Temporal and Spatial Heterogeneity of PM2.5 Related to Meteorological and Socioeconomic Factors across China during 2000–2018

In recent years, air pollution caused by PM2.5 in China has become increasingly severe. This study applied a Bayesian space–time hierarchy model to reveal the spatiotemporal heterogeneity of the PM2.5 concentrations in China. In addition, the relationship between meteorological and socioeconomic factors and their interaction with PM2.5 during 2000–2018 was investigated based on the GeoDetector model. Results suggested that the concentration of PM2.5 across China first increased and then decreased between 2000 and 2018. Geographically, the North China Plain and the Yangtze River Delta were high PM2.5 pollution areas, while Northeast and Southwest China are regarded as low-risk areas for PM2.5 pollution. Meanwhile, in Northern and Southern China, the population density was the most important socioeconomic factor affecting PM2.5 with q values of 0.62 and 0.66, respectively; the main meteorological factors affecting PM2.5 were air temperature and vapor pressure, with q values of 0.64 and 0.68, respectively. These results are conducive to our in-depth understanding of the status of PM2.5 pollution in China and provide an important reference for the future direction of PM2.5 pollution control.

FrosPy: A Modular Python Toolbox for Normal Mode Seismology

We present free oscillations Python (FrosPy), a modular Python toolbox for normal mode seismology, incorporating several Python core classes that can easily be used and be included in larger Python programs. FrosPy is freely available and open source online. It provides tools to facilitate pre- and postprocessing of seismic normal mode spectra, including editing large time series and plotting spectra in the frequency domain. It also contains a comprehensive database of center frequencies and quality factor (Q) values based on 1D reference model preliminary reference Earth model for all normal modes up to 10 mHz and a collection of published measurements of center frequencies, Q values, and splitting function (or structure) coefficients. FrosPy provides the tools to visualize and convert different formats of splitting function coefficients and plot these as maps. By giving the means of using and comparing normal mode spectra and splitting function measurements, FrosPy also aims to encourage seismologists and geophysicists to learn about normal mode seismology and the study of the Earth’s free oscillation spectra and to incorporate them into their own research or use them for educational purposes.

The Effect of Silicon and The Status of Phenolic Compounds On The Germination of Cowpea (Vigna unguiculata L. Walp.) Under Temperature Stress

The aim of the study was to evaluate the elevated temperature on germination and seedling growth and the ameliorative effect of silicon on the phenolic compounds of black-eyed cowpea. The seeds were allowed to germinate at 30 (control), 36 and 44°C temperatures, under controlled conditions, silicons were with concentrations of 0.0 (control) and 1.5 mM. In the second phase of the experiment, some of the seeds were grown in plastic cups with sieved soil at 30 °C, 36 °C and 44 °C for phenolic compounds. Among the temperature treatments, plant deaths occurred at 44 °C. The raise in temperature importantly reduced germination and related traits. Except for SL, the seeds showed good germination at 30 °C after Si application. In high temperatures, silicon applications had a positive effect on germination and seedling growth, except for the germination rate. Results showed that an increase in GA, PA, Q, CAM, CA, PCA, SA, VA, CAF as temperatures increased. But chlorogenic acid and Q values were higher at 30 °C. This study clearly observed that the growth of cowpea seedlings decreased with temperature increase, but silicon attenuated these effects.

Specific Urban Elements Identified for Tuberculosis Epidemic in Guangzhou by Using Geographical Detector

Background: The prevalence of tuberculosis (TB) in China has heavily affected people’s health for decades, which has been widely investigated for the rural regions and west parts. However, its spatial features in urban areas remain little understood. Thus, this study aims to identify its spatial differentiations and their influencing factors in highly urbanized region on a fine scale.Methods: Together with the TB cases in 2017 obtained from Guangzhou Institute of Tuberculosis Control and Prevention, in total 18 socioeconomic and environmental variables were included in this study. Two spatial analysis tools were respectively applied to select the relative appropriate spatial scale (global Moran’s I), and to identify specific urban factors (the Geographical detector) for this epidemic in the central four districts of Guangzhou.Results: The 2 km × 2 km grid was determined as the most appropriate spatial scale due to its relatively higher spatial autocorrelation (Moran’s I=0.33, Z=4.71). At this spatial level, the TB epidemic in the four central districts was obviously closely associated with most of socioeconomic factors (0.31<r<0.76) at the significance level of 0.01. By contrast, among environmental factors, only the concentration of fine particulate matter (PM2.5) correlated with this epidemic (r=0.21) at the significance level of 0.05. Similarly, according to the q-values derived from geographical detector analysis, socioeconomic factors posed stronger impacts (0.08<q<0.57) on the spatial differentiations of TB prevalence than those of environmental variables (0.06<q<0.27), Furthermore, 153 pairs of variables presented more powerful explanatory abilities for this epidemic’s spatial disparities due to their notable enhancements of q-values (7.3%<sq<311.6%) caused by the pairwise interactions.Conclusion: The spatial heterogeneity of TB prevalence was remarkably influenced by a series of specific urban elements and their pairwise interactions across the central region of Guangzhou. We accordingly suggest that more attentions should be paid to the areas with pairwise interactions of these specific urban elements in this city. This study would provide meaningful clues for local authorities making more targeted interventions on this disease in China’s municipal areas featured by both high urbanization and severe tuberculosis.

Spectrum of Molecular Modes of Immune Escape in Idiopathic Aplastic Anemia and Paroxysmal Nocturnal Hemoglobinuria

The pathogenesis of idiopathic aplastic anemia (IAA) involves a human leukocyte antigen (HLA)-restricted T-cell autoreactivity against unknown antigens preferentially distributed on early hematopoietic stem and progenitor cells (HSPCs). Genetically acquired GPI-anchor and HLA deficiency have been both linked to clonal immune evasion from T-cell pressure. We hypothesized that, in analogy to anti-tumor adaptive immune evasion, pathophysiology of immune escape in IAA originates together with a broader dysfunction of antigen presentation/processing machinery and immune regulatory proteins, beyond HLA molecules, as an effect of immune pressure under T-cell attack. This initial immune reaction would produce up-modulation of these pathways, ultimately promoting the acquisition of mutations and expansion of immune resistant clones. To test this hypothesis, we first performed single-cell RNAseq analysis in HSPCs in IAA patients at disease manifestation, 1 which showed signatures of dysfunction of antigen presentation machinery, with up-regulation of most of the HLA molecules, proteasome subunits and endoplasmic reticulum related organelle transporters. Strikingly, DRB1 was among the top 3 genes upregulated in IAA patients compared to controls (q-values 1.23E-35; Fig.1A), underscoring the etiological impact that antigen presentation via this locus has in the initiation of autoimmune process. Mild upregulation was also seen in DQB1 and B loci (q-values 4.7E-07 and 2.1E-10, respectively). We then studied molecular escape mechanisms by genotyping 204 IAA and PNH patients, with either a targeted or whole genome sequencing (WGS) platform. By application of a newly in-house developed bioinformatic pipeline, we detected somatic aberrations in HLA region involving both class I and II alleles in 36% of IAA patients including point mutations, frameshift insertions or deletions and copy number variations inducing allelic loss. B*14:02 and A*02:01 emerged as the most commonly mutated class I alleles with a few hotspot mutations identified, particularly in exon 1 (c.19C&gt;T, p.R7X, Fig.1B,C), confirming previous reports. 2,3 In class II, DQB1 and DPA1 loci were frequently targeted by fine mutational events, while more complex allelic loss phenomena interested prevalently DRB1 and DQB1 loci. Those aberrations were identified at diagnosis (35%), during disease follow-up (33%) or at the time of malignant evolution (27%), with higher clonal size in specimens collected during the course of the disease (median VAF 3% [2-27%] at diagnosis, 8% [2-98%] at follow-up, and 2.2% [2.0-6.1%] at evolution). Of 41 patients with at least one HLA aberration and characterized with an extended genotypic study, only 6 harbored also &gt;1 somatic myeloid mutation (14%), versus 30/90 (33%) not affected by somatic hits in HLA (p=.026; Fig.1D). HLA aberrant cases also showed lower number of somatic myeloid mutations (OR=0.44; p=.0262) with driver hits rarely present (Fig.1E). In terms of PIGA mutations, an increased PIGA mosaicism was observed in the HLA mutant group, underlying that both processes have similar pathophysiologic origin as a product of the immune selection pressure (OR: 1.55 [95%CI 1.1-4.2], p=.0201). We then investigated, through WGS of 53 patients, the presence of somatic mutations in other immune genes which could be triggered by immune pressure. Hence, in 47% of the cases we were able to find pathogenic or likely pathogenic hits in genes encompassing proteasome complex, vesicle trafficking, transactivators and interferon regulatory factors, including CREBBP, TAP1, CIITA, PSMC5, PSMB4 and IRF9 (Fig.1F), whose pathogenicity was computationally assessed through recently implemented somatic classifiers. 4 Those hits were not mutually exclusive neither with HLA nor with PIGA mutations, however their VAF was significantly lower compared to concurrent HLA and PIGA lesions, underscoring their lower driver potential within the immune escape environment compared to PNH and HLA-lacking clones. Altogether our results describe the diversity of molecular and immune events taking place in IAA and PNH. Our study suggests that following initial immune insult, clonal architecture of residual hematopoiesis can be dominated by multiple modes of immune escape, agonistically participating to a mechanism of "adaptive" clonal recovery, likely in opposition to the "maladaptive" malignant progression. Figure 1 Figure 1. Disclosures Maciejewski: Alexion: Consultancy; Regeneron: Consultancy; Novartis: Consultancy; Bristol Myers Squibb/Celgene: Consultancy.

The Function of Organic Additives in Enhancing the Q-values for Peat Pellet Biofuel

In Malaysia, peat make up for around 7.5 % of the entire land area. The positive effect of the vast wet organic compounds accumulates over a long time has stored high content of soil’s carbon which are highly useful as fuel and biomass energy generation. Thus, this study gives an outline of peat pellet as potential biofuel energy. The peat pellets were soaked into several kinds of flammable additives such as petrol, kerosene and diesel. The percentages of 69.41 % of carbon, 28.73% of oxygen and 0.97% of silicon were obtained using Energy Dispersive X-ray (EDX). The Fourier-Transformed Infrared (FTIR)- Attenuated Total Reflectance (ATR) Spectroscopy was used to identify the sample. From the spectra, it reveals that most of the additives contribute mainly functional groups with hydroxyl, alcohol and phenol groups were found leading to higher boiling and melting points. The heat combustion properties of peat pellets were evaluated using a calorimeter technique by boiling off 50 ml and 100 ml of water. The pellet with diesel has the highest Q-values and combustion rate due to larger number of carbons in rigid molecular structure. The high amount of unique chemical compound found naturally in diesel known as cetane, ignites effortlessly when heated gives diesel additional advantages in shorter ignition delays as well as longer duration of combustion.

Plasmonic Characteristics of Rhodium Dual Broken Nanorings In UV-Visible Regime

This work reports on the plasmonic properties of a symmetry-breaking system consisting of rhodium dual broken nanorings, in the ultraviolet-visible regime. In the structure, two rhodium broken rings are located with a separation on the scale of nanometers. As the separation, the light polarization, and the relative orientation of the broken angles are respectively varied, the plasmonic scattering efficiency of the system is investigated, using the finite difference time domain method. Multiple plasmonic resonances are revealed, and the associated asymmetry-induced Fano-like lineshapes are fitted to a model that employs multiple Fano lineshape functions. The resonance wavelengths, the spectral widths, and the characteristic q values are determined from the best fit parameters, and the plasmonic characteristics of the system are quantitatively probed. The results in this work may be beneficial in designs of plasmonic devices that operates at ultraviolet-visible wavelengths.

The Analysis of Corneal Asphericity and its Related Factors in Cataract Patients

Purpose: To determine the corneal asphericity and its related factors in cataract patients.Methods: This study enrolled 121 eligible eyes of 121 cataract patients. The corneal Q values of anterior and posterior surface were measured in the central 3.0, 4.0, 5.0, and 6.0 mm zone using the Sirius System. Age, gender, and corneal higher-order aberrations (HOAs) were recorded. Comparison of preoperative and postoperative Q value was conducted in 103 eyes of 103 patients three months after surgery.Results: The Q value of the anterior corneal surface at 6.0 mm zone and the posterior surface in 3.0, 4.0, 5.0, and 6.0 mm zone were statistically significant across the different age groups. The Q value of the posterior surfaces in 3.0, 4.0, 5.0, and 6.0 mm zone was statistically significant between the male and the female groups. The Q values of the anterior corneal surface in the 6.0 mm zone were positively correlated with Z40 cornea, Z40 CF, Z33,-3 CF, and total corneal HOAs; While the Q value of the posterior surface in the 6.0 mm zone were negatively correlated with Z31,-1 cornea, Z33,-3 cornea, Z33,-3 CF, Z31,-1CB, Z40 CB, and total corneal HOAs. Besides, no significant change was found in corneal Q value 3 months after surgery.Conclusion: There were great individual differences between the corneal asphericity of the cataract patients. Age, sex, and HOAs seemed to be correlated with the corneal asphericity. The preoperative Q value can be used as one of the parameters for personalized selection of intraocular lens.

Pilot investigation of circulating angiogenic and inflammatory biomarkers associated with vascular malformations

Background Vascular malformations in the central nervous system are difficult to monitor and treat due to their inaccessible location. Angiogenic and inflammatory proteins are secreted into the bloodstream and may serve as useful biomarkers for identifying patients at risk for complications or with certain disease phenotypes. Methods A validated multiplex protein array consisting of 26 angiogenic and inflammatory biomarkers (Angiome) was assessed in plasma isolated from healthy controls and patients with either sporadic brain arteriovenous malformation (BAVM), familial cerebral cavernous malformation (CCM), or hereditary hemorrhagic telangiectasia (HHT). These samples were obtained from archives of ongoing research studies at the University of California San Francisco and through prospective collection at the Toronto HHT Centre at St. Michael’s Hospital. Results We compared circulating biomarker levels from each patient group to healthy controls and analyzed each pairwise combination of patient groups for differences in biomarker levels. Additionally, we analyzed the HHT samples to determine the association between biomarker levels and the following HHT-specific phenotypes, BAVM, pulmonary arteriovenous malformation (PAVM), liver vascular malformation (LVM), and gastrointestinal (GI) bleeding. Compared to controls, levels of SDF1 were significantly elevated in HHT patients (Proportional Increase [PI] = 1.87, p < 0.001, q = 0.011). Levels of sENG were significantly reduced in HHT patients compared to controls (PI = 0.56, p < 0.001, q < 0.001), reflecting the prevalence of HHT1 patients in this cohort. Levels of IL6 (PI = 3.22, p < 0.001, q < 0.001) and sTGFβR3 (PI = 0.70, p = 0.001, q < 0.029) differed significantly in CCM patients compared to controls. Compared to controls, ten of the biomarkers were significantly different in sporadic BAVM patients (q-values < 0.05). Among the pairwise combinations of patient groups, a significant elevation was observed in TGFβ1 in CCM patients compared to sporadic BAVM patients (PI = 2.30, p < 0.001, q = 0.034). When examining the association of circulating biomarker levels with HHT-specific phenotypes, four markers were significantly lower in HHT patients with BAVM (q-values < 0.05), and four markers were significantly higher in patients with LVM (q-values < 0.05). Conclusions This pilot study suggests that the profile of circulating angiogenic and inflammatory biomarkers may be unique to each type of vascular malformation. Furthermore, this study indicates that circulating biomarkers may be useful for assessing phenotypic traits of vascular malformations.