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Measuring LVEF regularly can show the rate of decline in left ventricle function for a patient with DMD. Therefore, it was selected as an endpoint for this example to measure whether a course of therapy may slow the progression of heart failure for the patient. The second endpoint chosen, NT-proBNP, is a biomarker that may be used to predict or diagnose heart failure.

Info

Ejection Fraction

change in ejection fraction, would expect a decline in EF of 2-3% per year, concerning if rapid progression, i.e., 10% decline or more - can we do absolute change? change this to 5% decline for 1 year

NTproBNP

% change over a period of time – a decrease is correlated with improvement, measured annually

SDTM Examples: Basic CMR Tests for Systolic Function

This section illustrates example analysis datasets for the following endpoints:

Percent change in ejection fraction over time (1 year)
Decline in ejection fraction over time (1 year) grouped by a decline greater than 10-5.0%
Percent change in NTproBNP NT-proBNP over time (1 year)

Source Data

The SDTM examples used as the source data are from Section 2.1, Basic CMR Tests for Systolic Function. The records in the CV dataset contains 16 rows, 1-8 for visit 1 and 9-16 for visit 6. Of these rows, the for which CVTESTCD = "LVEF_C" and CVTESTCD = "RVEF_C" representing the Ventricular Ejection Fraction, Calculated (%) for left and right were selected for the analysis. The records in the LB dataset test where LBTESTCD = "BNPPRONT" was were used to add the value of BNPPRONT to compute the percent change over time , and then it was added as as a potential covariate in each row for the last analysis. Both SDTM domains are used in one analysis dataset to demonstrate the flexibility of ADaM and to show that the various SDTM domains can be combined into one dataset both as rows and also as covariates.

Example Analysis Datasets

The following tables below show the analysis dataset metadata and metadata and parameters used for this example.

-

Definexmltable

Multiple	true
Level	Dataset
Purpose	Analysis

Dataset Name	Dataset Description	Class of Dataset	Structure	LocationPurpose	Keys	Location	Documentation
ADSL	Subject-Level Analysis Dataset	SUBJECT LEVEL ANALYSIS DATASET	One record per subject.	Analysis	USUBJID	adsl.xpt	USUBJIDADSL.SAS	ADaMIG
ADEFNTP	CV MRI EF and NT-proBNP Analysis	ADCVNTP	Cardiac Ejection Fraction and NTproBNP Analysis Dataset	BASIC DATA STRUCTURE	One record per subject per analysis visit per parameter.	adcvntp.xptAnalysis	USUBJID, AVISITN, PARAMN	Analysis Dataset	adefntp.xpt	ADEFNTP.SAS/SAP
ADEFMRI	CV MRI	ADCVCMR	Cardiovascular CMR Ejection Fraction Analysis Dataset	BASIC DATA STRUCTURE	One record per subject per analysis visit per parameter.	adcvcmr.xptAnalysis	USUBJID, AVISITN, PARAMN	Analysis Dataset		adefmri.xpt	ADEFMRI.SAS/SAP

ADSL

The ADSL contains subject characteristics and covariates that are important for analyses. Stratification The ADSL was combined with other SDTM datasets to create the analysis datasets. More than one SDTM dataset can be combined in this way. Also, stratification variables can be created in the ADSL to subset by, or to add variables needed in the analyses. For example, a flag (ACEMEDFL) could be added for ACE inhibitors. Another variable, body surface area (BSABL), was derived from the LB dataset at the baseline visit and added to ADSL.

The ADCVNTP dataset includes tests pertinent to these analyses. The records from LB where CVTESTCD is equal to "LVEF_C" or "RVEF_C" and LBTESTCD = "BNPPRONT" were selected. The relationship dataset RELREC illustrates the relationship between datasets. In this case, many lab draws may occur throughout the year, but only those linked to a specific visit are included. By subsetting the LB dataset with LBLNKID not missing, laboratory data that aligns with CV data can be filtered out and sorted using USUBJID and VISIT. If LBLNKID is not available, a windowing strategy could be used to select the laboratory draw closest to that visit for merging with CV, computed in AVISIT. In the example, only two LB records are shown which are linked to CV where CVTESTCD = "LVEF_C" or CVTESTCD = "R.VEF_C".

ADCVMR is an efficacy analysis dataset with only a few records for more complex modeling of changes in ejection fraction, plus the ProB-type test results. It is an ADaM Basic Data Structure (BDS) dataset, with additional variables added from ADCVNTP.

ADSL Analysis Dataset

This is a simplified example ADSL dataset; it is expected that additional variables for stratification or of interest for analysis would be included.

the data. More than one SDTM dataset may be used as input to the ADSL. This is a simplified example ADSL dataset; the ADaMIG should be referenced for additional variables.

For this example:

Analysis age (AAGE) was included to provide age with more precision.
A flag indicating the use of ACE inhibitors (ACEINHFL) is shown with example derivation from the CM dataset.
Body surface area at screening (BSASC) was derived from the VS dataset using height and weight at the screening visit. There are many possible calculations for BSA; for this example, the Du Bois method was used.[11] Note that the screening visit and visit 1 occurred at the same time in this example.

Definexmltable

Dataset	ADSL
Level	Variable
Purpose	Analysis
Name	Variable

Variable Name	Variable Label	Type	Codelist/Controlled Terms	Source/Derivation/Comment
STUDYID	Study Identifier	text		Predecessor: DM.STUDYID
USUBJID	Unique Subject Identifier	text		Predecessor: DM.USUBJID
BRTHDT	Date of Birth	integer	yymmdd10.	Derived: Date portion of DM.BRTHDTC converted to numeric and displayed in a format, such as yymmdd10.
AAGE	Analysis Age	float		Derived: Age as screening, computed by DM.RFICDTC - BRTHDTC as continuous variable. Note that some countries do not allow capturing date of birth, so this could be computed by capturing age in years and months on a CRF.
AGE	Age	integer		Predecessor: DM.AGE
AGEU	Age Units	text	YEARS	Predecessor: DM.AGEU
SEX	Sex	text	(SEX)	Predecessor: DM.SEX
RACE	Race	text	(RACE)	Predecessor: DM.RACE
TRTSDT	Date of First Exposure to Treatment	integer	yymmdd10.	Derived: Date portion of DM.RFSTDTC converted to numeric and displayed in a format such as yymmdd10.
RFICDT	Date of Informed Consent	integer	yymmdd10.	Derived: Date portion of DM.RFICDTC converted to numeric and displayed in a format such as yymmdd10.
DTHDT	Date of Death	integer	yymmdd10.	Derived: Date portion of DM.DTHDT converted to numeric and displayed in a format such as yymmdd10.
DTHFL	Subject Death Flag	text	Y	Predecessor: DM.DTHFL
TRT01P	Planned Treatment for Period 01	text	Drug A; Drug B	Predecessor: DM.ARM. May be changed to lower case or more descriptive term for use in tables and listings.
TRT01A	Actual Treatment for Period 01	text	Drug A; Drug B	Predecessor: DM.ACTARM. Note: Actual treatment matches planned treatment unless there is a reason subject does not take planned drug.
ITTFL	Intent-To-Treat Population Flag	text	Y; N	Derived: Derive the intent-to-treat population as per the protocol and SAP.
ACEINHFL	ACE Inhibitor Medications Flag	text	Y; N	Derived: Select a list of ACE inhibitor medications from concomitant medications (CM) domain as per SAP or protocol. Set to "Y" if these medications were taken during the study, and "N" if they are absent. Can be used to subset or to exclude the population who took ACE inhibitors.
HEIGHTSC	Height (cm) at Screening	float		Predecessor: Set to VS.VSSTRESN where VS.VSTESTCD = "HEIGHT" and VISITNUM= 1 (or screening visit).
WEIGHTSC	Weight (kg) at Screening	float		Predecessor: Set to VS.VSSTRESN where VS.VSTESTCD = "WEIGHT" and VISITNUM = 1 (or screening visit).
BSASC	Body Surface Area at Screening	float		Derived: Select where VISITNUM = 1 (or screening visit). Compute from HEIGHT and WEIGHT, using the Du Bois method. BSA = 0.007184 × W^0.425 × H^0.725 There are multiple methods for calculating BSA (e.g., Du Bois, Mosteller, Haycock, Gehan & George, Boyd, Fujimoto, Takahira, Schlich); the study protocol should describe which to use.

Dataset wrap

Show	true
Name	ADSL

Dataset2

tableid	adsl

Row	STUDYID	USUBJID	BRTHDT	AAGE	AGE	AGEU	SEX	RACE	TRTSDT	RFICDT	DTHDT	DTHFL	TRT01P	ITTFL	ACEINHFL	HEIGHTSC	WEIGHTSC	BSASC
1	DMD-EFLGE	DMD-EF-01-101	2010-02-07	12.3	12	YEARS	M	BLACK OR AFRICAN AMERICAN	2022-06-16	2022-06-16			Drug A	Y	Y	119	20	0.82
2	DMD-EFLGE	DMD-EF-01-101	2008-05-01	14.1	14	YEARS	M	ASIAN	2022-06-13	2022-06-13			Drug A	Y	Y	115	30	0.95
3	DMD-EFLGE	DMD-EF-01-101	2003-07-10	19.0	19	YEARS	M	NATIVE HAWAIIAN OR OTHER PACIFIC ISLANDER	2022-07-15	2022-07-15			Drug B	Y	N	140	45	1.30
4	DMD-EFLGE	DMD-EF-01-101	1999-01-15	23.7	23	YEARS	M	WHITE	2022-09-06	2022-09-06	2023-11-23	Y	Drug B	Y	Y	132	42	1.21

ADEFNTP

The ADEFNTP includes tests pertinent to analyses. The records from CV (CVTESTCD = "LVEF_C" and "RVEF_C") and the records from LB (LBTESTCD = "BNPPRONT") were selected. Many lab draws may occur throughout the year, but only those linked to a specific visit were included. By subsetting the LB dataset by LBLNKID not missing, laboratory data that aligns with CV data can be filtered out and sorted using USUBJID and VISIT. If LBLNKID is not available or the LB dataset does not contain VISIT, a windowing strategy could be used to select the laboratory draw closest to that visit using date of lab draw (LB.LBDTC.).

Jira

showSummary	false
server	Issue Tracker (JIRA)
serverId	85506ce4-3cb3-3d91-85ee-f633aaaf4a45
key	TAUGDMDCIS-8

Definexmltable

Dataset	ADEFNTP

Definexmltable

Dataset	ADSL
Level	Variable
Purpose	Analysis
Name	Variable

Variable Name	Variable Label	Type	Codelist/Controlled Terms

/Format

	Source

/Derivation/Comment
STUDYID	Study Identifier

Char

text

DM

	Predecessor: CV.STUDYID
USUBJID	Unique Subject Identifier

Char

DM.USUBJID

BRTHDT

Date of Birth

Num

date9.

ADSL.BRTHDTC

Convert BRTHDTC from ISO 8601 format to numeric date. (Note that if exact date is not found then use two variables to capture year and month.)

TRTSDT

Date of First Exposure to Treatment

Num

date9.

Date portion of DM.RFSTDTC converted to numeric and displayed in a format such as DATE9.

TRT01P

Planned Treatment for Period 01

Char

Treatment A

ADSL.TRT01P

For this example we are using "Treatment A". In a Real World Evidence study this could be non-treatment related, e.g. "Group A".

ITTFL

Intent-To-Treat Population Flag

Char

Y; N

ADSL.ITTFL

Derive the intent-to-treat population as per the protocol and SAP.

ACEINHFL

ACE Inhibitor Medications Flag

Char

Y

Select a list of ACE inhibitor medications from concomitant medications (CM) domain, and from treatment (EX or EC) domains. Code "Y" if the medication was taken during the study. Can be used to subset or to exclude the population who took ACE inhibitors.

Dataset wrap

Show	true
Name	ADSL

Dataset2

tableid	adsl

Row

STUDYID

USUBJID

BRTHDT

TRTSDT

TRT01P

ITTFL

BSABASE

ACENHFL

1

DMD-EFLGE

DMD-EFLGE-101

15FEB2013

15FEB2022

Treatment A

Y

0.65

Y

ADCVNTP Analysis Dataset

In this example, columns for derived variables BASE, CHG, PCHG and CHGCAT1 have been added to facilitate analyses of the efficacy endpoints. Specifically, example demographic data for ADSL were created for an 8 year old male. Also, a custom variable for BSA at baseline (BSABASE), and an example of a stratification variable for subjects with was added from ADSL.

text		Predecessor: CV.USUBJID
BRTHDT	Date of Birth	integer	yymmdd10.	Predecessor: ADSL.BRTHDT
AAGE	Analysis Age	float		Predecessor: ADSL.AAGE
AGEU	Age Unit	text		Predecessor: ADSL.AGEU
SEX	Sex	text	(SEX)	Predecessor: ADSL.SEX
RACE	Race	text	(RACE)	Predecessor: ADSL.RACE
TRTSDT	Date of First Exposure to Treatment	integer	yymmdd10.	Predecessor: ADSL.TRTSDT
TRT01P	Planned Treatment for Period 01	text	Drug A; Drug B	Predecessor: ADSL.TRT01P
TRT01A	Actual Treatment for Period 01	text	Drug A; Drug B	Predecessor: ADSL.TRT01A
ITTFL	Intent-To-Treat Population Flag	text	Y; N	Predecessor: ADSL.ITTFL
HEIGHT	Height (cm)	float		Set to VS.VSSTRESN where VS.VSTEST = "HEIGHT" by visit.
WEIGHT	Weight (kg)	float		Set to VS.VSSTRESN where VS.VSTEST = "WEIGHT" by visit.
BSA	Body Surface Area (m2)	float		Derived: Compute from HEIGHT and WEIGHT at each visit, using the Du Bois method. BSA = 0.007184 × W^0.425 × H^0.725 There are multiple methods for calculating BSA; the study protocol should describe which to use.
ACEINHFL	ACE Inhibitor Medications Flag	text	Y; N	Predecessor: ADSL.ACEINHFL
PARAM	Parameter	text	Left Ventricular Ejection Fraction, Cal (%); Right Ventricular Ejection Fraction, Cal (%); N-Terminal ProB-type Natriuretic Peptide (ng/L)	Predecessor: CV.CVTEST LB.LBTEST
PARAMCD	Parameter Code	text	LVEF_C; RVEF_C; BNPPRONT	Predecessor: CV.CVTESTCD LB.LBTESTCD
PARAMN	Parameter (N)	integer	1; 2; 3	Assigned: Number PARAMCD as follows: LVEF_C = "1" RVEF_C = "2" BNPPRONT = "3"
AVAL	Analysis Value	float		See Parameter Value Metadata
AVISIT	Analysis Visit	text	Visit 1 (Baseline); Visit 6 (1 Year)	If CV.VISIT = "VISIT 1" then AVISIT = "Visit 1 (Baseline)". If CV.VISIT = "VISIT 6" then AVISIT = "Visit 6 (1 Year)".
AVISITN	Analysis Visit (N)	integer	1; 6	Predecessor: CV.VISITNUM LB.VISITNUM
VISIT	Visit	integer	VISIT 1; VISIT 6	Predecessor: CV.VISIT LB.VISIT
ADT	Analysis Date	integer	yymmdd10.	Date portion of CV.CVDTC or LB.LBDTC converted to numeric and displayed in a format such as yymmdd10.
ABLFL	Baseline Record Flag	text	Y	Derived: If CV.VISIT = "VISIT 1" then ABLFL = "Y".
BASE	Baseline Value	float		Derived: Set BASE to AVAL from the record for that subject and parameter where ABLFL = "Y". Populate BASE for additional visits by merging the value of BASE in the baseline record by USUBJID and PARAMCD.
CHG	Change from Baseline	float		Derived: Compute CHG = AVAL - BASE for that record. Only compute for post-baseline records.
PCHG	Percent Change from Baseline	float		Derived: Compute PCHG = (CHG / BASE) * 100. Only compute for post-baseline records.
CHGCAT1	Change from Baseline Category 1	text	Decline >=-5.0%; Decline <-5.0%; No Decline	See Parameter Value Metadata
SRCDOM	Source Data	text	CV; LB	Assigned: Set to the SDTM domain name that relates to the analysis value.
SRCVAR	Source Variable	text	CVSTRESN; LBSTRESN	Assigned: Set to the SDTM variable that relates to the analysis value.
SRCSEQ	Source Sequence Number	integer		Predecessor: Set to the SDTM domain sequence number that relates to the analysis value, CV.CVSEQ or LB.LBSEQ.

In this example, variables BASE, CHG, PCHG, and CHGCAT1 were added to facilitate analyses of the efficacy endpoints. the variables SRCDOM, SRCVAR, and SRCSEQ provide traceability to the combined source datasets. The tables below represent parameter value level lists for applicable variables.

Left Ventricular Ejection Fraction, Calculated (%);

Right Ventricular Ejection Fraction, Calculated (%);

Definexmltable

Dataset	ADEFNTP
Example	true
Level	Codelist
Purpose	Analysis
OID	PARAM.ADEFNTP
Name	Parameter

Permitted Value (code)
Left Ventricular Ejection Fraction, Cal (%)
Right Ventricular Ejection Fraction, Cal (%)

Definexmltable

Dataset	ADCVNTP
Level	Value
Purpose	Analysis
OID	AVAL

Dataset

Variable

Where

Type

Origin

Derivation/Comment

ADCVNTP

AVAL

PARAMCD = "LVEFC"

Num

Predecessor

Set to CV.CVSTRESN where CV.CVTESTCD = "LVEF_C"

ADCVNTP

AVAL

PARAMCD = "RVEFC"

Num

Predecessor

Set to CV.CVSTRESN where CV.CVTESTCD = "RVEF_C"

ADCVNTP

AVAL

PARAMCD = "BNPPRONT"

Num

Predecessor

Set to LB.LBSTRESN where LB.LBTESTCD = "BNPPRONT"

Definexmltable

Dataset	ADCVNTP
Level	Variable
Purpose	Analysis
Name	Variable

Variable Name

Variable Label

Type

Codelist/Controlled Terms/Format

Source

Derivation/Comment

STUDYID

Study Identifier

Char

CV.STUDYID

USUBJID

Unique Subject Identifier

Char

CV.USUBJID

Select for records with RE data.

ASEQ

Analysis Sequence Number

Num

CV.CVSEQ

Number records 1 to n after sorting by keys.

BRTHDT

Date of Birth

Num

Date9.

ADSL.BRTHDTC

Convert BRTHDTC from ISO 8601 format to numeric date. (Note that if exact date is not found then use two variables to capture year and month.)

TRT01P

Planned Treatment for Period 01

Char

Treatment A

ADSL.TRT01P

ITTFL

Intent-To-Treat Population Flag

Char

Y; N

ADSL.ITTFL

HEIGHTV

Height (cm) at Visit

Num

Set to VS.VSSTRESN where VS.VSTEST = "HEIGHT" and merge by visit.

WEIGHTV

Weight (kg) at Visit

Num

Set to VS.VSSTRESN where VS.VSTEST = "WEIGHT" and merge by visit.

BSA

Body Surface Area (m2) by Visit

Num

Compute fromHEIGHTV and WEIGHTV by visit, using the Du Bois method. BSA = 0.007184 × W^0.425 × H^0.725

Note that there are multiple methods and the study protocol should describe which one to use (e.g., Mosteller, Haycock, Gehan & George, Boyd, Fujimoto, Takahira, and Schlich).

ACEINHFL

ACE Inhibitor Medications Flag

Char

Y

Select a list of ACE inhibitor medications from concomitant medications (CM) domain, and from treatment (EX or EC) domains. Code "Y" if the medication was taken during the study. Can be used to subset or to exclude the population who took ACE inhibitors.

PARAM

Parameter

Char

N-Terminal ProB-type Natriuretic Peptide (

pg

ng/

mL

L)

For tests from CV, set to the values of CV.CVTEST plus CV.CVTESTU with spaces and parentheses as shown.

For tests from LB, set to the value of LB.LBTEST plus LB.LBTESTU with spaces and parentheses as shown.

PARAMCDParameter CodeChar

LVEFC;

RVEFC;

BNPPRONT

If CV.CVTESTCD = "LVEF_C" then PARAMCD = "LVEFC"

If CV.CVTESTCD = "RVEF_C" then PARAMCD = "RVEFC"

If LB.LBTESTDC = "BNPPRONT" then PARAMCD = "BNPPRONT

Note: for this example dataset, select the records where the test values shown above are included.

PARAMNParameter (N)Num

Number PARAMCD as follows:

LVEFC = "1"

RVEFC = "2"

BNPPRONT = "3"

AVALAnalysis ValueNum

See Parameter Value List

AVISITAnalysis VisitChar

If CV.VISIT = "VISIT 1" then AVISIT = "Visit 1 (Baseline)".

Else if CV.VISIT = "VISIT 6" then AVISIT = "Visit 6 (1 Year)".

AVISITNAnalysis Visit (N)NumSet to value of CV.VISITNUM or LB.VISITNUMVISITVisitNum

CV.VISIT

LB.VISIT

ADTAnalysis DateNumdate9.Date portion of CV.CVDTC or LB.LBDTC converted to numeric and displayed in a format such as date9. ABLFLBaseline Record FlagCharY

If CV.VISIT = 1 then ABLFL = "Y".

BASEBaseline ValueNum

Set BASE to AVAL from the record for that subject and parameter where ABLFL = "Y".

Populate BASE for additional visits by carrying forward the value of BASE in the baseline record by USUBJID and AVISIT.

CHGChange from BaselineNumCompute CHG = AVAL - BASE for that record. Only compute for post-baseline records.PCHGPercent Change from BaselineNumCompute PCHG = (CHG / BASE) * 100. Only compute for post-baseline records.CHGCAT1Change from Baseline Category 1Char

Decline >=10.0;

Decline < 10.0;

Increase

Categorize the value of CHG for Left Ventricular Ejection Fraction, and Calculated (%) (LVEFC) and for Right Ventricular Ejection Fraction, Calculated (%) (RVEFC)CHGCAT2Change from Baseline Category 2ChartCategorize the value of CHG for N-Terminal ProB-type Natriuretic Peptide (pg/mL) (BNPPRONT)SRCDOMSource DataChar

CV; LB

Set to the SDTM domain name that relates to the analysis value.SRCSEQSource Sequence NumberNum

CV.CVSEQ

LB.LBSEQ

Set to the SDTM domain sequence number that relates to the analysis value.

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Key

Source Data

Example Analysis Datasets

ADSL

ADSL Analysis Dataset

ADEFNTP

ADCVNTP Analysis Dataset

ADCVCMR Analysis Dataset

ADEFMRI

Example Analysis Results Metadata (ARM) Tables

Left Ventricular Ejection Fraction, Cal (%)	LVEF_C	1	60	Visit 6 (1 Year)	6	VISIT 6	2023-04-23		67	-7	-10.447761	Decline >=-5.0%	CV	CVTESTCD	11
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