Objective:To investigate the clinical effect of indocyanine green angiography (ICGA)-assisted design and harvest of expanded flaps for scar reconstruction.Methods:This study was a retrospective observational study. From April 2019 to August 2023, 19 patients with scars (8 males, 11 females; aged 3-38 years) treated at the Plastic Surgery Hospital of Peking Union Medical College and Chinese Academy of Medical Sciences met the inclusion criteria. The scars were distributed on the head, face, trunk, and extremities. In stage Ⅰ surgery, skin soft tissue expanders were implanted in suitable areas around the scars for skin soft tissue expansion. In stage Ⅱ surgery, the scar tissue was excised, resulting in wound areas ranging from 100 to 210 cm 2, and expanded flaps were designed. ICGA was used to identify target perforators and their accompanying veins, and the flap design was adjusted to ensure the inclusion of complete arterial and venous axes. The expanded flap with an area of 120 to 240 cm2 was harvested using unilateral back-cut technique and transferred to the recipient site, and the donor site wound was sutured directly. The durations of the arterial and venous phases of ICGA during flap design were recorded. The length-to-width ratios of the back-cut flaps were calculated for different regions. After stage Ⅱ surgery, the blood perfusion and survival of the flap, the wound healing at the donor site, and the occurrence of complications were observed. During follow-up, the appearance, color, and texture of the patient's flap were observed. Results:The arterial phase of ICGA lasted 10-27 (18±5) s, and the venous phase lasted 78-116 (100±10) s. The length-to-width ratios of the back-cut flaps were 1.22±0.32, 1.63±0.12, and 1.15±0.21 for the head and neck, trunk, and limb regions, respectively. After stage Ⅱ surgery, one patient had a large area of insufficient blood perfusion in the flap. By comparing ICGA images before and after flap transfer, the sutures at the oral commissure were loosened, the blood flow of the flap was restored. The blood perfusion of the flaps in other patients was good. All flaps survived completely, with well-healed donor site wounds and no complications. During 0.5-14.0 months of follow-up, all flaps of patients demonstrated excellent appearance, with color and texture matching the surrounding skin.Conclusions:As a means of superficial blood flow visualization, ICGA can not only clearly show the microvascular distribution of the expanded flap before operation, assist in optimizing the design of the flap, but also evaluate the blood perfusion of the flap after operation, reduce the occurrence of complications, and provide a full-process navigation for the harvesting of expanded flaps, thereby improving the safety of flap transfer for scar reconstruction.

Objective:To investigate the clinical effect of indocyanine green angiography (ICGA)-assisted design and harvest of expanded flaps for scar reconstruction.Methods:This study was a retrospective observational study. From April 2019 to August 2023, 19 patients with scars (8 males, 11 females; aged 3-38 years) treated at the Plastic Surgery Hospital of Peking Union Medical College and Chinese Academy of Medical Sciences met the inclusion criteria. The scars were distributed on the head, face, trunk, and extremities. In stage Ⅰ surgery, skin soft tissue expanders were implanted in suitable areas around the scars for skin soft tissue expansion. In stage Ⅱ surgery, the scar tissue was excised, resulting in wound areas ranging from 100 to 210 cm 2, and expanded flaps were designed. ICGA was used to identify target perforators and their accompanying veins, and the flap design was adjusted to ensure the inclusion of complete arterial and venous axes. The expanded flap with an area of 120 to 240 cm2 was harvested using unilateral back-cut technique and transferred to the recipient site, and the donor site wound was sutured directly. The durations of the arterial and venous phases of ICGA during flap design were recorded. The length-to-width ratios of the back-cut flaps were calculated for different regions. After stage Ⅱ surgery, the blood perfusion and survival of the flap, the wound healing at the donor site, and the occurrence of complications were observed. During follow-up, the appearance, color, and texture of the patient's flap were observed. Results:The arterial phase of ICGA lasted 10-27 (18±5) s, and the venous phase lasted 78-116 (100±10) s. The length-to-width ratios of the back-cut flaps were 1.22±0.32, 1.63±0.12, and 1.15±0.21 for the head and neck, trunk, and limb regions, respectively. After stage Ⅱ surgery, one patient had a large area of insufficient blood perfusion in the flap. By comparing ICGA images before and after flap transfer, the sutures at the oral commissure were loosened, the blood flow of the flap was restored. The blood perfusion of the flaps in other patients was good. All flaps survived completely, with well-healed donor site wounds and no complications. During 0.5-14.0 months of follow-up, all flaps of patients demonstrated excellent appearance, with color and texture matching the surrounding skin.Conclusions:As a means of superficial blood flow visualization, ICGA can not only clearly show the microvascular distribution of the expanded flap before operation, assist in optimizing the design of the flap, but also evaluate the blood perfusion of the flap after operation, reduce the occurrence of complications, and provide a full-process navigation for the harvesting of expanded flaps, thereby improving the safety of flap transfer for scar reconstruction.

Chaperone-mediated autophagy (CMA) is a lysosome-dependent selective degradation pathway implicated in the pathogenesis of cancer and neurodegenerative diseases. However, the mechanisms that regulate CMA are not fully understood. Here, using unbiased drug screening approaches, we discover Metformin, a drug that is commonly the first medication prescribed for type 2 diabetes, can induce CMA. We delineate the mechanism of CMA induction by Metformin to be via activation of TAK1-IKKα/β signaling that leads to phosphorylation of Ser85 of the key mediator of CMA, Hsc70, and its activation. Notably, we find that amyloid-beta precursor protein (APP) is a CMA substrate and that it binds to Hsc70 in an IKKα/β-dependent manner. The inhibition of CMA-mediated degradation of APP enhances its cytotoxicity. Importantly, we find that in the APP/PS1 mouse model of Alzheimer's disease (AD), activation of CMA by Hsc70 overexpression or Metformin potently reduces the accumulated brain Aβ plaque levels and reverses the molecular and behavioral AD phenotypes. Our study elucidates a novel mechanism of CMA regulation via Metformin-TAK1-IKKα/β-Hsc70 signaling and suggests Metformin as a new activator of CMA for diseases, such as AD, where such therapeutic intervention could be beneficial.

Objective:This paper briefly reviewed the literature related to skin flaps published in Chinese Journal of Plastic Surgery ( CJPS) and Plastic and Reconstructive Surgery ( PRS) in recent five years (from January 2016 to December 2020) to compare the similarities and differences between these two journals and to direct future research. Methods:In May of 2021, literature with "flap" as the keyword in the titles and abstracts published in CJPS and PRS in recent five years were searched. Related literature published by CJPS were searched by Wanfang Data and CNKI database, and that of PRS were searched by PubMed and Scopus database. After removing the repetitive literature, the titles and abstracts were read to exclude the non-flap studies and non-original articles. By reading the full text and using bibliometrics, the total number of papers published, the number of papers on flap research, the level of evidence-based medicine evidence, the nationality and organization distribution of the authors, the type of flaps, the application of flaps, and new technologies were comprehensively analyzed. Results:The total number of papers published by CJPS in recent five years was 1 116, and 244 were included in this study. The total number of articles published in PRS in the same period was 4 562, and 268 were included in this study. Most of the articles published in PRS are from American authors. The number of articles published by Chinese authors is in the second place. In the past five years, authors from the mainland of China published 21 papers in PRS. Most of the articles published by CJPS are about the pedicle flap, while PRS is about the free flap. CJPS published more articles about the traditional flaps than perforator flaps, and PRS did the opposite. CJPS published articles mainly on the local flap, anterolateral thigh flap, and peroneal artery perforator flap, while PRS focused on the inferior epigastric artery perforator fibula bone or osteocutaneous flap, and anterolateral thigh flap. The indication of flap surgery reported by CJPS is the reconstruction of various defects, while the flaps reported by PRS are mainly used in breast reconstruction and other fields. In addition, computer-aided imaging, indocyanine green angiography, propeller flap, multilobed flap, and other new technologies and concepts have been widely reported in the literature related to skin flaps published in CPJS and PRS. Conclusions:In the recent five years, the flap research in China has been at the leading international level and has certain competitiveness. However, the study in China is limited to reporting clinical experience, and the level of evidence-based medicine is relatively low, so there is still a certain gap with the international frontier research.

Objective:This paper briefly reviewed the literature related to skin flaps published in Chinese Journal of Plastic Surgery ( CJPS) and Plastic and Reconstructive Surgery ( PRS) in recent five years (from January 2016 to December 2020) to compare the similarities and differences between these two journals and to direct future research. Methods:In May of 2021, literature with "flap" as the keyword in the titles and abstracts published in CJPS and PRS in recent five years were searched. Related literature published by CJPS were searched by Wanfang Data and CNKI database, and that of PRS were searched by PubMed and Scopus database. After removing the repetitive literature, the titles and abstracts were read to exclude the non-flap studies and non-original articles. By reading the full text and using bibliometrics, the total number of papers published, the number of papers on flap research, the level of evidence-based medicine evidence, the nationality and organization distribution of the authors, the type of flaps, the application of flaps, and new technologies were comprehensively analyzed. Results:The total number of papers published by CJPS in recent five years was 1 116, and 244 were included in this study. The total number of articles published in PRS in the same period was 4 562, and 268 were included in this study. Most of the articles published in PRS are from American authors. The number of articles published by Chinese authors is in the second place. In the past five years, authors from the mainland of China published 21 papers in PRS. Most of the articles published by CJPS are about the pedicle flap, while PRS is about the free flap. CJPS published more articles about the traditional flaps than perforator flaps, and PRS did the opposite. CJPS published articles mainly on the local flap, anterolateral thigh flap, and peroneal artery perforator flap, while PRS focused on the inferior epigastric artery perforator fibula bone or osteocutaneous flap, and anterolateral thigh flap. The indication of flap surgery reported by CJPS is the reconstruction of various defects, while the flaps reported by PRS are mainly used in breast reconstruction and other fields. In addition, computer-aided imaging, indocyanine green angiography, propeller flap, multilobed flap, and other new technologies and concepts have been widely reported in the literature related to skin flaps published in CPJS and PRS. Conclusions:In the recent five years, the flap research in China has been at the leading international level and has certain competitiveness. However, the study in China is limited to reporting clinical experience, and the level of evidence-based medicine is relatively low, so there is still a certain gap with the international frontier research.

Objective:To explore the feasibility and technical tips of donor-site reconstruction of the latissimus dorsi myocutaneous flap using the perforator propeller flap technique.Methods:Between July 2012 and January 2019, a total of 24 patients, including 9 males and 15 females, underwent reconstructions of defects in various locations using the latissimus dorsi myocutaneous flap. The average patient age was 43.6 years (range, 4-81 years). Before surgery, perforators adjacent to the latissimus dorsi muscle were explored using an ultrasound Doppler probe and marked on the skin. A latissimus dorsi myocutaneous flap was elevated according to the resultant defect following the removal of the lesion and transferred to reconstruct the defect. The donor-site defects were reconstructed using one, dual, or even triple perforator propeller flap.Results:All the 24 myocutaneous flaps survived completely. The dimension and width of the myocutaneous flaps ranged from 16 cm × 11 cm to 33 cm × 17 cm and 9 cm to 20 cm, respectively. The donor-site defects of the myocutaneous flap were all closed by perforator propeller flaps including 22 pedicled flaps and 2 free flaps. The defect was reconstructed by one perforator propeller flap in 12 patients, two flaps in 11, and three flaps in the remaining one patient. There were 36 posterior intercostal artery perforator propeller flaps and one freestyle perforator propeller flap. The size, pedicle length, and rotation angle of the propeller flaps were 13 cm × 5 cm to 23 cm × 14 cm, 3 cm to 6 cm, and 90 to 180 degrees, respectively. All the donor sites of the perforator propeller flaps were closed primarily. Total necrosis of the propeller flap occurred in one patient and small-sized distal flap necrosis in another one. The remaining propeller flaps survived completely. All patients were followed up for one to 38 months and the mean follow-up time was 7 months. Tumor recurrence was noticed in four patients. All patients were satisfied with the final functional and aesthetic outcomes.Conclusions:Using the perforator propeller flaps could guarantee not only harvesting a wide latissimus dorsi myocutaneous flap, but also primary donor-site closure of the myocutaneous flap, and therefore greatly improve the versatility and capability of the latissimus dorsi myocutaneous in defect reconstruction.

Objective:To explore the indications and technical tips of defect reconstruction in the elbow and upper arm using the radial collateral artery perforator (RCAP) propeller flap.Methods:From October 2016 to December 2019, 6 patients underwent defect reconstruction using the RCAP propeller flaps. All patients were female, aged from 5 to 66 years, with an average of 31 years. All of the defects were repaired with radial collateral artery perforator propeller flap. Before the surgery, the RCAP was thoroughly explored using the hand-held ultrasound Doppler and marked on the skin. According to the size, shape and location of the defect, a RCAP propeller flap was elevated based on the chosen RCAP, rotated in a certain degree with the perforating point as the rotation point. The large paddle was used to repair the defect of the upper extremity, and the small paddle was used to assist in closing the donor site. The donor sites were sutured directly or repaired with free skin graft. Capillary filling test or indocyanine green SPY fluorescence imaging system was used to evaluate the blood supply of the flap immediately. The effect was observed.Results:The defect size ranged from 6.0 cm × 3.0 cm to 10.0 cm × 7.0 cm. The flap size ranged from 6.0 cm × 3.5 cm to 20.0 cm × 8.0 cm. All perforators were septocutaneous perforators. The pedicle of the pedicle ranged from 2.5 cm to 5.0 cm and the mean length was 3.6 cm. The flaps were rotated 180° in 5 patients, and 150° in one patient. The donor sites were sutured directly in 5 patients and repaired with free skin graft in one patient. Five flaps survived completely without any major complications. Wound infection occurred in one flap, which healed after debridement. All donor sites were closed primarily, except one which was covered by free skin grafting. All patients were followed up for 3 months to 3 years and the average follow-up time was 2.4 years. The appearance and texture of the flap were good, and the motion of elbow joint was normal. All patients were satisfied with the functional and aesthetic outcomes of the upper extremities. Tumor recurrence was not noticed in the oncologic patients.Conclusions:For selected patients, the RCAP propeller flap could be an alternative option for soft-tissue defect reconstruction in the upper extremity.

Objective:To explore the feasibility and technical tips of donor-site reconstruction of the latissimus dorsi myocutaneous flap using the perforator propeller flap technique.Methods:Between July 2012 and January 2019, a total of 24 patients, including 9 males and 15 females, underwent reconstructions of defects in various locations using the latissimus dorsi myocutaneous flap. The average patient age was 43.6 years (range, 4-81 years). Before surgery, perforators adjacent to the latissimus dorsi muscle were explored using an ultrasound Doppler probe and marked on the skin. A latissimus dorsi myocutaneous flap was elevated according to the resultant defect following the removal of the lesion and transferred to reconstruct the defect. The donor-site defects were reconstructed using one, dual, or even triple perforator propeller flap.Results:All the 24 myocutaneous flaps survived completely. The dimension and width of the myocutaneous flaps ranged from 16 cm × 11 cm to 33 cm × 17 cm and 9 cm to 20 cm, respectively. The donor-site defects of the myocutaneous flap were all closed by perforator propeller flaps including 22 pedicled flaps and 2 free flaps. The defect was reconstructed by one perforator propeller flap in 12 patients, two flaps in 11, and three flaps in the remaining one patient. There were 36 posterior intercostal artery perforator propeller flaps and one freestyle perforator propeller flap. The size, pedicle length, and rotation angle of the propeller flaps were 13 cm × 5 cm to 23 cm × 14 cm, 3 cm to 6 cm, and 90 to 180 degrees, respectively. All the donor sites of the perforator propeller flaps were closed primarily. Total necrosis of the propeller flap occurred in one patient and small-sized distal flap necrosis in another one. The remaining propeller flaps survived completely. All patients were followed up for one to 38 months and the mean follow-up time was 7 months. Tumor recurrence was noticed in four patients. All patients were satisfied with the final functional and aesthetic outcomes.Conclusions:Using the perforator propeller flaps could guarantee not only harvesting a wide latissimus dorsi myocutaneous flap, but also primary donor-site closure of the myocutaneous flap, and therefore greatly improve the versatility and capability of the latissimus dorsi myocutaneous in defect reconstruction.

Objective:To explore the indications and technical tips of defect reconstruction in the elbow and upper arm using the radial collateral artery perforator (RCAP) propeller flap.Methods:From October 2016 to December 2019, 6 patients underwent defect reconstruction using the RCAP propeller flaps. All patients were female, aged from 5 to 66 years, with an average of 31 years. All of the defects were repaired with radial collateral artery perforator propeller flap. Before the surgery, the RCAP was thoroughly explored using the hand-held ultrasound Doppler and marked on the skin. According to the size, shape and location of the defect, a RCAP propeller flap was elevated based on the chosen RCAP, rotated in a certain degree with the perforating point as the rotation point. The large paddle was used to repair the defect of the upper extremity, and the small paddle was used to assist in closing the donor site. The donor sites were sutured directly or repaired with free skin graft. Capillary filling test or indocyanine green SPY fluorescence imaging system was used to evaluate the blood supply of the flap immediately. The effect was observed.Results:The defect size ranged from 6.0 cm × 3.0 cm to 10.0 cm × 7.0 cm. The flap size ranged from 6.0 cm × 3.5 cm to 20.0 cm × 8.0 cm. All perforators were septocutaneous perforators. The pedicle of the pedicle ranged from 2.5 cm to 5.0 cm and the mean length was 3.6 cm. The flaps were rotated 180° in 5 patients, and 150° in one patient. The donor sites were sutured directly in 5 patients and repaired with free skin graft in one patient. Five flaps survived completely without any major complications. Wound infection occurred in one flap, which healed after debridement. All donor sites were closed primarily, except one which was covered by free skin grafting. All patients were followed up for 3 months to 3 years and the average follow-up time was 2.4 years. The appearance and texture of the flap were good, and the motion of elbow joint was normal. All patients were satisfied with the functional and aesthetic outcomes of the upper extremities. Tumor recurrence was not noticed in the oncologic patients.Conclusions:For selected patients, the RCAP propeller flap could be an alternative option for soft-tissue defect reconstruction in the upper extremity.