Published April 25, 2025
| Version 0.0.1
Dataset
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TRISTAN gadoxetate kinetics
Creators
Description
Summary
Signal versus time curves measured with gadoxetate-enhanced MRI in the liver, with and without drugs.
Subjects
Human healthy volunteers, patients and rats.
Provenance
The data are taken from a series of studies performed by the TRISTAN project, in the period 2018-2024. The aim of these studies was to provide proof of concept for an MRI-based biomarker that can predict the risk of liver-mediated drug-drug interactions.
Format
All data are in dmr format - a folder with three csv files:
- data.csv: Data dictionary
- rois.csv: ROI curves
- pars.csv: Subject parameters
Example usage
- Rats multiple dosing: https://dcmri.org/examples/liver/plot_tristan_mdosing.html
- Rat six test drugs: https://dcmri.org/examples/liver/plot_tristan6drugs.html
- Rat reproducibility: https://dcmri.org/examples/liver/plot_tristan_repro.html
- Healthy volunteers: https://dcmri.org/examples/liver/plot_tristan_volunteers_2scan.html
- Patients: https://dcmri.org/examples/liver/plot_tristan_patients.html
Dataset: tristan_humans_healthy_rifampicin
The data were acquired in the aorta and liver of 10 healthy volunteers with dynamic gadoxetate-enhanced MRI, before and after administration of a drug (rifampicin) which is known to inhibit liver function. The assessments were done on two separate visits at least 2 weeks apart. On each visit, the volunteer had two scans each with a separate contrast agent injection of a quarter dose each. the scans were separated by a gap of about 1 hour to enable gadoxetate to clear from the liver. This design was deemed necessary for reliable measurement of excretion rate when liver function was inhibited.
The research question was to what extent rifampicin inhibits gadoxetate uptake rate from the extracellular space into the liver hepatocytes (khe, mL/min/100mL) and excretion rate from hepatocytes to bile (kbh, mL/100mL/min). 2 of the volunteers only had the baseline assessment, the other 8 volunteers completed the full study. The results showed consistent and strong inhibition of khe (95%) and kbh (40%) by rifampicin. This implies that rifampicin poses a risk of drug-drug interactions (DDI), meaning it can cause another drug to circulate in the body for far longer than expected, potentially causing harm or raising a need for dose adjustment.
The following data are available for each subject (see data.csv for more detail):
- time_1: acquisition times of the first scan
- time_2: acquisition times of the second scan
- aorta_1: aorta signals in the first scan
- aorta_2: aorta signals in the second scan
- liver_1: liver signals in the first scan
- liver_2: liver signals in the second scan
- aorta_1_accept: valid aorta signals in the first scan
- aorta_2_accept: valid aorta signals in the second scan
- liver_1_accept: valid liver signals in the first scan
- liver_2_accept: valid liver signals in the second scan
- weight: subject weight in kg.
- dose_1: contrast agent doses of first scan in mL/kg.
- dose_2: contrast agent doses of second scan in mL/kg.
- rate: contrast agent injection rate in mL/sec.
- FA_1: Flip angle in degrees of the first scan
- FA_2: Flip angle in degrees of the second scan
- TR: repetition time in sec
- t0: baseline length
- T1_aorta_1: precontrast T1 of blood
- T1_aorta_2: T1 of blood after 1st dynamic
- T1_aorta_3: T1 of blood at the start of the 2nd scan
- T1_liver_1: precontrast T1 of the liver
- T1_liver_2: T1 of the liver after 1st dynamic
- T1_liver_3: T1 of the liver at the start of the 2nd scan
- liver_volume: liver volume in mL.
Please reference the following paper when using these data:
Thazin Min, Marta Tibiletti, Paul Hockings, Aleksandra Galetin, Ebony Gunwhy, Gerry Kenna, Nicola Melillo, Geoff JM Parker, Gunnar Schuetz, Daniel Scotcher, John Waterton, Ian Rowe, and Steven Sourbron. Measurement of liver function with dynamic gadoxetate-enhanced MRI: a validation study in healthy volunteers. Proc Intl Soc Mag Reson Med, Singapore 2024.
Dataset: tristan_humans_healthy_controls_leeds
All baseline data (no drugs) taken in the healthy volunteer study with rifampicin, including also subjects that did not go on to have the drug.
Dataset: tristan_humans_healthy_metformin
Data from a similar experiment as the rifampicin study in healthy volunteers, but with the drug metformin and performed in another center with a different scanner vendor. The study includes 6 volunteers. Manuscript in preparation.
The variables are the same as in the rifampicin study.
Dataset: tristan_humans_healthy_ciclosporin
Data from a similar experiment as the metformin study in healthy volunteers, but with the drug ciclosporin. Manuscript in preparation.
The variables are the same as in the rifampicin study.
Dataset: tristan_humans_healthy_controls_sheffield
All baseline data (no drugs) taken in the healthy volunteer studies with metformin and ciclosporin, including also subjects that did not go on to have the drug.
Dataset: tristan_humans_patients_rifampicin
The data were acquired in the aorta and liver in 3 patients with dynamic gadoxetate-enhanced MRI. The study participants take rifampicin as part of their routine clinical workup, with an aim to promote their liver function. For this study, they were taken off rifampicin 3 days before the first scan, and placed back on rifampicin 3 days before the second scan. The aim was to determine the effect if rifampicin in uptake and excretion function of the liver.
The data confirmed that patients had significantly reduced uptake and excretion function in the absence of rifampicin. Rifampicin administration improved their excretory function but had no effect on their uptake function.
The variables are the same as in the rifampicin study in healthy volunteers, but the patient study was performed in a different center.
Manuscript in preparation.
Dataset: tristan_rats_healthy_six_drugs
Results demonstrated that two of the tested drugs (rifampicin and cyclosporine) showed strong inhibition of both uptake and excretion. One drug (ketoconazole) inhibited uptake but not excretion. Three drugs (pioglitazone, bosentan and asunaprevir) inhibited excretion but not uptake.
The following data are available for each subject (see data.csv for more detail):
- time: array of time points in sec
- spleen: array of spleen signals in arbitrary units
- liver: array of liver signals in arbitrary units.
- FA: Flip angle in degrees
- TR: repetition time in sec
- n0: number of precontrast acquisitions
- study: an integer identifying the substudy the scan was taken in
- subject: a study-specific identifier of the subject in the range 1-6.
- visit: either 1 (baseline) or 2 (drug or vehicle/saline).
- center: center wehere the study was performed, either E, G or D.
- field_strength: B0-field of scanner on whuch the study was performed
- substance: what was injected, eg. saline, vehicle or drug name.
- BAT: Bolus arrival time
- duration: duration on the injection in sec.
Melillo N, Scotcher D, Kenna JG, Green C, Hines CDG, Laitinen I, Hockings PD, Ogungbenro K, Gunwhy ER, Sourbron S, et al. Use of In Vivo Imaging and Physiologically-Based Kinetic Modelling to Predict Hepatic Transporter Mediated Drug–Drug Interactions in Rats. Pharmaceutics. 2023; 15(3):896.
Dataset: tristan_rats_healthy_reproducibility
Data from a study that aimed to determine the repreducibility and repeatability of gadoxetate uptake and excretion measurements in healthy rats. Data were acquired in different centers and field strengths to identify contributing factors. Some of the studies involved repeat scans in the same subject. In some studies data on the second day were taken after adminstration of a drug (rifampicin) to test if effect sizes were reproducible.
Please reference the following paper when using these data:
Ebony R. Gunwhy, Catherine D. G. Hines, Claudia Green, Iina Laitinen, Sirisha Tadimalla, Paul D. Hockings, Gunnar Schütz, J. Gerry Kenna, Steven Sourbron, and John C. Waterton. Assessment of hepatic transporter function in rats using dynamic gadoxetate-enhanced MRI: A reproducibility study. MAGMA
. 2024 Aug;37(4):697-708. doi: 10.1007/s10334-024-01192-5.
. 2024 Aug;37(4):697-708. doi: 10.1007/s10334-024-01192-5.
Dataset: tristan_rats_healthy_multiple_dosing
These data are taken from a preclinical study which aimed to investigate the potential of gadoxetate-enhanced DCE-MRI to study acute inhibition of hepatocyte transporters of drug-induced liver injury (DILI) causing drugs, and to study potential changes in transporter function after chronic dosing.
Available data for each subject are the same as in the six drugs study (see data.csv for more detail)
Please reference the following abstract when using these data:
Mikael Montelius, Steven Sourbron, Nicola Melillo, Daniel Scotcher, Aleksandra Galetin, Gunnar Schuetz, Claudia Green, Edvin Johansson, John C. Waterton, and Paul Hockings. Acute and chronic rifampicin effect on gadoxetate uptake in rats using gadoxetate DCE-MRI. Int Soc Mag Reson Med 2021; 2674.
Files
tristan_humans_healthy_ciclosporin.dmr.zip
Files
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Additional details
Funding
Software
- Repository URL
- https://dcmri.org/generated/api/dcmri.fetch.html
- Programming language
- Python
- Development Status
- Active