ObjectiveTo investigate the safety and efficacy of 3D thoracoscopic surgery in uniportal lobectomy.MethodsClinical data of 248 patients with lung cancer who underwent uniportal thoracoscopic lobectomy in our hospital from September 2018 to May 2019 were retrospectively analyzed. Patients were divided into two groups according to different surgical methods, a 3D thoracoscopic group (76 patients, including 52 males and 24 females with an average age of 58.59±7.62 years) and a 2D thoracoscopic group (172 patients, including 102 males and 70 females with an average age of 57.75±8.59 years). Statistical analysis of clinical and pathological data, lymph node dissection, surgical complications, postoperative hospital stay, etc was performed.ResultsCompared with the 2D thoracoscopic group, the 3D thoracoscopic group had shorter operation time, more lymph nodes dissected and pleural effusion on the first day after operation (P<0.05). There was no significant difference in the postoperative chest tube duration, postoperative hospital stay, incidence of pulmonary infection, arrhythmia, bronchopleural fistula, or recurrent laryngeal nerve injury between the two groups.ConclusionCompared with the traditional 2D thoracoscopic minimally invasive surgery, uniportal lobectomy with 3D thoracoscopic surgery is safer and more efficient during operation, and lymph node dissection is more thorough, which is worth promoting.
ObjectiveTo analyze the effect of 3D simulation technique in thoracoscopic lobectomy.MethodsFrom June 2015 to January 2018, 124 patients with left lower lobe resection underwent thoracoscopy with single-port thoracoscopic surgery, including 64 males and 60 females, aged 42–83 years. They were randomly divided into two groups including an experimental group (preoperatively given 3D simulation surgery in 59 patients) and a control group (preoperatively not given 3D simulation surgery in 65 patients). The clinical effect between the two groups was compared.ResultsAll patients recovered without any death during hospitalization. In the experimental group, the operation time, intraoperative blood loss and postoperative hospital stay were significantly less than those in the control group (P<0.05). There was no significant difference in postoperative drainage volume, and duration of drainage tube retention and analgesic drug usage between the two groups (P>0.05).Conclusion3D simulation technique for thoracoscopic lobectomy has advantage in short operation time, minor trauma and quick recovery. It has a guiding role in the preoperative planning of lung cancer surgery and is worthy of popularization and application.
ObjectiveTo explore the feasibility of lumbar puncture models based on 3D printing technology for training junior orthopaedic surgeons to find the optimal pedicle screw insertion points.MethodsMimics software was used to design 3D models of lumbar spine with the optimal channels and alternative channels. Then, the printed lumbar spine models, plasticine, and cloth were used to build lumbar puncture models. From January 2018 to June 2019, 43 orthopedic trainees performed simulated operations to search for the insertion points of pedicle screws base on the models. The operations were performed once a day for 10 consecutive days, and the differences in operation scores and operation durations of the trainees among the 10 days were compared.ResultsAll the trainees completed the surgical training operations successfully, and there were significant differences in the operation scores (13.05±2.45, 14.02±3.96, 17.58±3.46, 21.02±2.04, 23.40±4.08, 25.14±3.72, 27.26±6.09, 33.37±4.23, 35.00±4.15, 38.49±1.70; F=340.604, P<0.001) and operation durations [(22.51±4.28), (19.93±4.28), (18.05±2.89), (17.05±1.76), (16.98±1.97), (15.47±1.74), (13.51±1.42), (12.60±2.17), (12.44±1.71), (11.91±1.87) minutes; F=102.359, P<0.001] among the 10 days.ConclusionThe 3D models of lumbar puncture are feasible and repeatable, which can contribute to surgical training.
ObjectiveTo evaluate the clinical value of in vitro fenestration and branch stent repair in the treatment of thoracoabdominal aortic aneurysm in visceral artery area assisted by 3D printing.MethodsThe clinical data of 7 patients with thoracoabdominal aortic aneurysm involving visceral artery at the Department of Vascular Surgery, Shandong Provincial Hospital Affiliated to Shandong First Medical University from March 2016 to May 2019 were analyzed retrospectively. There were 5 males and 2 females with an average age of 70.2±3.9 years. Among them 4 patients had near-renal abdominal aortic aneurysm, 3 had thoracic aortic aneurysm, 4 had asymptomatic aneurysm, 2 had acute symptomatic aneurysm and 1 had threatened rupture of aneurysm. According to the preoperative CT measurement and 3D printing model, fenestration technique was used with Cook Zenith thoracic aortic stents, and branch stents were sewed on the main stents in vitro, and then the stents were modified by beam diameter technique for intracavitary treatment.ResultsAll the 7 patients completed the operation successfully, and a total of 18 branch arteries were reconstructed. The success rate of surgical instrument release was 100.0%. The average operation time was 267.0±38.5 min, the average intraoperative blood loss was 361.0±87.4 mL and the average hospital stay was 16.0±4.2 d. Immediate intraoperative angiography showed that the aneurysms were isolated, and the visceral arteries were unobstructed. Till May 2019, there was no death, stent displacement, stent occlusion, ruptured aneurysm or loss of visceral artery branches. Conclusion3D printing technology can completely copy the shape of human artery, intuitively present the anatomical structure and position of each branch of the artery, so that the fenestration technique is more accurate and the treatment scheme is more optimized.
According to the needs of CT image evaluation for transapical transcatheter aortic valve replacement (TAVR), 20 clinical questions were proposed by the Delphi method, 15 questions were initially determined, and 12 clinical questions were summarized and determined by domestic experts. PubMed, Web of Science, Wanfang, and CNKI databases were searched by computer to collect the relevant literature from inception to November 2022, and finally 53 studies were included. Based on evidence-based study and evaluation experience, 3 meetings were held to give recommendations for preoperative CT data acquisition method, preoperative imaging evaluation of aortic root, imaging evaluation of transapical approach, preoperative auxiliary guidance of TAVR by CT images combined with 3D printing, and postoperative imaging evaluation of transapical TAVR, hoping to promote the standardized and successful development of transapical TAVR in China.
There has been ongoing progress in the new technique and equipment in vitreoretinal surgery in recent years, contributing to the improvement of treatment of various vitreoretinal diseases. The application of 3D heads-up display viewing system (3D viewing system) has been one of the most fascinating breakthroughs in vitreoretinal surgery. Unlike the traditional method in which the surgeons have to look through the microscope eyepieces, this system allows them to turn their heads up and operate with their eyes on a high-definition 3D monitor. It provides the surgeons with superior visualization and stereoscopic sensation. And increasing studies have revealed it to be as safe and effective as the traditional microscopic system. Furthermore, the surgeons can keep a heads-up position in a more comfortable posture and lesson the pressure on cervical spine. Meanwhile, 3D viewing system makes it easier for the teaching and learning process among surgeons and assistants. However, there are still potential disadvantages including the latency between surgeon maneuver and visualization on the display, learning curves and cost. We hope that the 3D viewing system will be widely used and become a useful new tool for various vitreoretinal diseases in the near future with rapid development in the technology and constant upgrade of the system.
Objective To compare the effect of three-dimensional visual (3DV) model, three-dimensional printing (3DP) model and computer-aided design (CAD) modified 3DP model in video-assisted thoracoscopic surgery (VATS) sublobular resection. MethodsThe clinical data of patients who underwent VATS sublobular resection in the Affiliated Hospital of Hebei University from November 2021 to August 2022 were retrospectively analyzed. The patients were divided into 3 groups including a 3DV group, a 3DP group and a CAD-3DP group according to the tools used. The perioperative indexes and subjective evaluation of operators, patients and their families were compared. ResultsA total of 22 patients were included. There were 5 males and 17 females aged 32-77 (56.95±12.50) years. There were 9 patients in the 3DV group, 6 patients in the 3DP group, and 7 patients in the CAD-3DP group. There was no statistical difference in the operation time, intraoperative blood loss, drainage volume, hospital stay time or postoperative complications among the groups (P>0.05). Based on the subjective evaluations of 4 surgeons, the CAD-3DP group was better than the 3DV group in the preoperative planning efficiency (P=0.025), intuitiveness (P=0.045) and doctor-patient communication difficulty (P=0.034); the CAD-3DP group was also better than the 3DP group in the overall satisfaction (P=0.023), preoperative planning difficulty (P=0.046) and efficiency (P=0.014). Based on the subjective evaluations of patients and their families, the CAD-3DP group was better than the 3DP group in helping understand the vessel around the tumor (P=0.016), surgical procedure (P=0.020), procedure selection (P=0.029), and overall satisfaction (P=0.048); the CAD-3DP group was better than the 3DV group in helping understand the tumor size (P=0.038). ConclusionCAD-modified 3DP model has certain advantages in pre-planning, intraoperative navigation and doctor-patient communication in the VATS sublobectomy.
Objective To assess the application value of 3-dimensional(3D) printing technology in surgical treatment for congenital tracheal stenosis. Methods We retrospectively analyzed the clinical data of preoperative diagnosis, intra-operative decision-making and postoperative follow-up of four children with congenital tracheal stenosis under the guidance of 3D printing in our hospital between February 2013 and May 2014. There were 3 males and 1 female aged 23.0±7.1 months. Among them, two children were with pulmonary artery sling, one with ventricular septal defect, and the other one with tetralogy of Fallot. The airway stenosis was diagnosed preoperatively by chest CT scan and 3D printing tracheal models, and was confirmed by the help of bronchoscopy under anesthesia. During operation the associated cardiac malformation was corrected firstly under extracorporeal circulation followed by tracheal malformation remedy. The design and implementation of tracheal operation plans were guided by the shape and data from 3D printing trachea models. There were two patients with long segment of tracheal stenosis who received slide anastomosis. And the other two patients were characterized with tracheal bronchus, one of which combined ostial stenosis of right bronchial performed extensive slide anastomosis, and the other one performed end to end anastomosis. Results All the children’s preoperative 3D printing trachea models were in accord with bronchoscopy and intra-operative exploration results. Intra-operative bronchoscopy confirmed that all tracheal stenosis cured completely. All anastomotic stomas were of integrity, and all the luminals were fluent. There was no operative death or no serious complication. During 1-2 years follow-up, all patients breathed smoothly and their airways were of patency by postoperative 3D printing trachea model. Conclusion 3D printing can provide a good help to congenital tracheal stenosis in preoperative diagnosis, the design of operation plan, intra-operative decision-making and manipulation, which can improve the operation successful rate of tracheal stenosis.
As one of the most breakthrough cutting-edge technologies in the biomedical field in recent years, organoid culture technology can use cells derived from, either (pluripotent) stem cells or tissue-derived differentiated/progenitor cells (foetal, neonatal, or adult) to form 3D multicellular structure organoids with self-organizing and recapitulating at least some features of the organ including tissue architecture or function abilities. Recently, organoids have been widely used in disease model construction, anti-cancer drug screening, gene or cell therapy, etc., providing an ideal model for basic biomedical research, drug development and clinical precision medicine, and has shown an important role in regenerative medicine.
ObjectivesTo systematically review the efficacy and safety of 3D laparoscopic in the treatment of colorectal cancer.MethodsPubMed, EMbase, The Cochrane Library, CBM, VIP, WanFang Data and CNKI databases were electronically searched online to collect clinical trials of 3D laparoscopic in the treatment of colorectal cancer from inception to September 1st, 2018. Two reviewers independently screened literature, extracted data and assessed the risk of bias of included studies. Meta-analysis was then performed using RevMan 5.3 software.ResultsA total of 26 trials, including 4 randomized controlled trials and 22 cohort studies were included. The results of meta-analysis showed that: compared with 2D laparoscopic, 3D laparoscopic had shorter operative time (MD=–16.32, 95%CI –22.61 to –10.03, P<0.000 01), less amount of blood transfusion in operation (MD=–10.80, 95%CI –19.93 to –1.66, P=0.02), more lymph node dissection (MD=0.88, 95%CI 0.30 to 1.45, P=0.003), shorter recovery time of gastrointestinal function (MD=–0.18, 95%CI –0.31 to –0.04, P=0.01), lower incidence of postoperative complication (OR=0.63, 95%CI 0.44 to 0.89, P=0.009), and fewer days in hospital (MD=–0.84, 95%CI –1.40 to –0.28, P=0.003). Additionally, there was no significant difference in hospitalization costs (MD=–0.01, 95%CI –0.23 to 0.21, P=0.94).ConclusionsCurrent evidence shows that, compared with 2D laparoscopy, 3D laparoscopy assisted colorectal cancer surgery has obvious advantages such as less bleeding during operation, shorter operation time, lower incidence of complications after operation, shorter hospitalization time and no increase in hospitalization expenses. Due to limited quality and quantity of the included studies, more high quality studies are required to verify above conclusions.