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"Zeng, Jia"
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Long-term outcomes of additional surgery versus surveillance-only clinical decision for early colorectal cancer patients after non-curative endoscopic resection: a meta-analysis
Objectives
The clinical decision-making regarding post hoc management of early colorectal cancer (CRC) patients who have undergone non-curative endoscopic resection (ER) remains a subject of debate. This systematic review and meta-analysis aims to compare the clinical outcomes between patients undergoing additional surgery and those receiving surveillance only.
Methods
A comprehensive literature search was conducted across three major medical databases: PubMed, Embase, and the Cochrane Library. STATA software was utilized for pooling analysis. The methodological quality of the included studies was assessed using the Newcastle–Ottawa Quality Scale.
Results
A total of 15 eligible studies encompassing 3,508 early CRC patients were included in this meta-analysis (additional surgery group: 1,974 cases; surveillance-only group: 1,533 cases). All included studies demonstrated good methodological quality, with Newcastle–Ottawa scores no less than 6. The results of the meta-analysis indicated that compared to the surveillance-only group, patients in the additional surgery group exhibited significantly improved overall survival (OR = 2.95, 95% CI: 2.05–4.24,
P
< 0.05), enhanced recurrence-free survival (OR = 2.53, 95% CI = 1.38–4.62,
P
< 0.05), a reduced recurrence rate (OR = 1.96, 95% CI = 1.22–3.13,
P
< 0.05), and a lower local recurrence rate (OR = 2.35, 95% CI = 1.12–4.95,
P
< 0.05). No significant sources of heterogeneity were identified among the studies analyzed; publication bias was also deemed acceptable across these investigations. Furthermore, we performed subgroup analyses based on inclusion criteria and age stratification which revealed notable differences in effect sizes between groups (JSCCR subgroup: OR = 2.09; 95% CI = 1.32–3.30 versus Non-JSCCR subgroup: OR = 1 .54; 95% CI = 0.89 -2.65, indicating negative results). Pooling analysis showed no significant difference between subgroups when stratified by age using a cutoff value of 65 years old.
Conclusions
Compared to patients who underwent surveillance only, those receiving additional surgical treatment demonstrated superior outcomes in terms of overall survival, recurrence-free survival, recurrence rates, and control of local recurrences. This suggests that such an approach may represent a more optimal clinical decision for early-stage colorectal cancer (CRC) patients who have received non-curative endoscopic resection (ER). Furthermore, this study indicates that the inclusion criteria significantly influence the reported outcomes. Notably, age did not affect the recurrence rate. Overall, this is the first meta-analysis aimed at exploring and clarifying this ongoing controversy.
Journal Article
ALKBH5-mediated m6A modification of circCCDC134 facilitates cervical cancer metastasis by enhancing HIF1A transcription
Background
Metastasis is the main cause of mortality in cervical cancer (CC). Circular RNAs (circRNAs) have been demonstrated to play a crucial role in carcinoma biology. However, the expression and function of circRNAs in cervical cancer metastasis are still unclear.
Methods
In the present study, we identified a circRNA with an N6-methyladenosine (m6A) modification, circCCDC134, whose expression was increased in CC tissues by circRNA-Seq and qPCR. CircCCDC134 upregulation in CC was fine-tuned by ALKBH5-mediated m6A modification, which enhanced its stability in a YTHDF2-dependent manner. The functional experiments illustrated that circCCDC134 enhanced tumour proliferation and metastasis in vitro and in vivo. For the comprehensive identification of RNA-binding proteins, circRNA pull-down and mass spectrometry (ChIRP-MS), chromatin immunoprecipitation-seq (Chip-seq), RNA binding protein immunoprecipitation (RIP) and luciferase reporter assays were used to perform mechanistic investigations.
Results
The results revealed that circCCDC134 recruited p65 in the nucleus and acted as a miR-503-5p sponge to regulate the expression of MYB in the cytoplasm, ultimately stimulating HIF1A transcription and facilitating CC growth and metastasis. Conclusion: These findings indicate that circCCDC134 is an important therapeutic target and provide new regulatory model insights for exploring the carcinogenic mechanism of circCCDC134 in CC.
Journal Article
Spin‐Orbit Torque in Van der Waals‐Layered Materials and Heterostructures
Spin‐orbit torque (SOT) opens an efficient and versatile avenue for the electrical manipulation of magnetization in spintronic devices. The enhancement of SOT efficiency and reduction of power consumption are key points for the implementation of high‐performance SOT devices, which strongly rely on the spin‐orbit coupling (SOC) strength and magnetic properties of ferromagnetic/non‐magnetic heterostructures. Recently, van der Waals‐layered materials have shown appealing properties for use in efficient SOT applications. On the one hand, transition‐metal dichalcogenides, topological insulators, and graphene‐based heterostructures possess appreciable SOC strength. This feature can efficiently converse the charge current into spin current and result in large SOT. On the other hand, the newly discovered layered magnetic materials provide ultra‐thin and gate‐tunable ferromagnetic candidates for high‐performance SOT devices. In this review, the latest advancements of SOT research in various layered materials are summarized. First, a brief introduction of SOT is given. Second, SOT studies of various layered materials and heterostructures are summarized. Subsequently, progresses on SOT‐induced magnetization switching are presented. Finally, current challenges and prospects for future development are suggested. Van der Waals‐layered materials and heterostructures show appealing advantages in improving spin‐orbit torque (SOT) efficiency. The recent SOT researches in various 2D materials are outlined. The current challenges and the future directions are also discussed. Van der Waals‐layered materials and heterostructures are expected to provide unprecedented opportunities in the fields of spintronics.
Journal Article
Dynamical Behavior of Pure Spin Current in Organic Materials
Growing concentration on the novel information processing technology and low‐cost, flexible materials make the spintronics and organic materials appealing for the future interdisciplinary investigations. Organic spintronics, in this context, has arisen and witnessed great advances during the past two decades owing to the continuous innovative exploitation of the charge‐contained spin polarized current. Albeit with such inspiring facts, charge‐absent spin angular momentum flow, namely pure spin currents (PSCs) are less probed in organic functional solids. In this review, the past exploring journey of PSC phenomenon in organic materials are retrospected, including non‐magnetic semiconductors and molecular magnets. Starting with the basic concepts and the generation mechanism for PSC, the representative experimental observations of PSC in the organic‐based networks are subsequently demonstrated and summarized, by accompanying explicit discussion over the propagating mechanism of net spin itself in the organic media. Finally, future perspectives on PSC in organic materials are illustrated mainly from the material point of view, including single molecule magnets, complexes for the organic ligands framework as well as the lanthanide metal complexes, organic radicals, and the emerging 2D organic magnets. In this paper, recent experimental progress of the generation, the propagation and the detection of the pure spin currents in organic materials including the organic semiconductors and the organic magnets are explicitly reviewed and discussed revolving around the spin pumping and spin Seebeck techniques, which provides further perspectives to organic spintronics from molecular magnetization dynamics point of view.
Journal Article
Interaction between Nitrogen and Sulfur in Co-Doped Graphene and Synergetic Effect in Supercapacitor
The co-doping of graphene with nitrogen and sulfur was investigated aiming at understanding their interactions with the presence of oxygen in graphene. The co-doped graphene (NS-G) was synthesized via a one-pot hydrothermal route using graphene oxide as starting material and L-cysteine, an amino acid containing both N and S, as the doping agent. The obtained NS-G with a three-dimensional hierarchical structure containing both macropores and mesopores exhibited excellent mechanical stabilities under both wet and dry conditions. As compared to N or S singly doped graphene, the co-doped sample contains significantly higher concentrations of N and S species especially pyrollic N groups. The co-doped sample considerably outperformed the singly doped samples when used as free-standing electrode in supercapacitors due to enhanced pseudocapacitance. The simultaneous incorporation of S and N species with the presence of oxygen significantly modified the surface chemistry of carbon leading to considerably higher doping levels, although directly bonding between N and S is neither likely nor detected. Hence, the synergetic effect between N and S occurred through carbon atoms in neighboring hexagonal rings in a graphene sheet.
Journal Article
TaCKX6-D1, the ortholog of rice OsCKX2, is associated with grain weight in hexaploid wheat
The cytokinin oxidase / dehydrogenase (CKX) gene plays a principal role in controlling cyto-kinin levels and has been shown to be a major quantitative trait locus (QTL) affecting grain number in rice. However, the function and evaluation of the haplotypes of the wheat CKX gene have yet to be illustrated.
In this study, TaCKX6-D1, a wheat ortholog of rice OsCKX2, was cloned and its haplotype variants were determined to be significantly associated with the 1000-grain weight on the basis of linkage mapping, association analysis and gene expression analysis.
Five TaCKX6-D1 haplotypes, designated a–e, were identified. An indel marker was developed to identify haplotype a, which was associated with higher grain weight. Haplotype a showed decreased expression relative to haplotype b in seeds at 8 d after pollination. Sequence variations among modern cultivars, landraces and wild species suggest a significant domestication signature at the TaCKX6-D1 locus in Chinese wheat germplasm.
TaCKX6-D1 may serve as a useful gene for the breeding of high-yielding wheat. A strategy for allele mining and utilization of TaCKX6-D1 was proposed. Our study also sheds light on the mechanisms of grain development and domestication of wheat, as well as the functional divergence of orthologs in comparative genomics.
Journal Article
Electrical and magnetic anisotropies in van der Waals multiferroic CuCrP2S6
Multiferroic materials have great potential in non-volatile devices for low-power and ultra-high density information storage, owing to their unique characteristic of coexisting ferroelectric and ferromagnetic orders. The effective manipulation of their intrinsic anisotropy makes it promising to control multiple degrees of the storage “medium”. Here, we have discovered intriguing in-plane electrical and magnetic anisotropies in van der Waals (vdW) multiferroic CuCrP
2
S
6
. The uniaxial anisotropies of current rectifications, magnetic properties and magnon modes are demonstrated and manipulated by electric direction/polarity, temperature variation and magnetic field. More important, we have discovered the spin-flop transition corresponding to specific resonance modes, and determined the anisotropy parameters by consistent model fittings and theoretical calculations. Our work provides in-depth investigation and quantitative analysis of electrical and magnetic anisotropies with the same easy axis in vdW multiferroics, which will stimulate potential device applications of artificial bionic synapses, multi-terminal spintronic chips and magnetoelectric devices.
Manipulating electrical and magnetic anisotropies will stimulate multi-terminal device applications. Here, the authors discover axis dependence of current rectifications, magnetic properties and magnon modes in van der Waals multiferroic CuCrP
2
S
6
.
Journal Article
Integrated System of Solar Cells with Hierarchical NiCo2O4 Battery-Supercapacitor Hybrid Devices for Self-Driving Light-Emitting Diodes
Highlights
Integration of solar cells, BSHs, and LEDs was developed for energy conversion, storage, and utilization in one system.
NiCo
2
O
4
//AC BSHs were charged by a-Si/H solar cells for stably driving LEDs showing high performances.
An integrated system has been provided with a-Si/H solar cells as energy conversion device, NiCo
2
O
4
battery-supercapacitor hybrid (BSH) as energy storage device, and light emitting diodes (LEDs) as energy utilization device. By designing three-dimensional hierarchical NiCo
2
O
4
arrays as faradic electrode, with capacitive electrode of active carbon (AC), BSHs were assembled with energy density of 16.6 Wh kg
–1
, power density of 7285 W kg
–1
, long-term stability with 100% retention after 15,000 cycles, and rather low self-discharge. The NiCo
2
O
4
//AC BSH was charged to 1.6 V in 1 s by solar cells and acted as reliable sources for powering LEDs. The integrated system is rational for operation, having an overall efficiency of 8.1% with storage efficiency of 74.24%. The integrated system demonstrates a stable solar power conversion, outstanding energy storage behavior, and reliable light emitting. Our study offers a precious strategy to design a self-driven integrated system for highly efficient energy utilization.
Journal Article