power, at the outpatient clinics or through the telephone interview.Results:A total of 12 flaps survived uneventfully after reconstructive surgery. One flap developed a vascular crisis and it was rectified after surgical exploration. Postoperative follow-up ranged from 17 to 52 months, with a mean of 34.1 months. Appearances of limbs and flaps were good without obvious bulky, hyperpigmentation or scar contracture. Four patients with reconstructed musculus flexor digitorum profundus showed muscle strength recovery of M 4, with the fingertips measured lower than 2.0 cm from the centre of palm when clenching a fist, and the average gripping strength of the hand reached 27.5% (20%-35%) to the healthy side. Five patients with reconstructed musculus extensor digitorum communis showed muscle strength recovery of M 4, and there was no obvious limitation in fingers flexion and extension, with the average gripping strength of the hand reached 75.4% (65%-80%) to the healthy side. Of the 3 patients with reconstruction of both power muscles, the recovery of muscle strength of musculus flexor carpi radialis was at M 4 in all the 3 patients, and the musculus extensor digitorum communis was at M 4 in 1 and M 3 in 2 patients. However, the patient who received reconstruction of musculus flexor pollicis had no significant recovery in muscle strength. Conclusion:Transfer of free chimeric functional TDAPF combines the benefits of a perforator flap and a functional muscle transfer together. This surgical technique can effectively reconstruct damaged muscle groups in forearm and resulting in good hand movement. Additionally, it can also restore the aesthetic appearance of forearm, hence makes it an excellent option for complex wound coverage.

Objective:To investigate the effects of thinned anterolateral thigh perforator flaps combined with finger splitting and webplasty in sequential treatment of degloving destructive wound of total hand.Methods:This study was a retrospective observational study. From January 2012 to January 2023, a total of 15 cases who met the inclusion criteria with degloving destructive wound of total hand were admitted to Ningbo No.6 Hospital, including 10 males and 5 females, aged 17-75 years. The wounds were all combined with exposed bones or tendon. Emergency debridement and vacuum sealing drainage were performed in all cases before flap transplantation in stage Ⅰ. After thorough debridement, the wound area was 11.0 cm×3.0 cm-23.0 cm×13.5 cm. One or both anterolateral thigh perforator flaps with size of 12.5 cm×5.0 cm-25.0 cm×15.5 cm were designed, cut, and thinned to repair the skin and soft tissue defects of the hand. The donor site was sutured directly or repaired with medium-thickness skin graft from the opposite thigh. As needed, the flap was reconstructed by finger splitting and webplasty once or more times every 3 months after stage Ⅰoperation. The survival and complications of flap and wound healing at the donor site were observed after stage Ⅰoperation. The appearance of flap, two-point discrimination distance, and hand function were observed during the follow-up. At the final follow-up, the function of the affected hand was evaluated by the trial standards for evaluation of partial function of upper extremity by the Hand Surgery Society of Chinese Medical Association.Results:After the operation of stage Ⅰ, all the flaps of 15 cases of patients survived completely, including 1 case that had arterial crisis of flap but survived completely after exploration and re-anastomosis of blood vessels; all the wounds at the donor site healed. During the follow-up period of 6 to 18 months after stage Ⅰ, the flap was slightly swollen, with a little pigmentation, and the two-point discrimination distance in the finger flap was 8-11 mm. The fingers could complete the basic life actions such as flexion, extension, pinch, and grip. At the final follow-up, 3 cases were excellent, 9 cases were good, and 3 cases were acceptable in function evaluation of the affected hand.Conclusions:For degloving destructive wound of total hand, free transplantation of one or both thinned anterolateral thigh perforator flaps is used for repair in stage Ⅰ, and finger splitting and webplasty are used to reconstruct the flaps in the later stage, which can basically restore the pinch and grip function of the affected hand that is required for daily life, and is worthy of clinical promotion.

With an aging population, the incidence of osteoporotic vertebral fractures (OVFs) is on the rise, posing new challenges for developing personalized treatment strategies. For patients who do not respond to conservative treatment, percutaneous vertebroplasty or percutaneous kyphoplasty (PVP/PKP) remains the preferred surgical option due to its minimal invasiveness and rapid recovery time. However, progressive local kyphosis (PLK) is one of the most severe complications following PVP/PKP, with an incidence rate of 1.5%-25.8%. PLK often presents with recurring thoracic and lower back pain, and in severe cases, spinal stenosis, causing symptoms like numbness and pain in the lower limbs. The severity of PLK varies, and treatments can range from conservative management and bone cement reinforcement to internal fixation or osteotomy. Current studies suggest that re-fracture of the affected vertebra, intervertebral disc degeneration, and osteonecrosis may be underlying mechanisms. These conditions shift the axial load forward, promoting postoperative PLK, which tends to progress over time. Postoperative PLK is closely associated with patient characteristics, fracture details, surgical factors, and post-surgery osteoporosis management. 1) The severity of osteoporosis, as indicated by the T-score from bone mineral density testing, can help predict postoperative PLK. While factors like age and gender influence osteoporosis severity, no direct relationship has been established between these factors and PLK. 2) Thoracolumbar fractures, old nonunion fractures, endplate fractures, or severe preoperative compression changes with kyphosis can increase PLK risk. Surgical factors, including the use of balloons or implants and the distribution of bone cement, also play a role. Personalized treatment plans should be developed based on the patient's general condition and imaging results to ensure adequate bone cement diffusion, as enhanced integration can reduce PLK risk. 3) Postoperative anti-osteoporosis therapy is also crucial; long-term therapy, particularly with teriparatide, can prevent PLK. Recognizing the related risk factors and establishing predictive models can help clinicians tailor treatments. Machine learning models, utilizing big data, are particularly adept at handling complex interrelated risk factors and may provide a powerful tool for personalized treatment in the future.

OBJECTIVE: To review the clinical research progress of spinal epidural lipomatosis (SEL). METHODS: The clinical studies on SEL at home and abroad in recent years were extensively reviewed, and the pathogenesis, clinical and imaging manifestations, and treatment status of SEL were summarized and analyzed. RESULTS: SEL is a disease characterized by compression of the spinal cord and nerve roots due to abnormal accumulation of epidural adipose tissue in the spinal canal. Its prevalence and diagnosis rate are low and the pathogenesis is not fully understood. MRI is the most sensitive and specific diagnostic test for SEL. Surgical decompression and removal of excess adipose tissue are the only options for patients with acute SEL or those who have failed conservative management, and conservative management should be considered for other patients. CONCLUSION SEL is a rare disease and related research still needs to be improved. In the future, high-quality, multi-center and large-sample studies will be of great significance for evaluating the choice of treatment methods and effectiveness of SEL patients.
Humans ; Decompression, Surgical/methods* ; Epidural Space/surgery* ; Lipomatosis/surgery* ; Magnetic Resonance Imaging ; Spinal Cord Diseases/surgery*

Ex vivo culture-amplified mesenchymal stem cells (MSCs) have been studied because of their capacity for healing tissue injury. MSC transplantation is a valid approach for promoting the repair of damaged tissues and replacement of lost cells or to safeguard surviving cells, but currently the efficiency of MSC transplantation is constrained by the extensive loss of MSCs during the short post-transplantation period. Hence, strategies to increase the efficacy of MSC treatment are urgently needed. Iron overload, reactive oxygen species deposition, and decreased antioxidant capacity suppress the proliferation and regeneration of MSCs, thereby hastening cell death. Notably, oxidative stress (OS) and deficient antioxidant defense induced by iron overload can result in ferroptosis. Ferroptosis may inhibit cell survival after MSC transplantation, thereby reducing clinical efficacy. In this review, we explore the role of ferroptosis in MSC performance. Given that little research has focused on ferroptosis in transplanted MSCs, further study is urgently needed to enhance the in vivo implantation, function, and duration of MSCs.
Humans ; Antioxidants/metabolism* ; Ferroptosis ; Mesenchymal Stem Cell Transplantation ; Mesenchymal Stem Cells ; Iron Overload/metabolism*

Objective:To investigate the effect of tourniquet-reperfusion augmented infrared thermography(TRAIRT) on locating the dominant perforator to assist design of free medial sural artery perforator flap.Methods:The data of patients with skin soft tissue defect of upper limb repaired by free medial sural artery perforator flap in Department of Hand Surgery, Ningbo Sixth Hospital from May 2019 to January 2022 were retrospectively analyzed. Color Doppler ultrasonography (CDU) and TRAIRT were used to locate the dominant perforator auxiliary flap design before surgery and after anesthesia. In the TRAIRT video, the hot spot with "early emergence, high brightness and fast expansion" was selected as the advantageous perforator. During the operation, the flap was elevated and transferred to the affected area to cover the defect wound according to the designed mark points, and fixed by the absorbable sutures with an interrupted suturing method, then end-to-end vascular anastomosis was performed successively. The donor area was sutured directly or sutured with full thickness skin grafts depending on the area of the wound. The donor and recipient areas of the flap were observed and the patients’ satisfaction was recorded. The gold standard was the actual location of the perforating vessel found during the operation. Compared with the gold standard, the location of the perforating vessel explored by TRAIRT and CDU was considered to be accurate (positive) if the distance was less than 10 mm. The sensitivity (accurate number of perforators/actual number of perforators during operation ×100%) and positive predictive value (accurate number of perforators/total number of perforators×100%) of the two methods were calculated, expressed as %, and the sensitivity of the two methods was compared by paired χ2 test. Kappa coefficient was used to analyze the consistency of the two methods to detect perforating vessels. The perforator detection time of TRAIRT and CDU were recorded, expressed as Mean±SD, and statistically analyzed by paired sample t-test. Results:A total of 23 patients were included, consisting of 14 males and 9 females, agd 21-70 years old, average age of 43 years old. The wounds were on forearm in 5 cases, wrist in 2 cases, and hand in 16 cases. The wound area was 4.5 cm × 5.5 cm-6.5 cm × 12.0 cm. Intraoperative flap incision area was 5.0 cm × 6.0cm-7.0 cm × 13.0 cm. After operation, 22 cases of flaps survived, 1 case had superficial necrosis at the distal end, which healed after repeated dressing change. The donor area of flaps healed well, with primary suture in 20 cases and full thickness skin grafting in 3 cases. Postoperative follow-up was 5-16 months (mean 8.4 months). The flaps had no bulge, swelling and abrasion. The texture and color were similar to the medial calf skin, and the scars in the donor and recipient areas were not obvious. The patients were satisfied with the recovery. Among the 23 patients, 49 perforators were found by TRAIRT, 50 perforators were found by CDU, and 53 perforators were found intraoperatively. The sensitivity of TRAIRT and CDU was 88.7% (47/53) and 90.6% (48/53), with no significant differences ( P>0.05), and the positive prediction value was 95.9% (47/49) and 96.0% (48/50) respectively. The Kappa coefficient was 0.89, indicating a good consistency between the two methods. The time required for TRAIRT to detect perforators was significantly shorter than that of CDU, with statistical significance [(6.52±2.02) min vs. (17.87±2.49) min, P<0.01]. Conclusion:TRAIRT has a good consistency with CDU in detection of medial sural artery perforator. The application of TRAIRT in designing medial sural artery perforator flap for wound repair is good, and it has advantages of short time taking, simple operation, economy and non-invasiveness.

Objective:To investigate the effect of tourniquet-reperfusion augmented infrared thermography(TRAIRT) on locating the dominant perforator to assist design of free medial sural artery perforator flap.Methods:The data of patients with skin soft tissue defect of upper limb repaired by free medial sural artery perforator flap in Department of Hand Surgery, Ningbo Sixth Hospital from May 2019 to January 2022 were retrospectively analyzed. Color Doppler ultrasonography (CDU) and TRAIRT were used to locate the dominant perforator auxiliary flap design before surgery and after anesthesia. In the TRAIRT video, the hot spot with "early emergence, high brightness and fast expansion" was selected as the advantageous perforator. During the operation, the flap was elevated and transferred to the affected area to cover the defect wound according to the designed mark points, and fixed by the absorbable sutures with an interrupted suturing method, then end-to-end vascular anastomosis was performed successively. The donor area was sutured directly or sutured with full thickness skin grafts depending on the area of the wound. The donor and recipient areas of the flap were observed and the patients’ satisfaction was recorded. The gold standard was the actual location of the perforating vessel found during the operation. Compared with the gold standard, the location of the perforating vessel explored by TRAIRT and CDU was considered to be accurate (positive) if the distance was less than 10 mm. The sensitivity (accurate number of perforators/actual number of perforators during operation ×100%) and positive predictive value (accurate number of perforators/total number of perforators×100%) of the two methods were calculated, expressed as %, and the sensitivity of the two methods was compared by paired χ2 test. Kappa coefficient was used to analyze the consistency of the two methods to detect perforating vessels. The perforator detection time of TRAIRT and CDU were recorded, expressed as Mean±SD, and statistically analyzed by paired sample t-test. Results:A total of 23 patients were included, consisting of 14 males and 9 females, agd 21-70 years old, average age of 43 years old. The wounds were on forearm in 5 cases, wrist in 2 cases, and hand in 16 cases. The wound area was 4.5 cm × 5.5 cm-6.5 cm × 12.0 cm. Intraoperative flap incision area was 5.0 cm × 6.0cm-7.0 cm × 13.0 cm. After operation, 22 cases of flaps survived, 1 case had superficial necrosis at the distal end, which healed after repeated dressing change. The donor area of flaps healed well, with primary suture in 20 cases and full thickness skin grafting in 3 cases. Postoperative follow-up was 5-16 months (mean 8.4 months). The flaps had no bulge, swelling and abrasion. The texture and color were similar to the medial calf skin, and the scars in the donor and recipient areas were not obvious. The patients were satisfied with the recovery. Among the 23 patients, 49 perforators were found by TRAIRT, 50 perforators were found by CDU, and 53 perforators were found intraoperatively. The sensitivity of TRAIRT and CDU was 88.7% (47/53) and 90.6% (48/53), with no significant differences ( P>0.05), and the positive prediction value was 95.9% (47/49) and 96.0% (48/50) respectively. The Kappa coefficient was 0.89, indicating a good consistency between the two methods. The time required for TRAIRT to detect perforators was significantly shorter than that of CDU, with statistical significance [(6.52±2.02) min vs. (17.87±2.49) min, P<0.01]. Conclusion:TRAIRT has a good consistency with CDU in detection of medial sural artery perforator. The application of TRAIRT in designing medial sural artery perforator flap for wound repair is good, and it has advantages of short time taking, simple operation, economy and non-invasiveness.