View clinical trials related to Survivorship.
Filter by:This study aims to promote daily physical activity in cancer survivors who are at high risk for type 2 diabetes (T2D) by using a personalized biological-based feedback strategy. T2D is one of the most common co-occurring conditions in cancer survivors and can worsen cancer-related health outcomes, especially in those who are insufficiently active. The investigators hypothesize that seeing the immediate impacts of exercise on their biological status will motivate cancer survivors to exercise. The investigators will use real-time data from continuous glucose monitor to demonstrate the acute impact of physical activity and measure daily activity levels using wearable trackers. As wearable sensor technology is constantly advancing, this study is the first step to exploring how researchers can use wearable sensors to help people make a direct connection between their daily behaviors and health outcomes.
This trial examines the usefulness of two educational programs for parents with late-stage cancer who have a 5 - 17 year old child. The programs are designed to enhance the quality of the parent-child relationship and add to the parent's confidence in managing the impact of their cancer on their child. Educational programs may reduce anxiety and depression and improve the well-being and quality of life of parents with advanced cancers and their children. Recruitment occurs nationally via referral to the Fred Hutch/University of Washington Cancer Consortium team.
The purpose of this study is to examine the feasibility and acceptability of a brief, nurse-led intervention to support breast cancer survivors who have delayed initiation of hormonal therapy or who have concerns about starting hormonal therapy.
More than 80% of childhood cancer survivors develop serious or life-threatening late effects after cancer therapy, but <20% receive recommended survivorship care offered at cancer center survivorship clinics. In a shared care model, the investigators propose to investigate an innovative multi-level intervention consisting of: 1) patient survivorship education via telehealth with the cancer center, 2) ongoing patient-tailored education program within the electronic health record patient portal, 3) a structured interactive phone communication between the cancer center and the primary care clinic, and 4) an in-person visit with the primary care clinic for survivorship care with the goal of achieving high rates of adherence to recommended surveillance for late effects, as well as improving patient and physician knowledge and self-efficacy. If this scalable intervention demonstrates patient completion of recommended care comparable to cancer center survivorship clinics, this innovative study has the enormous potential to deliver recommended care to a larger proportion of childhood cancer survivors and reduce survivorship care disparities, while engaging p to integrate survivorship care as part of overall, lifelong health maintenance.
In this multi-center randomized clinical trial, head and neck cancer (HNC) survivors with clinically significant body image distress (BID) (N=180) will be randomized to BRIGHT (a brief video tele-cognitive behavioral therapy intervention) or Attention Control (AC, a manualized tele-supportive care intervention that controls for professional attention, dose, delivery method, and common factors). HNC survivors will complete IMAGE-HN (a validated patient-reported outcome measure [PROM] of HNC-related body image distress [BID]; primary endpoint), measures of psychological and social well-being and quality of life (QOL), and measures of theory-derived mechanisms of change underlying BRIGHT (mediators).
This study intends to explore feasibility, acceptability, and outcomes related to the use of a digital health coaching intervention for individuals who have completed primary therapy for cancer. Up to 500 individuals with diverse cancer diagnoses will be enrolled across up to 5 clinical sites to participate in a randomized wait-list control study. Those in the intervention group will receive 6 months of digital coaching up front followed by 6 months of ongoing monitoring via patient reported and clinical outcomes, as well as wearable data. Those in the control group will be monitored via patient reported and clinical outcomes as well as wearable data for the first 6 months followed by 6 months of digital health coaching. Both groups will collect fecal microbiome samples at enrollment and month 6. The study aims to explore if and how digital health coaching may be used to enhance outcomes for individuals following completion of primary cancer therapy.
Some childhood cancer survivors have health problems as the result of previous cancer treatment. This study is being done to determine if we can better predict the risk a childhood cancer survivor might have for developing future health issues. The goal of this study is to enable regular monitoring of patient-generated health data (PGHD), including symptoms, physical activity, energy expenditure, sleep behavior and heart rate variability, and utilize these data in predicting survivor-specific risk of late effects to improve survivorship care and outcomes.
Depending on disease stage, head and neck cancer (HNC) can be cured either with a single modality or with multimodal treatments, consisting of various combinations of surgery, radiotherapy, and chemotherapy. Despite treatment with curative intent, loco-regional recurrences and/or distant relapses are frequent. Moreover, these therapeutic approaches result in significant acute toxicities and late sequelae. Therefore, quality of life (QoL) is often impaired in these survivors. It is known that QoL is a prognostic factor because it is related to overall survival in cancer patients and to loco-regional control in HNC patients. The adoption of mobile technologies of common use (i.e. embedded into standard mobile phones) for behavior reconstruction and linkage of behavior modifications to quality of life indicators, and the realization of predictive models for quality of life modifications will allow seamless and unobtrusive data capture over time, making the execution of clinical investigations more precise and less burdensome as compared to standard (manual) data capture. The main aim of the present study is to reduce and to anticipate, with the use of the non-invasive Big data for quality of life (BD4QoL) platform, the proportion of HNC survivors experiencing a clinically meaningful reduction in QoL.
This study will assess the feasibility of delivering a 12-week time-restricted eating intervention as well as the intervention's preliminary efficacy on persistent cancer-related fatigue among cancer survivors compared to a general health education control. Participants will be randomized 1:1 to one of two arms: time-restricted eating or control. Those in the intervention arm will self-select a 10-hour eating window in which to consume all food and beverages (water is allowed any time, black coffee and unsweetened tea are allowed in the morning). Both groups will receive weekly educational tips on healthy lifestyle behaviors in cancer survivorship. This study will also explore relationships between fatigue, circadian rhythm, and glucose metabolism. The hypothesis is that recruitment will be feasible, and participants will adhere to time-restricted eating and complete study activities over the course of the 12 weeks. The second hypothesis is that time-restricted eating will lead to less fatigue at 12 weeks compared to the control, accounting for baseline fatigue levels.
Background: There are over 500,000 survivors of childhood cancer in North America alone. One in four survivors experiences chronic pain after treatment has completed. Youth with chronic pain report increased anxiety, depression, activity limitations, and sleep disturbances. An 8-week web-based cognitive-behavioral treatment for chronic pain (WebMAP) has demonstrated reduction in the pain in children but has not yet been explored in survivors. The objectives of the current study are to (1) test the feasibility and acceptability of WebMAP for a sample of survivors with chronic pain and their parents, (2) assess the acceptability of WebMAP using qualitative interviews, (3) assess WebMAP's effect on activity limitations, pain intensity, depression and anxiety symptoms, and sleep disturbances, and (4) assess WebMAP's effect on parent pain catastrophizing and parental response to their child's pain. Methods: A single-arm mixed-methods pre-post intervention study design will be utilized. Participants will be 34 survivors and at least one of their parents/caregivers. Inclusion criteria are (1) cancer history (2) current age 11-17 years, (3) >2 years post-treatment or >5 years post-diagnosis, (4) pain present over prior 3 months impairing >1 area of daily life and occurring >1/month , (5) computer access with broadband internet. Survivors will complete a pre-treatment questionnaire, which will include: Child Activity Limitations Interview, the pain intensity Numerical Rating Scale, PROMIS - and Pain Interference, Anxiety, Depression, and Adolescent Sleep Wake Scale. Parents will complete the Pain Catastrophizing Scale - Parent Version and the Adult Responses to Child Symptoms. Upon completion of pre-treatment questionnaires (T0), survivors will begin WebMAP. After the 8 week intervention, survivors will complete the same measures (T1), and at 3 month follow-up (T2). Post-treatment interviews will be conducted to determine acceptability. Feasibility will be assessed via recruitment and retention rates. Treatment engagement will be measured by number of modules completed. Pre-post outcome data will be assessed using Linear Mixed Models. Qualitative data will be analyzed using thematic analysis. Patient and caregiver partners will be involved in study design, recruitment, interpretation of results, and knowledge translation. Discussion: Investigating whether WebMAP is useful to survivors will be an important step in improving pain management in this population.