Optimization of heavy haul railway tunnel lining based on ultimate bearing capacity

The optimization process of design parameters for composite lining of heavy haul railway tunnel is a key problem to be solved in tunnel engineering design. In order to put forward a better design scheme of composite lining for heavy haul railway tunnel, combined with field measurement and numerical simulation, the optimal working condition design is carried out by changing the thickness of shotcrete layer, the type of grid steel frame and the thickness of secondary lining. The influence of the above design parameters on the stress state of the composite lining is analyzed to obtain the optimal design parameters. Finally, the safety performance of the optimized lining is evaluated by the ultimate bearing capacity curve of the secondary lining section. The research shows that: 1) The optimal design parameters of the composite lining of the tunnel are the thickness of the shotcrete layer of 25 cm, the type of the grid steel frame of H180, the thickness of the secondary lining arch waist and the side wall of 40 cm and 35 cm respectively; 2) Different from the single-track heavy haul railway tunnel, the displacement value of the vault settlement of the double-track heavy haul railway tunnel is significantly greater than that of the inner convergence. Increasing the thickness of the shotcrete layer and changing the type of the grid steel frame have better effects on reducing the vault settlement, and have little effect on the inner convergence

Efficacy of robot‐assisted minimally invasive stereotactic puncture therapy for supratentorial hypertensive intracerebral hemorrhage

Abstract Objective To evaluate the efficacy of robot‐assisted minimally invasive stereotactic puncture therapy (MISPT) for supratentorial hypertensive intracerebral hemorrhage (HICH). Methods We retrospectively analyzed 133 patients with supratentorial HICH treated using robot‐assisted MISPT (RM group; n = 77) or conventional craniotomy (CC group; n = 56). In our primary analysis, we evaluated the hematoma volume at discharge. In our secondary analyses, we evaluated the Glasgow Coma Scale (GCS) score at discharge; the operation time, intraparenchymal drainage catheter removal time, the length of hospital stay, and complications during hospitalization; the early and 6‐month postoperative mortality; and functional scores 6‐month postoperatively. Results There were no statistical differences in the preoperative characteristics between the groups, such as age distribution (52.8 ± 9.6 vs. 55.3 ± 7.8 years), hematoma volume (38.4 ± 10.4 vs. 41.1 ± 11.0 mL), and GCS score (10.7 ± 2.2 vs. 9.8 ± 2.8). Hematoma volume at discharge did not significantly differ between the groups (2.6 ± 2.1 mL vs. 2.4 ± 2.1 mL). The GCS score at discharge was significantly higher in the RM group (13.5 ± 2.1 vs. 11.6 ± 3.1; p < .001). Operation time (40.3 ± 7.0 min vs. 143.1 ± 61.3 min;p < .001), intraparenchymal drainage catheter removal time (1.2 ± 0.4 vs. 2.1 ± 0.7 days; p < .001), and length of hospital stay (9.3 ± 2.7 vs. 11.1 ± 4.8 days; p = .013) were significantly shorter in the RM group. The incidence rates of pneumonia, gastrointestinal bleeding, and intracranial infection were significantly lower in the RM group. Although the incidence of rebleeding was lower in the RM group (1.3% vs. 5.4%), the difference was not significant. Six months after surgery, the Barthel Index, Glasgow Outcome Scale, and Karnofsky performance status scores were significantly higher, whereas the modified Rankin scale score was significantly lower in the RM group (p = .002, p = .007, p = .001, and p = .018, respectively). Two RM group patients (3.1%) and six CC group patients (12.2%) died between hospital discharge and 6 months after surgery (p = .127). Conclusion The main advantages of robot‐assisted MISPT for supratentorial HICH were shown in minimally invasive, precision, and low incidences of complications. In addition, it may improve the prognosis significantly. Thus, it has great potential to be popularized and clinically applied in the future

<b>Quantitative effects of co-culture on the spatiotemporal dynamics of T cell motility and cancer-T cell interactions</b>

We co-cultured cytotoxic T cells and mouse cancer cells in-vitro and focused on the influence of differences in cancer-T cell interactions on T cell motility patterns. The details of the paper can be acquired on biorxiv (https://www.biorxiv.org/content/10.1101/2024.03.15.585166v1)</p

Human rotavirus strains circulating among children in the capital of China (2018–2022)_ predominance of G9P[8] and emergence ofG8P[8]

Objective: This study aimed to update the genetic diversity of Rotavirus (RV) infections in children under five years old in Beijing, China. Methods: A 5-year active hospital-based surveillance for sporadic acute gastroenteritis (AGE) from January 2018 to December 2022 in the capital of China was performed. A total of 748 fecal samples from AGE patients were collected for followed by RV antigen detection by ELSIA, RNA detection by reverse transcription PCR, G/P genotyping and phylogenetic analyzing. Results: RV antigen was detected in 11.0% of the collected samples, with 54 samples confirmed to be RV RNA positive. G9 and G8 genotypes were identified in 43 (79.6%) and 7 (13.0%) samples, respectively, all of which were allocated to P[8]. The predominant G/P combination was G9P[8] (79.6%), following by G8P[8] (13.0%), G4P[8] (5.6%) and G3P[8] (1.9%). A significant change in G/P-type distribution was observed, with the G9P[8] being predominant from 2018 to 2021, followed by the emergence of an uncommon G8P[8] genotype, which was first reported in 2021 and became predominant in 2022. Blast analysis showed that one G1 isolate had a high similarity of 99.66% on nucleotide acid with RotaTeq vaccine strain with only one amino acid difference L150V. Additionally, one P[8] isolate was clustered into a branch together with RotaTeq vaccine strain G6P[8]. Conclusions: The study reveals that G8P[8] has become the predominant genotype in pediatric outpatients in China for the first time, indicating a significant change in the composition of RV genetic diversity. The importance of RVA genotyping in surveillance is emphasized, as it provides the basis for new vaccine application and future vaccine efficacy evaluation

A long-read sequencing and SNP haplotype-based novel preimplantation genetic testing method for female ADPKD patient with de novo PKD1 mutation

Abstract The autosomal dominant form of polycystic kidney disease (ADPKD) is the most common hereditary disease that causes late-onset renal cyst development and end-stage renal disease. Preimplantation genetic testing for monogenic disease (PGT-M) has emerged as an effective strategy to prevent pathogenic mutation transmission rely on SNP linkage analysis between pedigree members. Yet, it remains challenging to establish reliable PGT-M methods for ADPKD cases or other monogenic diseases with de novo mutations or without a family history. Here we reported the application of long-read sequencing for direct haplotyping in a female patient with de novo PKD1 c.11,526 G > C mutation and successfully established the high-risk haplotype. Together with targeted short-read sequencing of SNPs for the couple and embryos, the carrier status for embryos was identified. A healthy baby was born without the PKD1 pathogenic mutation. Our PGT-M strategy based on long-read sequencing for direct haplotyping combined with targeted SNP haplotype can be widely applied to other monogenic disease carriers with de novo mutation

Single-molecule reconstruction of eukaryotic factor-dependent transcription termination

Abstract Factor-dependent termination uses molecular motors to remodel transcription machineries, but the associated mechanisms, especially in eukaryotes, are poorly understood. Here we use single-molecule fluorescence assays to characterize in real time the composition and the catalytic states of Saccharomyces cerevisiae transcription termination complexes remodeled by Sen1 helicase. We confirm that Sen1 takes the RNA transcript as its substrate and translocates along it by hydrolyzing multiple ATPs to form an intermediate with a stalled RNA polymerase II (Pol II) transcription elongation complex (TEC). We show that this intermediate dissociates upon hydrolysis of a single ATP leading to dissociation of Sen1 and RNA, after which Sen1 remains bound to the RNA. We find that Pol II ends up in a variety of states: dissociating from the DNA substrate, which is facilitated by transcription bubble rewinding, being retained to the DNA substrate, or diffusing along the DNA substrate. Our results provide a complete quantitative framework for understanding the mechanism of Sen1-dependent transcription termination in eukaryotes