Medeiroskarlsson0522
Patients carrying severe and complex variants had a higher burden of nonmotor symptoms, especially depression, and more mood/cognitive and gastrointestinal symptoms than patients carrying mild variants.
GBA-PD is highly prevalent in the Chinese population. The severity of GBA variants underlies distinct phenotypic spectrums, with PD patients carrying severe and complex variants seeming to have similar phenotypes. PD patient stratification by GBA variant severity should become a prerequisite for selecting specific treatments.
GBA-PD is highly prevalent in the Chinese population. The severity of GBA variants underlies distinct phenotypic spectrums, with PD patients carrying severe and complex variants seeming to have similar phenotypes. https://www.selleckchem.com/products/bms-986020.html PD patient stratification by GBA variant severity should become a prerequisite for selecting specific treatments.Infrared nonlinear optical (IR NLO) materials are significant in laser technology for civil and military uses. Here, we report the synthesis, structural chemistry and NLO properties of a halogen-rich chalcohalide Sn7 Br10 S2 . Its noncentrosymmetric (NCS, P63 ) structure can be considered as partially aliovalent anion substitution of SnBr2 (P63 /m) induced centrosymmetric (CS) to NCS structural transformation. The 3D ∞ [Sn(1)6 Sn(2)6 Br6 X6 ]6- (X=Br/S) channel framework consists of Sn(1)BrX2 and Sn(2)X3 trigonal pyramids. It exhibits excellent NLO performance, including a strong phase-matchable NLO response of 1.5 × AgGaS2 and high laser-induced damage threshold of 6.3 × AgGaS2 .Investigation of the structure-NLO performance relationship confirms that the effective arrangement of Sn(1)BrX2 and Sn(2)X3 units predominantly contributes to the large SHG response. These results indicate Sn7 Br10 S2 is a potential IR NLO candidate and provides a new feasible system for promising NLO materials.
In 2020 England moved to an opt-out deceased donation law. We aimed to investigate the views of a mixed stakeholder group comprising people with kidney disease, family members and healthcare practitioners towards the change in legislation. We investigated the expected impacts of the new legislation on deceased-donor and living-donor transplantation, and views on media campaigns regarding the law change.
We undertook in-depth qualitative interviews with people with kidney disease (n = 13), their family members(n = 4)and healthcare practitioners (n = 15). Purposive sampling was used to ensure diversity for patients and healthcare practitioners. Family members were recruited through snowball sampling and posters. Interviews were audio-recorded and transcribed verbatim. Transcripts were analysed using thematic analysis.
Three themes with six subthemes were identified (i) Expectations of impact (Hopeful patients; Cautious healthcare professionals), (ii) Living-donor transplantation (Divergent views; Unchanged clinical recommendations), (iii) Media campaigns (Single message; Highlighting recipient benefits). Patients expected the law change would result in more deceased-donor transplant opportunities.
Clinicians should ensure patients and families are aware of the current evidence regarding the impact of opt-out consent expectations of an increased likelihood of receiving a deceased-donor transplant are not currently supported by the evidence. This may help to prevent a decline in living-donor transplantation seen in other countries with similar legislation. Media campaigns should include a focus on the impact of organ receipt.
Two patient representatives from the Kidney Disease Health Integration Team, Primrose Granville and Soumeya Bouacida, contributed to the content and design of the study documents.
Two patient representatives from the Kidney Disease Health Integration Team, Primrose Granville and Soumeya Bouacida, contributed to the content and design of the study documents.
Refugees and asylum seekers arrive in the Australian community with complex health needs and expectations of healthcare systems formed from elsewhere. Navigating the primary healthcare system can be challenging with communication and language barriers. In multicultural societies, this obstacle may be removed by accessing language-concordant care. Emerging evidence suggests language-concordance is associated with more positive reports of patient experience. Whether this is true for refugees and asylum seekers and their expectation of markers of quality patient-centred care (PCC) remains to be explored. This study aimed to explore the expectations around the markers of PCC and the impacts of having language-concordant care in Australian primary healthcare.
We conducted semi-structured individual in-language (Arabic, Dari, and Tamil) remote interviews with 22 refugee and asylum seekers and 9 general practitioners (GPs). Interview transcripts were coded inductively and deductively, based on the research quest quality PCC. In addition, GPs could develop a collaborative approach, in which they explain their own decision-making processes in providing PCC to refugees and asylum seekers.
Bilingual researchers from multicultural backgrounds and experience working with people from refugee backgrounds were consulted on study design and analysis. This study included individuals with lived experiences as refugees and asylum seekers and clinicians as participants.
Bilingual researchers from multicultural backgrounds and experience working with people from refugee backgrounds were consulted on study design and analysis. This study included individuals with lived experiences as refugees and asylum seekers and clinicians as participants.
Kidney transplant is superior to dialysis for the treatment of end-stage kidney disease, but accessing transplant requires high patient engagement to overcome barriers. We sought to develop an educational counselling intervention for patients along with their social support networks to help patients access the waiting list.
Utilizing an Intervention Mapping approach, we established a conceptual framework to develop a behavioural intervention that can be reproduced across kidney transplant centres. The approach includes needs assessment, identifying behavioural determinants and process objectivesand integrating targeted behavioural change theory.
The Intervention Mapping process resulted in the development of a group counselling session, titled Journey to Transplant (JtT). This intervention was designed for kidney transplant candidates along with members of their social support networks and guided by a transplant healthcare professional. The session begins with standardized educational information to imphe implementation and pilot testing of the intervention. However, patients and family members were not involved in the intervention mapping development process itself described in this manuscript, which was informed by focus group data from patient and family study participants.
This study includes a patient and family advisory committee comprised of kidney transplant candidates and their family members to guide the final language and content of the intervention guide, and the conduct of the implementation and pilot testing of the intervention. However, patients and family members were not involved in the intervention mapping development process itself described in this manuscript, which was informed by focus group data from patient and family study participants.Root endophytes establish beneficial interactions with plants, improving holobiont resilience and fitness, but how plant immunity accommodates beneficial microbes is poorly understood. The multi-stress tolerance-inducing endophyte Enterobacter sp. SA187 triggers a canonical immune response in Arabidopsis only at high bacterial dosage (>108 CFUs ml-1 ), suggesting that SA187 is able to evade or suppress the plant defence system at lower titres. Although SA187 flagellin epitopes are recognized by the FLS2 receptor, SA187-triggered salt tolerance functions independently of the FLS2 system. In contrast, overexpression of the chitin receptor components LYK4 and LYK5 compromised the beneficial effect of SA187 on Arabidopsis, while it was enhanced in lyk4 mutant plants. Transcriptome analysis revealed that the role of LYK4 is intertwined with a function in remodelling defence responses with growth and root developmental processes. LYK4 interferes with modification of plant ethylene homeostasis by Enterobacter SA187 to boost salt stress resistance. Collectively, these results contribute to unlock the crosstalk between components of the plant immune system and beneficial microbes and point to a new role for the Lys-motif receptor LYK4 in beneficial plant-microbe interaction.Lithium (Li) metal has been considered a promising anode for next-generation high-energy-density batteries. However, the low reversibility and intricate Li loss hinder the widespread implementation of Li metal batteries. Herein, we quantitatively differentiate the dynamic evolution of inactive Li, and decipher the fundamental interplay among dynamic Li loss, electrolyte chemistry, and the structure of the solid electrolyte interphase (SEI). The actual dominant form in inactive Li loss is practically determined by the relative growth rates of dead Li0 and SEI Li+ because of the persistent evolution of the Li metal interface during cycling. Distinct inactive Li evolution scenarios are disclosed by ingeniously tuning the inorganic anion-derived SEI chemistry with a low amount of film-forming additive. An optimal polymeric film enabler of 1,3-dioxolane is demonstrated to derive a highly uniform multilayer SEI and decreased SEI Li+ /dead Li0 growth rates, thus achieving enhanced Li cycling reversibility.The atmospheric concentration of nitrous oxide (N2 O) has increased by 23% since the pre-industrial era, which substantially destructed the stratospheric ozone layer and changed the global climate. However, it remains uncertain about the reasons behind the increase and the spatiotemporal patterns of soil N2 O emissions, a primary biogenic source. Here, we used an integrative land ecosystem model, Dynamic Land Ecosystem Model (DLEM), to quantify direct (i.e., emitted from local soil) and indirect (i.e., emissions related to local practices but occurring elsewhere) N2 O emissions in the contiguous United States during 1900-2019. Newly developed geospatial data of land-use history and crop-specific agricultural management practices were used to force DLEM at a spatial resolution of 5 arc-min by 5 arc-min. The model simulation indicates that the U.S. soil N2 O emissions totaled 0.97 ± 0.06 Tg N year-1 during the 2010s, with 94% and 6% from direct and indirect emissions, respectively. Hot spots of soil N2 O emission are found in the US Corn Belt and Rice Belt. We find a threefold increase in total soil N2 O emission in the United States since 1900, 74% of which is from agricultural soil emissions, increasing by 12 times from 0.04 Tg N year-1 in the 1900s to 0.51 Tg N year-1 in the 2010s. More than 90% of soil N2 O emission increase in agricultural soils is attributed to human land-use change and agricultural management practices, while increases in N deposition and climate warming are the dominant drivers for N2 O emission increase from natural soils. Across the cropped acres, corn production stands out with a large amount of fertilizer consumption and high-emission factors, responsible for nearly two-thirds of direct agricultural soil N2 O emission increase since 1900. Our study suggests a large N2 O mitigation potential in cropland and the importance of exploring crop-specific mitigation strategies and prioritizing management alternatives for targeted crop types.
