SEND Example.In vitro Micronucleus Assay - includes smoke regimen and device identifier

For the purposes of team review of the example data, the report is  included in this section: 

Sample data #1: Determination of the in vitro genotoxicity potential of 10 tobacco products in the in vitro Micronucleus Assay

Study info: This study was performed to assess the in vitro genotoxicity of 10 different tobacco products containing 1% to 2% nicotine. The genotoxic potential was determined using the in vitro micronucleus test with TK6 lymphoblastoid suspension cells. The study was conducted in compliance with the following documents:

• OECD TG 487 (2010): Guideline for the testing of chemicals: In vitro mammalian cell micronucleus test.
• BL SOP 132: Determination of the in vitro genotoxicity of condensates from tobacco products and ingredients for tobacco products / electronic vapour products – in vitro micronucleus test (IVM) with TK6 cells.

The cells were exposed to increasing dose levels of tobacco product using short term treatment in the presence and absence of an external metabolic activation system (ST+/-S9 mix) as well as a long term treatment in the absence of an external metabolic activation system (LT-S9 mix).

Toxicity was calculated as relative increase in cell count (RICC), relative cell count (RCC) and relative population doubling (RPD). RPD is the cytotoxicity measure used for the assessment. RICC and RCC are also reported but not considered for the assessment.

Note: OECD GUIDELINE FOR THE TESTING OF CHEMICALS

Population Doubling = [log (Post-treatment cell number ÷ Initial cell number)] ÷ log 2

Conclusion: All tobacco product evaluated did not induce any signs of severe toxicity or genotoxicity in any of the treatments and do not fulfil the criteria to be classified as genotoxic.

Reported results: (only listed the result of one tobacco product as an example)

1. Statistical analysis

Adjusted p-values calculated for the micronucleus frequencies for every dose level as compared to the corresponding solvent control after ST in the presence and absence of S9 mix as well as LT in the absence of S9 mix. One way ANOVA with posthoc Dunnett’s test for multiple comparisons for the dose response and a two tailed unpaired student’s t-test for the comparison of positive and negative control were used. The difference between the samples is considered statistically significant at p≤0.05.

Bleo: Bleomycin; CPA: Cyclophosphamid A; statistically significant increases are highlighted in bold.

• Assumption: The intent of this dataset is to provide a summary of trial (study) information. This is not subject-level data. 
• Assumption: A Trial (study) can have more than one assay type
• Assumption: ASSAYID value of ALL indicates that it applies to all assays in the study
• Assumption: SPDEVID and DUREFID should only be in TX (with the same value for all sets if there is only one device used)
• Assumption:  SPDEVID (sponsor defined device identifier) should be added at the trial set level (tx.xpt) - we can discuss if this should be in TS when there is only one device for a study
  
  • This allows for studies where there are multiple products and different product(s) per trial set, one record for each product that is being tested in each particular trial set (tx.xpt)

(This is a copy from the SDTM Example. Cigarette Design Parameters, will need scription team)

to.xpt

• During CT definition/reviews will decide appropriate TXPARM and TXVAL; Treatment duration may be controlled;  For now, we just include good example values based on our experience
• Assumption: The Trial Sets (TX) domain provides the list of distinct sets of subjects having different experimental factors, treatment factors, inherent characteristics, or distinct sponsor designations as specified in the trial design.
• Where is TK6 cell type?  is this test system (see below)
  • needs to be allowed to vary down to the well level / result level
• Do we need both SPDEVID AND DUREFID?
• What are good values (realistic) for "SET"?
• Check Essential Data list 

A1:

A2:                                   

 We use DU for smoking regimen. Note that a separate DI dataset will be needed to show identifying parameters of the "PUFFMASTER3K" smoking machine

• Details of the smoking regimen are represented as device in-use properties, linked to the stability data in PT above by matching values of PTREFID/DUREFID = "Medium Intensity Regimen" (We will update with a realistic value for the regimen, with input).
• Smoking regimen is represented in --REFID (we made up a value of "Medium Intensity Regimen"; we can update with something realistic)
• The smoking regimen is carried out by the smoking machine/device shown in SPDEVID, Sponsor defined device identifier, "PUFFMASTER3K"

du.xpt

di.xpt (copied v1.0 of medical devices IG)

• This example is a copy of Example 1 from di.xpt in SDTMIG-MD v1.0 but with values for SPDEVID and DIVAL revised slightly. 
• Should I remove the FDA UDI (row 5) unless CTP has or plans to establish UDI values?

Example 1
This shows records for two three devices where the sponsor felt that the type, manufacturer, model number, and serial number were necessary for unique identification. In addition, there was a post-marketing UDI identifier available for the first device.

• Rows 1-5 show the records for a device given a SPDEVID of PUFFMASTER3K
• Rows 5-8 show the records for a device given a SPDEVID of PUFFMASTER2023
• Rows 9-12 show

• Entity IDs are unique within the assay (and a study can have many assays)
• Replicates vs. Run 
  • need planned (ei.xpt) separate from the actual (gt.xpt)
  • If tests run at the same time, they are replicates and are assigned the same RUNID
  • If tests are run at separate times, they are runs and the RUNIDs are distinct
• Different runs would be expected to have different ENID and GTDTC values. In ei.xpt, these are distinguished by different RUNID values.
• Entities that are replicates of each other would be expected to
  • have different ENID values
  • be in the same trial set (SETCD values)
  • have the same RUNID values

A1:

A2:                                   

• Different runs would be expected to have different ENID and GTDTC values. In ei.xpt, these are distinguished by different RUNID values.