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Self-organized blastoids from extended pluripotent stem (EPS) cells possess enormous potential for investigating postimplantation embryo development and related diseases. However, the limited ability of postimplantation development of EPS-blastoids hinders its further application. In this study, single-cell transcriptomic analysis indicated that the "trophectoderm (TE)-like structure" of EPS-blastoids was primarily composed of primitive endoderm (PrE)-related cells instead of TE-related cells. We further identified PrE-like cells in EPS cell culture that contribute to the blastoid formation with TE-like structure. Inhibition of PrE cell differentiation by inhibiting MEK signaling or knockout of Gata6 in EPS cells markedly suppressed EPS-blastoid formation. Furthermore, we demonstrated that blastocyst-like structures reconstituted by combining the EPS-derived bilineage embryo-like structure (BLES) with either tetraploid embryos or tetraploid TE cells could implant normally and develop into live fetuses. In summary, our study reveals that TE improvement is critical for constructing a functional embryo using stem cells in vitro.
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Embarazo , Femenino , Animales , Ratones , Tetraploidía , Blastocisto , Embrión de Mamíferos , Diferenciación Celular , Desarrollo EmbrionarioRESUMEN
Nerve regeneration in adult mammalian spinal cord is poor because of the lack of intrinsic regeneration of neurons and extrinsic factors - the glial scar is triggered by injury and inhibits or promotes regeneration. Recent technological advances in spatial transcriptomics (ST) provide a unique opportunity to decipher most genes systematically throughout scar formation, which remains poorly understood. Here, we first constructed the tissue-wide gene expression patterns of mouse spinal cords over the course of scar formation using ST after spinal cord injury from 32 samples. Locally, we profiled gene expression gradients from the leading edge to the core of the scar areas to further understand the scar microenvironment, such as neurotransmitter disorders, activation of the pro-inflammatory response, neurotoxic saturated lipids, angiogenesis, obstructed axon extension, and extracellular structure re-organization. In addition, we described 21 cell transcriptional states during scar formation and delineated the origins, functional diversity, and possible trajectories of subpopulations of fibroblasts, glia, and immune cells. Specifically, we found some regulators in special cell types, such as Thbs1 and Col1a2 in macrophages, CD36 and Postn in fibroblasts, Plxnb2 and Nxpe3 in microglia, Clu in astrocytes, and CD74 in oligodendrocytes. Furthermore, salvianolic acid B, a blood-brain barrier permeation and CD36 inhibitor, was administered after surgery and found to remedy fibrosis. Subsequently, we described the extent of the scar boundary and profiled the bidirectional ligand-receptor interactions at the neighboring cluster boundary, contributing to maintain scar architecture during gliosis and fibrosis, and found that GPR37L1_PSAP, and GPR37_PSAP were the most significant gene-pairs among microglia, fibroblasts, and astrocytes. Last, we quantified the fraction of scar-resident cells and proposed four possible phases of scar formation: macrophage infiltration, proliferation and differentiation of scar-resident cells, scar emergence, and scar stationary. Together, these profiles delineated the spatial heterogeneity of the scar, confirmed the previous concepts about scar architecture, provided some new clues for scar formation, and served as a valuable resource for the treatment of central nervous system injury.
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Ratones , Animales , Gliosis/patología , Cicatriz/patología , Traumatismos de la Médula Espinal , Astrocitos/metabolismo , Médula Espinal/patología , Fibrosis , Mamíferos , Receptores Acoplados a Proteínas GRESUMEN
Objective:To investigate the effect of a Passy-Muir speaking valve (PMV) on the biomechanics of swallowing and on aspiration among persons tracheotomized after brain damage.Methods:Twenty tracheotomized patients with aspiration after brain injury were selected and randomly divided into a non-PMV intervention group and a PMV intervention group, each of 10. Both groups were given routine swallowing training, while the PMV intervention group was additionally provided with a PMV and trained to use it. The treatment ended when the tracheal tube was removed or after 2 weeks. High-resolution manometry and videofluoroscopy were used to evaluate the maximum pressure in the velopharynx (VP-Max), the maximum post-deglutitive upper esophageal sphincter (UES) pressure (UES-Max) and Rosenbek penetration aspiration (PAS) scores for both groups before and after the treatment.Results:Before the treatment there was no significant difference between the two groups in terms of average VP-Max, UES-Max or PAS score. After the treatment, the average VP-Max and UES-Max had increased significantly in both groups, and the average PAS score of the PMV intervention group had decreased significantly. There was a significant positive correlation between the increases in VP-Max and the decrease in PAS scores.Conclusion:Inserting a PMV can improve velopharynx contraction and post-deglutitive UES among persons tracheotomized after a brain injury. The increase in maximum velopharynx pressure is positively correlated with decreases in aspiration.
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Objective@#To investigate the effect of a Passy-Muir speaking valve (PMV) on the biomechanics of swallowing and on aspiration among persons tracheotomized after brain damage.@*Methods@#Twenty tracheotomized patients with aspiration after brain injury were selected and randomly divided into a non-PMV intervention group and a PMV intervention group, each of 10. Both groups were given routine swallowing training, while the PMV intervention group was additionally provided with a PMV and trained to use it. The treatment ended when the tracheal tube was removed or after 2 weeks. High-resolution manometry and videofluoroscopy were used to evaluate the maximum pressure in the velopharynx (VP-Max), the maximum post-deglutitive upper esophageal sphincter (UES) pressure (UES-Max) and Rosenbek penetration aspiration (PAS) scores for both groups before and after the treatment.@*Results@#Before the treatment there was no significant difference between the two groups in terms of average VP-Max, UES-Max or PAS score. After the treatment, the average VP-Max and UES-Max had increased significantly in both groups, and the average PAS score of the PMV intervention group had decreased significantly. There was a significant positive correlation between the increases in VP-Max and the decrease in PAS scores.@*Conclusion@#Inserting a PMV can improve velopharynx contraction and post-deglutitive UES among persons tracheotomized after a brain injury. The increase in maximum velopharynx pressure is positively correlated with decreases in aspiration.
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Myeloid differentiation factor 88 (MYD88) is a key linker in the Toll-like receptor (TLR) signaling pathway, which plays an important role in the progression of the tumour. Recent studies have shown that the activating mutation of MYD88 L265P has been identified in about of 90% lymphoplasmacytic lymphoma/Waldenstrom's macroglobulinemia and about of 40% diffuse large B-cell lymphoma and other subtypes of B-cell proliferative neoplasms. Different types of B-cell proliferative neoplasms have their own histology, immunohistochemistry and clinical characteristics, thus, mutation rates of MYD88 L265P are different. This review discusses the latest progress of MYD88 L265P mutation in B-cell proliferative neoplasms.
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To solve the problem of precise positioning of carp brain tissue coordinates, it is proposed in this paper for a method for transforming the coordinates of magnetic resonance imaging of carp brain tissue into the coordinates of electrode implantation using a brain stereotaxic apparatus. In this study, the 3.0T magnetic resonance imaging instrument was used to scan the carp brain. We independently established the three-dimensional positioning coordinate system of the brain, the three-dimensional coordinate assistance system of skull surface and the three-dimensional coordinate assistance system in brain tissue. After two coordinate transformations, the magnetic resonance image coordinates of the brain electrodes implantation sites were converted into the three-dimensional stereotactic coordinate system to guide the electrodes implantation. The experimental groups were divided into two groups, A and B. Group A was the group of magnetic resonance imaging apparatus combining with the brain stereotaxic apparatus, and group B was the group of brain atlas combining with the brain stereotaxic apparatus. Each group had 20 tails of carps ( = 20). This two methods were used to implant the electrodes into the cerebellar motor area. The underwater experiments of the carp robots were carried out to test the two methods. The results showed that the accuracy of the implanted electrodes were 90% in group A and 60% in group B. The success rate of group A was significantly higher than that of group B ( < 0.05). Therefore, the new method in this paper can accurately determine the coordinates of carp brain tissue.
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The existing mazes are mainly used to study the learning and memory of animals. However, there is still a lack of corresponding maze and method in the aspect of the observation and test of aquatic animal robots. For this purpose, the authors have developed a three-dimensional water maze combined with bilayer multi-channel which equips with stratified lines and tick marks. This device is a rectangular structure composed of one square bottom and four rectangular side walls, and the channels of every side wall are composed of one upper channel and two lower channels. The center of the upper channels is in the vertical center line of every side wall, and the two uper channels of adjacent side walls are at 90° degrees with each other, and the two lower channels of adjacent side walls are at 45° degrees with each other. There are stratified lines and tick marks on the side wall to test the spatial location and movement trajectories of aquatic animals. The carp robot was put into the water maze for the underwater experimental detection. The success rates of left and right steering at 135, 90 and 45 degrees as well as forward motion of the carp robots ( = 10) were over 60%. This study showed that the device could be used to observe and test the motion of the carp robot.
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In order to solve the problems that the injury, hemorrhage, infection and edema of the brain tissue caused by brain electrodes implantation for aquatic animal robots, a light stimulation device and an optical control experiment method for carp robots are proposed in this paper. According to the shape of the carp skull, the device is a structure of Chinese character " cut by a printed circuit board which can provide three groups of A, B and C bridge platforms for the light stimulation source. The two ends of a bridge in every group are welded with a jumper board, and the light emitting diodes (LED) are inserted into the jumper boards as the light stimulation source, and all negative poles of the jumper boards are connected to the console by the wire. A LED light can be replaced by another LED light according to the need of the wavelength of the LED light, and various combinations of the light stimulation modes can be also selected. This device was mounted on the carp robot's head, the carp robot was placed in a water maze, and the optical control experiment method was observed to control the forward movement and steering movement of the carp robots ( = 10) under the dark light condition. The results showed that the success rates of the three groups of red light control experiments were 53%-87%, and the success rates of the three groups of blue light control experiments were 50%-80%. This study shows that the apparatus and the method are feasible.
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Objective To investigate the effects of playing virtual reality games on the recovery of hemiplegic upper extremities after stroke.Methods Thirty stroke patients with hemiplegic upper extremities were randomly assigned to a treatment group (n=15) or a control group (n=15).Both groups received routine medication and conventional physical therapy,while the treatment group was additionally given (Nintendo) gaming-based virtual reality therapy.Before and after 2 weeks of treatment,the patients in both groups were evaluated using the Fugl-Meyer Assessment for the Upper Extremities (FMA-UE),Brunnstrom staging and co-contraction ratios (CRs).Surface electromyogram signals from the biceps brachii and triceps brachii were also recorded during maximum isometric voluntary flexion and extension of the affected elbow.Results No significant differences in any of the measurements were observed between the 2 groups before or after the intervention.Both groups demonstrated significant increases in their average FMA-UE score,Brunnstrom staging and CRs.Conclusions Virtual reality gaming using a Wii controller is as effective as conventional therapy in enhancing upper extremity motor function and elbow flexion and extension after stroke.