Predictive Toxicity: Toxicokinetics Evaluation in Preclinical Studies

In the complex landscape of drug development, the role of toxicokinetics evaluation within preclinical studies is pivotal. At Porsolt, we specialize in predictive toxicity, offering comprehensive and nuanced assessments that are essential for the safety and efficacy of new pharmaceuticals.

The Critical Role of Toxicokinetics in Preclinical Studies

Toxicokinetics is integral to safety pharmacology and toxicology, providing insights into how a substance is absorbed, distributed, metabolized, and excreted by the body. This knowledge is crucial for understanding the potential toxic effects of a drug across various concentrations and exposure durations.

SCROLL

Predictive Toxicity

PREDICTIVE TOXICITY

Cardiotoxicity

In the realm of safety pharmacology and toxicology, cardiotoxicity refers to the harmful impact a drug can have on heart muscle and tissue, an effect that is critically assessed through various routes during toxicokinetics evaluation in preclinical studies.

IN VITRO MODELS

Comprehensive in vitro Proarrhythmia Assay (CiPA):

Electrophysiology measurement (conventional manual patch-clamp) Cardiac ion channels
Proarrhythmic risk assessment (MEA & Calcium transient assay) human-induced pluripotent stem cell-derived cardiomyocytes (hiPSC-CMs)

Drug Induced Vascular Injury

Drug Induced Vascular Injury (DIVI)

Search and Publications Catalog Contact Us Close

In preclinical toxicity studies, Drug-Induced Vascular Injury (DIVI) is characterized by damage to endothelial and smooth muscle cells, often resulting from systemic exposure to a drug and its pharmacokinetics (PK).

IN VITRO MODELS
Cell toxicity HUVEC
Coagulation impairment Tissue Factor and Thrombomodulin HUVEC
Leucocyte recruitment VCAM-1, E-Selectin and ICAM-1 HUVEC

Gastrointestinal System

In the drug development process, the gastrointestinal system's response, particularly in preclinical toxicology, is crucial as it often manifests side effects due to metabolites of orally absorbed drugs.

IN VITRO MODELS
Gastric mucosal cell damage Primary Rat gastric mucosal cells

General Toxicity

General Toxicity, encompassing both acute and preliminary chronic toxicity tests, plays a vital role in toxicokinetics evaluation in preclinical studies. It utilizes analytical methods to analyze toxicokinetic data, helping to define and characterize the intrinsic toxicity of new substances.

IN VIVO MODELS
Acute toxicity Rat – Mouse – Dog – Mini-pig
Preliminary chronic toxicity Rat – Mouse

Hepatotoxicity

Hepatotoxicity, a key focus in pharmacokinetics and in vitro toxicity studies, refers to the injury or damage inflicted on the liver due to exposure to a substance.

IN VITRO MODELS
Cholestasis & bile canaliculi network Primary hepatocytes (R) sandwich configuration
Cytolysis (2D & 3D) Primary hepatocytes (H,R & M) and HepG2
Oxidative stress: Glutathione (GSH) depletion Primary hepatocytes (H & R) and HepG2
Phospholipidosis Primary hepatocytes (H & R) and HepG2
Steatosis: intracellular lipid accumulation triglycerides Primary hepatocytes (H & R) and HepG2

Nephrotoxicity

Nephrotoxicity, often identified in GLP toxicology studies, refers to the deterioration or damage to kidney function, as revealed by toxicokinetic data following exposures to a substance.

IN VITRO MODELS
Cytolysis Primary human renal proximal tubule epithelial cells Human renal proximal tubule epithelial cell line (HK-2) MDCK-II, CRFK,…
Lysosomal activity Primary human renal proximal tubule epithelial cells Human renal proximal tubule epithelial cell line (HK-2)
Mitochondrial membrane potential Primary human renal proximal tubule epithelial cells Human renal proximal tubule epithelial cell line (HK-2)

Neurotoxicity

Neurotoxicity, a critical concern in Toxicokinetics evaluation in preclinical studies, involves the adverse effects on neural function or structure, often assessed through analyses of tissue, blood and plasma.

IN VITRO MODELS
Cytolysis Primary neurons (R,M) cell lines
Excitotoxicity Calcium measurement Primary neurons (R,M) cell lines
Mitochondrial membrane potential Primary neurons (R,M) cell lines
Neurite outgrowth Primary neurons (R,M) cell lines

Skin Toxicity

Skin toxicity, often assessed through various exposures and analytical methods, refers to the damage or deterioration of skin tissue, as seen in in vitro and plasma studies.

IN VITRO MODELS
Cytotoxicity - Cell viability 3T3 & L929 fibroblasts
Ocular irritation (HET-CAM) Chicken egg
Skin irritation Reconstituted human epidermis
Skin sensitization Monocyte cell line (THP1)

Safety Pharmacology and Toxicology: The Bedrock of Drug Safety

Our approach seamlessly blends safety pharmacology with toxicology, forming the bedrock of our preclinical toxicity studies. This integration is key to assessing the risk of adverse effects and establishing a comprehensive toxicological profile.

Porsolt’s preclinical toxicology services extend beyond standard assessments. We employ a range of methodologies, both in vitro and in vivo, to thoroughly evaluate the toxicological responses and predict human reactions.

We conduct studies under Good Laboratory Practice (GLP) conditions, adhering to the stringent protocols of GLP pharmacology, thereby ensuring that our data meets the highest standards of quality and regulatory compliance.

 

Porsolt’s Approach to Predictive Toxicity in Drug Development

At Porsolt, we approach predictive toxicity with a deep sense of responsibility and a commitment to scientific rigor. Our team, utilizing state-of-the-art technology and advanced methodologies, is focused on providing thorough toxicokinetics evaluations.

Our methodology incorporates the latest techniques to precisely analyze toxicokinetic readouts. This meticulous approach is fundamental in aiding the development of drugs that are both safer and more effective.

 

Collaborative Efforts in Enhancing Drug Safety

We believe in a collaborative approach, working closely with our clients to fully understand and address their specific needs. This partnership is key to devising customized solutions that enhance the overall safety of the drug development process.

The evaluation of toxicokinetics in preclinical studies is an essential aspect of developing safer drugs. At Porsolt, we are committed to this field, offering comprehensive services in predictive toxicity. Our dedication to scientific excellence and innovative approaches makes us more than just a service provider; we are a partner committed to the successful development of safe and effective pharmaceuticals.

Porsolt

Z.A. de Glatigné
53940 Le Genest-Saint-Isle, France
Telephone +33 2 43 69 36 07

LinkedIn
Legal Notice

Any questions or concerns ?

CONTACT US