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Ferroptosis, as a newly discovered cell death form, has become an attractive target for precision cancer therapy. Several ferroptosis therapy strategies based on nanotechnology have been reported by either increasing intracellular iron levels or by inhibition of glutathione (GSH)-dependent lipid hydroperoxidase glutathione peroxidase 4 (GPX4). However, the strategy by simultaneous iron delivery and GPX4 inhibition has rarely been reported. Herein, novel tumor microenvironments (TME)-activated metal-organic frameworks involving Fe & Cu ions bridged by disulfide bonds with PEGylation (FCSP MOFs) were developed, which would be degraded specifically under the redox TME, simultaneously achieving GSH-depletion induced GPX4 inactivation and releasing Fe ions to produce ROS
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Objective To prepare dual-targeted pH-sensitive DOX prodrug-microbubble complex and explore the characterization of complex with ultrasound as well as drug release in vitro . Methods Dual-targeted ligands ,cRGD and folate were conjugated with heparin using carbodiimide method ,and then the dual-targeted pH-sensitive DOX prodrug was synthesized by coupling DOX via a pH-sensitive hydrazone bond . The prodrug was combined with microbubbles to prepare complex by biotin-avidin system . The characterization of complex with/without ultrasound was investigated for size ,morphology and drug loaded capacity .In vitro drug release manner of complex with/without at different pH was analyzed . Results DOX content of the prodrug determined by UV Spectrophotometry was about 18 .9% . Dynamic laser light scattering analysis( DLS) ,corresponding to transmission electron microscope( TEM ) findings ,revealed its inhomogeneous size distribution [ mean size ( 159 .7 ± 24 .5) nm and ( 1089 .0 ± 174 .9) nm ] . However ,the complex was dispersed into uniform fragment after ultrasound irradiation [ mean size ( 155 .9 ± 29 .8) nm , polymer dispersity index( PDI) 0 .22 ,Zeta potential - ( 20 .6 ± 3 .4) mV ] . The cumulative release rate of DOX from both complex and complex with ultrasound at pH 5 .0 were much faster than that at pH 7 .4 , displaying a pH-triggered release manner . Conclusions Dual-targeted pH-sensitive DOX prodrug-microbubble complex displays excellent drug release activity in acid environment . Uniform fragment and smaller particle size of complex could be achieved via ultrasound irradiation ,promoting DOX accumulation within tumor tissue and facilitating in vivo antitumor ability .
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Objective To explore the diagnostic and score value of ultrasound on hemophiliac arthropathy referring to MRI on the diagnosis and score of hemophiliac arthropathy Methods The ultrasound and MRI examinations were performed on 42 joints of 42 hemophilia patients 14 knees 14 ankles and 14 elbows The consistency of ultrasound and magnetic resonance imaging in the detection and score of joint diseases was compared Finally inter-and intra-observer agreement of ultrasound scoring system were tested Results The consistency of ultrasound and magnetic resonance imaging was excellent κ=0 763-0 896 P < 0 001 in the detection of early soft tissue lesions effusion or hemarthrosis synovial hypertrophy hemosiderin excellent κ=0 793 P <0 001 in the detection of cartilage loss poor κ=0 133 P = 0 132 in the detection of erosions and poor κ= 0 100 P = 0 137 in the detection of subchondral cysts The consistency of ultrasound and magnetic resonance imaging was good to excellentκ=0 684-0 833 P < 0 001 in the score of early soft tissue lesions effusion or hemarthrosis synovial hypertrophy and hemosiderin and poor to good κ=0 145 -0 635 P <0 001 in the score of advanced osteochondral lesions cartilage loss and bone erosions The inter-observer agreement was good to excellent κ=0 676-0 870 P <0 001 for early soft tissue lesions and moderate to excellent κ=0 421- 0 75 1 P < 0 001 for advanced osteochondral lesions The intra-observer agreement was good to excellent κ=0 705-0 885 P <0 001 for early soft tissue lesions and moderate to good κ=0 532 -0 732 P <0 001 for advanced osteochondral lesions Conclusions Ultrasound plays an important role in detecting early soft tissue changes effusion or hemarthrosis synovial hypertrophy hemosiderin and cartilage loss which helps follow-up and guide clinical treatment.
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Objective To screening optimized ultrasound (US)condition for MCF-7 cells and MCF-7/Tax cells,and to investigate the effect of dual-ligands nanoparticles (NPs ) combined with US on overcoming multidrug resistance (MDR).Methods To obtain optimized US condition,cell viability and cellular uptake of NPs treated with MCF-7 cells and MCF-7/Tax cells were detected under different ultrasonic parameters including ultrasound intensity,exposure duration and microbubble concentration. MTT assay was performed to observe the effect of NPs combined with US on cells.Results The optimal US conditions for MCF-7 cells was irradiation intensity 0.6 W/cm2 ,irradiation time 80 s,and the MBs concentration with volume ratio of microbubbles to medium was 1∶1 0;and for MCF-7/Tax cells,irradiation intensity 0.6 W/cm2 ,irradiation time 80 s,and the MBs concentration with volume ratio of microbubbles to medium was 1∶20.Compared with individual NPs,NPs assisted by US exhibited greater killing ability for MCF-7 (IC50 1 .43 ng/ml)and MCF-7/Tax cells (IC50<800 ng/ml).Conclusions US effect could enhance drug sensitivity of the dual-functionized NPs for MCF-7/Tax cells,indicating that US irradiation had potential assisted modality to reverse tumor MDR.