Using Continuous Data Tracking Technology to Study Exercise Adherence in Pulmonary Rehabilitation

Once data is collected, a single file per subject per session of raw data is obtained. Using statistical software, all sessions per subject are combined into a single file. Subsequently, the target intensity must be calculated for each subject. The adherence rate to that target intensity can then be calculated per session per subject, for each session for all subjects combined, or per group.

1. Data Collection (carried out by personnel supervising the training session)

1. Minimize electrical interference by turning off wireless devices (e.g. cell phones, Wi-Fi, etc.) and minimize crosstalk by ensuring the heart rate monitors and equipment are at least 1 meter apart. Refer to Figure 1 for placement of heart rate transmitter.
2. Turn on the data tracking software. Press start on the aerobic equipment and train the participant at the target intensity. For example, in our studies, participants are asked to train within ± 5 beats/min of their target heart rate. Refer to Figure 2 for CardioMemory.
3. Collect data second-by-second for each participant for each rehabilitation session. Collected data includes the following: subject ID, duration (hhmmss), level of intensity (1-30), workload (watts), pedaling speed (revolutions/minute), distance (km), pace (mm:ss/km), heart rate (beats/minute), estimated oxygen consumption (VO₂, ml/min/kg), metabolic equivalent of physical effort (METs), estimated energy expenditure (kcal/hour), and estimated energy consumed (kcal). See Figure 3.
4. Press stop on the aerobic equipment. Click "save" to upload the data to CardioMemory. Click "export" to save the document outside of CardioMemory. The document will be in .cvs format and will automatically include the date of the session.

2. Data Extraction

CardioMemory software does not allow for the distinction of various exercise-training phases. As such, the data obtained must be exported to a statistical software in order to eliminate the phases that are not of interest (e.g. warm-up and cool-down), merge the data files, and compare achieved against target intensity.

1. Open statistical analysis software to import excel file. Procedure: File → Open → Data → In "Open Data" window, select All Files in the dropdown menu of "Files of Types" → Select Excel. xls file → Open → In "Opening Excel Data Source" window click OK.
2. Save the data file in a statistical analysis software. See Figure 4 for a sample database.
3. Eliminate the nontraining phases, i.e. warm-up and cool-down, if the interest is time spent at the target intensity during the training phase.
   1. Eliminate warm-up phase (e.g. first 10 min):
      1. To recode duration, create a variable to identify every second as 1. Procedure: Transform → Recode into Different variables… → In "Recode into Different Variables" window, select Duration_A img alt=”Arrow” fo:content-width=”.2in” src=”/files/ftp_upload/50643/arrow.jpg” width=”20px” /> click arrow → Identify "Output Variable Name" (e.g. tempo) → Change → Click on Old and New Values → Under "Old Value", select Value: and enter 0 → Under "New Value", Select Value: and enter 0 → Add → Under "Old Value", select All other values then click on Value:, under "New Value" and enter 1 → Add → Continue → OK.
         • RECODE Duration_A (0=0) (ELSE=1) INTO Tempo.
         • EXECUTE.
      2. Create a second temporary variable. Procedure: Transform → Shift Values → Select tempo → Click arrow → Under "Name:" type temporary variable (e.g. tempo2) → Change → OK.
         • SHIFT VALUES VARIABLE=Tempo RESULT=Tempo2 LAG=1.
      3. To start tempo2 at 0, it must be recoded. Procedure: Transform → Recode into Same Variables → Select tempo2 → Click arrow → Click Old and New Values → Under "Old Value", select System-Missing → Under "New Value", select Value: and enter 0 → Add → Continue → OK.
         • RECODE Tempo2 (SYSMIS=0).
         • EXECUTE.
      4. Sum the seconds starting from zero. Procedure: Transform → Compute Variable → Under "Target Variable:" type tempo → Under "Numeric Expression" type lag (tempo) +1 → IF… → Select Include if case satisfies condition: → Type tempo2 > 0 → Continue → OK.
         • IF (Tempo2 > 0) Tempo=Lag (tempo) + 1.
         • EXECUTE.
      5. To eliminate the first 10 min of warm-up, remove tempo data that precedes 599 seconds. Procedure: Data → Select cases… → In "Select Cases" window, under "Select", choose "If condition is satisfied" → If… → In "Select Cases: If" window, insert equation tempo > 599 → Continue → Under "Output", choose Delete unselected cases → OK. See Figure 5.
         • FILTER OFF.
         • USE ALL.
         • SELECT IF (tempo > 599).
         • EXECUTE.
   2. Eliminate cool-down phase (e.g. last 5 minutes):
      1. Sort data in descending order for Duration_A to bring the cool-down phase to the top of the database, as SPSS removes data from the top of the file onwards. Procedure: Data → Sort Cases → In "Sort Cases" window, select Duration_A → click arrow → In "Sort Order" menu select Descending → OK.
         • SORT CASES BY Duration_A(D).
      2. Recode Duration_A to identify every second as 1. Procedure: Transform → Recode Into Different variables… → In "Recode into Different Variables" window, select Duration_A → click arrow → Identify "Output Variable Name" (e.g. tempoA) → Change → Click Old and New Values → Under "Old Value", select Value: and enter 0 → Under "New Value", select Value: and enter 0 → Add → Select All other values under "Old Value", then click on Value: under "New Value" and enter 1 → Add → Continue → OK.
         • RECODE Duration_A (0=0) (ELSE=1) INTO TempoA.
         • EXECUTE.
      3. Create a second temporary variable. Procedure: Transform → Shift Values → Select tempoA → Click arrow → Under "Name:" type temporary variable (e.g. tempoA2) → Change → OK.
         • SHIFT VALUES VARIABLE=TempoA RESULT=TempoA2 LAG=1.
      4. To start tempoA2 at 0, it must be recoded. Procedure: Transform → Recode into Same Variables → Select tempoA2 → Click arrow → Click Old and New Values → Under "Old Value", select System-Missing → Under "New Value", select Value: and enter 0 → Add → Continue → OK.
         • RECODE TempoA2 (SYSMIS=0).
         • EXECUTE.
      5. Sum the seconds of the tempoA variable. Procedure: Transform → Compute Variable → Under "Target Variable:" type tempoA → Under "Numeric Expression" type lag (tempoA)+1 → IF… → Select Include if case satisfies condition: → Type tempoA2> 0 → Continue → OK.
         • IF (TempoA2 > 0) TempoA=Lag (tempoA) + 1.
         • EXECUTE.
      6. To eliminate the cool-down phase (i.e. 5 min), remove tempo data that precedes 299 seconds. Procedure: Data → Select cases… → In "Select Cases" window, under "Select", choose "If condition is satisfied" → If… → In "Select Cases: If" window, insert equation tempoA > 299 → Continue → under "Output", choose Delete unselected cases → OK. See Figure 6.
         • FILTER OFF.
         • USE ALL.
         • SELECT IF (tempoA > 299).
         • EXECUTE.
   3. Identify the session number (or date) associated with the dataset. Create and name a new variable (e.g. Session). Procedure: Transform → Compute Variable → In compute variable window under Target Variable, type Session → click Type & Label to open "Compute Variable: Type an…" window → under "Type" select String → Continue → under String Expression type '1' → OK. See Figure 7.
      • STRING Session (A8).
      • COMPUTE Session= '1'.
      • EXECUTE.
   4. Save the modified SPSS document in a new file (example: subjectID_session#).
   5. Repeat the above procedure for all remaining sessions for the same subject.

3. Data Merging – Single Participant

1. To merge all sessions into a single SPSS database, open participant's first session (i.e. subjectID_session1).
2. Merge remaining sessions to the current file. Procedure: Data → Merge Files → Add Cases → in "Add Cases to subjectID_session1.sav" window, click Browse and choose file subjectID_session2 → Open → Continue → in the "Add Cases from …" window click OK. Repeat for all remaining sessions. See Figure 8.
   • ADD FILES /FILE=*
   • /FILE='SubjectAB001_Session1.sav'.
   • EXECUTE.
3. Add a column which contains the subject's ID number. Procedure: Transform → Compute Variable → In "Compute Variable" window under Target Variable, type SubjectID → click Type & Label to open "Compute Variable: Type an…" window → under "Type" select String → Continue → under String Expression type 'SubjectID' (e.g. 'AB001') → OK. See Figure 9.
   • STRING Subject_ID (A8).
   • COMPUTE Subject_ID='AB001'.
   • EXECUTE.
4. Add a column that contains the subject’s target intensity (e.g. target heart rate [THR]). Procedure: Transform → Compute Variable → In "Compute Variable" window under Target Variable, type THR → click Type & Label to open "Compute Variable: Type an…" window → under "Type" select Numeric → Continue → under Numeric Expression type THR (e.g. 110) → OK. See Figure 10.
   • STRING THR (A8).
   • COMPUTE THR='110'.
   • EXECUTE.
5. Save database under a different file name (e.g. SubjectAB001_session1-36).
6. Repeat for all remaining participants. At this point, each participant will have a database containing all sessions.

4. Data Merging – Grouping Participants

1. To group several participants into a single database, open participant's file (i.e. subjectID_session1-36).
2. Merge the remaining participants to the current file. Procedure: Data → Merge Files → Add Cases → in "Add Cases to SubjectAB001_session1-36.sav" window, click Browse and choose file SubjectCD002_session1-36 → Open → Continue → in the "Add Cases from …" window click OK. Repeat for all participants that you wish to group. See Figure 11.
   • ADD FILES /FILE=*
   • /RENAME (AB001=d0)
   • /FILE='SubjectAB001_Session1-36.sav'
   • /RENAME (CD002=d1)
   • /DROP=d0 d1.
   • EXECUTE.
3. Save new database (e.g.Group01_Subjects001-010).

5. Identification of Target Intensity (e.g. THR Range)

1. Identify a THR range; click Transform → Compute Variable → in the "Compute Variable" window under "Target Variable" enter a new variable name (e.g. Diff_HR_THR) → "Type & Label…" → in the "Compute Variable: Type an…." select Numeric → Continue → Under "Numeric Expression" enter equation: HR – THR → OK. This provides us with a new variable.
   • COMPUTE Diff_HR_THR=HR – THR.
   • EXECUTE.
2. Recode variables to identify whether the HR lies below, above, or within the THR range. Procedure:Transform → Recode Into Different Variables… → select Diff_HR_THR → click arrow → under "Output Variable" under "Name" type Diff_HR_THR _recoded → Change → Old and New Values… → in "Recode Into Different Variables: Old and New Values" window:

→ Continue → OK. See Figure 12.

• RECODE Diff_HR_THR (SYSMIS=SYSMIS) (-5 thru 5=1) (Lowest thru -5=0) (5 thru Highest=0) INTO
• Diff_HR_THR_Recoded.
• EXECUTE.

6. Calculation of Percent Adherence

1. In Group01_Subjects001-010 file, calculate all seconds that patients were within the THR range by doing the following: Data → Aggregate → in "Aggregate Data" window, under "Break Variable(s):" select subjectID and session → click arrow → under "Summaries of Variable(s):" select Diff_HR_THR _recoded → click arrow → OK. A new variable is created with the name Diff_HR_THR _recoded_mean.
   • AGGREGATE
   • /OUTFILE=* MODE=ADDVARIABLES
   • /BREAK=Subject_ID Session
   • /Diff_HR_THR_Recoded_mean=MEAN(Diff_HR_THR_Recoded).
2. Convert the obtained value into a percentage; click Transform → Compute Variable → under "Target Variable" enter variable name (e.g. Perc_THR) → under "Numeric Expression" select Diff_HR_THR _recoded_mean → click arrow → multiply the value by 100 (Diff_HR_THR _recoded_mean * 100) → OK. We then obtain adherence as a percentage of time spent within the THR for each subject for each session. See Figure 13
   • COMPUTE Perc_THR=Diff_HR_THR_Recoded_mean * 100.
   • EXECUTE.
3. To obtain adherence for the percentage of time spent within the THR for each subject for all sessions combined, in "Aggregate Data" window, under "Break Variable(s):" substitute subjectID and session with only subjectID. See Figure 14.
4. To obtain adherence for the percentage of time spent within the THR for each session for all subjects combined, in "Aggregate Data" window, under "Break Variable(s):" substitute subjectID and session with only session.
5. Save the database under a different file name (e.g. Group01_Subjects001-010_Aggregate).