Tag Archives: ODM

The Only Three (3) [Programming] Languages You Should Learn Right Now (eClinical Speaking)

On a previous article that I wrote in 2012, I mentioned 4 programming languages that you should be learning when it comes to the development of clinical trials. Why is this important, you may ask? Clinical Trials is a method to determine if a new drug or treatment will work on disease or will it be beneficial to patients. Anayansi Gamboa - Clinical Data Management Process If you have never written a line of code in your life, you are in the right place. If you have some programming experience, but interesting in learning clinical programming, this information can be helpful.

But shouldn’t I be Learning ________?

Here are the latest eClinical programming languages you should learn:

1. SAS®: Data analysis and result reporting are two major tasks to SAS® programers. Currently, SAS is offering certifications as a Clinical Trials Programmer. Some of the skills you should learned are:

  • clinical trials process
  • accessing, managing, and transforming clinical trials data
  • statistical procedures and macro programming
  • reporting clinical trials results
  • validating clinical trial data reporting

2. ODM/XML: Operational Data Modeling or ODM uses XML to build the standard data exchange models that are being developed to support the data acquisition, exchange and archiving of operational data.

3. CDISC Language: Yes. This is not just any code. This is the standard language on clinical trials and you should be learning it right now. The future is here now. The EDC code as we know it will eventually go away as more and more vendors try to adapt their systems and technologies to meet rules and regulations. Some of the skills you should learn:

  • Annotation of variables and variable values – SDTM aCRF
  • Define XML – CDISC SDTM datasets
  • ADaM datasets – CDISC ADaM datasets

CDISC has established data standards to speed-up data review and FDA is now suggesting that soon this will become the norm. Pharmaceuticals, bio-technologies companies and many sponsors within clinical research are now better equipped to improve CDISC implementation.

Everyone should learn to code

Therefore, SAS® and XML are now cooperating. XML Engine in SAS® v9.0 is built up so one can import a wide variety of XML documentation. SAS® does what is does best – statistics, and XML does what it does best – creating reportquality tables by taking advantage of the full feature set of the publishing software. This conversation can produce report-quality tables in an automated hands-off/light out process.

Standards are more than just CDISC

If you are looking for your next career in Clinical Data Management, then SAS and CDISC SDTM should land you into the right path of career development and job security.

Conclusion: Learn the basics and advanced SAS clinical programming concepts such as reading and manipulating clinical data. Using the clinical features and basic SAS programming concepts of clinical trials, you will be able to import ADAM, CDISC or other standards for domain structure and contents into the metadata, build clinical domain target table metadata from those standards, create jobs to load clinical domains, validate the structure and content of the clinical domains based on the standards, and to generate CDISC standard define.xml files that describes the domain tables for clinical submissions.

Anayansi Gamboa has an extensive background in clinical data management as well as experience with different EDC systems including Oracle InForm, InForm Architect, Central Designer, CIS, Clintrial, Medidata Rave, Central Coding, OpenClinica – Open Source and Oracle Clinical.

Disclaimer: The legal entity on this blog is registered as Doing Business As (DBA) – Trade Name – Fictitious Name – Assumed Name as “GAMBOA”.

Source:

SAS Institute
CDISC

Project Plan: CDISC Implementation

CDISC standards have been in development for many years. There are now methodologies and technologies that would make the transformation of non-standard data into CDISC-compliance with ease. Clinical trials have evolved and become more complex and this requires a new set of skills outside of clinical research – Project Management.

As with many projects, CDISC is a huge undertake. It requires resources, technology and knowledge-transfer. The industry (FDA for example) has been working on standardization for years but on September 2013, it became official, in which the FDA released a ‘Position Statement‘.

So what is CDISC? We can say that it is way of naming convention for XPT files, or field names naming conventions or rules for handling unusual data. Currently, there are two main components of CDISC: SDTM (Study Data Tabulation Model) and aDAM (Analysis Data Model).

As a project manager and with the right tool, you can look to a single source project information to manage the project through its life-cycle – from planning, through execution, to completion.

1) Define Scope: This is where you’re tested on everything that has to do with getting a project up and running: what’s in the charter, developing the preliminary scope, understanding what your stakeholders need, and how your organization handles projects.

The scope document is a form of a requirement document which will help you identify the goals for this project. It can also be used as a communication method to other managers and team members to set the appropriate level of expectations.

The project scope management plan is a really important tool in your project. You need to make sure that what you’re delivering matches what you wrote down in the scope statement.

2) Define Tasks: we now need to document all the tasks that are required in implementing and transforming your data to CDISC.

Project Tasks  (Work packages) Estimates (work unit)
Initial data standards review 27
Data Integrity review 17
Create transformation models 35

The work breakdown structure (wbs) provides the foundation for defining work as it relates to project objectives. The scope of work in terms of deliverables and to facilitate communication between the project manager and stakeholders throughout the life of the project. Hence, even though, preliminary at first, it is a key input to other project management processes and deliverables.

3) Project Plan: Once we completed the initiation phase (preliminary estimates), we need to create a project plan assigning resources to project and schedule those tasks. Project schedules can be presented in many ways, including simple lists, bar charts with dates, and network logic diagrams with dates, to name just a few. A sample of the project plan is shown below:

project plan sample
image from Meta‐Xceed paper about CDISC

4) Validation Step: Remember 21 CFR Part 11 compliance for Computer Systems Validation? The risk management effort is not a one-time activity on the project. Uncertainty is directly associated with the change being produced by a project. The following lists some of the tasks that are performed as it pertains to validation.

  • Risk Assessment: Different organizations have different approaches towards validation of programs. This is partly due to varying interpretations of the regulations and also  due to how different managers and organizations function. Assess the level of validation that needs to take place.
  • Test Plan: In accordance with the project plan and, if not, to determine how to address any deviation. Test planning is essential in:  ensuring testing identifies and reveals as many errors as possible and to acceptable levels of quality.

test plan-cdisc

  • Summary Results: This is all the findings documented during testing.

An effective risk management process involves first identifying and defining risk factors that could affect the various stages of the CDISC implementation process as well as specific aspects of the project. riskplan

5) Transformation Specification: Dataset transformation is a process in which a set of source datasets and its variables are changed to  meet new standard requirements. Some changes will occur during this step: For example, variable name must be 8 chars long. The variable label must not be more than 40 chars in length. Combining values from multiple sources (datasets) into on variable.

6) Applying Transformation: This is done according to specification however, this document is active during the duration of a project and can change. There are now many tools available to help with this tasks as it could be time consuming and resource intensive to update the source code (SAS) manually. Transdata, CDISCXpres, SAS CDIDefine-it; just to name a few.

7) Verification Reports: The validation test plan will detail the specific test cases that need to be implemented  to ensure quality of the transformation. For example, a common report is the “Duplicate Variable” report.

8) Special Purpose Domain: CDISC has several special purpose domains: CO (comments), RELREC (related records or relationship between two datasets) and SUPPQUAL (supplemental qualifiers for non-standards variables).

9) Data Definition Documentation: In order to understand what all the variables are and how they are derived, we need a annotation document. This is the document that will be included during data submission. SAS PROC CONTENTS can help in the generation of this type of metadata documentation. The last step in the project plan for CDISC implementation is to generate the documentation in either PDF  or XML format.

CDISC has established data standards to speed-up data review and FDA is now suggesting that soon this will become the norm. Pharmaceuticals, bio-technologies companies and many sponsors within clinical research are now better equipped to improve CDISC implementation.

Need SAS programmers? RA eClinica can help provide resources in-house / off-shore to facilitate FDA review by supporting CDISC mapping, SDTM validation tool, data conversion and CDASH compliant eCRFs.

Disclaimer: The legal entity on this blog is registered as Doing Business As (DBA) – Trade Name – Fictitious Name – Assumed Name as “GAMBOA”.