Pharmacokinetics of Single Domain Antibodies and Conjugated Nanoparticles Using a Hybrid near Infrared Method.
Shiran SuThomas J EsparzaDuong NguyenSimone MastrogiacomoJoong H KimDavid L BrodyPublished in: International journal of molecular sciences (2021)
Iron oxide nanoparticles and single domain antibodies from camelids (VHHs) have been increasingly recognized for their potential uses for medical diagnosis and treatment. However, there have been relatively few detailed characterizations of their pharmacokinetics (PK). The aim of this study was to develop imaging methods and pharmacokinetic models to aid the future development of a novel family of brain MRI molecular contrast agents. An efficient near-infrared (NIR) imaging method was established to monitor VHH and VHH conjugated nanoparticle kinetics in mice using a hybrid approach: kinetics in blood were assessed by direct sampling, and kinetics in kidney, liver, and brain were assessed by serial in vivo NIR imaging. These studies were performed under "basal" circumstances in which the VHH constructs and VHH-conjugated nanoparticles do not substantially interact with targets nor cross the blood brain barrier. Using this approach, we constructed a five-compartment PK model that fits the data well for single VHHs, engineered VHH trimers, and iron oxide nanoparticles conjugated to VHH trimers. The establishment of the feasibility of these methods lays a foundation for future PK studies of candidate brain MRI molecular contrast agents.
Keyphrases
- photodynamic therapy
- iron oxide nanoparticles
- high resolution
- contrast enhanced
- fluorescence imaging
- white matter
- resting state
- magnetic resonance
- magnetic resonance imaging
- current status
- healthcare
- cerebral ischemia
- multiple sclerosis
- single molecule
- big data
- diffusion weighted imaging
- brain injury
- fluorescent probe
- drug delivery
- electronic health record
- blood brain barrier
- subarachnoid hemorrhage