Alex Sinclair scite author profile

Loss of microbial diversity is considered a major threat because of its importance for ecosystem functions, but there is a lack of conclusive evidence that diversity itself is reduced under anthropogenic stress, and about the consequences of diversity loss. Heavy metals are one of the largest, widespread pollutant types globally, and these represent a significant environmental stressor for terrestrial microbial communities. Using combined metagenomics and functional assays, we show that the compositional and functional response of microbial communities to long-term heavy metal stress results in a significant loss of diversity. Our results indicate that even at a moderate loss of diversity, some key specialized functions (carried out by specific groups) may be compromised. Together with previous work, our data suggest disproportionate impact of contamination on microbes that carry out specialized, but essential, ecosystem functions. Based on these findings, we propose a conceptual framework to explicitly consider diversity of functions and microbial functional groups to test the relationship between biodiversity and soil functions.

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A new era for giant cell arteritis

Lyons

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Sinclair

et al. 2019

Eye

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The landscape of the investigation and management of giant cell arteritis (GCA) is advancing. In this review we will outline the recent advances by searching the current English literature for relevant articles using key words of giant cell arteritis, temporal arteritis, Horton's disease, investigation, and treatment. Delay in diagnosis, diagnostic uncertainty and glucocorticoid (GC) morbidity are among the highest concerns of clinicians and patients in this disease area. The positive news is that fast track pathways, imaging techniques and new therapies are emerging for routine management of GCA. Future directions for intervention in the treatment paradigm will be discussed.

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Comparisons between Haydeeite, α-Cu₃Mg(OD)₆Cl₂, and Kapellasite, α-Cu₃Zn(OD)₆Cl₂, Isostructural S = 1/2 Kagome Magnets

2010

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The search for new S = 1/2 kagome antiferromagnets has been an ongoing challenge for the researchers interested in frustrated magnetism. Intrigue has surrounded these materials since the proposal that the high frustration of the kagome antiferromagnet and quantum fluctuations could prevent the formation of conventional Néel order and allow the formation of the resonating valence bond (RVB) state at low temperatures. There remain relatively few examples of S = 1/2 kagome magnets with crystal structures that have 3-fold symmetry, as many feature distortions that lower the crystal symmetry to monoclinic and reduce the degeneracy of the kagome lattice. In this article, we detail the synthesis and preliminary magnetic investigations of a new quantum kagome magnet, haydeeite, α-Cu3Mg(OH)6Cl2. Comparisons with the isomagnetic and isostructural analogue kapellasite, α-Cu3Zn(OH)6Cl2, are discussed.

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Topiramate is more effective than acetazolamide at lowering intracranial pressure

et al. 2018

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Background The management of idiopathic intracranial hypertension focuses on reducing intracranial pressure to preserve vision and reduce headaches. There is sparse evidence to support the use of some of the drugs commonly used to manage idiopathic intracranial hypertension, therefore we propose to evaluate the efficacy of these drugs at lowering intracranial pressure in healthy rats. Methods We measured intracranial pressure in female rats before and after subcutaneous administration of acetazolamide, topiramate, furosemide, amiloride and octreotide at clinical doses (equivalent to a single human dose) and high doses (equivalent to a human daily dose). In addition, we measured intracranial pressure after oral administration of acetazolamide and topiramate. Results At clinical and high doses, subcutaneous administration of topiramate lowered intracranial pressure by 32% ( p = 0.0009) and 21% ( p = 0.015) respectively. There was no significant reduction in intracranial pressure noted with acetazolamide, furosemide, amiloride or octreotide at any dose. Oral administration of topiramate significantly lowered intracranial pressure by 22% ( p = 0.018), compared to 5% reduction with acetazolamide ( p = >0.999). Conclusion Our in vivo studies demonstrated that both subcutaneous and oral administration of topiramate significantly lowers intracranial pressure. Other drugs tested, including acetazolamide, did not significantly reduce intracranial pressure. Future clinical trials evaluating the efficacy and side effects of topiramate in idiopathic intracranial hypertension patients would be of interest.

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Alex Sinclair

Loss of microbial diversity in soils is coincident with reductions in some specialized functions

A new era for giant cell arteritis

Comparisons between Haydeeite, α-Cu₃Mg(OD)₆Cl₂, and Kapellasite, α-Cu₃Zn(OD)₆Cl₂, Isostructural S = 1/2 Kagome Magnets

Topiramate is more effective than acetazolamide at lowering intracranial pressure

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About

Alex Sinclair

Loss of microbial diversity in soils is coincident with reductions in some specialized functions

A new era for giant cell arteritis

Comparisons between Haydeeite, α-Cu3Mg(OD)6Cl2, and Kapellasite, α-Cu3Zn(OD)6Cl2, Isostructural S = 1/2 Kagome Magnets

Topiramate is more effective than acetazolamide at lowering intracranial pressure

Contact Info

Product

Resources

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Comparisons between Haydeeite, α-Cu₃Mg(OD)₆Cl₂, and Kapellasite, α-Cu₃Zn(OD)₆Cl₂, Isostructural S = 1/2 Kagome Magnets