Pharmacokinetics imaging for confident drug development
See how compounds move through biological systems, so you can optimize dosing, understand biodistribution, and make stronger development decisions earlier.
MILabs supports pharmacokinetics research by its unique stationary detector design, enabling gyro-free ultra-fast dynamic, high resolution, quantitative imaging of drug behavior in vivo. By visualizing absorption, distribution, metabolism, and elimination noninvasively over time, researchers can generate reliable insight that strengthens candidate selection and reduces uncertainty in preclinical development.
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MILabs imaging systems for pharmacokinetics research
Interpret drug behavior with higher dynamic speed and greater clarity, enabled by stationary, gyro-free detector architecture and exceptional sensitivity without sacrificing resolution.
MILabs imaging platforms allow researchers to detect and quantify labeled compounds at very low concentrations in vivo. Stationary detector design eliminates the need for rotation, enabling fast dynamic acquisition with high temporal precision, while high sensitivity combined with sub-millimeter resolution ensures clear, quantitative datasets. Flexible molecular and anatomical configurations support whole-body kinetic studies and reproducible pharmacokinetic analysis across a wide range of compound classes.
Benefits of MILabs systems for pharmacokinetics research
Ultra-high-resolution, quantitative imaging
Resolve subtle differences in compound distribution, so you can compare candidates and dosing strategies with confidence.
Ultra-fast and high resolution molecular imaging enables precise quantification of tracer-labeled compounds and metabolites, supporting accurate pharmacokinetic modeling and improved decision-making.
Dynamic, real-time whole-body insight
Follow compound behavior as it unfolds, without disrupting biological systems.
Ultra-fast, non-invasive imaging supports true dynamic studies, allowing researchers to track uptake, clearance, and redistribution across organs in real time while maintaining temporal fidelity.
Integrated molecular and anatomical workflows
Reduce uncertainty by correlating molecular signals with anatomical context.
By combining molecular imaging with anatomical reference data in a single workflow, researchers can generate aligned 3D and 4D datasets that strengthen interpretation and streamline pharmacokinetic studies.
Hear from the experts
In vivo immune cell tracking and dosimetry
Dr. Janik Puttemans (Vrije Universiteit Brussel) presents how integrated molecular imaging workflows support organ-specific dosimetry and immune cell tracking in vivo using MILabs systems.
Pharmacokinetics of antibiotics and antimicrobials
In this webinar, Professor Vesna Sossi (University of British Columbia, Canada) discusses how molecular imaging supports investigation of delivery mechanisms and pharmacokinetics of antibiotics and antimicrobials in vivo.