Search the PBPK Model Repository

Quickly find freely available drug and population models in our PBPK model repository.

The models provided have been collated from published examples which authors have shared in our Published Model Collection or developed as part of various global health projects in our Global Health Collection. This search facility searches both model collections simultaneously.

To contribute published user compound and/or population files, upload your files here: Upload Model Files

Searching Tips

You can use a * character as a wildcard at the end of a alphanumeric search term. The search term must start with at least one character before the wildcard. E.g., Rifam* will get you “Rifampicin” and “Rifampin”.
You can also use a * character as a wildcard in the middle of a alphanumeric search term. The search term must still start with at least one character before the wildcard. E.g., Rif*in will also get you “Rifampicin” and “Rifampin” .
You can also use a * character as a wildcard at the start of a alphanumeric search term. However you must use forward slashes to delimit the search term and use a point before the wildcard. E.g., /.*picin/ will only get you “Rifampicin”.

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

Found 111 Matches

Tafenoquine

Model Files Publication

Brand Name(s) include: Arakoda, Krintafel

Disease: Malaria

Drug Class: Antimalarials

Date Updated: March 2022

The model at-a-glance

Absorption Model	First-Order
Volume of Distribution	Full PBPK (Method 3) Note: Kp scalar used
Route of Elimination	Undefined liver intrinsic clearance
Perpetrator DDI	CYP2C9 Inhibitor CYP3A4 Inhibitor
Validation	Four clinical studies describing single and multiple dose exposure of tafenoquine were used to verify the PBPK model, although some of these provided PK profiles and no PK parameters and vice versa. Of the clinical studies describing PK parameters, the model recovered 100% of the observed PK parameters within 1.5-fold (66% within 0.8-1.25-fold) and hence the model is considered predictive.
Limitations	Tafenoquine is administered with food to increase its exposure and minimize gastrointestinal side effects. The PBPK model was therefore developed to recover the PK of tafenoquine in the fed state. It should be noted that in the absence of information defining the fm of drug metabolizing enzymes, an undefined liver intrinsic clearance is used in the model and hence the model is not able to simulate the liability of tafenoquine as a victim of DDIs.

Search Score: 2

Tramadol_V14R1_JohnsonandJohnson_20151029

Model Files Publication

V12 R1 compound file built to simulate adult Human PK and pediatric PK. Supplied file is for V14 R1. “Physiology-Based IVIVE Predictions of Tramadol from in Vitro Metabolism Data” in Pharm Res January 2015, Volume 32, Issue 1, pp 260-274 http://link.springer.com/article/10.1007%2Fs11095-014-1460-x “Physiologically Based Pharmacokinetic Predictions of Tramadol Exposure Throughout Pediatric Life: an Analysis of the Different Clearance Contributors with Emphasis on CYP2D6 Maturation.” in AAPSJ November 2015, Volume 17, Issue 6, pp 1376-1387 http://link.springer.com/article/10.1208%2Fs12248-015-9803-z

Search Score: 2

Tenofovir_V18R1_Simcyp_20200212

Model Files Publication

Tenofovir dispoproxil fumarate: the dose was calculated to correct for the prodrug. FO, full PBPK model with method 2 and KP scalar. Mainly renally excreted (renal clearance input, not mechanistic).

Search Score: 2

Maraviroc&Telaprevir&VRT_127394_V15R1_Pfizer_20200405

Model Files Publication

http://dmd.aspetjournals.org/content/47/5/493.long Maraviroc and Telaprevir/healthy volunteer. The workspace is set up as multiple dose over 10 days to account for the MBI of Telaprevir. The metabolite of Telaprevir (VRT-127394) is included in the workspace.

Search Score: 2

Search the PBPK Model Repository

Searching Tips

Tafenoquine

The model at-a-glance

Tramadol_V14R1_JohnsonandJohnson_20151029

Tenofovir_V18R1_Simcyp_20200212

Maraviroc&Telaprevir&VRT_127394_V15R1_Pfizer_20200405

Your Privacy