Novel Focal(新焦点)研究综述
Novel Focal 新焦点 - In addition, we propose a novel Focal-Hinge loss to alleviate the class imbalance of semantics in the training stage. [1]此外,我们提出了一种新的 Focal-Hinge 损失来缓解训练阶段语义的类不平衡。 [1]
novel focal adhesion 新型粘着力
Author summary Our novel Focal Adhesion Filament Cross-correlation Kit (FAFCK) allows for fast, reliable, unbiased, and systematic detection of focal adhesions and actin stress fibers in cells and their mutual correlation. [1] Taken together, a novel focal adhesion related gene signature can be used for prognostic prediction in HCC, which may be a therapeutic alternative. [2] The inhibitory effects of NCTD on invasiveness were compared with those of a novel focal adhesion kinase (FAK) kinase inhibitor, PF-562271. [3] A series of 7H-pyrrolo[2,3-d]pyrimidine derivatives possessing a dimethylphosphine oxide moiety were designed, synthesized and evaluated as novel Focal adhesion kinase (FAK) inhibitors. [4] Here, we identified β8 integrin in a high-throughput knockdown screen in three-dimensional (3D), ECM-based cell cultures for novel focal adhesion protein targets as a critical determinant of PDAC cell radiochemoresistance. [5] A series of 2,7-disubstituted-thieno[3,2-d]pyrimidine derivatives were designed, synthesized and evaluated as novel focal adhesion kinase (FAK) inhibitors. [6]作者总结 我们的新型粘着斑丝交叉相关试剂盒 (FAFCK) 可以快速、可靠、公正和系统地检测细胞中的粘着斑和肌动蛋白应力纤维及其相互关联。 [1] 总之,一种新的粘着斑相关基因特征可用于 HCC 的预后预测,这可能是一种治疗选择。 [2] 将 NCTD 对侵袭性的抑制作用与新型粘着斑激酶 (FAK) 激酶抑制剂 PF-562271 的抑制作用进行了比较。 [3] 一系列具有二甲基氧化膦部分的 7H-吡咯并[2,3-d]嘧啶衍生物被设计、合成和评估为新型粘着斑激酶 (FAK) 抑制剂。 [4] 在这里,我们在三维 (3D)、基于 ECM 的细胞培养物中的高通量敲低筛选中鉴定了 β8 整合素,用于新的粘着蛋白靶标,作为 PDAC 细胞放化疗的关键决定因素。 [5] 一系列 2,7-二取代-噻吩并[3,2-d]嘧啶衍生物被设计、合成和评估为新型粘着斑激酶 (FAK) 抑制剂。 [6]
novel focal plane
A novel focal plane is employed that is optimized to observe both the UV fluorescence signal from extensive air showers (EASs) and the optical Cherenkov signals from EASs. [1] present the development of a novel focal plane array for laser gated viewing at SWIR wavelengths. [2] A novel focal plane design is optimized to observe the UV air fluorescence signal from extensive air showers (EASs) in a stereoscopic UHECR observation mode and the Cherenkov signals from EASs from UHECRs and neutrino-induced τ-leptons in an Earth-limb viewing mode. [3]采用了一种新的焦平面,该焦平面经过优化,可以观察来自广泛空气簇射 (EAS) 的紫外荧光信号和来自 EAS 的光学切伦科夫信号。 [1] 介绍了一种用于在 SWIR 波长下进行激光门控观察的新型焦平面阵列的开发。 [2] 优化了一种新颖的焦平面设计,以在立体 UHECR 观察模式下观察来自广泛空气簇射 (EAS) 的紫外空气荧光信号,以及在地球肢体观察模式下观察来自 UHECR 和中微子诱导的 τ 轻子的 EAS 的切伦科夫信号。 [3]
novel focal stroke 新型焦中风
We aimed to develop a novel focal stroke model using a microcatheter and zirconium dioxide that is non-magnetic under fluoroscopic guidance, which can monitor MCA occlusion and can improve hemorrhagic complications. [1] We aimed to develop a novel focal stroke model using a cell-im. [2] We aimed to develop a novel focal stroke model using a microcatheter and zirconium dioxide that is non-magnetic under fluoroscopic guidance, which can monitor MCA occlusion and can improve hemorrhagic complications. [3]我们的目标是使用微导管和在透视引导下无磁性的二氧化锆开发一种新型局灶性卒中模型,该模型可以监测 MCA 闭塞并改善出血并发症。 [1] 我们的目标是使用 cell-im 开发一种新的局灶性中风模型。 [2] 我们的目标是使用微导管和在透视引导下无磁性的二氧化锆开发一种新型局灶性卒中模型,该模型可以监测 MCA 闭塞并改善出血并发症。 [3]
novel focal pattern
In addition, many novel focal patterns occurred with tunable intensity distribution. [1] Many novel focal patterns including flattop profile, focal hole axially separated focal spots and focal spot with long focal depth are evolved considerably for the suitable beam parameters. [2]此外,许多新颖的焦点图案发生在可调强度分布的情况下。 [1] 许多新颖的焦点图案,包括平顶轮廓、焦孔轴向分离的焦点和长焦深的焦点,都针对合适的光束参数进行了相当大的演变。 [2]