ObjectiveTo discuss the value of dual-source CT Flash scanning in reducing the dose of radiation in 3D cardiac imaging. MethodWe collected 60 patients from March to August 2014 who should undergo cardiac 3D CT scanning before radiofrequency ablation. They were randomly divided into group A and B with 30 in each. Patients in group A underwent flash technology scanning, while those in group B accepted conventional retrospective electrocardiography-gated scanning. CARE Dose techniques were used to collect data. Scanning parameters were the same for both groups:collimation was 128×0.6 mm, reconstruction thickness was 0.75 mm, reconstruction interval was 0.7 mm, and field of view was 180-200 mm. After image acquisition, we measured the CT values and noise of left atrium and various branches of the pulmonary veins (upper left, lower left, upper right, and lower right). Statistical software was used for the two groups of images to analyze the carrier noise ratio (CNR), signal noise ratio (SNR), blinded scores, computed tomography dose index (CTDIvol), and dose-length product (DLP) of the left atrium and pulmonary vein. ResultsCNR and SNR of the left atrium and various pulmonary veins between the two groups had no significant differences (P>0.05) . Blinded scores between the two groups were not significantly different (P>0.05) . CTDIvol in group A and group B was respectively (2.92±0.38) and (20.15±12.09) mGy, with a significant difference (t=?7.803, P<0.001) . DLP of group A was (59.30±6.67) mGy·cm, significantly lower than that in group B [(334.43±216.71) mGy·cm] (t=?6.591, P<0.001) . Flash-efficient radiation dose was (0.83±0.94) mSv in group A, far below that in group B [(4.53±3.03) msv], and the difference was statistically significant (t=?6.684, P<0.001) . ConclusionsDual-source CT Flash technology applied in 3D cardiac scanning can reduce radiation dose as well as meet the needs of image diagnosis.
ObjectiveTo systematically summarize recent advancements in the application of artificial intelligence (AI) in key components of radiotherapy (RT), explore the integration of technical innovations with clinical practice, and identify current limitations in real-world implementation. MethodsA comprehensive analysis of representative studies from recent years was conducted, focusing on the technical implementation and clinical effectiveness of AI in image reconstruction, automatic delineation of target volumes and organs at risk, intelligent treatment planning, and prediction of RT-related toxicities. Particular attention was given to deep learning models, multimodal data integration, and their roles in enhancing decision-making processes. ResultsAI-based low-dose image enhancement techniques had significantly improved image quality. Automated segmentation methods had increased the efficiency and consistency of contouring. Both knowledge-driven and data-driven planning systems had addressed the limitations of traditional experience-dependent approaches, contributing to higher quality and reproducibility in treatment plans. Additionally, toxicity prediction models that incorporated multimodal data enabled more accurate, personalized risk assessment, supporting safer and more effective individualized RT. ConclusionsRT is a fundamental modality in cancer treatment. However, achieving precise tumor ablation while minimizing damage to surrounding healthy tissues remains a significant challenge. AI has demonstrated considerable value across multiple technical stages of RT, enhancing precision, efficiency, and personalization. Nevertheless, challenges such as limited model generalizability, lack of data standardization, and insufficient clinical validation persist. Future work should emphasize the alignment of algorithmic development with clinical demands to facilitate the standardized, reliable, and practical application of AI in RT.
ObjectiveTo discuss the clinical value of internal radiation therapy with hepatic intraarterial iodine131 labeled material for the treatment of hepatocellular carcinoma (HCC). MethodsThis summarized paper was made on literature review. ResultsIodine131lipiodol and several reported iodine131labeled antibodies to HCC associated antigens were concentrated in the foci of HCC with a high tumortonormaltissue absorbed dose ratios. No severe side effects occurred. It was used in various kinds of HCC patients, and mostly showed a significant tumor response. Survival rate of HCC patients was raised in several clinical trials.Conclusion Internal radiotherapy with hepatic intraarterial iodine131 labeled material may be considered as an effective method to treat HCC.
Objective To investigate the results of human amniotic membrane(HAM) which are loaded with marrow mesenchymal stem cells(MSCs) and epidermis cells in treating fullthickness skin defect combined with radiation injury. Methods Eight minipigs were used in this study. Three round fullthickness wounds(Ф3.67cm), which combined with radiation injury, were created on the dorsum of each side close to the vertebral column in each animal. Among 48 wounds, 24 left side wounds were treated with HAM loaded with MSCs and epidermis cells as experimental group (group A), 16 right side wounds with simple HAM (HAM group, group B) and 8 right side wounds with oil gauze as control (group C). The granulation tissue, reepithelization and wound area were observed after 1,2 and 3 weeks. Immunohistochemistry was performed using vWF as a marker for blood vessels.Image analysis was employed to test new area of wound at different interval time and healing rate of wound.Results The healing time of group A was 6 to 7 days faster than that of group C and 5 to 6 days faster than that of group B. After 15-17 days of graft, there were significant differences in new area of wound and healing rate between group A and groups B,C(Plt;001). New epidermis fully covered whole wound surface in group A, and their granulation tissue, which contained a lot of vWF, fibroblasts, capillaries and collagen, grew well. Many inflammatory cells still were seen in groups B and C, and their contents of vWF, fibroblasts, capillaries and collagen in granulation tissue were smaller than that in group A.Conclusion The graft of HAM loaded with MSCs and epidermis cells played an effective role in promoting healing of wound combined radiation injury with high quality.
The Monte Carlo N-Particle (MCNP) is often used to calculate the radiation dose during computed tomography (CT) scans. However, the physical calculation process of the model is complicated, the input file structure of the program is complex, and the three-dimensional (3D) display of the geometric model is not supported, so that the researchers cannot establish an accurate CT radiation system model, which affects the accuracy of the dose calculation results. Aiming at these two problems, this study designed a software that visualized CT modeling and automatically generated input files. In terms of model calculation, the theoretical basis was based on the integration of CT modeling improvement schemes of major researchers. For 3D model visualization, LabVIEW was used as the new development platform, constructive solid geometry (CSG) was used as the algorithm principle, and the introduction of editing of MCNP input files was used to visualize CT geometry modeling. Compared with a CT model established by a recent study, the root mean square error between the results simulated by this visual CT modeling software and the actual measurement was smaller. In conclusion, the proposed CT visualization modeling software can not only help researchers to obtain an accurate CT radiation system model, but also provide a new research idea for the geometric modeling visualization method of MCNP.
The simultaneous objectives of destroying tumor cells while protecting normal pelvic organs present a dual clinical and technical challenge within the realm of pelvic tumor radiotherapy. This article reviews the latest literatures, focusing on technological innovations in key aspects of radiotherapy such as positioning, planning, and delivery. These include positioning fixation techniques, organ-at-risk avoidance irradiation, non-coplanar irradiation techniques, as well as organ displacement protection and image-guided adaptive techniques. It summarizes and discusses the research progress made in the protection of critical organs during pelvic tumor radiotherapy. The paper emphasizes technological advancements in the protection of critical organs throughout the processes of radiotherapy positioning, planning, and implementation, aiming to provide references for further research on the protection of critical organs in the external irradiation treatment of pelvic tumors.
OBJECTIVE Influence of irradiation and phenytoin sodium on modulatory activities of wound fluid on proliferation of fibroblasts and collagen synthesis was studied. METHODS The male Wistar rats were used in this study. The rats were divided into irradiated and non-irradiated groups, and in each of them it was subdivided into phenytoin group and control. A 7 cm long incisional wound was made on the back of each rat, in which a polyvinyl alcohol sponge (PVAS) with a size of 1.0 cm x 0.4 cm was implanted into the wound and the wound was sutured up. The PVAS was prepared by rinsing in running water over night and then was boiled for 30 minutes. Before implantation, the sponge was immersed in phenytoin sodium solution (10 mg/l ml) or normal saline (as control). From each wound the wound fluid and fibroblasts were collected. The methods of incorporation of 3H were adopted to assess the proliferation of fibroblasts and synthesis of collagen. RESULTS It was shown that proliferation of fibroblasts and collagen synthesis were stimulated by wound fluid remarkably on 5 to 8 days after wounding, and that 6 Gy to total-body irradiation wound decrease this effect. It was also noted that topical phenytoin sodium increased the modulatory activity of wound fluid irrespective of being irradiated or not. CONCLUSION It could be drawn that, after total-body irradiation, stimulation of hyperplasia of fibroblasts and collagen synthesis by wound fluid was markedly lowered indicating the total-body irradiation resulted in changes of local conditions of the wound which was unbenefitted to repair of tissue cells, while phenytoin sodium could enhance the stimulating action of wound fluid on proliferation of fibroblasts and synthesis of collagen which was beneficial to wound healing.
Objective To observe the therapeutic effect of thermosensitive hydrogel containing curcumin-vitamin E (VE) complex (hereinafter referred to as “curcumin-VE hydrogel”) on radiation-induced oral mucositis in mice. Methods Curcumin-VE hydrogel was prepared using the synthesized curcumin-VE complex as the carrier and poloxam as the substrate. The structure of curcumin-VE complex was characterized by Fourier transform infrared spectrometer, the microstructure of curcumin-VE hydrogel was determined by scanning electron microscope, and the gelation temperature was determined by rheometer, gel swelling and degradation were tested and gel adhesion was determined using a universal testing machine. Thirty healthy male BALB/C mice with specific pathogen free grade were randomly divided into three groups, with ten mice in each group. The radiation group and radiation+hydrogel group were modeled by a single high dose of radiation (25 Gy), while the control group had anesthesia but no radiation. The control group and radiation group were given daily feed and water 7 days after radiation. In addition to daily feed and water, the radiation+hydrogel group was given curcumin-VE hydrogel twice a day. The mice were sacreficed on the 8th day after radiation. The weight changes of each group were recorded after radiation. The ulceration area of tongue was measured by toluidine blue. The tongue of mouse were pathologically observed. The activities of superoxide dismutase, catalase (CAT), and glutathione peroxidase and the level of malondialdehyde in tongue tissue were determined. The levels of tumor necrosis factor α (TNF-α), interleukin (IL)-1β and IL-6 in tongue tissue were determined by enzyme linked immunosorbent assay. The distribution and positive expression of phosphorylated histone H2AX (γ-H2AX) and nuclear factor-erythroid 2-related factor 2 were determined by immunohistochemistry. Results Curcumin-VE hydrogel had a porous network structure and the gelation temperature was 30℃, the swelling rate was close to 300%, the gel degradation rate was up to 95% after 48 h, and the adhesion strength was 12.748 kPa. Compared with the radiation group, the weight of mice in the radiation+hydrogel group increased (P<0.05), the ulcer area decreased (P<0.05); the activity of CAT increased (P<0.05); the levels of TNF-α, IL-1β and IL-6 decreased (P<0.05); the expression of γ-H2AX was down-regulated (P<0.05). Conclusion Curcumin-VE hydrogel can delay or weaken the process of radiation-induced oral mucositis by reducing the DNA damage caused by radiation, inhibiting the production of reactive oxygen species, and effectively reducing the level of inflammation in tongue tissue.
In order to decrease the radiotherapy error caused by target motion, an adaptive radiation therapy system for target movement compensation has been designed and passed by simulation test. The real-time position of the target labelled by a mark was captured by the control system and compared with the reference point. Then the treatment couch was controlled to move in the opposite direction for compensation according to that position information. The three dimensional movement of the treatment bed relied on three independent stepping motors which were controlled by a control system. Experiments showed that the adaptive radiation therapy system was able to reduce the therapy error caused by target movement. It would be useful in radiotherapy clinical practice with high real-time position precision.
Objective To evaluate the effects of neoadjuvant long-course chemoradiotherapy (CRT), neoadjuvant short-course radiotherapy (SCRT), and total neoadjuvant treatment (TNT) on chemoradiotherapy related complications and perioperative safety in mid-low rectal cancer patients. Methods The clinical data of 63 rectal cancer patients who received neoadjuvant (chemo) radiotherapies and surgery treatment in West China Hospital from Jul. 2014 to Feb. 2016 were retrospectively analyzed. According to the neoadjuvant regimen, the patients were divided into CRT group (n=15), SCRT group (n=30), and TNT group (n=18), and then the effects of these 3 kinds of neoadjuvant regimen on chemoradiotherapy related complications and perioperative safety were compared. Results ① Chemoradiotherapy related complications: among all the included 63 patients, 29 patients (46.0%) occurred chemoradiotherapy related complications, including radiation enteritis in 9 patients and bone marrow suppression in 25 patients. There were significant differences in the overall incidence of chemoradiotherapy related complications, incidence of radiation enteritis and bone marrow suppression (P≤0.001). The overall incidence of chemoradiotherapy related complications and incidence of bone marrow suppression of SCRT group were lower. ② Perioperative safety: no significant differences were found in the incidence of surgical complications, incidence of specific surgical complication, operation duration, intraoperative blood loss, and postoperative flatus time (P<0.05), but there was significant difference in the postoperative hospital stay among 3 groups (P=0.033), the postoperative hospital stay of SCRT group was shorter. Conclusion CRT, SCRT, and TNT have similar effect on the safety in the mid-low rectal cancer patients, which suggests that SCRT is worthy of further research and promotion.