# v6.0 DataSHIELD Training Part 2: Basic statistics and data manipulations

Prerequisites

It is recommended that you familiarise yourself with R first by sitting our **Introduction to R tutorial**.

It also requires that you have the DataSHIELD training environment installed on your machine, see our **Installation Instructions for Linux****, Windows, or Mac****.**

Help

DataSHIELD support is freely available in the **DataSHIELD forum** by the DataSHIELD community. Please use this as the first port of call for any problems you may be having, it is monitored closely for new threads.

DataSHIELD bespoke user support and also user training classes are offered on a fee-paying basis. Please enquire at datashield@newcastle.ac.uk for current prices.

# Introduction

This is the second in a 6-part DataSHIELD tutorial series.

The other parts in this DataSHIELD tutorial series are:

5: Sub-setting

6: Modelling

## Quick reminder for logging in:

## Basic statistics and data manipulations

### Descriptive statistics: variable dimensions and class

It is possible to get some descriptive or exploratory statistics about the assigned variables held in the server-side R session such as number of participants at each data provider, number of participants across all data providers and number of variables. Identifying parameters of the data will facilitate your analysis.

Note, we have gone back to using the default symbol for connections, "D". This will be the case for the rest of the tutorial. Also, the **DSI::datashield.login()** function has an auto logout feature built into the start of it, so logging out from the previous session can be omitted.

connections <- DSI::datashield.login(logins = logindata, assign = TRUE, symbol = "D") ds.dim(x = 'D')

The output of the command is shown below. It shows that in study 1 there are 2163 individuals with 11 variables and in study 2 there are 3088 individuals with 11 variables, and that in both studies together there are in total 5251 individuals with 11 variables:

Aggregated (dimDS("D")) [==============================================================] 100% / 0s $`dimensions of D in study1` [1] 2163 11 $`dimensions of D in study2` [1] 3088 11 $`dimensions of D in combined studies` [1] 5251 11

Almost all functions in DataSHIELD can display split results (results separated for each study) or pooled results (results for all the studies combined). This can be done using the argument

or **type='split'**

in each function. The majority of DataSHIELD functions default to **type='combine'**

. The default for each function can be checked in the function help page. Some of the new versions of functions include the option **type='combine'**** type='both' **which returns both the split and the pooled results.

- Up to here, the dimensions of the assigned data frame

have been found using the**D**

command in which**ds.dim**

is the default argument.**type='both'** - Now use the

argument in the**type='combine'**

function to identify the number of individuals (5251) and variables (11) pooled across all studies:**ds.dim**

ds.dim(x='D', type='combine', datasources = connections)

Aggregated (dimDS("D")) [==============================================================] 100% / 0s $`dimensions of D in combined studies` [1] 5251 11

The argument "datasources=" is routinely specified in this tutorial for the purpose of clarity; however it can be omitted in general DataSHIELD practice- if the datasources argument is not specified the default set of connections will be used.

- To check the variables in each study are identical (as is required for pooled data analysis), use the

function on the assigned data frame**ds.colnames**

:**D**

ds.colnames(x='D', datasources = connections)

Aggregated (exists("D")) [=============================================================] 100% / 1s Aggregated (classDS("D")) [============================================================] 100% / 1s Aggregated (colnamesDS("D")) [=========================================================] 100% / 0s $study1 [1] "LAB_TSC" "LAB_TRIG" "LAB_HDL" "LAB_GLUC_ADJUSTED" "PM_BMI_CONTINUOUS" [6] "DIS_CVA" "MEDI_LPD" "DIS_DIAB" "DIS_AMI" "GENDER" [11] "PM_BMI_CATEGORICAL" $study2 [1] "LAB_TSC" "LAB_TRIG" "LAB_HDL" "LAB_GLUC_ADJUSTED" "PM_BMI_CONTINUOUS" [6] "DIS_CVA" "MEDI_LPD" "DIS_DIAB" "DIS_AMI" "GENDER" [11] "PM_BMI_CATEGORICAL"

- Use the

function to identify the class (type) of a variable - for example if it is an integer, character, factor etc. This will determine what analysis you can run using this variable class. The example below defines the class of the variable**ds.class**held in the assigned data frame`LAB_HDL`

, denoted by the argument`D`

.**x='D$LAB_HDL'**

ds.class(x='D$LAB_HDL', datasources = connections)

Aggregated (exists("D")) [=============================================================] 100% / 0s Aggregated (classDS("D$LAB_HDL")) [====================================================] 100% / 1s $study1 [1] "numeric" $study2 [1] "numeric"

### Descriptive statistics: quantiles and mean

As** LAB_HDL** is a numeric variable the distribution of the data can be explored.

- The function

returns the quantiles and the statistical mean.**ds.quantileMean**

It does not return minimum and maximum values as these values are potentially disclosive (e.g. the presence of an outlier). By default

in this function - the results reflect the quantiles and mean pooled for all studies. Specifying the argument **type='combined'**

will give the quantiles and mean for each study:**type='split'**

ds.quantileMean(x='D$LAB_HDL', datasources = connections)

Aggregated (exists("D")) [=============================================================] 100% / 0s Aggregated (classDS("D$LAB_HDL")) [====================================================] 100% / 1s Aggregated (quantileMeanDS(D$LAB_HDL)) [===============================================] 100% / 0s Aggregated (lengthDS("D$LAB_HDL")) [===================================================] 100% / 0s Aggregated (numNaDS(D$LAB_HDL)) [======================================================] 100% / 0s Quantiles of the pooled data 5% 10% 25% 50% 75% 90% 95% Mean 0.8606589 1.0385205 1.2964949 1.5704848 1.8418712 2.0824057 2.2191369 1.5619572

- To get the statistical mean alone, use the function

use the argument**ds.mean**

to request split results:**type**

ds.mean(x='D$LAB_HDL', datasources = connections)

Aggregated (meanDS(D$LAB_HDL)) [=======================================================] 100% / 0s $Mean.by.Study EstimatedMean Nmissing Nvalid Ntotal study1 1.569416 360 1803 2163 study2 1.556648 555 2533 3088 $Nstudies [1] 2 $ValidityMessage ValidityMessage study1 "VALID ANALYSIS" study2 "VALID ANALYSIS"

# Conclusion

The other parts in this DataSHIELD tutorial series are:

5: Sub-setting

6: Modelling

Also remember you can:

- get a function list for any DataSHIELD package and
- view the manual help page individual functions
- in the DataSHIELD test environment it is possible to print analyses to file (.csv, .txt, .pdf, .png)
- take a look at our FAQ page for solutions to common problems such as Changing variable class to use in a specific DataSHIELD function.
- Get support from our DataSHIELD forum.