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@#Objective To explore the application of Body Tom® mobile CT combined with basic anesthesia in preoperative painless positioning of small pulmonary nodules, and evaluate its safety and effectiveness. Methods Patients using mobile Body Tom® CT to accurately locate pulmonary nodules in the Department of Thoracic Surgery of Affiliated Nanjing Brain Hospital, Nanjing Medical University from August to October 2022 were retrospectively included. Clinical data of the whole patient group were analyzed. Results We finally included 30 patients with 12 males and 18 females at age of 23-71 years. The position success rate of 30 patients with small pulmonary nodules was 100.0%. Location time was 14.20±4.07 min. There was one patient of intrapulmonary hemorrhage, with no other complications such as pneumothorax, positioning needle shedding, or pleural reaction. The time from the end of positioning to the start of surgery was 12.63±5.68 min. There was no needle migration or indocyanine green overflow. All patients completed resection of small pulmonary nodules under single-port thoracoscopy, no transit to opening chest. The average operation time was 85.32±12.60 min. There was no postoperative complications, and the average postoperative chest tube retention time was 2.12±1.34 days. And the average length of hospital stay was 3.52±1.45 days. The postoperative pathological results showed that the distance from the nodules was greater than 2 cm. Conclusion Body Tom® mobile CT combined with basic anesthesia can achieve the preoperative painless, precise positioning of pulmonary nodules, effectively reduce the incidence of preoperative positioning complications, shorten the operation waiting time, ensure the safety and effectiveness of patients with preoperative pulmonary nodules positioning, and further improve the surgical comfort of patients, which has certain clinical application value.
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OBJECTIVE@#In order to solve the problem of inadequate CT screening ability in emergency medical rescue in remote mountainous areas, high-altitude areas, other public health events and sudden natural disasters, a vehicle-mounted mobile CT suitable for emergency medical rescue is studied.@*METHODS@#A vehicle chassis system suitable for long-distance transportation and a cabin system suitable for epidemic prevention and control was designed. A domestic 32-slice CT with small volume, light weight and high stability was selected to design a vehicle-mounted mobile CT suitable for emergency medical rescue.@*RESULTS@#The high-performance vehicle-mounted mobile CT can provide rapid support, and provide large-scale screening, emergency medical rescue, a supplement to daily CT scanning in peacetime and wartime.@*CONCLUSIONS@#The vehicle CT has high stability, fast scanning speed and high social and economic value.
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Objective To measure the peripheral dose distributions of the mobile head cone beam computed tomography (CBCT) and evaluate the impact of CBCT on the surrounding personnel and environment, and provide data support for clinical radiation protection management. Methods Combined with the structural characteristics of CBCT, AT1123 was used in the direction of 0° (counterclockwise), 45°, 90°, 135°, 180°, 225°, 270° and 315° in front of CBCT to measure the ambient dose equivalent rate of 30 cm, 80 cm and 130 cm away from the ground when the equipment was normally out of the beam, and the boundary of the temporary control area was drawn. At the same time, the dose level behind the lead screen 1 m away from the external surface of the equipment was measured and analyzed. Results The dose field around CBCT was symmetrically distributed with the dividing line of 0° and 180°, and the radiation dose level of 5.5 m in the direction of 0°, 3.5 m in the direction of 45°, 0.5 m in the direction of 90° and within 1.0 m in the direction of 180° (inside the "spoon" type) was higher than 2.5 μSv/h. The radiation dose levels of CT aperture 0° (straight forward), 45° and 315° behind the lead screen 1 m away from the equipment surface were 0.37 μSv/h, 0.22 μSv/h and 0.54 μSv/h, respectively. Conclusion The results show that the radiation dose around the mobile head cone beam CT is in a low dose level, the distribution of the dose field can provide necessary reference for the administrative and medical personnel to strengthen the radiation safety management. At the same time, it is suggested that lead screens should be set up in the clinical use of mobile CT to ensure the health and safety of the surrounding people and the environment.
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Objective To evaluate and compare the radiation dose and image quality of the new generation of whole body mobile CT (BodyTom CT) with commonly used fixed CT.Methods The image quality was evaluated with CATPHAN 500 performance test body model.The radiation dose was measured by conventional 100 mm pen ionization chamber and PMMA body phantom and head phantom (head diameter 160 mm,phantom diameter 320 rm and width 140 mm).Results The spatial and contrast resolution of BodyTom CT images were similar to two kinds of fixed CT(P > 0.05).The CNR of image with BodyTom CT decreased by about 20%:In head scan mode,significantly lower than that with Philps 64 slice CT and Toshiba 320 slice CT (with soft,t =-4.82,-6.98,P < 0.05;with standard,t =-20.60,-20.09,P <0.05);in body scan mode,significantly lower than that with Philps 64 slice CT and Toshiba 320 slice CT (with soft,t =-5.67,-12.82,P < 0.05;with standard,t =-3.39,-9.18,P < 0.05;with sharp,t =-3.88,-3.21,P <0.05).The radiation dose with BodyTom CT was significantly higher than that with fixed CT:in body model,22.97% than that with Philps 64(t=9.48,P<0.05),29.6% than that with Toshiba 320 slice CT(t =11.66,P <0.05);in head model,29.76% than that with Philps 64 slice CT(t=23.44,P<0.05),33.22% than that with Toshiba 320 slice CT(t=23.11,P<0.05).Conclusions The radiation dose with mobile CT was over 20% higher than that with routine multi-row CT while with the similar image quality.
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Objective To identify the spatial distribution of stray radiation from mobile CT head scanning for the purpose of radiation protection.Methods The head series of CareTom mobile CT were scanned and the radiation dose was measured using TLD (LiF:Mg,Cu,P).The isodose maps of radiation dose field were plotted using Matlab software.Results Radiation dose in the front of the mobile CT was slightly higher than that in the back.The maximum value of 0.255 mGy was found to be at 0.5 m from the scanning hole center.Conclusions The stray radiation dose from mobile CT head scanning was relatively low.However in order to avoid the damage to the operators and other medical workers from long-term low dose exposure,it should keep 2 m away from mobile CT,beside or behind,when in operation.
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PURPOSE: The purpose of this study is to describe the usefulness of intraoperative mobile CT scans in the reduction of zygomatic arch fracture. Method: Two patients with zygomatic arch fractures were selected who were indications of closed reduction by Gilles' approach. After the reduction was done in the operating room with zygomatic arch elevator, intraoperative CT scan was done to check the extent of reduction. Additional reduction was performed according to the obtained images from the intraoperative mobile CT scan. Examination of the preoperative CT, intraoperative CT after the reduction, and postoperative plain X-ray films were done for documentation and analysis. RESULTS: Reduction was carried out successfully to the patients without any complications. Both patients were satisfied with the postoperative cosmetic and functional outcome. Revisional surgery was not necessary during the 6 months follow up. CONCLUSION: The advantage of this method is that it is easier to obtain three dimensional relationships of the fracture site. Furthermore, the operator is less exposed to radiation hazards compared to other methods that obtain intraoperative images such as the C-arm. In conclusion, intraoperative mobile CT scan can be a useful surgical aid in the reduction of zygomatic arch fractures.