Modelling dimercaptosuccinic acid (DMSA) plasma kinetics in humans

J.C.H. Eijkeren; J. Daniël N Olie; Sally M Bradberry; J Allister Vale; I de Vries; J Meulenbelt; CC Hunault

doi:10.1080/15563650.2016.1221508

Modelling dimercaptosuccinic acid (DMSA) plasma kinetics in humans

J.C.H. Eijkeren, J. Daniël N Olie, Sally M Bradberry, J Allister Vale, I de Vries, J Meulenbelt, CC Hunault

Clinical Toxicology

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Abstract

CONTEXT: No kinetic models presently exist which simulate the effect of chelation therapy on lead blood concentrations in lead poisoning.

OBJECTIVE: Our aim was to develop a kinetic model that describes the kinetics of dimercaptosuccinic acid (DMSA; succimer), a commonly used chelating agent, that could be used in developing a lead chelating model.

MATERIAL AND METHODS: This was a kinetic modelling study. We used a two-compartment model, with a non-systemic gastrointestinal compartment (gut lumen) and the whole body as one systemic compartment. The only data available from the literature were used to calibrate the unknown model parameters. The calibrated model was then validated by comparing its predictions with measured data from three different experimental human studies.

RESULTS: The model predicted total DMSA plasma and urine concentrations measured in three healthy volunteers after ingestion of DMSA 10 mg/kg. The model was then validated by using data from three other published studies; it predicted concentrations within a factor of two, representing inter-human variability.

CONCLUSIONS: A simple kinetic model simulating the kinetics of DMSA in humans has been developed and validated. The interest of this model lies in the future potential to use it to predict blood lead concentrations in lead-poisoned patients treated with DMSA.

Original language	English
Pages (from-to)	833-839
Number of pages	7
Journal	Clinical Toxicology
Volume	54
Issue number	9
DOIs	https://doi.org/10.1080/15563650.2016.1221508
Publication status	Published - Nov 2016

Keywords

DMSA
succimer
kinetics
modelling
chelation

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title = "Modelling dimercaptosuccinic acid (DMSA) plasma kinetics in humans",

abstract = "CONTEXT: No kinetic models presently exist which simulate the effect of chelation therapy on lead blood concentrations in lead poisoning.OBJECTIVE: Our aim was to develop a kinetic model that describes the kinetics of dimercaptosuccinic acid (DMSA; succimer), a commonly used chelating agent, that could be used in developing a lead chelating model.MATERIAL AND METHODS: This was a kinetic modelling study. We used a two-compartment model, with a non-systemic gastrointestinal compartment (gut lumen) and the whole body as one systemic compartment. The only data available from the literature were used to calibrate the unknown model parameters. The calibrated model was then validated by comparing its predictions with measured data from three different experimental human studies.RESULTS: The model predicted total DMSA plasma and urine concentrations measured in three healthy volunteers after ingestion of DMSA 10 mg/kg. The model was then validated by using data from three other published studies; it predicted concentrations within a factor of two, representing inter-human variability.CONCLUSIONS: A simple kinetic model simulating the kinetics of DMSA in humans has been developed and validated. The interest of this model lies in the future potential to use it to predict blood lead concentrations in lead-poisoned patients treated with DMSA.",

keywords = "DMSA, succimer, kinetics, modelling, chelation",

author = "J.C.H. Eijkeren and Olie, {J. Dani{\"e}l N} and Bradberry, {Sally M} and Vale, {J Allister} and {de Vries}, I and J Meulenbelt and CC Hunault",

year = "2016",

month = nov,

doi = "10.1080/15563650.2016.1221508",

language = "English",

volume = "54",

pages = "833--839",

journal = "Clinical Toxicology ",

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T1 - Modelling dimercaptosuccinic acid (DMSA) plasma kinetics in humans

AU - Eijkeren, J.C.H.

AU - Olie, J. Daniël N

AU - Bradberry, Sally M

AU - Vale, J Allister

AU - de Vries, I

AU - Meulenbelt, J

AU - Hunault, CC

PY - 2016/11

Y1 - 2016/11

N2 - CONTEXT: No kinetic models presently exist which simulate the effect of chelation therapy on lead blood concentrations in lead poisoning.OBJECTIVE: Our aim was to develop a kinetic model that describes the kinetics of dimercaptosuccinic acid (DMSA; succimer), a commonly used chelating agent, that could be used in developing a lead chelating model.MATERIAL AND METHODS: This was a kinetic modelling study. We used a two-compartment model, with a non-systemic gastrointestinal compartment (gut lumen) and the whole body as one systemic compartment. The only data available from the literature were used to calibrate the unknown model parameters. The calibrated model was then validated by comparing its predictions with measured data from three different experimental human studies.RESULTS: The model predicted total DMSA plasma and urine concentrations measured in three healthy volunteers after ingestion of DMSA 10 mg/kg. The model was then validated by using data from three other published studies; it predicted concentrations within a factor of two, representing inter-human variability.CONCLUSIONS: A simple kinetic model simulating the kinetics of DMSA in humans has been developed and validated. The interest of this model lies in the future potential to use it to predict blood lead concentrations in lead-poisoned patients treated with DMSA.

AB - CONTEXT: No kinetic models presently exist which simulate the effect of chelation therapy on lead blood concentrations in lead poisoning.OBJECTIVE: Our aim was to develop a kinetic model that describes the kinetics of dimercaptosuccinic acid (DMSA; succimer), a commonly used chelating agent, that could be used in developing a lead chelating model.MATERIAL AND METHODS: This was a kinetic modelling study. We used a two-compartment model, with a non-systemic gastrointestinal compartment (gut lumen) and the whole body as one systemic compartment. The only data available from the literature were used to calibrate the unknown model parameters. The calibrated model was then validated by comparing its predictions with measured data from three different experimental human studies.RESULTS: The model predicted total DMSA plasma and urine concentrations measured in three healthy volunteers after ingestion of DMSA 10 mg/kg. The model was then validated by using data from three other published studies; it predicted concentrations within a factor of two, representing inter-human variability.CONCLUSIONS: A simple kinetic model simulating the kinetics of DMSA in humans has been developed and validated. The interest of this model lies in the future potential to use it to predict blood lead concentrations in lead-poisoned patients treated with DMSA.

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KW - succimer

KW - kinetics

KW - modelling

KW - chelation

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DO - 10.1080/15563650.2016.1221508

M3 - Article

C2 - 27710180

SN - 1556-3650

VL - 54

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EP - 839

JO - Clinical Toxicology

JF - Clinical Toxicology

IS - 9

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Modelling dimercaptosuccinic acid (DMSA) plasma kinetics in humans

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Keywords

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