AI Article Synopsis
- A two-pore PBPK model was developed and initially validated using plasma pharmacokinetic (PK) data of various antibody fragments.
- Whole-body biodistribution studies were performed on six different-sized proteins in mice to assess tissue distribution across a range of molecular weights from 13 to 150 kDa.
- The model showed reliable predictions of plasma and tissue distribution, indicating its potential as a foundation for future generic PBPK models for protein therapeutics.
Article Abstract
In the past, our lab proposed a two-pore PBPK model for different-size protein therapeutics using de novo derived parameters and the model was validated using plasma PK data of different-size antibody fragments digitized from the literature (Li Z, Shah DK, J Pharmacokinet Pharmacodynam 46(3):305-318, 2009). To further validate the model using tissue distribution data, whole-body biodistribution study of 6 different-size proteins in mice were conducted. Studied molecules covered a wide MW range (13-150 kDa). Plasma PK and tissue distribution profiles is 9 tissues were measured, including heart, lung, liver, spleen, kidney, skin, muscle, small intestine, large intestine. Tumor exposure of different-size proteins were also evaluated. The PBPK model was validated by comparing percentage predictive errors (%PE) between observed and model predicted results for each type of molecule in each tissue. Model validation showed that the two-pore PBPK model was able to predict plasma, tissues and tumor PK of all studied molecules relatively well. This model could serve as a platform for developing a generic PBPK model for protein therapeutics in the future.
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| http://dx.doi.org/10.1007/s10928-021-09772-x | DOI Listing |
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