Type 2 Diabetes Mellitus (T2DM) Clinical Trial
— GAPOfficial title:
Group Medical Visits (GMVs) in Primary Care: An RCT of Group-Based Versus Individual Appointments to Reduce HbA1c in Older People
Type 2 diabetes is a major problem of older people; its prevalence is greater than 20% in
those aged over 65 years. Treatment such as medication, healthy nutritional choices & body
weight management, as well as physical activity can reduce the impact of diabetes.
Older patients with type 2 diabetes can potentially benefit from Group Appointments, in which
8-12 patients share one appointment of about 60-120 minutes with a team of health
professionals.
The team of investigators (3 people) will see the 'Group' 4 times/yr for two years. Their key
measure of success will be control of glycosylated hemoglobin - HbA1C.
To address their primary and secondary research objectives the investigators will focus upon
patients aged 65 years or older who have T2DM and who are being treated with oral
hypoglycemic agents and diet, or diet alone.
The investigators will compare patients randomized to (A) eight Group Appointments over a 24
month period (i.e., 4 per year), led by a primary care physician [Intervention] with, (B)
patients randomized to eight traditional one-to-one usual care appointments also provided by
a primary care physician (Individual Appointment; [Control]). The investigators will compare
(A) and (B) on selected clinical, patient-rated, and economic outcome measures.
SIGNIFICANCE: Seven Canadian provinces already have Group Appointment billing codes for
physicians who lead Group Appointments. If the study's proposed health care innovation
demonstrates benefits, it would be possible to 'roll out' / 'scale up' the model province- or
nation-wide in Primary Care settings.
Status | Recruiting |
Enrollment | 128 |
Est. completion date | February 2020 |
Est. primary completion date | February 2019 |
Accepts healthy volunteers | Accepts Healthy Volunteers |
Gender | All |
Age group | 65 Years and older |
Eligibility |
Inclusion Criteria: - aged = 65 years old; - have at least a 12-month history of T2DM based on the Canadian Diabetes Guidelines; - be community-dwelling; - live within 30km of their GP clinic in Abbotsford, BC (Canada); - able to comply with scheduled visits, treatment plan, and other trial procedures; - read, write, and speak English; - acceptable auditory acuity to participate in the Group Appointments and visual acuity to participate in the research; - provide a personally signed and dated informed consent; - able to walk independently; - Inclusion will be based on medical history, vital signs, physical examination by study physicians, and written recommendation by family physician, indicating the patient's appropriateness to participate. Exclusion Criteria: - using insulin to treat diabetes to increase the homogeneity of the sample; - at high risk for cardiac complications during exercise and/or unable to self-regulate activity or to understand recommended activity level (i.e., Class C of the American Heart Risk Stratification Criteria); - Mini-Mental State Examination (MMSE)[51] score of = 24 at screening; - have clinically significant peripheral neuropathy or severe musculoskeletal or joint disease that impairs mobility; - taking medications that may negatively affect the ability to undertake a simple walking program safely (e.g. beta blockers); - planning to participate, or already enrolled in, a clinical drug trial concurrent to this study. |
Country | Name | City | State |
---|---|---|---|
Canada | Gateway Clinic / Kent Place Clinic | Abbotsford | British Columbia |
Canada | Centre for Hip Health and Mobility (Vancouver Coastal Health Research Institute/University of British Columbia) | Vancouver | British Columbia |
Lead Sponsor | Collaborator |
---|---|
University of British Columbia | Ministry of Health, British Columbia |
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* Note: There are 72 references in all — Click here to view all references
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Primary | Patients' control (decreased levels) of HemoglobinA1C (clinical) | The investigators will measure Hemoglobin A1C (%, primary outcome), utilizing the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 24 months | |
Secondary | Resting systolic blood pressure (mmHg)) (clinical) | The investigators will assess resting systolic blood pressure with an automated BP device BPTRU™. | Changes from baseline at 12 months | |
Secondary | Resting systolic blood pressure (mmHg)) (clinical) | The investigators will assess resting systolic blood pressure with an automated BP device BPTRU™. | Changes from baseline at 24 months | |
Secondary | Resting systolic blood pressure (mmHg)) (clinical) | The investigators will assess resting systolic blood pressure with an automated BP device BPTRU™. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Resting diastolic blood pressure (mmHg)) (clinical) | The investigators will assess resting diastolic blood pressure with an automated BP device BPTRU™. | Changes from baseline at 12 months | |
Secondary | Resting diastolic blood pressure (mmHg)) (clinical) | The investigators will assess resting diastolic blood pressure with an automated BP device BPTRU™. | Changes from baseline at 24 months | |
Secondary | Resting diastolic blood pressure (mmHg)) (clinical) | The investigators will assess resting diastolic blood pressure with an automated BP device BPTRU™. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Electrical activity of the heart (ECG) (clinical) | The investigators will assess cardiovascular disease risk factors by 12-lead ECG (10 minutes). | Changes from baseline at 12 months | |
Secondary | Electrical activity of the heart (ECG) (clinical) | The investigators will assess cardiovascular disease risk factors by 12-lead ECG (10 minutes). | Changes from baseline at 24 months | |
Secondary | Electrical activity of the heart (ECG) (clinical) | The investigators will assess cardiovascular disease risk factors by 12-lead ECG (10 minutes). | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | C-reactive protein (mg/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 12 months | |
Secondary | C-reactive protein (mg/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 24 months | |
Secondary | C-reactive protein (mg/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | plasma glucose (mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 12 months | |
Secondary | plasma glucose (mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 24 months | |
Secondary | plasma glucose (mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | High-density lipoprotein - cholesterol (HDL-C; mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 12 months | |
Secondary | High-density lipoprotein - cholesterol (HDL-C; mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 24 months | |
Secondary | High-density lipoprotein - cholesterol (HDL-C; mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Fasting low-density lipoprotein (LDL; mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 12 months | |
Secondary | Fasting low-density lipoprotein (LDL; mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 24 months | |
Secondary | Fasting low-density lipoprotein (LDL; mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Triglycerides (mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 12 months | |
Secondary | Triglycerides (mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 24 months | |
Secondary | Triglycerides (mmol/L) (clinical) | The investigators will utilize the phlebotomy unit in the CHHM Mobile Lab to collect a non-fasting blood sample (standard techniques). They will request that study participants not engage in any physical activity, or consume alcohol/caffeine 24 hours prior to measurement. Collected samples will be refrigerated in the Mobile Lab and transported the same day to the Vancouver General Hospital Pathology Lab for analysis as per current standard methods. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Height (cm), weight (kg), waist & hip circumference (cm), fat and muscle mass (g) (clinical) | Height (cm): The investigators will use the wall-mounted stadiometer (Rosscraft Inc). Weight (kg): Participants remove shoes and stand on an electronic scale (Seca Model 242, Hanover, MD). For height and weight, duplicate measures are taken unless measures differ by ±0.4 cm or ±0.2 kg, when a third measure is taken. The investigators will calculate body mass index (BMI) as wt/ht2. Waist circumference (cm): The investigators use a flexible steel tape. In older adults, it is most convenient to measure at the umbilical level. The investigators obtain two measures during minimal respiration and record to the nearest 0.1 cm. They perform a third measure if the difference between the first two measures is greater than 0.2 cm. The investigators use the mean of two and the median of three measurements for analysis for all measures. Fat and muscle mass (g): The investigators will assess total body fat mass (g) and muscle mass (g) by DXA (Hologic QDR 4500W,Hologic Inc., Waltham, MA). | Changes from baseline at 12 months | |
Secondary | Height (cm), weight (kg), waist & hip circumference (cm), fat and muscle mass (g) (clinical) | Height (cm): The investigators will use the wall-mounted stadiometer (Rosscraft Inc). Weight (kg): Participants remove shoes and stand on an electronic scale (Seca Model 242, Hanover, MD). For height and weight, duplicate measures are taken unless measures differ by ±0.4 cm or ±0.2 kg, when a third measure is taken. The investigators will calculate body mass index (BMI) as wt/ht2. Waist circumference (cm): The investigators use a flexible steel tape. In older adults, it is most convenient to measure at the umbilical level. The investigators obtain two measures during minimal respiration and record to the nearest 0.1 cm. They perform a third measure if the difference between the first two measures is greater than 0.2 cm. The investigators use the mean of two and the median of three measurements for analysis for all measures. Fat and muscle mass (g): The investigators will assess total body fat mass (g) and muscle mass (g) by DXA (Hologic QDR 4500W,Hologic Inc., Waltham, MA). | Changes from baseline at 24 months | |
Secondary | Height (cm), weight (kg), waist & hip circumference (cm), fat and muscle mass (g) (clinical) | Height (cm): The investigators will use the wall-mounted stadiometer (Rosscraft Inc). Weight (kg): Participants remove shoes and stand on an electronic scale (Seca Model 242, Hanover, MD). For height and weight, duplicate measures are taken unless measures differ by ±0.4 cm or ±0.2 kg, when a third measure is taken. The investigators will calculate body mass index (BMI) as wt/ht2. Waist circumference (cm): The investigators use a flexible steel tape. In older adults, it is most convenient to measure at the umbilical level. The investigators obtain two measures during minimal respiration and record to the nearest 0.1 cm. They perform a third measure if the difference between the first two measures is greater than 0.2 cm. The investigators use the mean of two and the median of three measurements for analysis for all measures. Fat and muscle mass (g): The investigators will assess total body fat mass (g) and muscle mass (g) by DXA (Hologic QDR 4500W,Hologic Inc., Waltham, MA). | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Quality of life (as measured by the health state utility values of EQ-5D3L questionnaire (patient-reported quality of life/economic)) | QALYs are calculated based on the quality of life of a patient (measured using health utilities) in a given health state and the time spent in that health state. The EQ-5D enables QALYs to be estimated. This captures the gains from reduced morbidity and reduced mortality by assigning quality weights at specific time points to an intervention that are based on preferences, anchored on perfect health and death, and measured on an interval scale. Economic analyses will be conducted from the BC Ministry of Health perspective and will capture the time horizon of the trial (24 months). | Changes from baseline at 12 months | |
Secondary | Quality of life (as measured by the health state utility values of EQ-5D3L questionnaire (patient-reported quality of life/economic)) | QALYs are calculated based on the quality of life of a patient (measured using health utilities) in a given health state and the time spent in that health state. The EQ-5D enables QALYs to be estimated. This captures the gains from reduced morbidity and reduced mortality by assigning quality weights at specific time points to an intervention that are based on preferences, anchored on perfect health and death, and measured on an interval scale. Economic analyses will be conducted from the BC Ministry of Health perspective and will capture the time horizon of the trial (24 months). | Changes from baseline at 24 months | |
Secondary | Quality of life (as measured by the health state utility values of EQ-5D3L questionnaire (patient-reported quality of life/economic)) | QALYs are calculated based on the quality of life of a patient (measured using health utilities) in a given health state and the time spent in that health state. The EQ-5D enables QALYs to be estimated. This captures the gains from reduced morbidity and reduced mortality by assigning quality weights at specific time points to an intervention that are based on preferences, anchored on perfect health and death, and measured on an interval scale. Economic analyses will be conducted from the BC Ministry of Health perspective and will capture the time horizon of the trial (24 months). | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Health Care Utilization | The investigators' economic evaluation will examine the incremental costs and benefits generated by using the Group Medical Appointments intervention versus usual care. The outcome of their cost utility analysis is the incremental cost effectiveness ratio (ICER). By definition, an ICER is the difference between the mean costs of providing the competing interventions divided by the difference in effectiveness (i.e., QALYs), where the ICER = ? Cost / ? Effect. Dr. Marra will conduct a prospective economic evaluation alongside the clinical trial to 1) estimate the mean/participant and total health care resource utilization and costs associated with Group Appointments and usual care; 2) determine the QoL as measured by health state utility values; and 3) conduct a cost-utility analysis. The cost-utility analysis will be assessed in terms of incremental cost per quality adjusted life year (QALY). Our instruments are the EQ-5D-3L and Heath Resource Utilization (HRU) questionnaires. |
Changes from baseline at 12 months | |
Secondary | Health Care Utilization | The investigators' economic evaluation will examine the incremental costs and benefits generated by using the Group Medical Appointments intervention versus usual care. The outcome of their cost utility analysis is the incremental cost effectiveness ratio (ICER). By definition, an ICER is the difference between the mean costs of providing the competing interventions divided by the difference in effectiveness (i.e., QALYs), where the ICER = ? Cost / ? Effect. Dr. Marra will conduct a prospective economic evaluation alongside the clinical trial to 1) estimate the mean/participant and total health care resource utilization and costs associated with Group Appointments and usual care; 2) determine the QoL as measured by health state utility values; and 3) conduct a cost-utility analysis. The cost-utility analysis will be assessed in terms of incremental cost per quality adjusted life year (QALY). Our instruments are the EQ-5D-3L and Heath Resource Utilization (HRU) questionnaires. |
Changes from baseline at 24 months | |
Secondary | Health Care Utilization | The investigators' economic evaluation will examine the incremental costs and benefits generated by using the Group Medical Appointments intervention versus usual care. The outcome of their cost utility analysis is the incremental cost effectiveness ratio (ICER). By definition, an ICER is the difference between the mean costs of providing the competing interventions divided by the difference in effectiveness (i.e., QALYs), where the ICER = ? Cost / ? Effect. Dr. Marra will conduct a prospective economic evaluation alongside the clinical trial to 1) estimate the mean/participant and total health care resource utilization and costs associated with Group Appointments and usual care; 2) determine the QoL as measured by health state utility values; and 3) conduct a cost-utility analysis. The cost-utility analysis will be assessed in terms of incremental cost per quality adjusted life year (QALY). Our instruments are the EQ-5D-3L and Heath Resource Utilization (HRU) questionnaires. |
Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Anxiety | The investigators will assess anxiety with the recommended Generalized Anxiety Disorder 7-item (GAD-7) scale. Using the threshold score of 10, the GAD-7 has a sensitivity of 89% and a specificity of 82% for generalised anxiety disorder. It is moderately good at screening three other common anxiety disorders - panic disorder (sensitivity 74%, specificity 81%), social anxiety disorder (sensitivity 72%, specificity 80%), and post-traumatic stress disorder (sensitivity 66%, specificity 81%). The GAD-7 offer clinicians concise, self-administered screening and diagnostic tools for mental health disorders. |
Changes from baseline at 12 months | |
Secondary | Anxiety | The investigators will assess anxiety with the recommended Generalized Anxiety Disorder 7-item (GAD-7) scale. Using the threshold score of 10, the GAD-7 has a sensitivity of 89% and a specificity of 82% for generalised anxiety disorder. It is moderately good at screening three other common anxiety disorders - panic disorder (sensitivity 74%, specificity 81%), social anxiety disorder (sensitivity 72%, specificity 80%), and post-traumatic stress disorder (sensitivity 66%, specificity 81%). The GAD-7 offer clinicians concise, self-administered screening and diagnostic tools for mental health disorders. |
Changes from baseline at 24 months | |
Secondary | Anxiety | The investigators will assess anxiety with the recommended Generalized Anxiety Disorder 7-item (GAD-7) scale. Using the threshold score of 10, the GAD-7 has a sensitivity of 89% and a specificity of 82% for generalised anxiety disorder. It is moderately good at screening three other common anxiety disorders - panic disorder (sensitivity 74%, specificity 81%), social anxiety disorder (sensitivity 72%, specificity 80%), and post-traumatic stress disorder (sensitivity 66%, specificity 81%). The GAD-7 offer clinicians concise, self-administered screening and diagnostic tools for mental health disorders. |
Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Depression | The investigators will assess depression with the recommended Geriatric Depression Scale (GDS). The GDS is a 30-item self-report assessment used to identify depression in the elderly. The scale was first developed in 1982 by J.A. Yesavage and others. | Changes from baseline at 12 months | |
Secondary | Depression | The investigators will assess depression with the recommended Geriatric Depression Scale (GDS). The GDS is a 30-item self-report assessment used to identify depression in the elderly. The scale was first developed in 1982 by J.A. Yesavage and others. | Changes from baseline at 24 months | |
Secondary | Depression | The investigators will assess depression with the recommended Geriatric Depression Scale (GDS). The GDS is a 30-item self-report assessment used to identify depression in the elderly. The scale was first developed in 1982 by J.A. Yesavage and others. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Satisfaction With Life Scale | The Satisfaction With Life Scale (SWLS) is a measure of life satisfaction developed by Ed Diener and colleagues (Diener, Emmons, Larsen & Griffin, 1985). The SWLS consists of 5-items that are completed by the individual whose life satisfaction is being measured. | Changes from baseline at 12 months | |
Secondary | Satisfaction With Life Scale | The Satisfaction With Life Scale (SWLS) is a measure of life satisfaction developed by Ed Diener and colleagues (Diener, Emmons, Larsen & Griffin, 1985). The SWLS consists of 5-items that are completed by the individual whose life satisfaction is being measured. | Changes from baseline at 24 months | |
Secondary | Satisfaction With Life Scale | The Satisfaction With Life Scale (SWLS) is a measure of life satisfaction developed by Ed Diener and colleagues (Diener, Emmons, Larsen & Griffin, 1985). The SWLS consists of 5-items that are completed by the individual whose life satisfaction is being measured. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Physical Activity (PASE) | The investigators will assess physical activity with the valid and reliable Physical Activities Scale for the Elderly (PASE) questionnaire. PASE was designed for those aged 65 years and older; participants use a 12-item scale to self-report the hours per day (average) spent participating in leisure, household, and occupational physical activities over the previous seven-day period. Physical activity is an important covariate in this study. | Changes from baseline at 12 months | |
Secondary | Physical Activity (PASE) | The investigators will assess physical activity with the valid and reliable Physical Activities Scale for the Elderly (PASE) questionnaire. PASE was designed for those aged 65 years and older; participants use a 12-item scale to self-report the hours per day (average) spent participating in leisure, household, and occupational physical activities over the previous seven-day period. Physical activity is an important covariate in this study. | Changes from baseline at 24 months | |
Secondary | Physical Activity (PASE) | The investigators will assess physical activity with the valid and reliable Physical Activities Scale for the Elderly (PASE) questionnaire. PASE was designed for those aged 65 years and older; participants use a 12-item scale to self-report the hours per day (average) spent participating in leisure, household, and occupational physical activities over the previous seven-day period. Physical activity is an important covariate in this study. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Physical Activity (SenseWear) | The investigators will assess physical activity with the valid and reliable SenseWear armband, measuring steps/per day, energy expenditure (calories), and hours of activity (METs (sedentary, moderate, vigorous, very vigorous)). Participants will wear the armband for seven consecutive days, including while sleeping. | Changes from baseline at 12 months | |
Secondary | Physical Activity (SenseWear) | The investigators will assess physical activity with the valid and reliable SenseWear armband, measuring steps/per day, energy expenditure (calories), and hours of activity (METs (sedentary, moderate, vigorous, very vigorous)). Participants will wear the armband for seven consecutive days, including while sleeping. | Changes from baseline at 24 months | |
Secondary | Physical Activity (SenseWear) | The investigators will assess physical activity with the valid and reliable SenseWear armband, measuring steps/per day, energy expenditure (calories), and hours of activity (METs (sedentary, moderate, vigorous, very vigorous)). Participants will wear the armband for seven consecutive days, including while sleeping. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Goal Setting and Action Planning | Behavioural principles underpinning the intervention: Assistant Professor and Canada Research Chair HOPPMANN leads the behavioural aspects of the study. From her experience in psychological aging research and everyday health behaviours she designs Group Appointments to help patients 1) set realistic health goals; 2) identify good opportunities to translate those health goals into action (action planning); and 3) proactively map out strategies that maintain health behaviours in the face of challenges (coping planning). The investigators will utilize a psychology / goal setting questionnaire. |
Baseline | |
Secondary | Goal Setting and Action Planning | Behavioural principles underpinning the intervention: Assistant Professor and Canada Research Chair HOPPMANN leads the behavioural aspects of the study. From her experience in psychological aging research and everyday health behaviours she designs Group Appointments to help patients 1) set realistic health goals; 2) identify good opportunities to translate those health goals into action (action planning); and 3) proactively map out strategies that maintain health behaviours in the face of challenges (coping planning). The investigators will utilize a psychology / goal setting questionnaire. |
Changes from baseline at 12 months | |
Secondary | Goal Setting and Action Planning | Behavioural principles underpinning the intervention: Assistant Professor and Canada Research Chair HOPPMANN leads the behavioural aspects of the study. From her experience in psychological aging research and everyday health behaviours she designs Group Appointments to help patients 1) set realistic health goals; 2) identify good opportunities to translate those health goals into action (action planning); and 3) proactively map out strategies that maintain health behaviours in the face of challenges (coping planning). The investigators will utilize a psychology / goal setting questionnaire. |
Changes from baseline at 24 months | |
Secondary | Goal Setting and Action Planning | Behavioural principles underpinning the intervention: Assistant Professor and Canada Research Chair HOPPMANN leads the behavioural aspects of the study. From her experience in psychological aging research and everyday health behaviours she designs Group Appointments to help patients 1) set realistic health goals; 2) identify good opportunities to translate those health goals into action (action planning); and 3) proactively map out strategies that maintain health behaviours in the face of challenges (coping planning). The investigators will utilize a psychology / goal setting questionnaire. |
Changes from baseline at 36 months | |
Secondary | Food Diary | Investigators will assess nutritional intake, using a three-day food diary. | Baseline | |
Secondary | Food Diary | Investigators will assess nutritional intake, using a three-day food diary. | Changes from baseline at 12 months | |
Secondary | Food Diary | Investigators will assess nutritional intake, using a three-day food diary. | Changes from baseline at 24 months | |
Secondary | Food Diary | Investigators will assess nutritional intake, using a three-day food diary. | Changes from baseline at 36 months (1-year post-intervention) | |
Secondary | Patient Self-Management | Investigators will assess patient self-management, using the Patient Activation Measure (PAM) questionnaire. Patient self-management has been identified as a key component to the management of T2DM (CDA/ADA Practice Guidelines). Patients who have the skills, ability, and willingness to manage their own health have better health outcomes. The PAM questionnaire has been tested extensively across a number of different languages, cultures, and demographic groups, and among people with different health conditions. | Baseline | |
Secondary | Patient Self-Management | Investigators will assess patient self-management, using the Patient Activation Measure (PAM) questionnaire. Patient self-management has been identified as a key component to the management of T2DM (CDA/ADA Practice Guidelines). Patients who have the skills, ability, and willingness to manage their own health have better health outcomes. The PAM questionnaire has been tested extensively across a number of different languages, cultures, and demographic groups, and among people with different health conditions. | Changes from baseline at 12 months | |
Secondary | Patient Self-Management | Investigators will assess patient self-management, using the Patient Activation Measure (PAM) questionnaire. Patient self-management has been identified as a key component to the management of T2DM (CDA/ADA Practice Guidelines). Patients who have the skills, ability, and willingness to manage their own health have better health outcomes. The PAM questionnaire has been tested extensively across a number of different languages, cultures, and demographic groups, and among people with different health conditions. | Changes from baseline at 24 months | |
Secondary | Patient Self-Management | Investigators will assess patient self-management, using the Patient Activation Measure (PAM) questionnaire. Patient self-management has been identified as a key component to the management of T2DM (CDA/ADA Practice Guidelines). Patients who have the skills, ability, and willingness to manage their own health have better health outcomes. The PAM questionnaire has been tested extensively across a number of different languages, cultures, and demographic groups, and among people with different health conditions. | Changes from baseline at 36 months (1-year post-intervention) |
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