Introduction to clinical toxicology

F. Baud; P. Houzé

DOI:10.1016/b978-0-12-813602-7.00030-2
Corpus ID: 214319872

Introduction to clinical toxicology

@inproceedings{Baud2020IntroductionTC,
  title={Introduction to clinical toxicology},
  author={Fr{\'e}d{\'e}ric Joseph Baud and Pascal Houz{\'e}},
  year={2020}
}

F. Baud, P. Houzé
Published 2020
Medicine, Biology

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References

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Toxicodynetics: A new discipline in clinical toxicology.

F. Baud, P. Houze, A. Villa, S. Borron, P. Carli
Medicine, Biology
Annales pharmaceutiques francaises
2016

Novel Clinical Toxicology and Pharmacology of Organophosphorus Insecticide Self-Poisoning.

M. Eddleston
Biology, Medicine
Annual review of pharmacology and toxicology
2019

Variability between organophosphorus insecticides results in variable speed of poisoning onset, severity, clinical toxidrome, and case fatality, and more effort is required to test treatments in adequately powered studies.

Toxicodynetics in nordiazepam and oxazepam overdoses.

L. Sacre, S. M. Ali, F. Baud
Medicine
Annales pharmaceutiques francaises
2017

An epidemic of dystonic reactions in central Africa.

N. Peyraud, F. Rafael, P. Newton
Medicine
The Lancet. Global health
2017

Pharmacokinetics and toxicodynamics of pralidoxime effects on paraoxon-induced respiratory toxicity.

P. Houzé, D. Mager, P. Risède, F. Baud
Biology, Medicine
Toxicological sciences : an official journal of the Society of Toxicology
2010

Insight is provided into the role of oxime-rescue of paraoxon-induced toxicity, and the final PK-TD model might prove useful in optimizing the design and development of such therapy.

High Dose of Pralidoxime Reverses Paraoxon-Induced Respiratory Toxicity in Mice.

P. Houzé, Thomas Berthin, J. Raphalen, A. Hutin, J. F. Baud
Medicine, Biology
Turkish journal of anaesthesiology and reanimation
2018

It is shown that pralidoxime induced a complete but concentration-dependent reversal of paraoxon-induced respiratory toxicity in mice, and the dose dependency of reversal suggests that further studies are needed for assessing plasma concentrations of pralid oxime resulting in reversal of toxicity.

Adolescent with prolonged toxidrome

Jami Johnson, K. Williams, W. Banner
Medicine
Clinical toxicology
2017

Though bezoar formation is a rare clinical scenario, it is one that toxicologists must consider in patients with clinical courses that persist far beyond expected based on known toxicokinetic principles.

Toxic doses of paraoxon alter the respiratory pattern without causing respiratory failure in rats.

A. Villa, P. Houzé, F. Baud
Medicine, Biology
Toxicology
2007

Acute renal failure enhances the antidotal activity of pralidoxime towards paraoxon-induced respiratory toxicity.

M. Kayouka, P. Houzé, M. Debray, F. Baud
Medicine, Biology
Toxicology letters
2009

Does modulation of organic cation transporters improve pralidoxime activity in an animal model of organophosphate poisoning?*

M. Kayouka, P. Houzé, J. Warnet
Biology, Medicine
Critical care medicine
2011

Modulation of organic cation transporter activity increased the plasma pralidoxime concentrations and the antidotal effect of pralid oxime with sustained return within the normal range of respiratory variables in paraoxon-poisoned rats, suggesting a promising approach in an animal model toward the increase in efficiency of pridaloxime.

Introduction to clinical toxicology

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