geoorigins
            : A new method and
            r
            package for trait mapping and geographic provenancing of specimens without categorical constraints

Background: Understanding whether and which microbes played a mediating role between an exposure and a disease outcome are essential for researchers to develop clinical interventions to treat the disease by modulating the microbes. Existing methods for mediation analysis of the microbiome are often limited to a global test of community-level mediation or selection of mediating microbes without control of the false discovery rate (FDR). Further, while the null hypothesis of no mediation at each microbe is a composite null that consists of three types of null (no exposure-microbe association, no microbe-outcome association given the exposure, or neither), most existing methods for the global test such as MedTest and MODIMA treat the microbes as if they are all under the same type of null. Methods: We propose a new approach based on inverse regression that regresses the (possibly transformed) relative abundance of each taxon on the exposure and the exposure-adjusted outcome to assess the exposure-taxon and taxon-outcome associations simultaneously. Then the association p-values are used to test mediation at both the community and individual taxon levels. This approach fits nicely into our Linear Decomposition Model (LDM) framework, so our new method is implemented in the LDM and enjoys all the features of the LDM, i.e., allowing an arbitrary number of taxa to be tested, supporting continuous, discrete, or multivariate exposures and outcomes as well as adjustment of confounding covariates, accommodating clustered data, and offering analysis at the relative abundance or presence-absence scale. We refer to this new method as LDM-med. Results: Using extensive simulations, we showed that LDM-med always controlled the type I error of the global test and had compelling power over existing methods; LDM-med always preserved the FDR of testing individual taxa and had much better sensitivity than alternative approaches. In contrast, MedTest and MODIMA had severely inflated type I error when different taxa were under different types of null. The flexibility of LDM-med for a variety of mediation analyses is illustrated by the application to a murine microbiome dataset. Availability and Implementation: Our new method has been added to our R package LDM, which is available on GitHub at https://github.com/yijuanhu/LDM.

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Hydrograph separation: an impartial parametrisation for an imperfect method

Hydrology and Earth System Sciences ◽

10.5194/hess-24-1171-2020 ◽

2020 ◽

Vol 24 (3) ◽

pp. 1171-1187 ◽

Cited By ~ 3

Author(s):

Antoine Pelletier ◽

Vazken Andréassian

Keyword(s):

Response Time ◽

R Package ◽

New Method ◽

Hydrograph Separation ◽

Reservoir Capacity ◽

Good Match ◽

Split Sample ◽

Sample Test ◽

Two Parameters

Abstract. This paper presents a new method for hydrograph separation. It is well-known that all hydrological methods aiming at separating streamflow into baseflow – its slow or delayed component – and quickflow – its non-delayed component – present large imperfections, and we do not claim to provide here a perfect solution. However, the method described here is at least (i) impartial in the determination of its two parameters (a quadratic reservoir capacity and a response time), (ii) coherent in time (as assessed by a split-sample test) and (iii) geologically coherent (an exhaustive validation on 1664 French catchments shows a good match with what we know of France's hydrogeology). With these characteristics, the method can be used to perform a general assessment of hydroclimatic memory of catchments. Last, an R package is provided to ensure reproducibility of the results presented.

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AstroDot: a new method for studying the spatial distribution of mRNA in astrocytes

10.1101/765784 ◽

2019 ◽

Cited By ~ 1

Author(s):

Marc Oudart ◽

Romain Tortuyaux ◽

Philippe Mailly ◽

Noémie Mazaré ◽

Anne-Cécile Boulay ◽

...

Keyword(s):

Alzheimer’S Disease ◽

Alzheimer's Disease ◽

Large Subunit ◽

Three Dimensional ◽

R Package ◽

New Method ◽

Mrna Levels ◽

Model Of Alzheimer’S Disease ◽

Confocal Images ◽

Amyloid Aβ

AbstractCells with a complex shape often use mRNA distribution and local translation to regulate distal functions. These mechanisms have recently been described in astrocytes, the processes of which contact and functionally modulate neighbouring synapses and blood vessels. In order to study the distribution of mRNA in astrocytes, we developed a three-dimensional histological method that combines mRNA detection viain situhybridization with immunostaining of the astrocyte-specific intermediate filament glial fibrillary acidic protein (GFAP). Three-dimensional confocal images were analyzed using AstroDot, a custom Image J plug-in developed in-house for the identification and quantification of mRNAs in GFAP-immunolabelled astrocyte somata, large processes and fine processes. The custom R package AstroStat was used to analyze the AstroDot results. Taking the characterization of mRNAs encoding the astrocyte-specific GFAP α and δ isoforms in the hippocampus as a proof of concept, we showed thatGfapα andGfapδ mRNAs mainly colocalized with GFAP in astrocyte processes.Gfapα mRNA was more abundant thanGfapδ mRNA, and was predominantly found in fine processes. Upon glial activation in the APPswe/PS1dE9 mouse model of Alzheimer’s disease, the same overall patterns were found but we noted strong variations inGfapα andGfapδ mRNA density and distribution as a function of the part of the hippocampus and the astrocyte’s proximity to beta-amyloid (Aβ) plaques. In astrocytes not associated with Aβ, Gfap α mRNA levels were only slightly elevated, and Gfap δ mRNA was distributed within the fine processes; these effects were more prominent in CA3 than in CA1. In contrast, levels of both mRNAs were markedly elevated in the fine processes of Aβ-associated astrocytes in both CA1 and CA3. In order to validate our new method, we confirmed thatRpl4mRNA (a ubiquitously expressed mRNA encoding the large subunit ribosomal protein 4) was present in large and fine processes in both astrocytes and microglia. In summary, we have developed a novel, reliable set of tools for characterizing mRNA densities and distributions in the somata and processes of astrocytes and microglia in physiological or pathological settings. Furthermore, our results suggest that intermediate filaments are crucial for distributing mRNA within astrocytes and for modulating specificGfapmRNA profiles in Alzheimer’s disease.

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Hydrograph separation: an impartial parametrization for an imperfect method

10.5194/hess-2019-503 ◽

2019 ◽

Cited By ~ 1

Author(s):

Antoine Pelletier ◽

Vazken Andréassian

Keyword(s):

Response Time ◽

R Package ◽

New Method ◽

Hydrograph Separation ◽

Reservoir Capacity ◽

Good Match ◽

Split Sample ◽

Sample Test ◽

Two Parameters

Abstract. This paper presents a new method for hydrograph separation. It is well-known that all hydrological methods aiming at separating streamflow into baseflow and quickflow present large imperfections, and we do not claim to provide here a perfect solution. However, the method described here is at least (i) impartial in the determination of its two parameters (a quadratic reservoir capacity and a response time), (ii) coherent in time (as assessed by a split-sample test) and (iii) geologically coherent (an exhaustive validation on 1,664 French catchments shows a good match with what we know of France's hydrogeology). Last, an R package is provided to ensure reproducibility of the results presented.

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Generalized causal mediation and path analysis: Extensions and practical considerations

Statistical Methods in Medical Research ◽

10.1177/0962280218776483 ◽

2018 ◽

Vol 28 (6) ◽

pp. 1793-1807 ◽

Cited By ~ 5

Author(s):

Jeffrey M Albert ◽

Jang Ik Cho ◽

Yiying Liu ◽

Suchitra Nelson

Keyword(s):

Path Analysis ◽

Mediation Analysis ◽

Linear Models ◽

Reference Group ◽

Specific Effect ◽

R Package ◽

Companion Paper ◽

New Method ◽

Causal Mediation ◽

Causal Mediation Analysis

Causal mediation analysis seeks to decompose the effect of a treatment or exposure among multiple possible paths and provide casually interpretable path-specific effect estimates. Recent advances have extended causal mediation analysis to situations with a sequence of mediators or multiple contemporaneous mediators. However, available methods still have limitations, and computational and other challenges remain. The present paper provides an extended causal mediation and path analysis methodology. The new method, implemented in the new R package, gmediation (described in a companion paper), accommodates both a sequence (two stages) of mediators and multiple mediators at each stage, and allows for multiple types of outcomes following generalized linear models. The methodology can also handle unsaturated models and clustered data. Addressing other practical issues, we provide new guidelines for the choice of a decomposition, and for the choice of a reference group multiplier for the reduction of Monte Carlo error in mediation formula computations. The new method is applied to data from a cohort study to illuminate the contribution of alternative biological and behavioral paths in the effect of socioeconomic status on dental caries in adolescence.

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Selective Sampling and Orientation of Non-Homogeneous Tissues

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100100238 ◽

1968 ◽

Vol 26 ◽

pp. 98-99

Author(s):

C. C. Clawson ◽

L. W. Anderson ◽

R. A. Good

Keyword(s):

Electron Microscopy ◽

Electron Microscope ◽

Light Microscopy ◽

Random Sampling ◽

New Method ◽

Microscope Examination ◽

Small Areas ◽

Selective Sampling ◽

Large Numbers ◽

Specific Orientation

Investigations which require electron microscope examination of a few specific areas of non-homogeneous tissues make random sampling of small blocks an inefficient and unrewarding procedure. Therefore, several investigators have devised methods which allow obtaining sample blocks for electron microscopy from region of tissue previously identified by light microscopy of present here techniques which make possible: 1) sampling tissue for electron microscopy from selected areas previously identified by light microscopy of relatively large pieces of tissue; 2) dehydration and embedding large numbers of individually identified blocks while keeping each one separate; 3) a new method of maintaining specific orientation of blocks during embedding; 4) special light microscopic staining or fluorescent procedures and electron microscopy on immediately adjacent small areas of tissue.

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