Case Report: Anomalous Origin of the Right Coronary Artery From the Left Sinus of Valsalva With Aortic Dissection: New Myocardial Ischemia Mechanism.

The aortic anomaly of the right coronary artery (AAORCA) originating from the left aortic sinus (LCS) is a rare malformation that may result in sudden cardiac death (SCD), which may be due to the dilated aorta-pulmonary artery affecting the blood supply of the coronary artery. However, there are still some disputes about the treatment of the AAORCA. Herein, we present a rare case of AAORCA from the LCS with aortic dissection (AD). Considering the risk of dissection rupture and SCD, an emergency surgery of aortic replacement and coronary anomaly correction was performed successfully for the patient. This report illustrated that AAORCA complicated with acute AD (AAD) is lethal and may promote the occurrence of coronary ischemia or sudden death by a new "double-kill" mechanism that myocardial ischemia was based on the extent of a fixed and a dynamic component like slit-like ostium, proximal narrowing, acute take-off angle and intramural course with the elliptic vessel shape. There is no doubt that surgery is the best treatment option for the AAORCA with AAD.

Sialic acid-conjugated PLGA nanoparticles enhance the protective effect of lycopene in chemotherapeutic drug-induced kidney injury.

Lycopene (LYC) is known to protect cells from oxidative damage caused by free radicals in human tissues. In the present study, the authors designed a LYC-loaded sialic acid (SA)-conjugated poly(D,L-lactide-co-glycolide) (PLGA) nanoparticle (LYC-NP) to enhance the therapeutic efficacy of LYC in acute kidney injury. The characteristics of the LYC-NPs were defined according to particle size, morphology, and in vitro drug release. The LYC-NPs exhibited a controlled release of LYC over 48 h. Confocal laser scanning microscopy clearly highlighted the targeting potential of SA. Enhanced green fluorescence was observed for the LYC-NPs in H2O2-treated human umbilical vein endothelial cells, indicating enhanced internalisation of NPs. The LYC-NPs showed significantly greater cell viability than H2O2-treated cells. In addition, the LYC-NPs remarkably reduced proinflammatory cytokine levels, attributable mainly to the increased cellular internalisation of the SA-based carrier delivery system. Furthermore, protein levels of caspase-3 and -9 were significantly down-regulated after treatment with the LYC-NPs. Overall, they have demonstrated that SA-conjugated PLGA-NPs containing LYC could be used to treat kidney injury.

[Relationship between cellulose synthesis metabolism and lodging resistance in intercropping soybean at seedling stage].

Physical characteristics of stem are closely relative to the crop lodging. Increase of stem strength is conducive to resolve the problem of lodging. Three soybean cultivars with different shade tolerance were planted under maize-soybean intercropping and soybean monocropping, respectively. Physiological and biochemical indices including cellulose, soluble sugar, sucrose, starch contents and enzyme activity were investigated to assess the snapping resistance and lodging resistance of the stems of soybean seedling, and snapping- and lodging-resistance indices were calculated for further verification. Furthermore, relationship analyses between these factors and the lodging of inter-cropped soybean showed that the intercropping soybean lodged seriously, the snapping resistance, lodging resistance index, contents of cellulose, soluble sugar, sucrose, starch and activities of the related enzymes were significantly lower than monocropping soybean at seedling stage. The three soybean cultivars showed different phenotypes in intercropping condition. The snapping-resistant Nandou12 with strong shade-tolerant traits was the most lodging-resistant phenotype, and it also harbored high contents of cellulose, soluble sugar, sucrose, starch and active enzymes. The lodging resistance index, cellulose content of the stems of intercropped soybean seedling were significantly positively correlated with the snapping resistance, and were significantly negatively correlated with the actual lodging percentage. The activities of sucrose phosphate synthase (SPS) , sucrose synthase (SS) and neutral invertase (NI) were positively correlated with sucrose is content, but not the acid invertase (AI). The activities of SPS, NI and SS were positively correlated with cellulose content, but not Al. In a word, the high activities of SPS and SS in the soybean stem were the enzymatic basis to maintain relatively higher cellulose and sucrose content, which is conducive to improve the stem-sfrength and enhance the lodging resistance ability in intercropping condition. Effects of different light conditions on cellulose metabolic mechanism of soybean seedling stems, lodging resistant characteristics of soybean seedlings studied in the corn-soybean intercropping system provided a basis for screening more shade-tolerant soybean variety.