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BACKGROUND:How to improve the accuracy of puncture,reduce surgical damage,and improve surgical efficiency during vertebroplasty is currently one of the focuses of exploration and improvement in vertebroplasty techniques. OBJECTIVE:To explore the clinical significance of application of mixed reality technology in percutaneous vertebroplasty for spinal fractures. METHODS:Two patients with osteoporotic vertebral compression fracture in Dalian Second People's Hospital in June 2023 were selected.Before operation,128-row CT scanning of the lumbar spine was performed and the original data of digital imaging and communications in medicine(DICOM)were obtained.Visual Volume software was used to build the three-dimensional network model of vertebral compression fracture.Holographic imaging glasses were used to accurately map 3D network model images to the real world,assist the surgeon in completing preoperative simulation,explaining preoperative conditions and treatment plans,and guiding puncture and bone cement injection during surgery. RESULTS AND CONCLUSION:(1)Precise puncture was achieved with the assistance of a mixed reality technology.Postoperative imaging examination showed good bone cement filling and no obvious leakage.The postoperative symptoms of the patient were alleviated well,and they were able to move to the ground on the same day after surgery.(2)It is concluded that a mixed reality technology is helpful for preoperative surgical design and communication efficiency with patients and their families.Assisting with precise puncture during surgery,shortening surgical time,and reducing side injuries is a new and effective clinical diagnosis and treatment model,which has development potential in minimally invasive,precise,and personalized treatment of spinal surgery.
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Objective:To explore the application effects of a neurosurgical mixed-reality distance teaching (NMDT) model in standardized residency training in neurosurgery.Methods:We built an NMDT system using mixed-reality technology and remote interaction technology, and designed the implementation procedure according to the teaching objectives. After the teaching activities were completed, a teaching satisfaction questionnaire survey was conducted among 20 neurosurgery resident trainees, in which they provided satisfaction scores for the same teaching content with different teaching models (i.e., the NMDT model and traditional teaching model). SPSS 22.0 software was used to perform the t test for data analysis. Results:There were significant differences between the NMDT model and the traditional teaching model in key indicators including the score for "completion of teaching objectives" (9.20±0.68 vs. 8.25±0.70, P<0.001) and the score for "satisfaction with learning gains" score (8.95±0.67 vs. 8.05±0.92, P=0.001). The NMDT model also outperformed the traditional teaching model in the other individual scores and the total score. Conclusions:The NMDT model can improve teaching quality, increase training efficiency, and enrich teaching content, which is worthy of promotion.
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@#Oral and maxillofacial tumors are common oral and maxillofacial surgery-related diseases. Digital surgical technology, represented by virtual surgical design and surgical navigation, is the main auxiliary means of the surgical diagnosis and treatment of oral and maxillofacial tumors. However, the existing digital technology still has some problems and room for improvement in terms of 3D visualization imaging and intraoperative hand-eye coordination. At present, the application of 3D visualization technology represented by mixed-reality technology has been rapidly developing in the medical field. It assists in realizing the real-time stereoscopic presentation of medical images by superimposing 3D virtual images onto the real surgical environment. Mixed-reality technology has been gradually applied to the diagnosis and treatment of oral and maxillofacial tumors. Preoperatively, mixed-reality technology can be used to construct a 3D model of the tumor and its surrounding vital structures based on imaging data, at which point the medical team can personalize the preoperative assessment and design the surgical plan in the mixed-reality environment. Intraoperatively, the combination of mixed-reality technology and surgical navigation technology can be used to display the 3D virtual model in real time in the actual environment of the operation area, overcoming the hand-eye coordination problem associated with using navigation technology alone and further improving the accuracy and safety of oral and maxillofacial tumor surgery. The combination of mixed-reality technology and internet medical technology can provide a high-quality teaching platform to promote the development of regional oral and maxillofacial surgery practices. The limitations of mixed-reality technology include image occlusion, lack of accuracy when used alone, and long alignment times. In this review, the application of mixed-reality technology to the diagnosis and treatment of oral and maxillofacial tumors will be summarized and assessed by combining information from domestic and international literature reports with the practical clinical experience of the author group.
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Objective:To investigate the application value of mixed reality technology in surgical conversation of laparoscopy radical resection of gastric cancer.Methods:The prospective randomized controlled study was conducted. There were 80 family members of patients with gastric cancer who were admitted to Nanfang Hospital of Southern Medical University from June 2021 to December 2022 being selected as subjects. All patients underwent laparoscopic radical resection of gastric cancer. Based on random number table, all subjects were allocated into the control group and the experiment group. Subjects in the control group performed routine surgical conversation and subjects in the experiment group performed surgical conversation based on mixed reality technology. Observation indicators: (1) baseline data of the subjects; (2) anxiety assessment of the subjects. Measurement data with normal distribution were represented as Mean± SD, and the independent sample t test was used for inter-group comparison. Repeated measurement data were analyzed using the repeated ANOVA. Count data were described as absolute numbers, and comparison between groups was conducted using the chi-square test. Comparison of ordinal data was conducted using the Wilcoxon rank sum test. Results:(1) Baseline data of the subjects. A total of 80 subjects were selected for eligibility, including 40 subjects in the control group and 40 subjects in the experi-ment group. There were 44 males and 36 females, aged (40±9)years. The gender (male, female), age, education background (primary school education, middle school education, high school education, junior college education, undergraduate education, postgraduate education) were 23, 17, (39±9)years, 1, 3, 9, 16, 9, 2 in subjects of the control group, versus 25, 15, (42±10)years, 0, 8, 6, 11, 14, 1 in subjects of the experiment group, showing no significant difference in the above indicators between the two groups ( χ2=0.20, t=?1.64, Z=?0.10, P>0.05). (2) Anxiety assessment of the subjects. The scores of self-rating Anxiety Scale (SAS) and Hospital Anxiety Scale (HADS) before surgical conversation, after surgical conversation, after surgery were 41±10 and 26±5, 49±11 and 32±3, 40±13 and 15±8 in subjects of the control group, versus 44±9 and 23±3, 66±16 and 28±6, 34±14 and 8±3 in subjects of the experiment group, showing significant differences in the above indicators between the two groups ( FSAS组间=8.83, FSAS时间=40.41, FSAS交互=12.21, FHADS组间=32.42, FHADS时间=321.28, FHADS交互=6.15, P<0.05). Conclusion:Compared with traditional surgical conversation, mixed reality technology based surgical conversation can relieve the postoperative conxiety of subjects.
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Objective:To evaluate the effect of mixed reality (MR) in the standardized resident training on oral and maxillofacial-head and neck tumor surgery.Methods:Twenty resident doctors, who received standardized training in the department of maxillofacial oncology of our hospital, were randomly divided into experimental group and control group. The MR teaching method was used in the experimental group, while the traditional teaching method was used in the control group. The teaching effect was evaluated by theoretical and operational tests and a questionnaire survey. Statistical analysis was performed with the SPSS 24.0 software. Statistical comparisons were performed by the Students' t-test or the Wilcoxon rank correlation test. Results:The theoretical test results showed that the scores of the experimental group were significantly higher than those of the control group (85.30±3.59 vs. 80.20±5.63, t = 2.41, P = 0.027). The operational test results showed that the scores of the experimental group were significantly higher than those of the control group (89.20±5.07 vs. 82.30±6.36, t = 2.68, P = 0.015). The questionnaire survey results showed that the MR teaching helped to easily acquire the knowledge of head and neck anatomy and operation skills. Besides, the doctors in the experimental group were more active and glad to communicate with others than those in the control group. In addition, the MR teaching method improved the learning interest of doctors. The doctors in the experimental group were more satisfied with the teaching effect than those in the control group, and they recommended that the MR teaching method be used in clinical training and teaching on oral and maxillofacial-head and neck tumor surgery. Conclusion:MR teaching can help doctors understand and master the knowledge of head and neck anatomy and operation skills and improve their learning interest, achieving a good teaching effect, so it has important application value in the standardized resident training on oral and maxillofacial-head and neck tumor surgery.
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Objective:To explore the effect of mixed reality (MR) application in the reconstruction of mandibular defects.Methods:Eighteen patients with mandibular defects were enrolled in this study, including 10 male patients and 8 female patients, whose age ranged from 27 to 45 years, and the mean age was 35.4 years. All the patients were from the Stomatological Hospital of the Fourth Military Medical University, during October 2019 to May 2021. Fibular flaps were used for the reconstruction of the mandibular defects. The patients were randomly divided into three groups, six in each group. In group one, MR-guided mandibular defect repair and reconstruction technique was used. In group two, 3D printed guide-assisted mandibular defect repair and reconstruction technique was used, and in the control group, traditional jaw defect repair and reconstruction technique was used. All the procedures were performed by the same team. Cone beam computed tomography (CBCT) was used for analysis of surgical accuracy, and questionnaires were used to evaluate the outcome of medical communication, occlusal relationship, appearance restoration, and medical experience satisfaction.Results:The mean surgical errors in the group one and group two were (1.75±0.44) mm and (1.81±0.16) mm respectively, which were both significantly lower than that in the control group (3.05±0.83) mm ( tMR=3.38, t3D=3.56, P<0.01). The medical communication (4.60±0.35, 4.52±0.28, tMR=2.90, t3D=2.77, P<0.05), occlusal relationship (4.17±0.32, 4.28±0.39, tMR=3.07, t3D=3.29, P<0.05), and medical experience satisfaction scores (4.26±0.45, 4.25±0.67, tMR=2.50, t3D=2.26, P<0.05) in the experimental groups were significantly higher than those in the control group (4.02±0.34, 3.58±0.33, 3.56±0.32, respectively). There was no significant difference in the satisfaction of appearance recovery among all the groups ( P>0.05). Conclusions:MR-guided mandibular repair and reconstruction surgery has high accuracy and is also beneficial to the recovery of occlusal relationship and medical communication.
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Objective:To investigate the application value of mixed reality (MR) technology in reconstruction of soft tissue defect of extremities with free anterolateral thigh flap(ALTF).Methods:From December 2019 to November 2021, a retrospective analysis was performed on 10 patients who had undergone ALTF reconstruction of soft tissue defects in extremities in Department of Orthopaedics, the First People's Hospital of Yunnan Province. Four patients had the defects in hand and 6 patients in foot and ankle. For the 6 patients in emergency surgery, the time from injury to admission was 4.0-15.0 hours, with an average of 7.3 hours. Four patients with soft tissue defects caused by chronic infection and ulcers were given debridement, and the soft tissue defects were reconstructed by flap transfer at the second stage. The defect area were from 8.0 cm×5.0 cm to 22.0 cm×8.0 cm. Preoperatively, 3D bone-vessel-flap model was established based on the lower extremity CTA scans. Intraoperatively, MR technology was used to project the 3D model on the flap donor site to observe the virtual profile of vessel shape in real time, to locate the perforator and the course of the perforator, and observe the consistency between the virtual image and the actual anatomy of the perforator. The appearance, texture and colour of the flap were recorded at the last follow-up. Hand function was evaluated by the total activity movement (TAM), and foot and ankle function was evaluated by the American Orthopaedic Foot and Ankle Society (AOFAS).Results:The position location and course of perforator vessels were reconstructed successfully in all patients before surgery. The MR technology was used to locate the perforator, and the course of the virtual perforator was consistent with the actual anatomy, and the matching reached 100%. The length of vascular pedicle measured before surgery was at 11.02 cm±1.37 cm. And that measured during surgery was at 11.21 cm±1.23 cm ( P=0.748, t=-0.326). The difference was not statistically significant ( P>0.05). The flap area was at 9.0 cm×6.0 cm to 23.0 cm×9.0 cm. The donor site was sutured directly in one stage. All patients were entered postoperative followed-up for 1 to 24 months, with an average of 13.5 months. All the flaps survived after surgery. The flap with good appearance, colour and texture, and only one linear scar was left in the donor site. According to the TAM of the hand function, 3 cases were excellent and 1 was fair. Foot and ankle function were evaluated according to the AOFAS, 5 cases were in excellent and 1 was good. Conclusion:MR technology applied to the surgery of ALTF can locate the course of the flap vessels in real time, guide the operation, improve the operation efficiency and reduce the risk in surgery.
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Extended reality is one of the leading cutting-edge technologies, which has not yet fully set foot into the field of ophthalmology. The use of extended reality technology especially in ophthalmic education and counseling will revolutionize the face of teaching and counseling on a whole new level. We have used this novel technology and have created a holographic museum of various anatomical structures such as the eyeball, cerebral venous system, cerebral arterial system, cranial nerves, and various parts of the brain in fine detail. These four-dimensional (4D) ophthalmic holograms created by us (patent pending) are cost-effectively constructed with TrueColor confocal images to serve as a new-age immersive 4D pedagogical and counseling tool for gameful learning and counseling, respectively. According to our knowledge, this concept has not been reported in the literature before.
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Objective:To explore the effect of introducing mixed reality technology into traditional atlas teaching to teach airway anatomy under bronchoscopy.Methods:A total of 30 Batch 2017 fifth-year clinical medicine students from Shanghai Jiao Tong University School of Medicine were randomly divided into control group and test group by RAND function in Excel, with 15 students in each group. The control group was taught with the traditional bronchoscopic atlas teaching, and the test group was combined with mixed reality technology. The two groups had the same class time. After teaching, the teaching effect was evaluated by examination and evaluation questionnaire. SPSS 25.0 software was conducted for t test and Mann-Whitney U test. Results:The average score after teaching of test group was (61.67±20.15), and that of control group was (36.67±13.32), with statistically significant differences ( t=4.01, P<0.001). According to the questionnaire results, the scores of the test group on course understanding, course concentration, participation, mastery and satisfaction were better than those of the control group, and the differences were statistically significant ( P<0.05). Conclusion:Using mixed reality technology to assist the clinical teaching of airway anatomy under bronchoscopy can improve the quality of students' study and enhance their understanding of the teaching content and students' participation passion, achieving better teaching effect.
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Objective:To explore application of the mixed reality (MR) technique in the surgery for complex pilon fractures.Methods:A retrospective analysis was conducted of the 22 patients with pilon fracture of Rüedi-Allg?wer type Ⅲ who had been treated at the Department of Orthopedics, Nanjing Tongren Hospital from May 2018 to October 2020. They were divided into 2 groups according to their treatment procedures. In the MR group of 9 cases, there were 8 males and one female, with an age of (39.2 ± 15.1) years. In addition to calcaneal traction plus open reduction and internal fixation, the MR technique was used to assist doctor-patient communication, preoperative planning, surgical guidance and rehabilitation exercises. In the control group of 13 male cases with an age of (33.7 ± 9.6) years, only conventional calcaneal traction plus open reduction and internal fixation were carried out. The communication efficiency, operation time, intraoperative blood loss, fluoroscopy frequency, fracture reduction, post-operative complications and the American Orthopaedic Foot and Ankle Society (AOFAS) ankle-hindfoot score at one year postoperatively were recorded and compared between the 2 groups.Results:There was no significant difference in the general data between the MR group and the control group, showing they were comparable ( P > 0.05). The questionnaire score of patients' surgical awareness [(77.8 ± 19.2) points] in the MR group was significantly higher than that in the control group [(50.0 ± 30.6) points] ( P = 0.017). The fluoroscopy frequency [(7.3 ± 2.6) times] in the MR group was significantly lower than that in the control group [(9.5 ± 2.3) times] ( P = 0.043). No significant differences were observed between the 2 groups in either the operation time [(98.3 ± 14.4) min versus (110.4 ± 20.4) min] or the intraoperative blood loss [(118.9 ± 36.5) mL versus (128.8 ± 35.2) mL] ( P = 0.142, P = 0.527). In the MR group, 8 cases achieved anatomical reduction and one case good reduction; in the control group, 4 cases achieved anatomical reduction, 8 cases good reduction and one case poor reduction. The anatomical reduction in the MR group was significantly better than that in the control group ( P = 0.011). There were one case of delayed wound healing, one case of nonunion, and one case of traumatic osteoarthritis in the MR group while there were 2 cases of delayed wound healing, one case of superficial soft tissue infection, one case of nonunion, and 2 cases of traumatic osteoarthritis in the control group. The average AOFSA ankle-hindfoot score at one year postoperatively in the MR group [(83.8 ± 9.0) points] was significantly higher than that in the control group [(73.3 ± 11.8) points] ( P = 0.035). However, there was no significant difference between the MR group and the control group in the good to excellent rate by the AOFSA ankle-hindfoot score at one year postoperatively (6 excellent cases, one good case, and 2 fair cases in the former versus 6 excellent cases, 2 good cases, 4 fair cases, and one poor case in the latter) ( P = 0.648). Conclusions:In the surgery for complex pilon fractures, MR technique can increase the efficiency of doctor-patient communication, reduce intraoperative fluoroscopy frequency, and improve reduction quality and ankle function, but fails to significantly reduce operation time and intraoperative blood loss.
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Objective@#To explore the clinical application value of mixed reality technology in locating perforator vessels and assisting perforator vessel dissection to harvest anterolateral thigh flaps.@*Methods@#Six patients who needed anterolateral thigh flap repair after resection of oral and maxillofacial tumors were recruited from the Department of Oral and Maxillofacial Surgery of Nanchong Central Hospital from January 2020 to January 2021. Before surgery, the CT angiography data of the lower limbs of the patients carrying the calibration points were imported into the data workstation to perform 3D reconstruction of the perforator vessels and surrounding tissues of the thigh, and the reconstruction results were imported into Microsoft HoloLens 2 glasses. During the operation, calibration was performed at the calibration point of the operative area so that the preoperative reconstruction results were superimposed on the operative area through Microsoft HoloLens 2 glasses. The clinical application value of mixed reality technology assisted perforator vessel location and anatomy of anterolateral femoral perforator flap was discussed from six aspects: whether the perforator vessel was reconstructed preoperatively, intraoperative calibration time, whether the actual position of the perforating vessels passing through the fascia lata fulcrum deviated from the preoperative reconstruction result within 1 cm, time required to harvest the flap, and whether the actual route of the perforator vessel was consistent with the reconstruction result, and whether the postoperative flap survived.@*Results @# The position and course of perforating vessels were successfully reconstructed in 6 cases before the operation. The actual course of perforating vessels during the operation was consistent with the reconstruction results. The deviation between the actual position of the perforating points and the preoperative reconstruction results was within 1 cm, which met the requirements of the actual asisting of the anterolateral thigh flap. The average time of flap harvest was (70.50 ± 7.20) min. The average calibration time was (13.33 ± 5.50) min. All flaps survived.@* Conclusions @# Mixed reality technology projects the reconstruction results of anterolateral femoral perforator vessels directly into the operative area, which provides a new method for asisting localization and anatomy of anterolateral femoral flap perforator vessels and reduces the possibility of injury to perforator vessels.
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Mixed reality, as a new virtual simulation technology, has been initially applied in the field of surgery. In hepatectomy for primary liver cancer, mixed reality technology has its unique advantages in formulating and evaluating surgical plans before surgery, precise real-time navigation during surgery, and virtual liver teaching, making liver resections more accurate and personalized. This article summarizes the relevant literature at home and abroad in recent years, summarizes the research progress of mixed reality technology in assisted liver resection for primary liver cancer, and discusses its application potential and limitations.
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Objective To investigate application value and significance of mixed reality technology in surgical treatment and doctor-patient communication for vestibular schwannoma. Methods We selected randomly 13 vestibular schwannoma patients treated with surgical treatment. After the three-dimensional models were constructed, preoperative surgical planning and doctor-patient communication were performed with mixed reality technology. Craniotomy through retrosigmoid sinus approach, tumor resection and facial nerve protection were achieved intraoperatively with the assistance of mixed reality technology. Questionnaires were collected and facial nerve function of 13 patients was recorded one week after operation. Results Holographic model images of 13 cases were showed successfully using mixed reality technology. The locations of preoperative facial nerves reconstructed were completely consistent with actual locations in 10 cases (84.6%). After preoperative anatomic analysis, it was decided to remove partly the posterior wall of the internal auditory canal in 11 cases. The result of doctor-patient communication questionnaire showed that 13 patients and their family all had a thorough understanding of the condition, operative plan and risks, and expressed satisfaction with the preoperative conversation. With the assistance of mixed reality technology, the tumors were resected totally without injury of vein sinus in 13 cases. The facial nerve function was gradeⅠin 3 cases, gradeⅡin 6 cases, grade Ⅲ in 3 case and grade Ⅳ in 1 case based on House-Brackmann grading one week after surgery. Conclusion Mixed reality technology is quite helpful in individual surgical planning and preoperative doctor-patient communication. It helps reduce the side injuries of surgery and protect the function of facial nerve as a surgical assistant tool intraoperatively.
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@#Mixed reality is a new digital hologram technology after virtual reality and augmented reality, which combines the real world with the virtual world to form a new visualization environment. At present, mixed reality has been applied in various fields, but its application in medical field is still in the exploratory stage. With the rapid development of the digital age, the prospect of the combination of mixed reality and medicine is boundless. It is believed that mixed reality will bring subversive changes in medical training, disease diagnosis, doctor-patient communication, clinical diagnosis, treatment and so on in the near future. In this paper, the application of mixed reality in medicine was summarized.
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Objective:To investigate the clinical feasibility and effectiveness of 3D visualization and mixed reality technique in the partial nephrectomy of renal tumor, and to evaluate its role in the communication between doctors and patients.Methods:82 patients with renal tumors confirmed by imaging examination including 33 patients in our hospital and 49 patients admitted to the Beijing Cancer Hospital from June 2018 to December 2020, all of whom were single tumors without local or distant metastasis, and in line with the indications of endoscopic partial nephrectomy, but without other systemic serious diseases. These patients were randomly divided into observation group (n=41) and control group (n=41). Both groups were scanned with 64-slice spiral CT before operation, while the CT images in the observation group were generated by DICOM data, modeled by three-dimensional reconstruction software and uploaded to mixed reality glasses for the preoperative planning, doctor-patient communication and intraoperative guidance. In this study, 82 patients underwent laparoscopic partial nephrectomy. Questionnaires and scales were used to compare the awareness of disease and/or satisfaction with 3D visual images between the two groups. The intraoperative time of tumor detection, operative time, renal heat ischemia time and intraoperative blood loss in 2 groups were recorded to evaluate preoperative planning and intraoperative guidance. In addition, the recovery time of gastrointestinal function, indwelling time of urinary catheter, indwelling time of drainage tube in operation area, length of hospital stays after surgery and pathological type, as well as serum creatinine level and glomerular filtration rate (GFR) value in patients at 6 months after operation were used to evaluate the postoperative recovery.Results:Before surgery, the concentrations of serum creatinine in patients with the observation group and control group were (66.8±17.5) μmol/L and (70.5±13.7) μmol/L, and the GFR were (40.8±7.6) ml/min and (38.9±6.8) ml/min, respectively. All the 82 cases were operated successfully. The number of correct responses of patients in the observation group and control group about basic kidney physiology, kidney anatomy and surgical plan was (5 vs.4), (2 vs.1), (7 vs.4), the difference among which was statistically significant ( P<0.05). In the observation group, the points of patients in understanding their own kidney, disease, specific surgical plan, and risk of surgical complications were 9.5±1.61, 9.3±0.84, 9.7±0.53, and 8.5±2.21 respectively. The tumor detection time was (35.2±5.6) min, the operation time was (100.2±20.1) min, and the renal warm ischemia time was (22.7±8.6) min in the observation group, which was significantly shorter than that in the control group (43.2±6.7) min, (123.2±23.50) min, (33.2±7.8) min. However, there was no significant difference in the amount of bleeding (103.2±22.8 ml vs.112.5±19.5 ml), postoperative recovery time of gastrointestinal function (1.7±0.8 d vs.1.8±1.2 d), indwelling time of urinary catheter (3.9±1.6 d vs.4.2±1.0 d), indwelling time of drainage tube in operation area (4.6±1.3 d vs.4.9±1.7 d), length of hospital stays (6.9±1.5 d vs.7.2±1.3 d), pathological type, and the changes of serum creatinine (10.1±19.0 vs.9.6±11.3) and the amplitude of GRF (19.4±9.5 vs.18.5±10.7) fluctuation in the affected side 6 months after operation (19.4±9.5 vs.18.5±10.7) ( P>0.05). Conclusions:The application of 3D visualization and mixed reality technology in preoperative planning and intraoperative guidance of partial nephrectomy could improve patients' cognitive understanding of renal anatomy, tumor characteristics and surgical operation, and make doctor-patient communication smoother. It can reduce the risk of surgery to a certain extent, reduce the renal heat ischemia and the operation time, and remove the tumor more accurately.
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OBJECTIVE@#To explore the application of mixed reality technique for the surgery of oral and maxillofacial tumors.@*METHODS@#In this study, patients with a diagnosis of an oral and maxillofacial tumor who were referred to Department of Oral and Maxillofacial Surgery, Peking University School and Hospital of Stomatology from December 2018 to January 2020 were selected. The preoperative contrast-enhanced computed tomography data of the patients were imported into StarAtlas Holographic Medical Imaging System (Visual 3D Corp., Beijing, China). Three-dimensional (3D) model of tumor and key structures, such as skeleton and vessels were reconstructed to three-dimensionally present the spatial relationship between them, followed with the key structures delineation and preoperative virtual surgical planning. By using mixed reality technique, the real-time 3D model was displayed stereotactically in the surgical site. While keeping sterile during operation, the surgeon could use simple gestures to adjust the 3D model, and observed the location, range, and size of tumor and the key structures adjacent to the tumor. Mixed reality technique was used to assist the operation: 3D model registration was performed for guidance before tumor excision; intraoperative real-time verification was performed during tumor exposure and after excision of the tumor. The Likert scale was used to evaluate the application of mixed reality technique after the operation.@*RESULTS@#Eight patients underwent mixed reality assisted tumor resection, and all of them successfully completed the operation. The average time of the 3D model registration was 12.0 minutes. In all the cases, the surgeon could intuitively and three-dimensionally observe the 3D model of the tumor and the surrounding anatomical structures, and could adjust the model during the operation. The results of the Likert scale showed that mixed reality technique got high scores in terms of perceptual accuracy, helping to locate the anatomical parts, the role of model guidance during surgery, and the potential for improving surgical safety (4.22, 4.19, 4.16, and 4.28 points respectively). Eight patients healed well without perioperative complications.@*CONCLUSION@#By providing real-time stereotactic visualization of anatomy of surgical site and guiding the operation process through 3D model, mixed reality technique could improve the accuracy and safety of the excision of oral and maxillofacial tumors.
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Humanos , Realidade Aumentada , China , Imageamento Tridimensional , Neoplasias , Estudos Retrospectivos , Cirurgia Assistida por ComputadorRESUMO
Telemedicine includes remote teleradiology, remote ultrasound diagnostics, telesurgery, telemedicine consultation, and other forms. Telemedicine consultation is the most used form of telemedicine. However, the traditional telemedicine consultation is limited by a lack of communication and presentation methods, and its wide application is greatly limited. Mixed reality technology cuts through the boundaries between virtual reality and actual reality, bringing a new method of remote consultation.
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@#Objective To introduce the application of mixed reality technique to the preoperative and intraoperative pulmonary nodules surgery. Methods One 49-year female patient with multiple nodules in both lobes of the lung who finally underwent uniportal thoracoscopic resection of superior segment of left lower lobe and wedge resection of left upper lobe was taken as an example. The Mimics medical image post-processing software was used to reconstruct the patient's lung image based on the DICOM data of the patient's chest CT image before the surgery. The three-dimensional reconstructed image data was imported into the HoloLens glasses, and the preoperative discussions were conducted with the assistance of mixed reality technology to formulate the surgical methods, and the preoperative conversation with the patients was also conducted. At the same time, mixed reality technology was used to guide the surgery in real time. Results Mixed reality technology can clearly pre-show the important anatomical structures of blood vessels, trachea, lesions and their positional relationship. With the help of mixed reality technology, the operation went smoothly. The total operation time was 49 min, the precise dorsal resection time was 27 min, and the intraoperative blood loss was about 39 mL. The patient recovered well and was discharged from hospital smoothly after surgery. Conclusion Mixed reality technology has certain application value before and during the surgery for pulmonary nodules. The continuous maturity of this technology and its further application in clinics will not only bring a new direction to the development of thoracic surgery, but also provide a wide prospect.
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Mixed reality (MR), characterized by the ability to integrate digital data into human real feeling, is a new technique in medical imaging and surgical navigation. MR has tremendous value in surgery, but its application in oromaxillofacial head and neck oncology surgery is not yet reported. This paper reports the application of MR in oromaxillofacial head and neck oncology surgery. The merits, demerits, and present research situations and prospects of MR are further discussed.
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Humanos , Realidade Aumentada , Cirurgia Assistida por ComputadorRESUMO
With the development of modern science and information technology,surgery has begun to enter the 4.0 era.The connotation of Surgery 4.0 is to use technology to redefine the relationship between people and information and to reshape the way people communicate.Artificial intelligence,holographic visualization,medical robotics,precision manufacturing,network transmission and cloud technology lay the technical ground for the surgical 4.0 era.Characterized by data,intelligence,precision,high-depersonalization,automation and cloud,surgery 4.0 has opened the era of technology empowering surgeons,certainly bringing fundamental changes to sciences of human health.This article is to look into to the future trends of surgery,hoping to provide references and stimulate more thinking for medical exploration in the age of surgery 4.0.