Objective:To propose a novel radiotherapy marking method-the"#"-character method,which aimed at improving the accuracy and repeatability of positioning during radiotherapy.Methods:A specially"cross-shaped"stamp was designed by this study,which consisted of a handheld square base with a"cross-shaped"protrusion.Using this stamp,the extreme positions of end-expiration and end-inspiration were marked respectively at the laser-guided regions on the directly above and bilateral sides of the patient's body,and each position was printed a"+"character.Finally,a"#-shaped"signal was formed,which represented the full range of respiratory motion of patients.The study included two parts:surface displacement caused by respiration was simulated through a three-dimensional(3D)motion platform,which was used to conduct a phantom experiment for anthropomorphic dummy,A randomized controlled study involving 40 patients,who were treated between January and June 2024 at the Department of Radiotherapy,Cancer Hospital,Chinese Academy of Medical Sciences,were conducted.The cohort included 20 patients with breast tumor(Positioning the outer contour by exposing the chest)and 20 patients with thoracic tumor(fixed position of using thermoplastic film).These patients were divided into two groups for comparison,which received respectively the"#-shaped"method and the conventional"+-shaped"method.The cone-beam computed tomography(CBCT)images before treatment were used to compare the influences of the two kinds of marking methods on the positioning errors of patients with breast tumor and patients with thoracic tumor.Then,the statistical analysis was used to assess precision and accuracy of positioning.Results:The result of phantom experiment indicated that the positioning error of the"#-shaped"method was significantly better than that of the"+-shaped"method under various parameters of respiratory movement.Under three kinds of different respiratory cycles(3,4,and 5 seconds)and amplitudes(8,12,and 15 mm),the positioning errors of the"#-shaped"method were respectively(0.15±0.04)cm,(0.19±0.05)cm and(0.35±0.14)cm,while the"+-shaped"method were respectively(0.42±0.16)cm,(0.64±0.28)cm and(0.88±0.37)cm,and the differences were statistically significant(t=8.347,3.416,2.901,P<0.05).The results of actual patients indicated the positioning error[(0.97±0.32)cm]of the"#-shaped"method was significantly lower than[(1.62±0.47)cm]of the"+-shaped"method for patients with breast tumor(Positioning the outer contour by exposing the chest),and the difference was significant(t=3.615,P<0.05).On the other hand,the positioning error[(0.69±0.24)cm]of the"#-shaped"method was significantly lower than[(0.97±0.39)cm]of the"+-shaped"method for patients with thoracic tumor(fixed position of using thermoplastic film),and the difference also was significant(t=1.934,P<0.05).Conclusion:Compared to the conventional"+-shaped"method,the"#-shaped"method appears higher accuracy and repeatability during the positioning process of radiotherapy,which especially is suitable to the treatment for breast tumor and thoracic tumor that need accurately control the influences of respiratory motion.

To analyze the distribution of serotypes and antimicrobial resistance of clinical Salmonella isolates from multiple centers across China.

Objective To evaluate the accuracy of multiparametric imaging on the dual-source CT through acceptance and commissioning testing, and to provide a reference for standardized clinical application. Methods Both the adult and pediatric dual-source CT scanning modes were used to scan the electron density phantom, and identical multiparametric image reconstruction tasks were performed, including the conventional CT images, the mixed CT images, the virtual monoenergetic images, the iodine images, the electron density images, and the effective atomic number images. Results In the adult scanning mode, the virtual monoenergetic CT numbers showed the greatest difference for the cortical bone (1722 HU at 40 keV vs. 30 HU at 80 keV), with smaller differences observed for other materials as their atomic numbers decreased. The pediatric scanning mode exhibited a similar trend, with the largest difference occurring at 40 keV (1393 HU). In the adult scanning mode, the deviations between the theoretical and measured iodine concentration values were all within 5%, whereas in the pediatric scanning mode, the largest deviation was 15% for an iodine concentration of 2.0 mg/mL. For the electron density, the largest deviation between the theoretical and measured values occurred in the LN450 lung (9.18% in the adult scanning mode and 8.96% in the pediatric scanning mode); the deviations for the LN300 lung were all below 7.2%, for aluminum below 6.3%, and for other tissues within 3%. For the effective atomic number, the deviations between the theoretical and measured values were all within 5% in both scanning modes. Conclusion To ensure the accuracy and reproducibility of the dual-source CT applications, a comprehensive acceptance testing protocol should be established to guarantee the safety and precision of the CT localization process.

BACKGROUND: Enzalutamide, a second-generation androgen receptor (AR) pathway inhibitor, is widely used in the treatment of castration-resistant prostate cancer. However, after a period of enzalutamide treatment, patients inevitably develop drug resistance. In this study, we characterized leucine-rich repeated G-protein-coupled receptor 5 (LGR5) and explored its potential therapeutic value in prostate cancer. METHODS: A total of 142 pairs of tumor and adjacent formalin-fixed paraf-fin-embedded tissue samples from patients with prostate cancer were collected from the Pathology Department at Sun Yat-sen Memorial Hos-pital. LGR5 was screened by sequencing data of enzalutamide-resistant cell lines combined with sequencing data of lesions with different Gleason scores from the same patients. The biological function of LGR5 and its effect on enzalutamide resistance were investigated in vitro and in vivo . Glutathione-S-transferase (GST) pull-down, coimmunoprecipitation, Western blotting, and immunofluorescence assays were used to explore the specific binding mechanism of LGR5 and related pathway changes. RESULTS: LGR5 was significantly upregulated in prostate cancer and negatively correlated with poor patient prognosis. Overexpression of LGR5 promoted the malignant progression of prostate cancer and reduced sensitivity to enzalutamide in vitro and in vivo . LGR5 promoted the phosphorylation of glycogen synthase kinase-3β (GSK-3β) by binding heat shock protein 90,000 alpha B1 (HSP90AB1) and mediated the activation of the Wingless/integrated (WNT)/β-catenin signaling pathway. The increased β-catenin in the cytoplasm entered the nucleus and bound to the nuclear AR, promoting the transcription level of AR, which led to the enhanced tolerance of prostate cancer to enzalutamide. Reducing HSP90AB1 binding to LGR5 significantly enhanced sensitivity to enzalutamide. CONCLUSIONS LGR5 directly binds to HSP90AB1 and mediates GSK-3β phosphorylation, promoting AR expression by regulating the WNT/β-catenin signaling pathway, thereby conferring resistance to enzalutamide treatment in prostate cancer.
Male ; Humans ; Phenylthiohydantoin/pharmacology* ; Benzamides ; Receptors, G-Protein-Coupled/genetics* ; Nitriles ; Cell Line, Tumor ; HSP90 Heat-Shock Proteins/metabolism* ; Drug Resistance, Neoplasm/genetics* ; Prostatic Neoplasms/drug therapy* ; beta Catenin/metabolism* ; Receptors, Androgen/genetics* ; Animals ; Mice ; Wnt Signaling Pathway/physiology*

As the need for antibody production rises, there is an urgent need to lower the costs and enhance the efficiency of the separation process. Currently, the chromatographic media used for antibody separation and purification often focus on individual properties of antibodies, such as affinity, hydrophobicity, and charge, leading to issues like low purification efficiency or inadequate adsorption capacity. To address this, an electrostatically coupled polypeptide affinity medium (FD7-3, 5-diaminobenzoic acid n-sepharose, FD7-DA-Sepharose) was developed for rapid purification of antibodies from cell culture supernatant. This medium utilized 3, 5-diaminobenzoic acid as a spacer to attach the heptapeptide-affinity ligand (FYEILHD, FD7) to agarose microspheres. Antibodies could be adsorbed through charge interactions with the carboxyl functional group of the FD7-DA-Sepharose spacer, while FD7 enhanced electrostatic coupling and affinity adsorption through synergistic effects, significantly increasing the adsorption capacity while maintaining the affinity and specificity. The influences of pH and ionic strength on adsorption capacity were investigated with human immunoglobulin as a model protein. The static adsorption capacity (Q_m) of FD7-DA-Sepharose in the solution of pH 6.0 reached 67.73 mg/mL, representing a 52.68% increase compared with that (44.36 mg/mL) of the commercial Protein A affinity medium. Furthermore, the elution conditions for FD7-DA- Sepharose were mild (20 mmol/L PB, 0.5 mol/L NaCl, pH 6.0), in contrast to the harsh acidic elution (pH 2.7-3.6) typically associated with Protein A, which can damage antibody integrity. The FD7-DA-Sepharose medium was then employed to purify antibodies from cell culture supernatant, achieving the yield of 94.8% and the purity of 98.4%. The secondary structure of the purified antibody was determined by circular dichroism spectroscopy. The results demonstrated that FD7-DA-Sepharose enabled efficient purification of antibodies from cell culture supernatant, which provided a cost-effective solution (approximately one-third the price of commercial Protein A affinity medium) with gentle elution conditions that preserve the natural conformation of antibodies. This approach paves a novel, economical, and efficient way for the separation and purification of antibodies from cell culture supernatant.
Chromatography, Affinity/methods* ; Static Electricity ; Humans ; Sepharose/analogs & derivatives* ; Peptides/chemistry* ; Adsorption ; Antibodies/isolation & purification*

Objective To investigate the predictive ability of cyst fluid characteristics for malignant intraductal papillary mucinous neoplasms (IPMNs). Methods We prospectively collected fresh cyst fluid from patients undergoing pancreatic resection at the Department of Hepatobiliary Pancreatic Spleen Surgery, Changhai Hospital, Shanghai, from September 2023 to December 2024, who were ultimately pathologically confirmed with IPMN. We assessed the characteristics of cyst fluid, including viscosity, clarity, and color, and explored its predictive performance for benign or malignant. Results A total of 40 patients with IPMN were included. The sensitivity of the string sign （+） for diagnosing high-grade dysplasia/ invasive carcinoma （HGD/IC） was 90.9%, specificity was 92.9%, and accuracy was 76.0%. The cyst fluid of intestinal-type IPMN often exhibited a gelatinous consistency, and there was no significant difference in the distribution of gelatinous consistency between the HGD/IC group and the low-grade dysplasia （LGD） group. There were no significant differences in CEA, glucose, and amylase levels in the cyst fluid between the HGD/IC group and the LGD group. Conclusions The characteristics of pancreatic cyst fluid, especially viscosity, can effectively predict the benign or malignant nature of IPMN.

Objective:To compare the accuracy of two-dimensional (2D) ultrasound with three-dimensional (3D) reconstruction and conventional 2D ultrasound in measuring bladder volume in pelvic tumor patients, using computed tomography (CT) as the reference.Methods:A set of bladder phantoms were constructed to compare CT and ultrasound measurements with actual injected volumes. Clinical data of 104 pelvic tumor patients who received radiotherapy at the Cancer Hospital, Chinese Academy of Medical Sciences between August and December 2023 were retrospectively analyzed. Portable transabdominal ultrasound was used to obtain the largest bladder cross-section, and the maximum diameters in the left-right (LR), anterior-posterior (AP), and superior-inferior (SI) directions (D LR, D AP, D SI) were measured. The 2D ultrasound volume was calculated as V=0.523 × D LR × D AP × D SI. Full-bladder transverse videos were recorded and processed in Matlab R2016a through frame extraction(60 images), followed by contrast enhancement, edge detection segmentation, cubic spline interpolation, and image smoothing to achieve 3D reconstruction. Paired t-tests, intraclass correlation coefficients (ICC), and Bland-Altman analyses were performed to assess systematic bias and consistency between ultrasound methods and CT. Multivariate linear regression was applied to evaluate the effects of slice thickness, posture, age, and other factors on CT measurements. Results:In the phantom study, deviations of 2D ultrasound and CT from actual injected volumes were (0.73±3.05) ml ( t=-0.48, P=0.667) and (1.52±11.27) ml ( t=0.17, P=0.875), with ICC values>0.999. In the clinical study, mean bladder volumes measured by 3D-reconstructed ultrasound, conventional 2D ultrasound, and CT were (373.5±153.31), (314.89±135.28), (382.82±157.57) ml, respectively. The 3D-reconstructed method showed excellent agreement with CT (ICC=0.98; Bland-Altman mean bias=-9.32 ml, P=0.096), while 2D ultrasound also showed good consistency (ICC=0.91), but significantly underestimated bladder volume (mean bias=-67.93 ml, P<0.001). Subgroup analysis revealed that 2D ultrasound had the best agreement with CT in the medium-volume group (200-500 ml, ICC=0.902), whereas agreement decreased in the small-volume (<200 ml, ICC=0.884) and large-volume (>500 ml, ICC=0.840) groups (all P<0.001). The 3D-reconstructed ultrasound maintained excellent consistency with CT across all subgroups (all ICC>0.95), and the measured bladder volume was not statistically significant. Multivariate regression showed that slice thickness, posture, age, sex, and surgical status had no significant effects on CT measurements. Conclusions:Ultrasound with 3D reconstruction enables accurate bladder volume monitoring through true 3D contour reconstruction, while conventional 2D ultrasound systematically underestimates bladder volume and requires correction.

Aortic dissection(AD)is a life-threatening acute vascular disease with a complex and not yet fully un-derstood pathogenesis.In recent years,metabolic reprogramming has gradually emerged as a significant factor in the oc-currence and development of AD.This review summarizes the abnormal alterations in major metabolic pathways,including amino acid metabolism,glucose metabolism,and lipid metabolism,and their impact on vascular cell functions in AD.Metabolic reprogramming contributes to the progression of AD by regulating the functions of endothelial cells(EC)and vascular smooth muscle cells(VSMC),thereby promoting the destruction of the vascular wall structure and exacerba-ting inflammatory responses.Additionally,this paper summarizes the potential applications of metabolism-related mole-cules in the early diagnosis and treatment of AD,emphasizing the importance of metabolic regulation as a novel strategy for AD prevention and management.Finally,future research directions in the study of metabolic reprogramming in AD are proposed,including in-depth mechanistic studies,the development of novel biomarkers,and the optimization of clinical in-tervention strategies,aiming to provide new insights and methods for the prevention and treatment of AD.

Objective:To construct a calcium alginate (ALG-Ca 2+) composite hydrogel loaded with chlorella protein (Cp) (ALG-Ca 2+@Cp) and investigate its combined effect with microwave hyperthermia on the proliferation, apoptosis, and immune activation of mouse pancreatic cancer cells. Methods:ALG-Ca 2+@Cp was prepared using a physical cross-linking method and its physiochemical properties was characterized via scanning electron microscopy, rheological analysis, Ca 2+ release experiments, and microwave thermal conversion tests. The BCA protein quantification assay was used to evaluate the adsorption capacity of ALG-Ca 2+@Cp for pancreatic cancer cell antigens. The effects of ALG-Ca 2+@Cp extract combined with microwave intervention on pancreatic cancer cell proliferation, apoptosis protein expression, and cell viability were assessed using CCK-8 assays, ELISA, and Calcein-AM/PI double fluorescence staining. Flow cytometry was performed to determine the maturation-promoting ability of ALG-Ca 2+@Cp on immature mouse bone marrow-derived dendritic cells (BMDCs). Results:ALG-Ca 2+@Cp exhibited a three-dimensional network structure with a storage modulus (G') greater than the loss modulus (G''), demonstrating typical hydrogel properties. The hydrogel loaded with 0.5 mol/ml Ca 2+ reached 48°C after 5 minutes of microwave irradiation at 5.0 W/cm 2, and Ca 2+ release plateaued within 5 minutes. ALG-Ca 2+@Cp effectively adsorbed pancreatic cancer cell antigens. Combined with microwave treatment, it significantly reduced pancreatic cancer cell proliferation ( A450 value 0.39±0.07 vs 2.78±0.15) and increased apoptosis markers calreticulin (CRT) and high mobility group box-1 protein (HMGB1) [(557.09±37.84) pg/ml vs (135.14±11.84) pg/ml, (4.77±0.18) ng/ml vs (1.6±0.16) ng/ml], leading to decreased cell viability; and all the differences were statistically significant (all P value <0.05). ALG-Ca 2+@Cp synergistically promoted the maturation of immature BMDCs in the presence of pancreatic cancer antigens, with a CD 80+ positivity rate of (75.67±6.53)%. Conclusions:ALG-Ca 2+@Cp is successfully constructed. Its combination with microwave hyperthermia can significantly enhance the cytotoxicity and immune activation against mouse pancreatic cancer cells by targeting intracellular antigens and inducing immunogenic cell death.

Aortic dissection(AD)is a life-threatening acute vascular disease with a complex and not yet fully un-derstood pathogenesis.In recent years,metabolic reprogramming has gradually emerged as a significant factor in the oc-currence and development of AD.This review summarizes the abnormal alterations in major metabolic pathways,including amino acid metabolism,glucose metabolism,and lipid metabolism,and their impact on vascular cell functions in AD.Metabolic reprogramming contributes to the progression of AD by regulating the functions of endothelial cells(EC)and vascular smooth muscle cells(VSMC),thereby promoting the destruction of the vascular wall structure and exacerba-ting inflammatory responses.Additionally,this paper summarizes the potential applications of metabolism-related mole-cules in the early diagnosis and treatment of AD,emphasizing the importance of metabolic regulation as a novel strategy for AD prevention and management.Finally,future research directions in the study of metabolic reprogramming in AD are proposed,including in-depth mechanistic studies,the development of novel biomarkers,and the optimization of clinical in-tervention strategies,aiming to provide new insights and methods for the prevention and treatment of AD.