The LIFTING trial will examine the feasibility and safety of a heavy lifting strength training (HLST) program in head and neck cancer survivors (HNCS) at least 1 years post surgical neck dissection. The trial will determine whether this training style is safe and feasible in HNCS. Physical and psychosocial changes will also be reported.
RATIONALE Despite improvements in treatments, HNCS still endure numerous acute and chronic side effects. Strength training has been shown to manage some of these side effects but most interventions have involved light-to-moderate resistance training programs. HLST may produce better outcomes but it is unknown if such a weight training program is feasible and safe for HNCS. OBJECTIVE The primary aim of this proposed study is to examine the feasibility and safety of a HLST program in HNCS at least 1 year post-surgical neck dissection. METHODS This single arm feasibility study will recruit 15-20 HNCS to complete the HLST program 2 times per week. The primary feasibility outcomes will include the eligibility rate (with reasons for ineligibility), recruitment rate (with reasons for refusal), 1 repetition maximum testing rate (with reasons for not completing the test), program adherence (including attendance, dose modifications, and progression), and follow-up assessment rate (with reasons for drop out). The primary efficacy outcome will be strength gains from baseline. Secondary efficacy outcomes will include physical functioning, quality of life, fear of cancer recurrence, pain, body composition, anxiety, fatigue, stress, shoulder mobility, self-esteem, sleep, and motivation to engage in a HLST program. SIGNIFICANCE Weight training is an effective intervention in HNCS but the optimal weight training prescription is unknown. If heavy weight training is deemed safe and feasible in HNCS, it can be compared to light-to-moderate load weight training to determine if it is a better prescription for improving outcomes that are important to HNCS.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
SUPPORTIVE_CARE
Masking
NONE
Enrollment
9
Heavy Lifting Strength Training
University of Alberta
Edmonton, Alberta, Canada
Recruitment Rate
Recruitment rate (with reasons for refusal). Recruitment minimum: 15 participants Recruitment maximum: 20 participants Higher number= better and more data
Time frame: Over 12 weeks
Muscular Strength
Change in muscular strength from baseline to postintervention with be assessed using maximal strength tests. Minimum: none Maximum: none Higher score= better strength
Time frame: Changes from baseline to 12 weeks
Program Adherence
Program adherence minimum: 80% Program adherence maximum: 100% Higher score= better adherence
Time frame: Over 12 weeks
Physical functioning
Assessed using the Neck Dissection Impairment Index (NDII) and maximum strength tests. Minimum: 40 Maximum: 100 Higher score= worse impairment
Time frame: Changes from baseline to 12 weeks
Fear of cancer recurrence
Assessed using the Fear of Cancer Recurrence Inventory (FCRI) Minimum: 0 Maximum: 36 Higher score= worse fear of cancer recurrence
Time frame: Changes from baseline to 12 weeks
Post Traumatic Growth after cancer
How cancer has changed an individual's life will be assessed using the Post Traumatic Growth Inventory (PTGI) Minimum: 0 Maximum: 105 Higher score= better (positive) post traumatic growth transformation
Time frame: Changes from baseline to 12 weeks
Waist to hip ratio (body composition)
Assessed using waist to hip ratio (WHR) measure. Minimum WHR: none Maximum WHR: none Higher score WHR= worse body composition
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Time frame: Changes from baseline to 12 weeks
Anxiety
Assessed using the Spielberger State Trait Anxiety Inventory (STAI) Minimum: 20 Maximum: 80 Higher score= worse anxiety
Time frame: Changes from baseline to 12 weeks
Fatigue
Assessed using the Functional Assessment of Chronic Illness Therapy-Fatigue (FACIT-F) questionnaire Minimum: 0 Maximum: 52 Higher score=worse fatigue
Time frame: Changes from baseline to 12 weeks
Stress
Assessed using the Perceived Stress Scale (PSS) Minimum: 0 Maximum: 56 Higher score=worse perceived stress
Time frame: Changes from baseline to 12 weeks
Shoulder Mobility
Changes in shoulder mobility Minimum: 150 degrees (18-50 years); 130 degrees (over 50 years) Maximum: none Higher score= better mobility
Time frame: Changes from baseline to 12 weeks
Self-Esteem
Changes in level of self-esteem assessed using Rosenberg Self-Esteem (RSE) scale Minimum: 10 Maximum: 40 Higher score= better self-esteem
Time frame: Changes from baseline to 12 weeks
Sleep
Changes in sleep patterns assessed using the insomnia severity index (ISI) Minimum: 0 Maximum: 28 Higher score= worse insomnia
Time frame: Changes from baseline to 12 weeks
Motivation
Questions based on the theory of planned behaviour Minimum: 7 Maximum: 35 Higher score= better motivation
Time frame: Changes from baseline to 12 weeks
Cancer specific quality of life
Assessed using the Functional Assessment of Cancer Therapy-Head and Neck (FACT-H\&N Symptom Index) Minimum: 0 Maximum: 40 Higher score= worse head and neck cancer symptoms
Time frame: Changes from baseline to 12 weeks
Cancer Symptom Burden
Assessed using the revised Edmonton Symptom Assessment System (ESAS-r) Minimum: 0 Maximum: 100 Higher score= worse cancer symptoms
Time frame: Changes from baseline to 12 weeks
Height
Assessed using standing height without shoes. Minimum height: none Maximum height: none Taller: not specifically better or worse
Time frame: Changes from baseline to 12 weeks
Weight
Assessed using a digital scale without shoes. Minimum weight: none Maximum weight: none Higher weight: typically worse, but depends on other factors (ie. height, muscle mass, overall health status)
Time frame: Changes from baseline to 12 weeks