Speckle noise suppression method in a holographic display based on pixel processing.

In this paper, we propose a method to suppress the speckle noise in a holographic display based on pixel processing. Through the separation of object pixels in space, the recorded object is divided into multiple object point groups. The complex amplitude of the light field for each object point group is recorded as a sub-computer-generated hologram (sub-CGH). The phase of each pixel on a sub-CGH is optimized to generate the final sub-CGH. Therefore, the pixels of the recorded object and sub-CGH are processed. In the reconstruction process, the final sub-CGHs are loaded on the spatial light modulator sequentially. The speckle noise of the reconstructed image is suppressed by reducing the algorithm error and the overlapping area of adjacent image points. The experimental results prove the feasibility of the proposed method.

Effects of environmentally relevant concentration of short-chain chlorinated paraffins on BV2 microglia activation and lipid metabolism, implicating altered neurogenesis.

Short-chain chlorinated paraffins (SCCPs), a class of persistent organic pollutants, have been found to cause diverse organ and systemic toxicity. However, little is known about their neurotoxic effects. In this study, we exposed BV2, a mouse microglia cell line, to environmentally relevant concentration of SCCPs (1 µg/L, 10 µg/L, 100 µg/L) for 24 h to investigate their impacts on the nervous system. Our observations revealed that SCCPs induced the activation of BV2 microglia, as indicated by altered morphology, stimulated cell proliferation, enhanced phagocytic and migratory capabilities. Analysis at the mRNA level confirmed the activation status, with the downregulation of TMEM119 and Tgfbr1, and upregulation of Iba1 and CD11b. The upregulated expression of genes such as cenpe, mki67, Axl, APOE and LPL also validated alterations in cell functions. Moreover, BV2 microglia presented an M2 alternative phenotype upon SCCPs exposure, substantiated by the reduction of NF-κB, TNF-α, IL-1ß, and the elevation of TGF-ß. Additionally, SCCPs caused lipid metabolic changes in BV2 microglia, characterized by the upregulations of long-chain fatty acids and acylcarnitines, reflecting an enhancement of ß-oxidation. This aligns with our findings of increased ATP production upon SCCPs exposure. Intriguingly, cell activation coincided with elevated levels of omega-3 polyunsaturated fatty acids. Furthermore, activated microglial medium remarkably altered the proliferation and differentiation of mouse neural stem cells. Collectively, exposure to environmentally relevant concentrations of SCCPs resulted in activation and lipid metabolic alterations in BV2 microglia, potentially impacting neurogenesis. These findings provide valuable insights for further research on the neurotoxic effect of SCCPs.

[Research progress of methylcellulose-based thermosensitive hydrogels applied in biomedical field].

Methylcellulose is a semi-flexible cellulose ether derivative, whose hydrogels are thermosensitive and reversible, with good biocompatibility and adjustable function, and its application has attracted much attention in the biomedical field. In this paper, the application of methylcellulose-based thermo-sensitive hydrogels in biomedical field was reviewed. Based on the mechanism of gelation and influencing factors of methylcellulose, this paper focused on the recent advances in biomedical applications of methylcellulose-based hydrogels, including drug delivery, regenerative medicine, and other related fields. The current achievements in these fields were summarized in the form of lists in this paper to provide ideas and tendencies for future research. Finally, the future development of multifunctional methylcellulose-based hydrogel materials with improved performance was also discussed.

Crosstalk between autophagy inhibitor and salidroside-induced apoptosis: A novel strategy for autophagy-based treatment of hepatocellular cancer.

Autophagy regulates many cell function related to cancer, including cell proliferation, invasion and apoptosis. Therefore, we investigated the potential value of crosstalk between autophagy and apoptosis. The present study demonstrated that seven autophagy related genes were screened from the biological network of salidroside (Sal) acting on liver cancer. The GO analysis showed that these genes were mainly involved in apoptosis and autophagy. The KEGG analysis showed that these genes regulated the process of liver cancer through Th17 cell differentiation, PI3K-Akt signaling pathway and other pathways. Moreover, seven genes were positively correlated with tumor purity, number of B cells, number of CD4+ T cells, number of CD8+ T cells, number of macrophages, number of dendritic cells and number of neutrophils. The overall survival time of liver cancer patients in the high expression group of BIRC5, HSP90AB1 and MTOR was lower than that in the low expression group (P < 0.05), while the overall survival time of the liver cancer patients in the high expression group of DLC1 and FOXO1 was higher than that in the low expression group (P < 0.05). In the pan-cancer analysis, we also found that BIRC5, HSP90AB1, MTOR, and ITGA6 were highly expressed in various cancers, while DLC1, FOXO1, and FOS were low expressed in various cancers. In the molecule docking analysis, we found that FOS, HSP90AB1, and MTOR had the best binding ability. Notably, in the vitro validation experiments, Sal was confirmed to induce autophagy and apoptosis, inhibite invasion and metastasis of liver cancer cells through the PI3K/Akt/mTOR signaling pathway. Meanwhile, inhibition of autophagy by chloroquine diphosphate (CQ) promoted Sal-induced mitochondrial apoptosis via corresponding cell and animal experiments. We speculated that Sal-induced autophagy might be a protective mechanism, inhibition of autophagy could further promote the progression of liver cancer. It may provide important insight into the molecular mechanism of crosstalk between autophagy and apoptosis, and provide a new theoretical basis of Sal combined with autophagy inhibitors as a adjuvant chemotherapeutic strategy for human liver cancer.

The role of autophagy in cardiovascular disease: Cross-interference of signaling pathways and underlying therapeutic targets.

Autophagy is a conserved lysosomal pathway for the degradation of cytoplasmic proteins and organelles, which realizes the metabolic needs of cells and the renewal of organelles. Autophagy-related genes (ATGs) are the main molecular mechanisms controlling autophagy, and their functions can coordinate the whole autophagic process. Autophagy can also play a role in cardiovascular disease through several key signaling pathways, including PI3K/Akt/mTOR, IGF/EGF, AMPK/mTOR, MAPKs, p53, Nrf2/p62, Wnt/ß-catenin and NF-κB pathways. In this paper, we reviewed the signaling pathway of cross-interference between autophagy and cardiovascular diseases, and analyzed the development status of novel cardiovascular disease treatment by targeting the core molecular mechanism of autophagy as well as the critical signaling pathway. Induction or inhibition of autophagy through molecular mechanisms and signaling pathways can provide therapeutic benefits for patients. Meanwhile, we hope to provide a unique insight into cardiovascular treatment strategies by understanding the molecular mechanism and signaling pathway of crosstalk between autophagy and cardiovascular diseases.

Combination of chloroquine diphosphate and salidroside induces human liver cell apoptosis via regulation of mitochondrial dysfunction and autophagy.

Hepatocellular carcinoma (HCC) is the leading cause of cancer­associated death in the world. Chemotherapy remains the primary treatment method for HCC. Despite advances in chemotherapy and modalities, recurrence and resistance limit therapeutic success. Salidroside (Sal), a bioactive component extracted from the rhizome of Rhodiola rosea L, exhibits a spectrum of biological activities including antitumor effects. In the present study, it was demonstrated that Sal could induce apoptosis and autophagy of 97H cells by using CCK­8 assay, transmission electron microscopy (TEM), Hoechst33342 staining, MDC staining, western blotting. Pretreatment with Sal enhanced apoptosis and autophagy via upregulation of expression levels of Bax, Caspase­3, Caspase­9, light chain (LC)3­II and Beclin­1 proteins and downregulation of expression levels of Bcl­2, LC3­I and p62 protein in 97H cells. Furthermore, Sal was demonstrated to inhibit activation of the PI3K/Akt/mTOR signaling pathway and, when combined with autophagy inhibitor chloroquine diphosphate (CQ), increased phosphorylation of PI3K, Akt and mTOR proteins. The combined treatment with Sal and CQ not only decreased Sal­induced autophagy, but also accelerated Sal­induced apoptosis. Therefore, Sal­induced autophagy might serve a role as a defense mechanism in human liver cancer cells and its inhibition may be a promising strategy for the adjuvant chemotherapy of liver cancer.

Regulation concerns of supply and demand sides for aesthetic medicine from Chinese perspective.

Aesthetic medicine has become a booming industry in the world. However, there are widespread social and health risks posed by aesthetic medicine, including illegal practice, and misleading information from aesthetic medicine institutes. Social media and advertisement play important roles in leading to appearance anxiety among young people nowadays. Regarding the chaotic situation in the aesthetic medical field, there is a fact that the practice of aesthetic medicine has been marginally regulated, even in some developed countries. China has the largest population in the world as well as the large number of aesthetic medical customers. Regarding the protection of people from harm, there is a great challenge for the Chinese government. So, China has enacted the toughest governance these years both on the supply and demand side. Some of the strategies may be useful for health authorities in certain countries.

Should more attention be paid to polio sequela cases in China?

Since "Global Polio Eradication Initiative" was launched by World Health Assembly in 1988, the incidence rate of polio has been reduced by more than 99%, and the whole world has entered a post polio era nowadays. China has been a polio free status recognized by World Health Organization for 22 years and most people believe that no more public health concerns need to be given. How is the population of polio survivors in China? What strategies of health economics and actions of public health for those with polio are ethically appropriate? This article, first of all, deeply summarizes and analyzes the history, current situation and unmet needs of population with polio sequelae and post-polio syndrome in China, and then, puts forward important issues faced by polio survivors who natural infected and who due to vaccine associated paralytic polio and vaccine derived poliovirus. The management of polio survivor is not only a medical and rehabilitation problem involving accessibility, accommodations, but also a public health issue, and most importantly, an ethical concern. Furthermore, from the perspective of ethics such as Justice and Cooperation, the author demonstrates the rationality and necessity of continuing to pay more attention to polio sequela cases at this stage in China. Finally, many valuable suggestions and practical recommendations are given.

Influence of adding steam-exploded apple pomace on wheat flour characteristics and biscuit quality.

Apple pomace treated by steam explosion (SE-AP) was mixed with wheat flour, the wheat dough characteristics and biscuit quality are deserved to investigate. In this paper, the characteristics of wheat dough blended with SE-AP, including sedimentation values, pasting properties, and farinographic features were measured; the textural properties and sensory evaluation of the blended biscuits were analyzed. The results showed that the sedimentation values of wheat dough gradually decreased when SE-AP was less than 10%, which was almost no influence on the biscuit quality. The more SE-AP was added, the less values of peak viscosity, trough viscosity and final viscosity, which was disadvantage to the processing quality of wheat flour; however, the values of breakdown and setback increased with the addition of SE-AP, which improved the processing quality. Dough development time, stability time, and farinograph quality number decreased with the addition of SE-AP, which was unfavourable to the quality of wheat flour. When the addition of SE-AP was less than 10%, the hardness of biscuits decreased, springiness and resilience increased, and the chewability improved. According to the texture properties and organoleptic evaluation, the sensor score of the biscuits made from weak-gluten wheat with 10% (m/m) SE-AP added was the highest.

Chemical Modification of Sweet Potato ß-amylase by Mal-mPEG to Improve Its Enzymatic Characteristics.

The sweet potato ß-amylase (SPA) was modified by 6 types of methoxy polyethylene glycol to enhance its specific activity and thermal stability. The aims of the study were to select the optimum modifier, optimize the modification parameters, and further investigate the characterization of the modified SPA. The results showed that methoxy polyethylene glycol maleimide (molecular weight 5000, Mal-mPEG5000) was the optimum modifier of SPA; Under the optimal modification conditions, the specific activity of Mal-mPEG5000-SPA was 24.06% higher than that of the untreated SPA. Mal-mPEG5000-SPA was monomeric with a molecular weight of about 67 kDa by SDS-PAGE. The characteristics of Mal-mPEG5000-SPA were significantly improved. The Km value, Vmax and Ea in Mal-mPEG5000-SPA for sweet potato starch showed that Mal-mPEG5000-SPA had greater affinity for sweet potato starch and higher speed of hydrolysis than SPA. There was no significant difference of the metal ions' effect on Mal-mPEG5000-SPA and SPA.