Effects of Moderate & High-intensity Exercise During NCT05218876

Clinical Trial Details — Status: Completed

Administrative data
NCT number	NCT05218876
Other study ID #	PhysCan muskel
Secondary ID
Status	Completed
Phase	N/A
First received
Last updated
Start date	December 8, 2016
Est. completion date	November 30, 2022

Study information
Verified date	November 2023
Source	Norwegian School of Sport Sciences
Contact	n/a
Is FDA regulated	No
Health authority
Study type	Interventional

Clinical Trial Summary

(Neo-)adjuvant chemotherapy for breast cancer has deleterious effects on muscle tissue resulting in reduced skeletal muscle mass, muscle function, and cardiorespiratory fitness. Various exercise regimens during cancer treatment have been shown to counteract some of these side effects. However, no study has compared the effect of high intensity training vs. low-to moderate intensity training on muscle tissue cellular outcomes and function in breast cancer patients during chemotherapy. The present study aims to compare the effects of high vs. low-to moderate intensity training on its ability to counteract deleterious effects of chemotherapy on skeletal muscle in women diagnosed with breast cancer. Eighty newly diagnosed women with breast cancer planned to start (neo-)adjuvant chemotherapy will be randomized to either a group performing a combination of strength and endurance training with high intensity or a group performing training with low to moderate intensity. Muscle biopsies from m. vastus lateralis for assessment of muscular cellular outcomes will be collected and muscle function and cardiorespiratory fitness will be measured before the first cycle of chemotherapy (or, when not possible, one week after) (T0), halfway through chemotherapy (T1), and after completion of chemotherapy (T2). It is estimated that approximately 50% will be willing to take muscle biopsies. The study will give important information about the effects of different training intensities for breast cancer patients during treatment and will contribute with knowledge about how to refine exercise programs that are effective and compatible with multidisciplinary management of breast cancer.

Description:

The aim of this study is to investigate the effects high and low-to-moderate exercise intensity on muscle cellular outcomes, muscle function, and cardiorespiratory fitness in breast cancer patients undergoing (neo-)adjuvant chemotherapy. We further aim to investigate if treatment including taxane treatment have larger negative effect on muscle than taxane-free treatment. Our hypotheses are: - Both high-intensity and low to moderate intensity strength and endurance training during (neo-)adjuvant chemotherapy will reduce negative treatment effects on muscle fiber size, mitochondrial function, cellular stress, and thus reduce the negative effect on cardiorespiratory fitness and muscle function. High-intensity training will be superior to low to moderate-intensity training in counteracting the negative treatments effects. - Both high-intensity and low to moderate intensity strength and endurance training during (neo-)adjuvant chemotherapy will increase muscle and blood levels of potential anti-tumor myokines. - Treatment including taxane administration will have larger negative effect on muscle fiber size, mitochondrial function, cellular stress, and thus cardiorespiratory fitness and muscle function than taxane free treatment regardless of training intensity. This study is a two-group randomized controlled trial. The participants will be randomly allocated into two training groups; one group performing the combination of strength and endurance training with high intensity and the other group performing the training with low to moderate intensity during (neo-) adjuvant treatment for breast cancer. Power calculations indicate that 20 participants are sufficient in each group for our primary outcome muscle fiber cross-sectional area. As we estimate that approximately 50% of the participants will be willing to take muscle biopsies a total of 80 participants will be recruited leading to a total of 40 participants with muscle biopsies. Before the training period (T0) muscle biopsies, questionnaires and blood samples will be taken before the first chemotherapy cure. The first 2-4 weeks after cure 1 will be used as a familiarization period for tests and exercises, and to complete the remaining T0 tests. Testing will include measurements of physical capacity, body composition, and physical activity levels. All measurements are repeated halfway into the treatment (T1) and after the completion of treatment (T2). Training will start between cures 2 and 3 and will last throughout the treatment period, approximately 6 months. The strength training consists of two supervised sessions per week and includes the following exercises: seated leg-press, chest-press, seated leg-curl, seated-row, leg-extension, and standing overhead-press using dumbbells. The low-to-moderate intensity group will perform 12 repetitions for 3 sets at 50% of 6RM load in the first weekly session and 20 repetitions for 3 sets at 50% of 10RM load in the second weekly session. The high intensity group will perform 6 repetitions for 3 sets at 6RM load in the first weekly session and 10 repetitions for 3 sets at 10RM load in the second weekly session. The endurance exercise is home-based and followed up by a coach. The low-to-moderate intensity group do continuous-based exercise (running, cycling, walking uphill or any other endurance-based activity) in bouts of at least 10 min at an exercise intensity of 40-50% of the heart rate reserve. The exercise frequency is recommended to be 2-4 times a week with the main aim to reach 150 min of moderate intensity endurance exercise per week. The high intensity group conduct high-intensity interval exercise. The sessions will consist of two-minute exercise intervals (running, cycling, walking uphill or any other endurance-based activity) at an exercise intensity of 80-90% of the heart rate reserve (at the end of the 3rd session) with two minutes of rest between intervals. During the first week after familiarization, each session will consist of 6 intervals. Thereafter, one bout will be added every fourth week until 10 bouts per session are reached as the maximum, corresponding to 75 min of high intensity per week.

Recruitment information / eligibility
Status	Completed
Enrollment	80
Est. completion date	November 30, 2022
Est. primary completion date	November 30, 2022
Accepts healthy volunteers	No
Gender	Female
Age group	18 Years and older
Eligibility	Inclusion Criteria: - diagnosed with stage I-III breast cancer - 18 years old - can understand and communicate in the Norwegian language - scheduled to undergo (neo-)adjuvant chemotherapy with a combination of taxanes and anthracyclines or only one of the treatments Exclusion Criteria: - unable to perform basic activities of daily living - cognitive disorders or severe emotional instability - other disabling comorbidities that might hamper physical training (e.g. severe heart failure, chronic obstructive pulmonary disease, orthopedic conditions, and neurological disorders)

Study Design

Related Conditions & MeSH terms

Intervention

Other:
• Low- to moderate intensity strength and endurance training
Combination of strength and endurance training with low- to moderate intensity during chemotherapy
• High intensity strength and endurance training
Combination of strength and endurance training with high intensity during chemotherapy

Locations
Country	Name	City	State
Norway	Haukeland University Hospital	Bergen	Vestlandet

Sponsors *(6)*
Lead Sponsor	Collaborator
Norwegian School of Sport Sciences	Active against Cancer - Norway, Haukeland University Hospital, Norwegian Cancer Society, University of Agder, Uppsala University

Country where clinical trial is conducted

Norway,

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Effects of Moderate and High-intensity Exercise During Chemotherapy on Muscle Cells in Women With Breast Cancer

Clinical Trial Details — Status: Completed

Administrative data

Study information

Clinical Trial Summary

Description:

Recruitment information / eligibility

Study Design

Related Conditions & MeSH terms

Intervention

Locations

Sponsors (6)

Country where clinical trial is conducted

Outcome

Type	Measure	Description	Time frame
Other	Blood lipids	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in blood lipids. This will be assessed in blood serum and plasma using ELISA methods.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Other	C-reactive protein	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in C-reactive protein. This will be assessed in blood serum and plasma using ELISA methods.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Other	Creatine kinase	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in creatine kinase. This will be assessed in blood serum and plasma using ELISA methods.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Other	Blood glucose	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in blood glucose. This will be assessed in blood serum and plasma using ELISA methods.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Other	Cortisol	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in cortisol. This will be assessed in blood serum and plasma using ELISA methods.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Other	Hemoglobin	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in hemoglobin. This will be assessed in whole blood using standard clinical measures.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Other	Physical activity, defined as minutes spent in moderate-to-vigorous intensity activity	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in physical activity. This will be assessed by the SenseWear Armband activity monitoring device. A SenseWear Armband is worn for 7 consecutive days each time point.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Other	Fatigue	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in fatigue. This will be assessed using the Multi Dimensional Fatigue Inventory (MFI).	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Other	Quality of life assessed using EORTC-QLQ30	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in quality of life. This will be assessed using The European Organization for Research and Treatment of Cancer (EORTC)EORTC-QLQ30.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Primary	Muscle fiber cross-sectional area	Change from baseline (T0) to end of intervention (end of training and treatment), approximately 6 months (T2) in muscle fiber cross-sectional area. This will be assessed by immunohistochemical staining of muscle fiber cross-sections for type 1 and type 2 muscle fibers and dystrophin (cell border).	From baseline (T0) to the 6 months time point (end of treatment and training, T2)
Secondary	Muscle fiber cross-sectional area	Change from baseline (T0) to halfway into the intervention (halfway into training and treatment), approximately 3 months (T1) in muscle fiber cross-sectional area. This will be assessed by immunohistochemical staining of muscle fiber cross-sections for type 1 and type 2 muscle fibers and dystrophin (cell border).	From baseline (T0) to the 3 months time point (halfway into the treatment and training,T1)
Secondary	Satellite cell content in muscle fiber cross-sections	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in satellite cell content in muscle fiber cross-sections. This will be assessed through immunohistochemical staining of satellite cells in muscle fiber cross-sections for type 1 and type 2 muscle fibers separately.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Secondary	Myonuclei content in muscle fiber cross-sections	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in myonuclei content in muscle fiber cross-sections. This will be assessed through immunohistochemical staining of myonuclei in muscle fiber cross-sections for type 1 and type 2 muscle fibers separately.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Secondary	Protein levels of regulators of muscle fiber size (proteins involved in muscle protein synthesis and protein degradation (e.i. mTOR, MuRF, S6K1, p70S6k)	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in protein levels of regulators of muscle fiber size (proteins involved in muscle protein synthesis and protein degradation [e.i. mTOR, MuRF, S6K1, p70S6k]). This will be assessed in muscle homogenate using Western blot analysis.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Secondary	Protein levels of regulators of muscle fiber cellular stress (Heat Shock proteins: Hsp 27, aB-crystalline, Hsp 60 and Hsp 70)	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in protein levels of regulators of muscle fiber cellular stress (Heat Shock proteins: Hsp 27, aB-crystalline, Hsp 60 and Hsp 70). This will be assessed in muscle homogenate using Western blot analysis.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Secondary	Protein levels of regulators of mitochondrial function (Citric syntase, Cox 4 and HADH)	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in protein levels of regulators of mitochondrial function (Citric syntase, Cox 4 and HADH). This will be assessed in muscle homogenate using Western blot analysis.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Secondary	Myokines with potential anti-tumor effects	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in myokines with potential anti-tumor effects. This will be assessed in muscle homogenate using Western blot analysis.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Secondary	Maximal muscle strength	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in maximal upper- and lower extremity muscle strength. This will be assessed as one repetition maximum in seated chest-press, seated single-leg press and knee extension.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Secondary	Cardiorespiratory fitness	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in cardiorespiratory fitness. This will be assessed as maximal oxygen uptake during maximal walking/running until exhaustion on a treadmill.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Secondary	Muscular endurance	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in muscular endurance. This will be assessed as the number of repetitions on 30% of one-repetition maximum in knee extension.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Secondary	Fat free mass	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in fat free mass. This will be asses by dual dual energy X ray absorptiometry.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)
Secondary	Fat mass	Change from baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2) in fat mass. This will be asses by dual dual energy X ray absorptiometry.	From baseline (T0) to the 3 months time point (T1) and from baseline to the 6 months time point (T2)