Congenital tracheal stenosis (CTS) is a rare but potentially life-threatening disease which results in congnital airway lesion. CTS is often associated with cardiovascular anomalies and presented with a wide spectrum of symptoms. CTS has challenged pediatric surgeons for decades. Various classic approaches and new techniques, including computational fluid dynamics, tissue-engineering trachea, and 3D printing have been proposed for diagnosis and treatment of CTS. This review provides a snapshot of the main progress of diagnosis and treatment of CTS.
ObjectiveTo observe the clinical efficacy of digital 3D heads-up display viewing system (3D viewing system) and intraoperative OCT (iOCT) in vitrectomy for myopic foveoschisis (MF).MethodsA retrospective, consecutive case series. From October 2018 to May 2019, Nineteen eyes of 19 consecutive patients with MF diagnosed in Xiamen Eye Center of Xiamen University who underwent vitrectomy were included in this study. There were 7 males and 12 females, with the mean age of 54.47±11.38 years. The average axial length was 30.40±2.30 mm, the mean logMAR BCVA was 0.56±0.31, the mean central foveal thickness (CFT) was 317.80±151.9.32 μm, the mean max retinal thickness (maxRT) was 556.7±143.7 μm. All the surgeries performed combined with 3D viewing system with iOCT. The standard 25G pars planar vitrectomy were performed with removing the posterior vitreous and indocyanine green (ICG) staining of internal limiting membrane (ILM) and air-fluid exchange. Thirteen of 19 eyes underwent fovea-sparing ILM peeling and the other 6 eyes not. The average follow-up was 4.2±1.4 months. All the patients were on regular follow-up to document the changes on BCVA, anatomical changes in macula, CFT and maxRT. Paired t test was used to compare BCVA, CFT and maxRT before and after surgery.ResultsThe fine images of macula were clearly shown on the 3D viewing system in all eyes. The electronic green filter enhanced the contrast sensitivity of ICG stained images. Clear images of macula were captured by iOCT in all eyes. The average surgical time was 35.5±8.2 min. On the last follow-up, 16 of 19 eyes with MF resolved. The mean CFT was 178.5±103.5 μm, the maxRT was 341.8±83.8.16 μm, and the mean logMAR BCVA was 0.35±0.22. The differences of CFT, maxRT and logMAR BCVA before and after surgery were statistically significant (t=4.181, 7.154, 5.129; P<0.001). Minimal invisible full thickness macular hole were detected in 2 eyes by iOCT and repaired with auto serum or ILM flap covering. There was no complication associated with the 3D viewing system.Conclusions3D viewing system provides improved contrast and crystal clear macular image stain with ICG in pathological myopia. iOCT can detect the minimal invisible full thickness macular hole during surgery. Both may contribute to improved MF closure rate and BCVA.
ObjectiveTo explore clinical value of 3D printing technology in hepatic resection. MethodsFrom March to May 2015, multidetector-row computed tomography images of 12 patients, including hepatic carcinoma in 6, hepatic hemangioma in 3, intra-and extra-hepatic bile duct stones in 3, were used for 3D hepatic reconstruction, the final segmentation data were converted to stereolithography files for 3D printing, 50%-70% scale of the full-sized liver model was fabricated by polylactic acid to be used to analyze its anatomical structure, design surgical planning, select the optimal operative route and simulate hepatic resection. Hepatic resection was performed by referring to the 3D printing model. ResultsThe hepatic resections were successful without complications by referring to the preoperative 3D printing models, the average blood loss was 340(100-1000) mL. ConclusionHepatic resection is more accurate and safe by 3D printing technology.
ObjectiveTo analyze the clinical outcomes of 3D-printing assisting minimally invasive fixation of calcaneal fractures. MethodsThe study included 12 patients who were diagnosed with calcaneal fractures between October 2014 and May 2015. Using a real-size 3D-printed calcaneus model, the calcaneal locking plate could be preshaped before the operation and used with a minimally invasive approach to achieve rigid plate fixation just as with the lateral approach. Complications and surgery time were recorded and functional results were evaluated using the American Orthopaedic Foot Society ankle-metapedes score (AOFAS). The reduction of fracture was evaluated using the Bohler angle and Gissane angle. ResultsThere was no relevant postoperative complications. All fractures got bone union. The mean postoperative Bohler angle was (29.4±6.1) ° and the mean postoperative Gissane angle was (121.4±12.6) °. The difference in Bohler angle and calcaneal Gissane angle before and after the surgery was significant (P < 0.01) . The mean postoperative AOFAS score was 75.2±5.4, and the fine/excellent rate was 83.3%. ConclusionWe believe this novel technique can be useful for the operative treatment of displaced intra-articular calcaneal fractures.
ObjectiveTo explore the safety and feasibility of 3D precise localization based on anatomical markers in the treatment of pulmonary nodules during video-assisted thoracoscopic surgery (VATS).MethodsFrom June 2019 to April 2015, 27 patients with pulmonary nodules underwent VATS in our Hospital were collected in the study, including 3 males and 24 females aged 51.8±13.7 years. The surgical data were retrospectively reviewed and analyzed, such as localization time, localization accuracy rate, pathological results, complication rate and postoperative hospital stay.ResultsA total of 28 pulmonary nodules were localized via this method. All patients received surgery successfully. No mortality or major morbidity occurred. The general mean localization time was 17.6±5.8 min, with an accuracy of 96.4%. The mean diameter of pulmonary nodules was 14.0±8.0 mm with a mean distance from visceral pleura of 6.5±5.4 mm. There was no localization related complication. The mean postoperative hospital stay was 6.7±4.3 d. The routine pathological result showed that 78.6% of the pulmonary nodules were adenocarcinoma.Conclusion3D precise localization based on anatomical markers in the treatment of pulmonary nodules during thoracoscopic surgery is accurate, safe, effective, economical and practical, and it is easy to master with a short learning curve.
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.
Objective To explore application value of three-dimensional (3D) laparoscopic visualization during bariatric surgery. Methods From January 2015 to May 2017, 64 patients underwent laparoscopic bariatric surgery in our department were included. Among these cases, 19 patients underwent 3D laparoscopic sleeve gastrectomy, and 21 patients underwent two-dimensional (2D) laparoscopic sleeve gastrectomy. Thirteen patients underwent 3D laparoscopic Roux-en-Y gastric bypass, and 11 patients underwent 2D laparoscopic Roux-en-Y gastric bypass. The total operative time, the digestive tract reconstruction time, the intraoperative blood loss, the postoperative hospitalization stay, and the operative complications were analyzed statistically. Results The laparoscopic bariatric surgery were performed successfully in all the 64 patients, no case was converted to the laparotomy, and no 3D laparoscopy was converted to the 2D laparoscopy. The suture time of the gastric incisal margin was shorter and the intraoperative blood loss was less with the 3D laparoscopic sleeve gastrectomy as compared with the 2D laparoscopic sleeve gastrectomy (P<0.05), but the total operative time and the postoperative hospitalization stay had no significant differences and none of postoperative complications happened between these two modes (P>0.05). The total operative time, the time to make gastric pouch, the time of the gastro-jejunal anastomosis or jejunum-jejunum anastomosis, and the intraoperative blood loss with the 3D laparoscopic Roux-en-Y gastric bypass were significantly less than those with the 2D laparoscopic Roux-en-Y gastric bypass (P<0.05), but the postoperative hospitalization stay had no significant difference between these two modes (P>0.05). Conclusion Pre-liminary results of limited cases in this study shows that 3D laparoscope could provide 3D stereoscopic visualization, which facilitateto clearly identify anatomical structures, and be helpful to complex operations, and then might reduce operating time, both physicians and patients could benefit from it.
ObjectiveTo investigate the safety and efficacy of 3D single-portal inflatable mediastinoscopic and laparoscopic esophagectomy for esophageal cancer.MethodsClinical data of 28 patients, including 25 males and 3 females, aged 51-76 years, with esophageal squamous cell carcinoma undergoing single-portal inflatable mediastinoscopic and laparoscopic esophagectomy from June 2018 to June 2019 were retrospectively analyzed. Patients were divided into two groups according to different surgical methods including a 3D mediastinoscopic group (3D group, 10 patients) and a 2D mediastinoscopic group (2D group, 18 patients). The perioperative outcome of the two groups were compared.ResultsCompared with the 2D group, the 3D group had shorter operation time (P=0.017), more lymph nodes resected (P=0.005) and less estimated blood loss (P=0.015). There was no significant difference between the two groups in the main surgeon's vertigo and visual ghosting (P>0.05). The other aspects including the indwelling time, postoperative hospital stay, pulmonary infection, arrhythmia, anastomotic fistula, recurrent laryngeal nerve injury were not statistically significant between the two groups (P>0.05).ConclusionThe 3D inflatable mediastinoscopic and laparoscopic esophagectomy for esophageal cancer, which optimizes the surgical procedures of 2D, is safe and feasible, and is worthy of clinical promotion in the future.
Shear thinning is an ideal feature of bioink because it can reduce the chance of blocking. For extrusion based biological printing, bioink will experience shear force when passing through the biological printer. The shear rate will increase with the increase of extrusion rate, and the apparent viscosity of shear-thinning bioink will decrease, which makes it easier to block, thus achieving the structural fidelity of 3D printing tissue. The manufacturing of complex functional structures in tissue trachea requires the precise placement and coagulation of bioink layer by layer, and the shear-thinning bioink may well meet this requirement. This review focuses on the importance of mechanical properties, classification and preparation methods of shear-thinning bioink, and lists its current application status in 3D printing tissue trachea to discuss the more possibilities and prospects of this biological material in tissue trachea.
Because of the characteristics such as accurate, efficient and individuation, 3D printing is being widely applied to manufacturing industry, and being gradually expanded into the medical field. Diseases of chest wall is a common type in thoracic surgery, and surgery is a proper treatment to this kind of disease. For the past few years, 3D printing is being gradually applied in surgery of chest wall diseases. The article mainly makes a statement of two parts that including the possibility to apply 3D printing including chest wall reconstruction and chest wall orthopedic, and to analyze the possibility and application prospect of applying 3D printing to the chest wall disease.