These networks had limited predictive validity of generalized cognitive ability. Overall, when multimodal imaging is not available or appropriate, T1w-restricted MSN construction is feasible, provides an appropriate estimate of the MSN, and could be a useful approach to examine outcomes in future studies. © 2019 Massachusetts Institute of Technology.A central goal in neuroscience is to understand how dynamic networks of neural activity produce effective representations of the world. Advances in the theory of graph measures raise the possibility of elucidating network topologies central to the construction of these representations. We leverage a result from the description of lollipop graphs to identify an iconic network topology in functional magnetic resonance imaging data and characterize changes to those networks during task performance and in populations diagnosed with psychiatric disorders. During task performance, we find that task-relevant subnetworks change topology, becoming more integrated by increasing connectivity throughout cortex. Analysis of resting state connectivity in clinical populations shows a similar pattern of subnetwork topology changes; resting scans becoming less default-like with more integrated sensory paths. The study of brain network topologies and their relationship to cognitive models of information processing raises new opportunities for understanding brain function and its disorders. © 2019 Massachusetts Institute of Technology.The biocorrosion of magnesium in the external physiological environment is still difficult to accurately evaluate the degradation behavior in vivo, particularly, in the microenvironment of the patients with hyperglycemia or diabetes. Thus, we explored the synergistic effects of glucose and protein on the biodegradation of pure magnesium, so as to have a deeper understanding the mechanism of the degradation in vivo. The surface morphology and corrosion product composition of pure magnesium were investigated using SEM, EDS, FTIR, XRD and XPS. The effect of glucose and albumin on the degradation rate of pure magnesium was investigated via electrochemical and immersion tests. The adsorption of glucose and albumin on the sample surface was observed using fluorescence microscopy. The results showed that the presence of 2 g/L glucose changed the micromorphology of corrosion products on the magnesium surface by reacting with metal cations, thus inhibiting the corrosion of pure magnesium. Protein formed a barrier layer to protect the magnesium at early stage of immersion. The chelation reaction between protein and magnesium surface might accelerate the degradation at later stage. There may be a critical glucose (albumin) content. Biodegradation of pure magnesium was inhibited at low concentrations and promoted at high concentrations.  https://www.selleckchem.com/products/l-glutamic-acid-monosodium-salt.html  The synergistic effect of glucose and protein restrained the adsorption of aggressive chloride ions to a certain extent, and thus inhibited the degradation of pure magnesium considerably. Moreover, XPS results indicated that glucose promoted the adsorption of protein on the sample surface. © 2020 Production and hosting by Elsevier B.V. on behalf of KeAi Communications Co., Ltd.A technique for colloidal forming of Ca2P2O7 macroporous bioceramics, based on low-pressure injection molding (LPIM) of a glycerol-water slip containing Ca2P2O7 and Ca(Н2PO4)2 into a plastic mold fabricated via FDM 3D-printing, was proposed. Chemical reaction between the solid phases of the water containing slip - Ca2P2O7 and Ca(Н2PO4)2, resulting in brushite (CaHPO4·2H2O) formation, led to consolidation of the casting and preserved its complex architecture in the course of mold burning-out. Macroporous ceramics of Kelvin structure (70% macropores with the sizes from 2 up to 4 mm), based on a pre-defined composition with 10 wt% Ca(PO3)2 and sintered in liquid-phase regime, demonstrated a compressive strength of 1.4 ± 0.1 MPa at a density of 22 ± 2%. In vitro tests on bioactivity in SBF solution, as well as on resorption of the ceramics in model solution of citric acid, were carried out. © 2020 Production and hosting by Elsevier B.V. on behalf of KeAi Communications Co., Ltd.Purpose We report two cases of Wyburn-Mason syndrome that illustrate the spectrum of peripheral retinal ischemia seen in this condition. Observations A 12-year-old female presented with a retinal arteriovenous malformation and sclerotic vessels associated with retinal ischemia on fluorescein angiography, as well as an ipsilateral ophthalmic arteriovenous malformation on magnetic resonance imaging. An 11-year-old male presented with retinal vascular engorgement and tortuosity along with a central retinal vein occlusion and secondary neovascularization. Conclusions and Importance Retinal ischemia in Wyburn-Mason syndrome is heterogeneous and may be progressive, with secondary complications that result in neovascularization. Furthermore, it is necessary to recognize that this is a systemic condition that requires neurological evaluation. © 2020 Published by Elsevier Inc.Purpose To describe a complication of an upper eyelid alexandrite laser procedure. Observations A 55-year-old woman presented with left eye blurred vision and photophobia after a left upper eyelid procedure with an alexandrite laser. She had elevated intraocular pressure (IOP), anterior chamber cell and pigment, posterior synechiae, and retroillumination defects in the left eye. She was treated with topical prednisolone and brimonidine. Six months later, although her anterior chamber had cleared and IOP had normalized, the patient reported decreased vision-related quality of life from persistent photophobia. Conclusions and Importance Alexandrite lasers are commonly used for hair removal and skin depigmentation. When used periocularly without proper eye protection, they have the potential to create irreversible ocular complications. This case demonstrates the importance of proper eye protection with periocular laser procedures. © 2020 Published by Elsevier Inc.Purpose To highlight the surgical and medical management used in an extensive globe penetrating injury caused by an acupuncture needle. Observations We report on a case of acupuncture treatment error resulting in needle penetration of the eye, retinal detachment, and progressive post-traumatic proliferative vitreoretinopathy (PVR). This patient required aggressive surgical management with multiple vitrectomies along with adjunctive intravitreal methotrexate to control ongoing PVR. At last follow-up, 15 months after presentation, the patient's BCVA was 20/40 and the periphery was flat with fibrosis stable. Conclusions and Importance Open globe injuries are a subtype of ocular trauma which can cause irreparable vision loss. This case highlights the extensive potential complications which can occur following traumatic injury to the retina and choroid, as well as the role of both surgical and medical management of retinal detachment and PVR. In addition, this is the first report of the use of off-label adjunctive intravitreal methotrexate to control post-traumatic PVR.