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In this review, we discuss the role of liquid agents in therapeutic embolisation and the potential of emerging technologies under development for use in the next generation of embolics.Osteoporosis, a chronic disease that affects over 200 million people worldwide, presents a substantial medical and socioeconomic burden on the modern society. However, long-term intake of diets supplemented with different polyunsaturated fatty acids (PUFAs) can affect bone metabolism; thus, this study investigated the comparative effects of Antarctic krill oil (AKO, containing n-3 PUFAs) and arachidonic acid-rich oil (AAO, containing n-6 PUFAs) on bone resorption in a mice model of postmenopausal osteoporosis. Mice were orally administered with AKO (200 mg kg-1) or AAO (220 mg kg-1) once daily for 30 days, ovariectomized, followed by the continued administration of the respective samples for 90 days. Biomechanical and histomorphometric analyses revealed that AKO increased the bone mineral density (BMD) to enhance the biomechanical properties by increasing the mineral apposition rate and repairing the microstructure of the trabecular bone, whereas AAO had the opposite effect. The fatty acid analysis of the verchidonic acid is a precursor of PGE2 synthesis. AAO showed the opposite trend through the same pathway. Thus, AKO could significantly improve osteoporosis via the OPG/RANKL/NF-κB pathway mediated by PGE2/EP4 to inhibit osteoclastogenesis, whereas AAO aggravated osteoporosis via the same pathway. This is the first study to systematically compare the effects and mechanism of AKO and AAO in regulating bone resorption in osteoporotic mice to support recommendations on fatty acid types in dietary oils for an osteoporotic population.We discovered a reaction of nitroalkanes with 2-hydrazinylquinolines, 2-hydrazinylpyridines and bis-2,4-dihydrazinylpyrimidines in polyphosphoric acid (PPA) affording 1,2,4-triazolo[4,3-a]quinolines, 1,2,4-triazolo[4,3-a]pyridines and bis[1,2,4]triazolo[4,3-a4',3'-c]pyrimidines, respectively. The reaction expands the scope of heterocyclic annulations involving phosphorylated nitronates, believed to be the electrophilic intermediates formed from nitroalkanes in PPA. Several of the synthesized triazoles showed promising anticancer activity by inducing differentiation in neuroblastoma cancer cells. Due to the urgent need for novel differentiation agents for neuroblastoma therapy, this finding warrants further evaluation of this class of compounds against neuroblastoma.O-Picoloyl protecting groups at remote positions can affect the stereoselectivity of glycosylation by means of the H-bond-mediated aglycone delivery (HAD) pathway. A new practical method for the stereoselective synthesis of β-glycosides of mannosamine is reported. The presence of the O-picoloyl group at the C-3 position of a mannosamine donor can provide high or complete stereocontrol. The method was also utilized for the synthesis of a biologically relevant trisaccharide related to the capsular polysaccharide of Streptococcus pneumoniae serotype 4. Also reported herein is a method to achieve complete α-manno stereoselectivity with mannosamine donors equipped with 3-O-benzoyl group.Microrobots have attracted considerable attention due to their immense potential for biomedical and engineering applications in recent years. Inspired by human walks, a bipedal microwalker capable of standing and walking like humans regulated by external weak magnetic fields was reported in this paper. The walker has a submillimeter size and a simple arrowhead shape. Its standing and walking locomotion is controlled by external oscillating magnetic fields generated by orthogonal electromagnetic coil pairs. The walking speeds of the microwalker are controlled using magnetic fields with varying parameters. The walking speeds on a glass substrate immersed in water could reach up to 2.2 mm s-1. Designed walking paths of the microwalker on a horizontal substrate are also demonstrated. Besides walking on horizontal flat surfaces, the microwalker can climb up slopes and walk freely in circular microtubes. The microwalker is of interest in fundamental robotic gait research and for micromanipulation applications.This study investigated the effect of alignment on the rate-dependent behavior of a main-chain liquid crystal elastomer (LCE). Polydomain nematic LCE networks were synthesized from a thiol-acrylate Michael addition reaction in the isotropic state. The polydomain networks were stretched to different strain levels to induce alignment then crosslinked in a second stage photopolymerization process. The LCE networks were subjected to dynamic mechanical tests to measure the temperature-dependent storage modulus and uniaxial tension load-unload tests to measure the rate-dependence of the Young's modulus, mechanical dissipation, and characteristics of the soft stress response. Three-dimensional (3D) digital image correlation (DIC) was used to characterize the effect of domain/mesogen relaxation on the strain fields. All LCE networks exhibited a highly rate-dependent stress response with significant inelastic strains after unloading. The Young's modulus of the loading curve and hysteresis of the load-unload curves shorain softening in stress response. Temsirolimus These findings improved understanding of the kinetics of mesogen relaxation and its contributions to the rate-dependent stress response and mechanical dissipation.Multifunctional intelligent theranostics agents are promising for next-generation oncotherapy. We fabricated a tumor-microenvironment (TME)-responsive carbon nanotube (CNT)-based nanoplatform for T1 weighted magnetic resonance imaging (MRI)-guided synergistic photodynamic and photothermal therapy (PDT and PTT). CNTs convert near infrared (NIR) radiation into hyperthermia for PTT, and can effectively deliver their cargo into cells due to their unique 1D nanostructure. The CNT@MnO2-PEG@Ce6 nanomedicine was internalized into tumor cells, and rapidly released the photosensitizer (Ce6) in response to the low pH and high glutathione (GSH) levels characteristic of the TME. The degradation of the MnO2 layer under the same conditions released Mn2+ for T1-MRI. Furthermore, catalytic decomposition of the excess H2O2 into oxygen by MnO2 enhanced the efficacy of PDT, relieved hypoxia, and increased consumption of superfluous GSH to mitigate the effects of excessive reactive oxygen species (ROS) generation during PDT. MRI-guided PDT and PTT synergistically inhibited tumor cell growth in vitro, and ablated tumors in vivo.

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