Hepatic artery reconstruction using an operating microscope in pediatric liver transplantation—Is it worth the effort?

Introduction: In pediatric liver transplantation (pLT), hepatic artery thrombosis (HAT) is associated with inferior transplant outcome. Hepatic artery reconstruction (HAR) using an operating microscope (OM) is considered to reduce the incidence of HAT. Methods: HAR using an OM was compared to a historic cohort using surgical loupes (SL) in pLT performed between 2009 and 2020. Primary endpoint was the occurrence of HAT. Secondary endpoints were 1-year patient and graft survival determined by Kaplan-Meier analysis and complications. Multivariate analysis was used to identify independent risk factors for HAT and adverse events. Results: A total of 79 pLTs were performed [30 (38.0%) living donations; 49 (62.0%) postmortem donations] divided into 23 (29.1%) segment 2/3, 32 (40.5%) left lobe, 4 (5.1%) extended right lobe, and 20 (25.3%) full-size grafts. One-year patient and graft survival were both 95.2% in the OM group versus 86.2% and 77.8% in the SL group (p = .276 and p = .077). HAT rate was 0% in the OM group versus 24.1% in the SL group (p = .013). One-year patient and graft survival were 64.3% and 35.7% in patient with HAT, compared to 93.9% and 92.8% in patients with no HAT (both p < .001). Multivariate analysis revealed HAR with SL (p = .022) and deceased donor liver transplantation (DDLT) (p = .014) as independent risk factors for HAT. The occurrence of HAT was independently associated with the need for retransplantation (p < .001) and biliary leakage (p = .045). Conclusion: In pLT, the use of an OM is significantly associated to reduce HAT rate, biliary complications, and graft loss and outweighs the disadvantages of delayed arterial perfusion and prolonged warm ischemia time (WIT)

Standortbestimmung – Status quo der plastisch-rekonstruktiven Chirurgie aus der Sicht der Handchirurgie

Modern plastic-reconstructive surgery, much like hand surgery, repres a young and fast-developing surgical discipline. The principles of plastic surgery originate in the developmental stages of surgery and have considerable influence on hand surgery. Microsurgery, free or pedicled transfer of tissue, peripheral nerve surgery, plexus surgery, tendon transfers, arthroplasty, vascularized bone transfers, or toe to thumb transplants, are all performed while considering plastic surgical principles and represent just a part of plastic surgical techniques which are daily applied in hand-surgical routine. They emphasize the intimate relationship and the mutual influence between the two disciplines. The future of plastic surgery is likely to include composite tissue allotransplantation, flap prefabrication, virtual surgical planning, application of growth factors to influence bone growth, fracture healing, angiogenesis, tendon healing or wound healing. Furthermore, the field of tissue engineering is likely to introduce novel materials, such as nerve conduits. All of the above may have direct influence on hand surgery and, therefore, the future of plastic and hand surgery is at least as intricately intertwined as was their past. They will remain related through the characteristics that led to their development: innovation, creativity, diversity and the search for individualized solutions

Safety and aesthetic outcomes of SERASYNTHⓇ MESH BR for direct-to-implant breast reconstruction: A retrospective single center analysis of 32 consecutive cases

Background: Bilateral mastectomy for both therapeutic and prophylactic reasons is becoming increasingly important. To achieve good results after mastectomy, synthetic meshes are often used as an alternative to acellular dermal matrices (ADMs). The aim of this study is to analyze the results of subcutaneous mastectomies and direct-to-implant breast reconstruction using SERASYNTHⓇ MESH BR. Methods: In this work, data from mastectomies (n = 32) in 22 patients without prior radiation after breast reconstruction with SERASYNTHⓇ MESH BR from a single center were retrospectively analyzed with 1 year follow-up. Complications were categorized as serious (need for revision surgery) and minor events. Statistical analysis was performed using the t-test in SPSS. Data were compared with the existing literature. Results: Major complications occurred in 15.6% (n = 5). Two out of five revisions were due to hematoma. In three cases, a seroma followed by other complications (e.g., infections, necrosis) necessitated revision. Minor complications occurred in 12.5% of cases. Due to the safety aspect, implants were replaced in each revision. There was no significant difference in complication rates between prophylactic and therapeutic mastectomies (p = 0.3815, SE = 0.171). There was no statistically significant difference in esthetic outcomes (p = 0.3846). Conclusion: The application of the absorbable polymer poly-p-dioxanone SERASYNTHⓇ MESH BR has complication rates comparable to those reported in the existing literature. Careful patient selection is paramount in order to limit the complication rate. SERASYNTHⓇ MESH BR can be considered a safe tool to achieve esthetic results in combination with direct-to-implant breast reconstruction

Fibrin glue repair leads to enhanced axonal elongation during early peripheral nerve regeneration in an in vivo mouse model

Microsurgical suturing is the gold standard of nerve coaptation. Although literature on the usefulness of fibrin glue as an alternative is becoming increasingly available, it remains contradictory. Furthermore, no data exist on how both repair methods might influence the morphological aspects (arborization; branching) of early peripheral nerve regeneration. We used the sciatic nerve transplantation model in thy-1 yellow fluorescent protein mice (YFP; n = 10). Pieces of nerve (1cm) were grafted from YFP-negative mice (n = 10) into those expressing YFP. We performed microsuture coaptations on one side and used fibrin glue for repair on the contralateral side. Seven days after grafting, the regeneration distance, the percentage of regenerating and arborizing axons, the number of branches per axon, the coaptation failure rate, the gap size at the repair site and the time needed for surgical repair were all investigated. Fibrin glue repair resulted in regenerating axons travelling further into the distal nerve. It also increased the percentage of arborizing axons. No coaptation failure was detected. Gap sizes were comparable in both groups. Fibrin glue significantly reduced surgical repair time. The increase in regeneration distance, even after the short period of time, is in line with the results of others that showed faster axonal regeneration after fibrin glue repair. The increase in arborizing axons could be another explanation for better functional and electrophysiological results after fibrin glue repair. Fibrin glue nerve coaptation seems to be a promising alternative to microsuture repair

N-Propionylmannosamine stimulates axonal elongation in a murine model of sciatic nerve injury

Increasing evidence indicates that sialic acid plays an important role during nerve regeneration. Sialic acids can be modified in vitro as well as in vivo using metabolic oligosaccharide engineering of the N-acyl side chain. N-Propionylmannosamine (ManNProp) increases neurite outgrowth and accelerates the reestablishment of functional synapses in vitro. We investigated the influence of systemic ManNProp application using a specific in vivo mouse model. Using mice expressing axonal fluorescent proteins, we quantified the extension of regenerating axons, the number of regenerating axons, the number of arborising axons and the number of branches per axon 5 days after injury. Sciatic nerves from non-expressing mice were grafted into those expressing yellow fluorescent protein. We began a twice-daily intraperitoneal application of either peracetylated ManNProp (200 mg/kg) or saline solution 5 days before injury, and continued it until nerve harvest (5 days after transection). ManNProp significantly increased the mean distance of axonal regeneration (2.49 mm vs. 1.53 mm; P < 0.005) and the number of arborizing axons (21% vs. 16%; P = 0.008) 5 days after sciatic nerve grafting. ManNProp did not affect the number of regenerating axons or the number of branches per arborizing axon. The biochemical glycoengineering of the N-acyl side chain of sialic acid might be a promising approach for improving peripheral nerve regeneration

N-Propionylmannosamine stimulates axonal elongation in a murine model of sciatic nerve injury

Increasing evidence indicates that sialic acid plays an important role during nerve regeneration. Sialic acids can be modified in vitro as well as in vivo using metabolic oligosaccharide engineering of the N-acyl side chain. N-Propionylmannosamine (ManNProp) increases neurite outgrowth and accelerates the reestablishment of functional synapses in vitro. We investigated the influence of systemic ManNProp application using a specific in vivo mouse model. Using mice expressing axonal fluorescent proteins, we quantified the extension of regenerating axons, the number of regenerating axons, the number of arborising axons and the number of branches per axon 5 days after injury. Sciatic nerves from non-expressing mice were grafted into those expressing yellow fluorescent protein. We began a twice-daily intraperitoneal application of either peracetylated ManNProp (200 mg/kg) or saline solution 5 days before injury, and continued it until nerve harvest (5 days after transection). ManNProp significantly increased the mean distance of axonal regeneration (2.49 mm vs. 1.53 mm; P < 0.005) and the number of arborizing axons (21% vs. 16% P = 0.008) 5 days after sciatic nerve grafting. ManNProp did not affect the number of regenerating axons or the number of branches per arborizing axon. The biochemical glycoengineering of the N-acyl side chain of sialic acid might be a promising approach for improving peripheral nerve regeneration

Sampling versus systematic full lymphatic dissection in surgical treatment of non-small cell lung cancer

The extent of mediastinal lymph node assessment during surgery for non-small cell cancer remains controversial. Different techniques are used, ranging from simple visual inspection of the unopened mediastinum to an extended bilateral lymph node dissection. Furthermore, different terms are used to define these techniques. Sampling is the removal of one or more lymph nodes under the guidance of pre-operative findings. Systematic (full) nodal dissection is the removal of all mediastinal tissue containing the lymph nodes systematically within anatomical landmarks. A Medline search was conducted to identify articles in the English language that addressed the role of mediastinal lymph node resection in the treatment of non-small cell lung cancer. Opinions as to the reasons for favoring full lymphatic dissection include complete resection, improved nodal staging and better local control due to resection of undetected micrometastasis. Arguments against routine full lymphatic dissection are increased morbidity, increase in operative time, and lack of evidence of improved survival. For complete resection of non-small cell lung cancer, many authors recommend a systematic nodal dissection as the standard approach during surgery, and suggest that this provides both adequate nodal staging and guarantees complete resection. Whether extending the lymph node dissection influences survival or recurrence rate is still not known. There are valid arguments in favor in terms not only of an improved local control but also of an improved long-term survival. However, the impact of lymph node dissection on long-term survival should be further assessed by large-scale multicenter randomized trials