Impact of Metabolic Health Patterns And Breast Cancer Over Time in Women

Not Applicable

Recruiting

• Conditions: Cardiovascular Diseases; Cardiovascular Morbidity; Metabolic Disease
• Interventions: Behavioral: Time restricted eating, nutrition education, and sedentary time reduction strategies

• Registration Number: NCT05432856
• Lead Sponsor: University of Alberta

Brief Summary

Background \& Rationale:

Breast cancer (BC) is the most commonly diagnosed malignancy in women worldwide (2.1 million diagnoses in 2018, 25% of new cancer cases). In Canada, early stage BC mortality rates have decreased by 48% over the past 30 years as a result of advances in prevention, detection, and treatment. However, competing risks for mortality from non-cancer causes have emerged, where cardiovascular disease (CVD) is now a leading cause of death for BC survivors. The direct toxic effects of BC treatment on the heart (cardiotoxicity) are well characterized by the investigators and many others, as a contributor to elevated cardiovascular risk. However, BC treatment and the associated lifestyle changes (i.e. physical inactivity, poor diet quality, stress) are increasingly recognized to also strongly affect metabolism negatively manifesting as insulin resistance, dyslipidemia and adipose tissue (fat) accumulation. These adverse metabolic changes are strongly linked to CVD risk and represent a currently underappreciated contributor to the elevated CVD risk among BC survivors. Preliminary data and recent publications demonstrate that regional fat accumulation occurs during BC treatment and that the fat burden in key locations is associated with poor cardiorespiratory health. A trigger of these adverse metabolic and inflammatory effects is excess fat specifically within ectopic fat (viscera, intermuscular, or hepatic) regions. In 2019, a member of the study team found that the volume of visceral and intermuscular but not subcutaneous fat at BC diagnosis were linearly associated with CVD events within 6 years, even among those with normal BMI and after adjustment for pre-existing CVD risk factors and for BC treatment type. Using MRI, investigators found that \~1 year after chemotherapy, BC survivors had significantly larger depots of visceral fat (49% larger) and thigh intermuscular fat (41% larger) compared to age and sex-matched controls, despite similar BMI and subcutaneous fat volumes in the two groups. Investigators also showed that the fat fraction within the thigh muscle and visceral fat volumes independently explained \~50% of the variation in cardiorespiratory fitness (measured by peak VO2). In particular, peak VO2 is one of the most powerful predictors of all-cause and CVD mortality and health care costs, and is the most consistently reported negative sequelae after treatment for BC. Unfortunately, there are no known therapies to recover long-term myocardial damage (i.e. cell death, fibrosis) from cancer therapies. There are several reasons to target fat as a therapeutic target in BC patients: 1) The study team have compelling preliminary data showing accelerated formation of ectopic fat during BC treatment. 2) Investigator's recent data showed that high fat content in key fat pools was associated with reduced peak VO2. 3) The burden of fat and the associated metabolic abnormalities are dynamic and malleable, and thus highly treatable.

Research Question \& Objectives:

The primary purpose of this study is to evaluate the effect of a behavioural intervention involving supported time-restricted eating (TRE), diet quality improvements, and reduced sedentary time versus usual cancer and nutrition care in BC patients receiving chemotherapy treatment on ectopic fat, cardiometabolic profile, and chemotherapy outcomes. The investigators hypothesize that the intervention will attenuate the growth of ectopic fat during chemotherapy and reduce chemotherapy symptoms.

Detailed Description

Not available

Study Timeline

• Study First Submitted: 2022-06-10
• Study First Submitted QC: 2022-06-21
• Study First Posted: 2022-06-27
• Study Start: 2024-03-13
• Status Verified: 2024-07
• Last Update Submitted: 2024-07-10
• Last Update Posted: 2024-07-11
• Primary Completion: 2026-06
• Study Completion: 2027-06

Recruitment & Eligibility

• Status: RECRUITING
• Sex: Female
• Target Recruitment: 65

Inclusion Criteria

• Female biological sex at birth
• >18 years
• Diagnosis of stage I, II, or III breast cancer
• starting neoadjuvant or adjuvant intravenous chemotherapy
• ECOG <3;
• Oncologist approval to participate;
• English speaking (all study materials and study staff will be in English)
• Willing and able to adhere to study intervention

Exclusion Criteria

• Individuals who do not have access to a smart phone with Bluetooth capability (required for Fitbit and for responding to intervention text messages) or at least a shared cell phone with someone in the same household (i.e., some couples may share a phone).
• Type 1 or type 2 diabetes who require exogenous insulin (due to the potential need to adjust insulin dosing with TRE) or with hemoglobin A1c >10%
• Research MRI contraindications (e.g., pacemaker, magnetic implants, pregnancy)
• Uncontrolled thyroid disorder
• Self-reported eating disorder history
• Body mass index <18.5 kg/m2 or clinical signs of cachexia (discretion of treating oncologist)
• ≥5% body weight loss within last 6 months
• Those who are currently working night/rotating shifts, eating within ≤10-hour window or consistently eating less than 3 meals/day in the past 3 months.
• patients who meet the criteria for medical clearance prior to exercise using the Physical Activity Readiness Questionnaire+ and are not cleared by their treating oncologist or family physician to perform maximal exercise testing.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Time-Restricted Eating and Sedentary Time Reduction	Time restricted eating, nutrition education, and sedentary time reduction strategies	Group 1 (Experimental intervention): Participants assigned to this group will receive standard chemotherapy treatment plus a dietary program, and sedentary time reduction strategies, program and a Fitbit monitor. If you are randomized into this group, you will be asked to follow TRE, will receive nutritional education and individualized recommendations on improving diet quality and healthy eating practices, and given to strategies to work towards reducing sedentary time. These components will be gradually introduced over the 24-week program.

Primary Outcome Measures

Name	Time	Method
Change in Fat Volumes	Baseline, 24-weeks, and 2 years	Visceral fat volumes as measured by MRI.

Secondary Outcome Measures

Name	Time	Method
Change in Thigh Fat Pool Volume	Baseline, 24-weeks, and 2 years	Thigh intermuscular and intramuscular fat volumes as measured by MRI.
Change in Subcutaneous Abdominal Fat Volume	Baseline, 24-weeks, and 2 years	Subcutaneous fat volumes that surround the abdomen as measured by MRI.
Change in Liver Fat Volume	Baseline, 24-weeks, and 2 years	Volume of fat in the hepatocytes in the liver as measured by MRI.
Change in Metabolic Syndrome Z-score	Baseline, 24-weeks, and 2 years	Defined by the National Cholesterol Education Program Adult Treatment Panel, metabolic syndrome is determined by the presence of 3 or more of the following: abdominal obesity defined by waist circumference (men \>102cm, women \>88cm), triglycerides ≥150mg/dL, fasting glucose ≥110mg/dL, HDL cholesterol \<40mg/dL for men and \<50mg/dL for women, and blood pressure of ≥130/≥85mmHg. Z-scores of 0 are equal to the mean. Anything above 0 for each risk listed above (excluding HDL cholesterol) indicates higher risk of CVD. Since HDL cholesterol is healthy, higher z-scores indicate lower risk of CVD. Z-scores rarely fall outside a range of -3 to 3.
Change in Framingham risk score	Baseline, 24-weeks, and 2 years	Using the Framingham risk score to determine cardiovascular disease risk calculated using the Canadian Cardiovascular Society scoring system for age, sex, total cholesterol (mg/dL), high-density lipoprotein (mg/dL), treated or untreated systolic blood pressure (mmHg), diabetes, and smoking status (self-reported in questionnaires). Each category listed above is also assigned a numeric value. To find risk, one must total their points together from each category. The minimum value ranges from -3 or less points to a maximum value range of 21+ points. -3 or less points indicates a very low risk of cardiovascular disease, and 21+ points indicates a high risk of cardiovascular disease.
Change in Peak VO2	Baseline, 24-weeks, and 2 years	Maximal amount of oxygen consumed during a cardiopulmonary exercise test on a cycle ergometer measured by mL/kg/min to indicate cardiorespiratory fitness.

Trial Locations

Locations (2)

University of Alberta; 🇨🇦 Edmonton, Alberta, Canada

University of Toronto; 🇨🇦 Toronto, Ontario, Canada