6,056 research outputs found
Surface fitting for quasi scattered data from coordinate measuring systems
Non-uniform rational B-spline (NURBS) surface fitting from data points is wildly used in the fields of computer aided design (CAD), medical imaging, cultural relic representation and object-shape detection. Usually, the measured data acquired from coordinate measuring systems is neither gridded nor completely scattered. The distribution of this kind of data is scattered in physical space, but the data points are stored in a way consistent with the order of measurement, so it is named quasi scattered data in this paper. Therefore they can be organized into rows easily but the number of points in each row is random. In order to overcome the difficulty of surface fitting from this kind of data, a new method based on resampling is proposed. It consists of three major steps: (1) NURBS curve fitting for each row, (2) resampling on the fitted curve and (3) surface fitting from the resampled data. Iterative projection optimization scheme is applied in the first and third step to yield advisable parameterization and reduce the time cost of projection. A resampling approach based on parameters, local peaks and contour curvature is proposed to overcome the problems of nodes redundancy and high time consumption in the fitting of this kind of scattered data. Numerical experiments are conducted with both simulation and practical data, and the results show that the proposed method is fast, effective and robust. What’s more, by analyzing the fitting results acquired form data with different degrees of scatterness it can be demonstrated that the error introduced by resampling is negligible and therefore it is feasible
(E)-3-(1-Phenylethylidene)indolin-2-one
In the title molecule, C16H13NO, the indoline-2-one ring system is nearly planar [maximum atomic deviation = 0.082 (2) Å] and is oriented at a dihedral angle of 66.60 (12)° with respect to the phenyl ring. In the crystal, intermolecular N—H⋯O hydrogen bonds link the molecules into supramolecular dimers
2-Chloro-N-isopropyl-N-phenylacetamide
In the title compound, C11H14ClNO, the herbicide propachlor, there are significant differences between the three N—C bond lengths [N—Ccarbonyl = 1.354 (3) Å, N—Cphenyl = 1.444 (2) Å and N—Cisopropyl = 1.496 (3) Å], indicating the presence of π delocalization involving the carbonyl group. The N atom lies 0.074 (2) Å from the plane defined by the the three bonded C atoms
5-Bromo-1-methylindolin-2-one
The title molecule, C9H8BrNO, approximates a full planar conformation. The interplanar angle between the benzene and five-membered rings of the indoline system is 1.38 (1)°. There is an obvious π-delocalization involving the N—C=O group in the five-membered ring, which is greater than that involving the N—C C(benzene) group
Biomimetic three-dimensional glioma model printed in vitro for the studies of glioma cells and neurons interactions
The interactions between glioma cells and neurons are important for glioma
progression but are rarely mimicked and recapitulated in in vitro three-dimensional
(3D) models, which may affect the success rate of relevant drug research and
development. In this study, an in vitro bioprinted 3D glioma model consisting of
an outer hemispherical shell with neurons and an inner hemisphere with glioma
cells is proposed to simulate the natural glioma. This model was produced by
extrusion-based 3D bioprinting technology. The cells survival rate, morphology, and
intercellular Ca2+ concentration studies were carried out up to 5 days of culturing.
It was found that neurons could promote the proliferation of glioma cells around
them, associate the morphological changes of glioma cells to be neuron-like, and
increase the expression of intracellular Ca2+ of glioma cells. Conversely, the presence
of glioma cells could maintain the neuronal survival rate and promote the neurite
outgrowth. The results indicated that glioma cells and neurons facilitated each other
implying a symbiotic pattern established between two types of cells during the early
stage of glioma development, which were seldom found in the present artificial
glioma models. The proposed bioprinted glioma model can mimic the natural
microenvironment of glioma tissue, provide an in-depth understanding of cellâ cell
interactions, and enable pathological and pharmacological studies of glioma.The work was supported by the Program of the National Natural Science Foundation of China [52275291],
[51675411], [81972359], the Fundamental Research Funds for the Central Universities, and the Youth Innovation
Team of Shaanxi Universities
Mechanisms and regulations of ferroptosis
Regulation of cell mortality for disease treatment has been the focus of research. Ferroptosis is an iron-dependent regulated cell death whose mechanism has been extensively studied since its discovery. A large number of studies have shown that regulation of ferroptosis brings new strategies for the treatment of various benign and malignant diseases. Iron excess and lipid peroxidation are its primary metabolic features. Therefore, genes involved in iron metabolism and lipid metabolism can regulate iron overload and lipid peroxidation through direct or indirect pathways, thereby regulating ferroptosis. In addition, glutathione (GSH) is the body’s primary non-enzymatic antioxidants and plays a pivotal role in the struggle against lipid peroxidation. GSH functions as an auxiliary substance for glutathione peroxidase 4 (GPX4) to convert toxic lipid peroxides to their corresponding alcohols. Here, we reviewed the researches on the mechanism of ferroptosis in recent years, and comprehensively analyzed the mechanism and regulatory process of ferroptosis from iron metabolism and lipid metabolism, and then described in detail the metabolism of GPX4 and the main non-enzymatic antioxidant GSH in vivo
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