This analysis visualizes peak values for lab measurements pertaining to Hy’s Law for detecting potential liver toxicity for all subjects across treatment
arms. Lab measurements for Bilirubin (BILI), Alanine Aminotransferase (
ALT), Aspartate Aminotransferase (AST), and Alkaline Phosphatase (ALP) are divided by the upper limit of normal (ULN) and displayed in a
scatterplot matrix annotated with Hy's Law reference lines (2*ULN of BILI, 3*ULN of ALT).
This analysis also creates reports of the distributions of relevant liver test
variables, tables of missing tests and categorized liver elevation levels, and displays of the peak liver test values by Study day.
Note: This analysis can still be run on a blinded study but certain components of the reports are suppressed.
Running this report with the Nicardipine sample setting generates the report shown below.
The Report contains the following elements:
Displays an overall scatterplot of peak
ALT,
AST ,
BILI, and
ALP measurements across the study, with color used to flag subjects meeting Hy's Law criteria.
The Hy’s Law Screening section consists of the following elements:
This plot shows maximum laboratory values for the Alanine Aminotransferase ( ALT), Aspartate Aminotransferase (
AST ), Total Bilirubin (
BILI), and Alkaline Phosphatase (
ALP) laboratory tests. The values are log
2 transformed (this can be changed to log
10 or
no transformation in the report
dialog) and normalized by the Upper Limit of Normal (
LBSTNRHI). Reference lines are drawn by default at 3*
ULN for
ALT and
AST and 2*
ULN for
BILI and
ALP. These reference limits can be customized on the dialog.
These limits are also used to create the Hy's Law indicator flag. Subjects with a test value exceeding 3*ULN for
ALT or
AST (signs of hepatocellular injury) accompanied or followed by elevation of 2*
ULN or greater for the
BILI test have a "Yes" value for the
Hy's Law Case variable created. A note defining the Hy's Law flag is located
above the
scatterplot matrix. For example, with the default settings the note is as follows: "
Hys Law Cases are flagged if ALT or AST >= 3*ULN and BILI >= 2*ULN within 0 Days of ALT/AST peak." You can change the number of days following
ALT/
AST elevation for which to look for BILI elevation to flag possible Hy's Law cases on the report dialog. Subjects in the plot are colored by the Hy's Law criteria (
red for "Yes",
blue for "No") and marked by their treatment
arm. You can choose to label the quadrants of Hy's Law (Cholestasis, Hy's Law, and Temple's Corollary) in the
bottom left scatterplot through a check box option on the dialog.
Displays scatterplots of peak ALT,
AST,
BILI, and
ALP measurements across the study, with color used to flag subjects meeting Hy's Law criteria. Two contingency analyses show duration of Hy's Law and incidence of
ALT or
AST elevation by treatment.
The Scatterplots section contains the following elements:
Tip: Adjust the size of the
scatterplot matrix using the
Frame Size slider, located at the
upper left corner of the tab.
This plot shows maximum laboratory values for the Alanine Aminotransferase ( ALT), Aspartate Aminotransferase (
AST ), Total Bilirubin (
BILI), and Alkaline Phosphatase (
ALP) laboratory tests. The values are log
2 transformed (this can be changed to log
10 or
no transformation in the report
dialog) and normalized by the Upper Limit of Normal (
LBSTNRHI). Reference lines are drawn by default at 3*
ULN for
ALT and
AST and 2*
ULN for
BILI and
ALP. These reference limits can be customized on the dialog.
These limits are also used to create the Hy's Law indicator flag. Subjects with a test value exceeding 3*ULN for
ALT or
AST (signs of hepatocellular injury) accompanied or followed by elevation of 2*
ULN or greater for the
BILI test will have a "Yes" value for the
Hy's Law Case variable created. A note defining the Hy's Law flag is located
above the scatterplot matrix. For example, with the default settings the note is as follows: "
Hys Law Cases are flagged if ALT or AST >= 3*ULN and BILI >= 2*ULN within 0 Days of ALT/AST peak." You can change the number of days following
ALT/
AST elevation for which to look for BILI elevation to flag possible Hy's Law cases on the report dialog. Subjects in the plot are colored by the Hy's Law criteria (
red for "Yes",
blue for "No") and marked by their treatment arm. You can choose to label the quadrants of Hy's Law (Cholestasis, Hy's Law, and Temple's Corollary) in the
bottom left scatterplot through a check box option on the dialog.
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One Contingency Analysis.
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The Scatterplot Matrix and the
Mosaic Plot in the
Contingency Analyses are interactive and linked. You can select subjects in the scatterplot or in the colored boxes of the
mosaic plot to see where they lie in the analysis. For example, it might be useful to select the boxes in the mosaic plot for the
Days in Hy's Law contingency analysis for the treatment group to see the max lab values for those subjects in the scatterplots. In addition, you can select the points using the values of the
Hy's Law Case and
Treatment legend on the scatterplot. Once subjects are selected, you can choose from any of the
Action Button -downs (
Cluster Subjects and
Profile Subjects are highly informative to look at the subjects' entire safety profiles) to further explore possibly liver injury safety issues in the trial.
The Distributions section is shown above and contains the following elements:
These display histograms and summary statistics of variables from the Findings data set that are relevant to a
Hy’s Law analysis.
Distributions of subjects on the
Actual,
Planned, or
Specified Treatment (grouped by age, sex, race, and other factors) are displayed.
Contains tables corresponding to AT Test Elevation and Potential Hy’s Law Cases, as well as counts and percentages for elevation categories for each liver test.
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One AT Test Elevation and Potential Hy’s Law Cases table.
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Note: This table is shown only if at least one subject has a value of “
Yes” for
Elevated AT Tests.
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A table of Counts and Percents for elevation categories for each liver test.
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All tables are associated with the Local Data Filter (located on the
right side). You can use this filter to subset the tables based on variable filters. You can select cells of these tables (either counts or percents) to select the corresponding rows in the data table.
Missing Test Result is calculated as count (and percent) of subjects who had no record of a specific test (there is no row in the
lb data set for the respective
LBTEST for the subject) at any day of the study, have no nonmissing measurement(s) for the recorded test (
LBSTRESN is a
missing value), or are missing the upper limit of normal reference limit (
LBSTNRHI is a missing value).
Important: The counts and percentages for
Missing Test Result on this section are calculated out of all subjects that have at least one nonmissing result for at least one of the liver lab tests. The counts shown on the
Missing Lab Test Summary section include subjects that had no record or were missing all values for all four liver lab tests.
Use the data filter to subset the scatterplot matrix and associated data table by any of the available criteria. For example, you could filter the data by females between 40 and 50 years old. Drag the
Age slider ends, or type over minimum and maximum age values to obtain an exact age range. The number of matching rows, selected graph points, and data table selections are updated accordingly.
The Missing Lab Test Summary section contains the following elements:
Important: The counts shown on this section include subjects that had no record or were missing all values for all four liver lab tests. The counts and percentages for
Missing Test Result on the
Tables section are calculated out of all subjects that have at least one nonmissing result for at least one of the liver lab tests.
The counts in the table columns are interactive. You can select the numbers to select the corresponding subjects for which a test was not measured. You can then use the
Down Buttons to show those subjects or profile them for further analysis.
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Show Subjects: Select subjects and click to open the ADSL (or DM if ADSL is unavailable) of selected subjects.
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Demographic Counts: Select subjects and click to create a data set of USUBJIDs, which subsets all subsequently run reports to those selected subjects.
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Liver Lab Shift Plots: Click to launch and run liver labs ( ALT, AST, ALP, BILI, or the LBTESTCD values that correspond to these tests) Shift Plots (and shift tables) via the Findings Shift Plots report on the data. This analysis currently runs using all subjects.
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Click the Options arrow to reopen the completed report dialog used to generate this output.
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Available variables include Planned, which is selected when the treatments patients received exactly match what was planned and
Actual, which is selected when treatment deviates from what was planned.
You can also specify a variable other than the ARM or
TRTxxP (planned treatment) or
ACTARM or
TRTxxA (actual treatment) from the CDISC models as a surrogate variable to serve as a comparator. Finally you can select
None to plot the data without segregating it by a treatment variable.
Use the Time Lag (in Days) for Classifying Hy’s Law Cases option to specify the allowed interval between transaminase and bilirububin measurements for a patient to be considered a Hy’s Law case. The default value of 0 days indicates that a subject is a Hy’s Law case if Transaminase measurements (ALT or AST) exceed 3 times the upper limit of normal (3*ULN) and Total Bilirubin measurements exceed twice the specified ULN (2*ULN) from tests taken on the same study day. Alternatively, a time lag can be set to x number of days to classify a subject as a Hy's Law Case if Total Bilirubin exceeds 2*ULN within x days after ALT or AST exceeds 3*ULN.
The Only include on-trial measurements option filters out any screening/baseline measurements (anything flagged with a baseline flag or that occurs on or before Study Day 1) so that only on-trial measurements are considered for the Hy's law calculation. This option is checked by default and is applied when values are normalized by ULN. If you uncheck this option or choose to normalize laboratory values by the baseline all measurements are included.
If there is a supplemental domain (SUPPXX) associated with your study, you can opt to merge the non-standard data contained therein into your data.
Selecting Create Hy’s Law 3D Plot generates an interactive 3 dimensional plot showing the ratios of bilirubin, alanine aminotransferase, and apartate aminotransferase to their respective upper limits of normal (ULN) values.
Selecting Use log scaling to display findings test measurements converts the axes of all plots to log-scale.
Note: This option is selected by default.
Selecting Label Hy’s Law quadrants places identifying labels, relating to Hy’s law, in each quadrant of all of the plots of bilirubin versus alanine aminotransferase.
Use the Set custom reference lines for Hy’s Law plots option to draw reference lines on the Hy’ Law plots. You must then use the
Set reference line for bilirubin option to specify the value by which to multiply the ULN for bilirubin and/or alkaline phosphatase. By default, this value is set to
2 or twice the ULN. You must also use the
Set reference line for transaminase tests option to specify the value by which to multiply the ULN for alanine and/or aspartate transaminase. By default. this value is set to
3 or 3x the ULN.