Retention Models for Ions in HPLC

Background There is significant variability in poststroke locomotor learning that is poorly understood and affects individual responses to rehabilitation interventions. Cognitive abilities relate to upper extremity motor learning in neurologically intact adults, but have not been studied in poststroke locomotor learning. Objective To understand the relationship between locomotor learning and retention and cognition after stroke. Methods Participants with chronic (>6 months) stroke participated in 3 testing sessions. During the first session, participants walked on a treadmill and learned a new walking pattern through visual feedback about their step length. During the second session, participants walked on a treadmill and 24-hour retention was assessed. Physical and cognitive tests, including the Fugl-Meyer-Lower Extremity (FM-LE), Fluid Cognition Composite Score (FCCS) from the NIH Toolbox -Cognition Battery, and Spatial Addition from the Wechsler Memory Scale-IV, were completed in the third session. Two sequential regression models were completed: one with learning and one with retention as the dependent variables. Age, physical impairment (ie, FM-LE), and cognitive measures (ie, FCCS and Spatial Addition) were the independent variables. Results Forty-nine and 34 participants were included in the learning and retention models, respectively. After accounting for age and FM-LE, cognitive measures explained a significant portion of variability in learning ( R2 = 0.17, P = .008; overall model R2 = 0.31, P = .002) and retention (Δ R2 = 0.17, P = .023; overall model R2 = 0.44, P = .002). Conclusions Cognitive abilities appear to be an important factor for understanding locomotor learning and retention after stroke. This has significant implications for incorporating locomotor learning principles into the development of personalized rehabilitation interventions after stroke.

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Soil Cd, Cr, Cu, Ni, Pb and Zn sorption and retention models using SVM: Variable selection and competitive model

The Science of The Total Environment ◽

10.1016/j.scitotenv.2017.03.195 ◽

2017 ◽

Vol 593-594 ◽

pp. 508-522 ◽

Cited By ~ 18

Author(s):

J.J. González Costa ◽

M.J. Reigosa ◽

J.M. Matías ◽

E.F. Covelo

Keyword(s):

Variable Selection ◽

Retention Models ◽

Competitive Model ◽

Soil Cd

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Retention models and interaction mechanisms of benzene and other aromatic molecules with an amylose-based sorbent

Journal of Chromatography A ◽

10.1016/j.chroma.2017.03.011 ◽

2017 ◽

Vol 1494 ◽

pp. 55-64 ◽

Cited By ~ 5

Author(s):

Han-Yu Hsieh ◽

Shyuan-Guey Wu ◽

Hung-Wei Tsui

Keyword(s):

Retention Models ◽

Interaction Mechanisms ◽

Aromatic Molecules

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Development and Validation of Retention Models in Supercritical Fluid Chromatography for Impregnation Process Design

Applied Sciences ◽

10.3390/app11157106 ◽

2021 ◽

Vol 11 (15) ◽

pp. 7106

Author(s):

Miaotian Sun ◽

Zeynep Ülker ◽

Zhixing Chen ◽

Sivaraman Deeptanshu ◽

Monika Johannsen ◽

...

Keyword(s):

Supercritical Fluid ◽

Supercritical Fluid Chromatography ◽

Stationary Phases ◽

Retention Factor ◽

Retention Mechanism ◽

Retention Data ◽

Retention Models ◽

Retention Factors ◽

Polar Solutes ◽

Porous Matrices

The retention factor is the key quantity for the thermodynamic analysis of the retention mechanism in chromatographic experiments. In this work, we measure retention factors for moderately polar solutes on four silica-based porous matrices as stationary phases by supercritical fluid chromatography. Elution of the solutes is only possible with binary mixtures of supercritical carbon dioxide (sc-CO2) and modifier (methanol) due to the low polarity of pure sc-CO2. The addition of modifiers makes the retention mechanism more complex and masks interactions between solute and stationary phase. In this work, we develop and validate several retention models that allow the obtaining of retention factors in modifier-free sc-CO2. Such models pave the way for quantifying adsorption interactions between polar solutes and non-swellable porous matrices in pure sc-CO2 based on retention data obtained in sc-CO2/modifier mixtures. The obtained information will thereby facilitate the understanding and design of impregnation processes, which are often performed in modifier-free conditions.

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Investigating Fast- and Slow-settling Phosphorus Fractions in Lakes using Steady-state Modeling

10.5194/egusphere-egu21-13910 ◽

2021 ◽

Author(s):

Hamed Khorasani ◽

Zhenduo Zhu

Keyword(s):

Steady State ◽

Mass Balance ◽

Large Scale ◽

Hydraulic Residence Time ◽

Simple Method ◽

Retention Models ◽

Mass Balance Models ◽

Limiting Nutrient ◽

Fast Settling ◽

P Retention

<p>Phosphorus (P) is the key and limiting nutrient in the eutrophication of freshwater resources. Modeling P retention in lakes using steady-state mass balance models (i.e. Vollenweider-type models) provides insights into the lake P management and a simple method for large-scale assessments of P in lakes. One of the basic problems in the mass balance modeling of P in lakes is the removal of P from the lake water column by settling. A fraction of the incoming P into the lake from the watershed is associated with fast-settling particles (e.g. sediment particles) that result in the removal of that fraction of P quickly at the lake entrance. However, existing models considering a constant fraction of fast-settling TP for all lakes are shown to result in overestimation of the retention of P in lakes with short hydraulic residence time. In this study, we combine a hypothesis of the fast- and slow-settling P fractions into the steady-state mass balance models of P retention in lakes. We use a large database of lakes to calibrate the model and evaluate the hypothesis. The results of this work can be used for the improvement of the prediction power of P retention models in lakes and help to better understand the processes of P cycling in lakes.</p>

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A New Approach in Comparison and Evaluation of the Overall Accuracy of Six Soil-Water Retention Models Using Statistical Benchmarks and Fuzzy Method

Eurasian Soil Science ◽

10.1134/s1064229321050136 ◽

2021 ◽

Vol 54 (5) ◽

pp. 716-728

Author(s):

Mohammad Nakhaei ◽

Amin Mohebbi Tafreshi ◽

Ghazaleh Mohebbi Tafreshi

Keyword(s):

Soil Water ◽

Water Retention ◽

Soil Water Retention ◽

New Approach ◽

Fuzzy Method ◽

Retention Models

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VSR Models of Change as Normative Practical Theory

The Oxford Handbook of Organizational Change and Innovation ◽

10.1093/oxfordhb/9780198845973.013.18 ◽

2021 ◽

pp. 495-528

Author(s):

Cara C. Maurer ◽

Anne S. Miner ◽

Mary Crossan

Keyword(s):

Computational Models ◽

Change Agents ◽

Organization Change ◽

Normative Theory ◽

Change Processes ◽

Individual Change ◽

Retention Models ◽

Rational Decision Making ◽

Practical Tool ◽

Day To Day Operations

This chapter offers a counterpoint to increasingly complex computational models of evolutionary change processes at higher levels of analysis. It explores the value of internal VSR (Variation-Selection-Retention) models as practical tools for managers. Individual change agents may actively and deliberately influence each of the three core internal processes and their balance and connect them with external VSR processes. Individuals may shape the organization’s current and potential future contexts beyond mere external adaptation to creation of novel future states. Broadening traditional assumptions of top-down rational decision-making, we include the potential of human imagination, and emotions of individuals and groups as engines of change as improvements to existing internal VSR models. A normative theory of internal VSR processes offers a practical tool for day-to-day operations of agents interested in understanding and affecting organization change. We encourage academics to bring renewed enthusiasm to teaching internal VSR models of change to practicing managers.

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