Objective To investigate the feasibil ity of building the 3D reconstruction of short segment common peroneal nerve functional fascicles based on serial histological sections and computer technology. Methods Five cm of the common peroneal nerve in the popl iteal fossa, donated by an adult, was made into the serial transverse freezing sections(n=200) at an interval of 0.25 mm and 10 μm in thickness per section. Acetylchol inesterase staining was adopted and the nerve fascicles were observed by microscope. 2D panorama images were acquired by high-resolution digital camera under microscope (× 100) and mosaic software. Different functional fascicles were distinguished and marked on each section. The topographic database was matched by image processing software. The 3D microstructure of the fascicular groups of 5 cm common peroneal nerve was reconstructed using Amira 3.1 3D reconstruction software. Results Based on microanatomy and the results of acetylchol inesterase staining, this segmented common peroneal nerve functional fascicles was divided into sensory tract, motor tract, mixed tract and motor-predominating mixed tract. The cross merging was not evident in the nerve fascicles between deep peroneal nerve and superficial peroneal nerve, but existed within the functional fascicles of the deep peroneal nerve and the superficial peroneal nerve. The results of 3D reconstruction reflected the 3D structure of peripheral nerve and its interior functional fascicles factually, which displayed solely or in combination at arbitrary angles. Conclusion Based on serial histological sections and computer technology, the 3D microstructure of short-segment peripheral nerve functional fascicles can be reconstructed satisfactorily, indicating the feasibil ity of building 3D reconstruction of long-segmental peripheral nerve functional fascicles.
ObjectiveTo investigate the clinical value of 3D CT combined with CT-guided Hookwire for localizing small pulmonary nodules in thoracoscopic pulmonary segmentectomy.MethodsFrom December 2017 to February 2019, 39 patients received thoracoscopic pulmonary segmentectomy in our hospital, including 14 males and 25 females with a mean age of 51.33±11.17 years. Before operation, we used Mimics Medical 20.0 to re-establish the anatomy of lung and locate the small pulmonary nodules with Hookwire guided by CT. Based on the position of Hookwire needle, 3D CT images and simulated surgical methods, thoracoscopic pulmonary segmentectomy was performed accurately.ResultsThe surgery was successfully completed in 39 patients without a transfer to open procedure. The mean operation time, mean intraoperative blood loss, mean postoperative hospital stay, mean thoracic tube drainage time were 148.97±28.56 min, 27.95±17.57 mL, 6.95±1.68 d, 4.21±1.95 d, respectively. Postoperative complications occurred in 5 patients (12.82%), including atrial fibrillation in 1, pulmonary infection in 1, chylothorax in 1, intrathoracic hemorrhage in 1 and pneumothorax in 1. All actual surgical margins were larger than 3.0 cm.ConclusionThe application of preoperative 3D CT combined with CT-guided Hookwire to localize small pulmonary nodules is helpful for accurate anatomical segmental resection of the lung, making the operation safe .
ObjectiveTo investigate the clinical value of three-dimensional reconstruction of liver and resection of hepatocellular carcinoma with indocyanine green (ICG) fluorescence staining. MethodsClinical data of a patient with hepatocellular carcinoma admitted to the Department of Liver Surgery of West China Hospital of Sichuan University in May 2021 were retrospectively collected. In this patient, intrahepatic vascular reconstruction was performed by SYNAPSE 3D software of Japan before operation, and the portal vein and hepatic vein corresponding to the tumor were analyzed to simulate the resection range. Intraoperative ICG fluorescence staining was used to perform laparoscopic resection of segment Ⅳ of the liver.ResultsIn this patient, the fluorescence boundary on the liver surface was clear after staining, and the intrahepatic segment fluorescence interface could still be maintained in the hepatic parenchyma dissociation, and the resection of the liver segment was consistent with the preoperative three-dimensional reconstruction plan. The operation took 230 min in total, and the bleeding was about 200 mL. On the first day after the operation, blood biochemical test showed that the plasma albumin was slightly low, and no obvious abnormalities were observed in transaminase, bilirubin, etc. After the infusion of human albumin, the indexes returned to normal, and the patient recovered and was discharged on the fourth day after the operation. No complications occurred after the operation, and no tumor recurrence and metastasis were observed during follow-up period. Conclusion3D reconstruction and ICG fluorescence guidance are safe and feasible for the treatment of hepatocellular carcinoma after laparoscopic anatomic segment Ⅳ resection, and the positive staining method of ICG fluorescence segment is recommended.
ObjectiveTo explore the clinical applications of 3D-CT reconstruction combined with 3D printing in the analysis of anatomical types and variations of bilateral pulmonary arteries. MethodsFrom January 2019 to February 2022, the clinical data of 547 patients who underwent anatomical lung lesion resection in our hospital were retrospectively collected. They were divided into a 3D-CT reconstruction plus printing technology group (n=298, 87 males and 211 females aged 53.84±12.94 years), a 3D-CT reconstruction group (n=148, 55 males and 93 females aged 54.21±11.39 years), and a non-3D group (n=101, 28 males and 73 females aged 53.17±10.60 years). ResultsIn the 3D-CT reconstruction plus printing technology group, the operation time of patients (right: 125.61±20.99 min, left: 119.26±28.44 min) was shorter than that in the 3D-CT reconstruction group (right: 130.48±11.28 min, left: 125.51±10.59 min) and non-3D group (right: 134.45±10.20 min, left: 130.44±9.53 min), which was not associated with the site of surgery; intraoperative blood loss (right: 20.92±8.22 mL, left: 16.85±10.43 mL) was not statistically different compared with the 3D-CT reconstruction group (right: 21.13±8.97 mL, left: 19.09±7.01 mL), but was less than that of the non-3D group (right: 24.44±10.72 mL, left: 23.72±11.45 mL). Variation was found in the right pulmonary artery of 7 (3.91%) patients and in the left pulmonary artery of 21 (17.65%) patients. We first found four-branched lingual pulmonary artery in 2 patients.ConclusionPreoperative CT image computer-assisted 3D reconstruction combined with 3D printing technology can help surgeons to formulate accurate surgical plans, shorten operation time and reduce intraoperative blood loss.
Objective To summarize the preoperative CT three-dimensional reconstruction, and administration and visualization of indocyanine green (ICG) during ICG-assisted laparoscopic duodenum-preserving pancreatic head resection (LDPPHR). Methods A 56-year-old female patient admitted to the Department of Biliary Surgery in West China Hospital in April 2022 was retrospectively analyzed. The patient was considered the possibility of benign tumor of pancreatic head, and underwent LDPPHR. Three-dimensional CT reconstruction was performed before operation, and ICG (5 mg) was injected intravenously preoperative and intraoperative to complete LDPPHR. Results Preoperative three-dimensional CT reconstruction can assist in judging the course and relationship of anterior and posterior pancreaticoduodenal arterial arch and surrounding main blood vessels. After intravenous injection of 5 mg ICG 24 hours before operation, the common bile duct at the upper edge of pancreas was clearly visualized, and the cystic mass was judged not to communicate with bile duct and pancreatic duct. But it was difficult to identify the pancreatic segment of the common bile duct in fluorescence mode, ICG 5 mg was injected intravenously during the resection stage, and then the common bile duct was obviously visualized. After the resection stage, injected ICG (5 mg) intravenously again. Within 1 min, the fluorescence of the duodenum was enhanced, which suggested that the blood perfusion of duodenum was well. The operative time was 280 min, the blood loss was about 200 mL. On the 10th day after operation, the patient developed transient gastrointestinal bleeding with bile leakage, which improved after symptomatic treatment and was discharged on the 19th day. Postoperative pathological examination diagnosed pancreatic serous cystadenoma. Conclusions Three-dimensional reconstruction and ICG assisted LPDDHR can successfully visualize and identify the blood vessels and bile ducts, and check the duodenal blood perfusion. Which can making the operation more accurate and visual is a powerful guarantee for LDPPHR to be carried out safely and effectively.
In order to further regulate the application of 3D reconstruction in thoracic surgery, the Chinese Expert Consensus Group on the Application of Integrated 3D Reconstruction with Artificial Intelligence in Thoracic Surgery conducted discussions and developed this consensus. This consensus is based on the clinical experience and existing prospective or retrospective studies of 3D reconstruction technology in various scenarios of thoracic surgery and summarizes recommendations, and also appends a list of 3D reconstruction technology application scenarios that are currently controversial, not fully studied, or still in the exploratory stage, to provide direction and evidence for future clinical research and disease diagnosis and treatment, and to reach a consensus.