Background: Telemedicine delivers clinical information and permits discussion between providers and patients at a distance. Postoperative visits may be a burden to patients—many of whom travel long distances and miss work opportunities. By implementing a telehealth opportunity, the authors sought to develop a process that optimizes efficiency and provides optimal patient satisfaction. Methods: Using quality improvement methods that have been highly effective in the business sector, we developed a testable workflow for patients in the postoperative telehealth setting. Seventy-two patients were enrolled and surveyed. A preoperative survey sought to determine travel distance, comfort with technology, access to the Internet and video-enabled devices, and the patient’s interest in telehealth. A postoperative survey focused on patient satisfaction with the experience. Results: Using the Lean Six Sigma methodology, the authors developed a telehealth workflow to optimize clinical efficiency. Preoperative surveys revealed that the majority (73 percent) of patients preferred in-person follow-up visits in the clinic. However, the postoperative survey distributed after the telehealth encounter found that nearly 100 percent of patients were satisfied with the telehealth experience. Ninety-six percent of patients said that their questions were answered, and 97 percent of patients stated that they would use telehealth again in the future. Conclusions: Telehealth encounters enable real-time clinical decision-making by providing patients and visiting nurses access to providers and decreasing patient transportation needs and wait times. Although initially hesitant to opt for a telehealth encounter in lieu of a traditional visit, the great majority of patients voiced satisfaction with the telehealth experience. CLINICAL QUESTION/LEVEL OF EVIDENCE: Therapeutic, IV.
Background Three-dimensional (3D) model printing improves visualization of anatomical structures in space compared to two-dimensional (2D) data and creates an exact model of the surgical site that can be used for reference during surgery. There is limited evidence on the effects of using 3D models in microsurgical reconstruction on improving clinical outcomes.Methods A retrospective review of patients undergoing reconstructive breast microsurgery procedures from 2017 to 2019 who received computed tomography angiography (CTA) scans only or with 3D models for preoperative surgical planning were performed. Preoperative decision-making to undergo a deep inferior epigastric perforator (DIEP) versus muscle-sparing transverse rectus abdominis myocutaneous (MS-TRAM) flap, as well as whether the decision changed during flap harvest and postoperative complications were tracked based on the preoperative imaging used. In addition, we describe three example cases showing direct application of 3D mold as an accurate model to guide intraoperative dissection in complex microsurgical reconstruction.Results Fifty-eight abdominal-based breast free-flaps performed using conventional CTA were compared with a matched cohort of 58 breast free-flaps performed with 3D model print. There was no flap loss in either group. There was a significant reduction in flap harvest time with use of 3D model (CTA vs. 3D, 117.7±14.2 minutes vs. 109.8±11.6 minutes; P=0.001). In addition, there was no change in preoperative decision on type of flap harvested in all cases in 3D print group (0%), compared with 24.1% change in conventional CTA group.Conclusions Use of 3D print model improves accuracy of preoperative planning and reduces flap harvest time with similar postoperative complications in complex microsurgical reconstruction.
Secondary lymphedema is a worldwide affliction that exacts a significant public health burden. This review examines the etiology, presentation, and management of secondary lymphedema. In addition, emerging adjunctive strategies are explored, specifically evidence from animal and pilot human studies regarding implantation of a collagen nanofibrillar scaffold (BioBridge™; Fibralign Corporation, Union City, CA) in promoting lymphangiogenesis, preventing and treating lymphedema, and enhancing outcomes with lymphaticovenous anastomosis and vascularized lymph node transfer.
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