20 research outputs found

    20 years of DIEAP flap breast reconstruction : a big data analysis

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    With every hospital admission, a vast amount of data is collected from every patient. Big data can help in data mining and processing of this volume of data. The goal of this study is to investigate the potential of big data analyses by analyzing clinically relevant data from the immediate postoperative phase using big data mining techniques. A second aim is to understand the importance of different postoperative parameters. We analyzed all data generated during the admission of 739 women undergoing a free DIEAP flap breast reconstruction. The patients' complete midcare nursing report, laboratory data, operative reports and drug schedule were examined (7,405,359 data points). The duration of anesthesia does not predict the need for revision. Low Red Blood cell Counts (3.53 x 10(6)/mu L versus 3.79 x 10(6)/mu L, p < 0.001) and a low MAP (MAP = 73.37 versus 76.62; p < 0.001) postoperatively are correlated with significantly more revisions. Different drugs (asthma/COPD medication, Butyrophenones) can also play a significant role in the success of the free flap. In a world that is becoming more data driven, there is a clear need for electronic medical records which are easy to use for the practitioner, nursing staff, and the researcher. Very large datasets can be used, and big data analysis allows a relatively easy and fast interpretation all this information

    Lumbar flap versus the gold standard : comparison to the DIEP flap

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    Background: The lumbar artery perforator flap is an excellent free flap for breast reconstruction whenever the deep inferior epigastric perforator (DIEP) flap is not an option. The main indication is a lack of abdominal bulk, often seen in young BRCA-positive women seeking prophylactic amputation and immediate reconstruction. Methods: Between October of 2010 and July of 2016, a total of 661 free flap breast reconstructions were performed. The authors retrospectively analyzed patient demographics, perioperative parameters, and secondary corrections. Results: Seventy-six lumbar artery perforator flaps were retained and compared with a cohort of 560 DIEP flaps. The average body mass index for lumbar patients was 23.8 kg/m(2), with a mean age at operation of 46.3 years. Average body mass index for DIEP patients was 25.2 kg/m(2), with a mean age at operation of 48.8 years old. Lumbar artery perforator flap weight was 504 g (range, 77 to 1216 g) on average versus 530 g (range, 108 to 1968 g) for the DIEP flaps. The amount of corrective procedures performed was very similar in both cohorts: 13 percent of the lumbar artery perforator and 12 percent of the DIEP patients underwent no procedures, 62 percent in both groups underwent one procedure, and 25 percent versus 27 percent underwent two or more procedures. Lipofilling was performed in 48 percent of lumbar artery perforator flaps compared with 57 percent of the DIEP flaps (p = 0.14). Mean volume injected was 98.0 cc and 125.1 cc for lumbar artery perforator and DIEP flaps, respectively (p = 0.071). Conclusions: The lumbar flap is a good alternative whenever a DIEP flap is not possible. Bilateral autologous reconstruction is possible even in very thin patients, and secondary corrections are comparable to those for the DIEP

    A novel technique for preventive lymphovenous anastomosis : anastomosing a ligated lymphatic vessel

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    Background: Lymphedema is defined as a chronic condition, caused by lymphostasis. A major part in the Western world consists of iatrogenic lymphedema caused by surgery to the lymph nodes of the axilla or groin. Prophylactic lymphovenous anastomosis (LVA) could be beneficial in the prevention of lymphedema of the extremities. These procedures require experienced supramicrosurgeons and can be time consuming, which might be the reasons why prophylactic LVA has not yet been widely implemented in the treatment of cancer. Due to the small diameter of lymphatic vessels, it remains challenging to identify the lumen, and therefore, anastomoses are prone to back wall stitching. Different inventive procedures have been described making use of stents or monofilament sutures. Methods: In this article, we describe a newly developed and straightforward technique for LVA in 4 patients who underwent an axilla dissection and 1 patient who underwent a dissection of the groin lymph nodes. This latter approach makes use of clipping of the lymphatic vessel during lymph node dissection, and remains ligated during anastomosis. The candidate vein was the V. thoracodorsalis for the axilla and the V. circumflexa superficialis for the groin. We describe the feasibility, average duration, and complications. Results: Performing an end-to-side anastomosis on a clipped lymphatic vessel minimizes the problem of back wall stitching as well as the trouble of finding the lumen due to collapsing of the vessel. The turgor of the lymphatic vessel is maintained and makes anastomosing easy. Average time for LVA was 33.4 minutes and 1 minor complication was seen. Conclusion: We believe that this approach might be of value in popularizing LVA in the treatment or prevention of different conditions such as breast cancer-related lymphedema
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