The Exercise, Cancer and Cognition (ECCO) study was designed as a randomized controlled trial to investigate the impact of a long-term physical activity program on CRCI in patients receiving adjuvant/neoadjuvant breast cancer treatment.
The ECCO study is a monocentric two-arm 1:1 randomized controlled trial (RCT), including a 12-month intervention and control group. A detailed study-flow is shown in
Study flow.
Patients are recruited at the department of hematology and internal oncology of the Kepler University Hospital in Linz (AUT). Patients diagnosed with local breast cancer receiving neo-/adjuvant chemotherapy and not fulfilling any exclusion criteria listed in
In- and exclusion criteria.
| • Pending chemotherapy (neo-/adjuvant) | • Significant comorbid conditions contraindicating physical activity |
| • Diagnosed breast cancer | • Cognitive dysfunction, defined by subjective or diagnostic deficits in attention, memory, executive function and/or visual construction before the start of chemotherapy, as well as any known history of cognitive disorder at the baseline screening. |
| • In tests without clear ranges of reference values for cognitive impairments in performance, cut-offs will be defined using >1,5 SD from normative data. Cognitive impairment therefore is defined by > 1,5 SD in two tests at baseline assessment. | |
| • Eastern Cooperative Oncology Group (ECOG) performance status of 0 or 1 | • Vigorous physical activity of >300 min weekly within the last 6 months before diagnosis of breast cancer (Evaluated by training anamnesis) |
| • Age ≥ 18–70 years | • Patients unwilling to complete endurance exercise or complete all questionnaires related to the study |
| • Adequate hematologic function Platelet count > 50 × 10∧9/L Hemoglobin > 8 g/dL | • Past or current history of other malignant neoplasms other than breast cancer in the last 5 years |
| • No motorical dysfunction leading to the disability to perform endurance exercise according to protocol | • Coronary heart disease |
| • Signed informed consent prior to randomization | • Left bundle branch block |
| • Fluid in German | • Chemotherapy or radiation with other indications than breast cancer diagnosis |
| • Current pregnancy or plans to become pregnant within the next 3 years | |
| • Neurodegenerative disease |
All assessments are conducted at three main time points (t0, t1, t2) in both groups.
t0 (Pre): Before first chemotherapy within ± 14 days.
t1 (interim): After 6 months ± 14 days.
t2 (post): After 12 months ± 14 days (end of intervention).
For participants in all groups, clinical assessments during the intervention period are additionally performed at least every second month and at each clinical visit (usual care).
Data are collected at baseline (t0), after 6 months of intervention (t1) and after 12 months of intervention (t2). The patient's medical record and intended therapy, demographic (age, sex) and anthropometric data (weight, height, BMI), past medical history and current medication are collected at the start. Furthermore, the primary outcome and all secondary outcome measurements of the study are captured before the first therapy session. After 6 months of intervention (t1), an interim exercise test is conducted to adapt the exercise workload in Arm A and in Arm B for equality. At (t2) the primary outcome measures and all secondary outcome measures are re-assessed. A follow-up period of 12 and 24 months is provided after the end of the intervention. The follow-up assessments therefore are parameters assessed within the clinical routine amended by the questionnaires used to assess quality of life and activity level.
A detailed study schedule is presented in
All assessments except exercise testing are performed at the Kepler University Hospital, Linz (AUT). At (t0), (t1), and (t2). All blood samples are drawn and stored at minus 85°C at the Kepler University Hospital Linz. Analyses of cancer-related pro- and anti-inflammatory biomarker samples are performed at the Sports University of Cologne.
Incremental exercise tests with a one-minute step duration are conducted on a calibrated bicycle ergometer (Corival cpet, Lode BV Medical Technology, NL) (
Participants randomized to the exercise arm are motivated to fulfill the general physical activity recommendations with a defined heart rate and material for strength training (folder and exercise video). The frequency and duration of the home-based exercise depends on individual circumstances but follows general suggestions.
American College of Sports Medicine (ACSM) has recommended the following physical activity for cancer survivors (
Take part in regular physical activity.
Avoid inactivity and return to normal daily activities as soon as possible after diagnosis.
Aim to exercise at least 150 min weekly with moderate intensity.
Include strength training exercises at least 2 days per week.
The advised heart rate therefore is defined by the baseline exercise testing and adjusted after 6 months if necessary.
Additionally, group A is asked to perform a supervised HIIT at the Cardiomed Linz rehabilitation center once a week.
The high intensity exercise interventions are performed on a stationary bike (ergo_bike premium 8, daum electronic gmbh, D). An experienced and accredited therapy specialist supervises and supports the exercise interventions throughout the trial.
Participants perform alternating intervals of maximal power output Pmax (measured by the exercise test) and rest in a ratio of 1:3. The duration of the Pmax interval is 20 and 60 s for pause.
The HIIT program is set up in two cycles; one includes an enhancement of the weekly intervals and a recovery unit (3:1) (shown in
Schematic representation of the amount of intervals for the first 6 month of intervention. HIIT is planned in 2 cycles,
HIIT in week 1 is conducted with 8 intervals (see
Schematic representation of the HIIT for the first week of intervention. Warm-up exercise starts low at 20% Pmax and will be increased in 5 increments up to 40% Pmax. Intervals will be performed at 100% Pmax for 20 s and recovery intervals will be 60 s at 20% Pmax giving a mean workload (Pmean) of 40% Pmax according to Tschakert and Hofmann (QUELLE). Overall workout duration is 20 min.
HIIT load is enhanced over time by increasing the amount of intervals and increased to a 2:1 ratio (rest to load) in the last 3 months, according to expected training adaptations.
Participants in the control arm receive usual care and physical activity recommendations following regular procedures. Patients are examined during clinical visits. The control group receives the same physical activity recommendations (see above) as the intervention group except any heart rate suggestions.
Center based exercise interventions in arm A and all home-based physical activity (arm A and B) are recorded by a “Garmin Forerunner 45s” (with “Garmin Connect”) in combination with a chest strap. Heart rate, frequency, and duration of home exercises are documented in a digital activity diary provided on the online platform “
The primary endpoint is the difference from baseline (t0) to completion of the exercise intervention (t2), in the California Verbal Learning Test (CVLT) mean scores and consists of the three (sub)scores “short-delay,” “long-delay” and “total-trials 1–5” of the CVLT. The CVLT is an instrument commonly used to evaluate the individual verbal learning and memory.
The test consists of two 16-word lists. The word list A is defined as the learning-list; word list B is used to interfere (interference-list). Word list A will be read aloud to the patient 5 times, then list B will read once. After that, the patients must recall as many words as possible from list A, afterwards the semantic recall follows. After 20 min, the patient is asked to recall again as many words as possible from list A, followed by a helping recall trail. For recalling, similar, semantic and phonematic distractions and categoric prototypes will be used. There are two normed settings available for baseline and t2.
The (sub)scores “total-trials 1–5” ascertains the learning curve for the first word list based on 5 rounds. The “short-delay” reports the delayed recall immediately after presentation and retrieval of the second word list (as interference) and without repeating the first list. The “long-delay” is testing the recall after ~20 min.
Further neuropsychological related endpoints distinguish by the variable attention and motor-speed, memory, executive functions, and visual construction.
To raise attention and psycho-motoric speed the subtest Digit Symbol Coding (of WAIS IV) is used, in which as fast as possible, symbols shall be written to different objects and the Trail Making Test A, in which numbers shall be put together in the correct order.
Memory function is captured with the subtests Logical Memory I & II (of WMS IV, memorizing texts immediately and after ~30 min). The subtest Digit Span backwards (of WAIS IV), Trail Making Test B/A (quotient of the processing times required for Trail Making Test B) and the “Regensburger-Wortflüssigkeits-Test” for word fluency (words with a special initial letter, words from a special category) measure executive functions.
At last, the subtest Block Design (of WAIS IV) in which patterns have to be recreated from a template with cubes is used to get information about the visual construction.
Secondary endpoints of physical activity and exercise related aspects are represented by performance changes obtained from exercise testing. Main variables are maximal oxygen uptake (VO2max) and maximal power output (Pmax), submaximal threshold values such as the first and the second ventilatory thresholds (VT1, VT2), body composition (body fat, muscle mass, Waist-to-Hip ratio, BMI) and the global physical activity questionnaire (GPAQ).
Additionally morphological changes of the heart will be objectified by strain-analyses. Speckle-tracking-echocardiography performed by Aplio-i900 (Canon) is implemented to evaluate possible chemotherapy related effects on the ventricular function.
Further patient-related endpoints like fatigue, emotional functioning/well-being, physical functioning/well-being, and QOL are measured by the Pittsburgh Sleep Quality Index (PSQI), Multidimensional fatigue inventory (MFI-20), Functional Assessment of Cancer Therapy-General (FACT-G, FACT-G/F), Beck-Depression-Inventar (BDI-II) and State-Trait-Anxiety Inventory (STAI).
Survival related endpoints are defined as the time from randomization to any signs of locoregional or metastatic recurrence or the appearance of secondary cancer or death, whichever occurs first - disease free survival (DFS) and time from randomization to death from any cause - overall survival (OS).
Endpoints of cerebral imaging are measured by Magnetic Resonance Imaging (MRI) and analyzed by “FreeSurfer” to show morphological signs of chemotherapy related effects on hippocampus volume. Cerebral images are acquired by a 3-Tesla Magnetom Trio Scanner (Siemens, Germany). For volume hippocampal measurement the automated volume-measurement software “FreeSurfer,” V.6.0 is used.
Laboratory endpoints, former connected to CRCI, are measured by pro- and anti-inflammatory biomarkers including Tumor necrosis factor alpha (TNF-α), Interleukin1 alpha,−1 beta,−6,−10 (IL-1α, IL-1β, IL-6, IL-10), C-reactive protein (CRP), Interleukin-1 receptor antagonist, (IL-1RA) and Neurotrophic and growth factors including Brain-derived neurotrophic factor (BDNF), Insulin like growth factor (IGF-1), Vascular Endothelial Growth Factor (VEGF) and Matrix-Metalloproteases (MMP). The primary endpoint and all secondary endpoints are summarized in
Primary and secondary endpoints.
| California verbal learning test |
| Neuropsychological endpoints: |
| Attention |
| • Wechsler Adult Intelligence Scale (WAISIV) – Subtest Digit Symbol Coding |
| • Trail Making Test A |
| Memory: |
| • Wechsler Memory Scale (WMS-IV) |
| • Wechsler Adult Intelligence Scale (WAIS-IV) - Subtest Logical Memory I & II, Digit Span |
| Executive function: |
| • “Regensburger” Wortflüssigkeits-Test (RWT) |
| • Trail Making Test B/A |
| • Wechsler Adult Intelligence Scale (WAIS-IV) - Subtest Digit Span backwards |
| Visual construction: |
| • Wechsler Adult Intelligence Scale (WAIS-IV) - Subtest Block Design |
| Cerebral imaging endpoints |
| • MRI and multiparametric automated volumetric analysis by FreeSurfer with respect volumes, cortical surface deformation, segmentation of the white matter and deep gray matter structures, as well as the shift in tissue intensity |
| Laboratory endpoints |
| Pro- and anti-inflammatory biomarker |
| Neurotrophic and growth factors |
| Physical activity and Exercise Endpoints |
| • Exercise testing |
| Cardiac imaging Endpoints |
| • Speckle tracking strain echocardiography |
| Survival related Endpoints |
| • Disease free survival and overall survival |
| Patient related Endpoints |
| • Pittsburgh Sleep Quality Index (PSQI) |
Patients can quit study participation at any time and for any reason. Except for personal reasons, participation is terminated if participants miss HIIT sessions for more than five weeks in a row. In order to collect sufficient data for statistical analysis, participants are asked to undergo all endpoint measurements at the time of study drop-out.
Neither additional nor experimental drugs are given to patients during this clinical trial. Patients in the study arm are asked to follow an individual training regimen based on the most recent health guidelines and so did not pose a health risk. The included procedures are validated and performed under the supervision of a physician.
Clinical research and management software (REDCAP®) is used to collect the data electronically. To protect the confidentiality of the participants, all required information is identified by an individual ID number. Separate electronic case report forms (eCRF) are used for baseline and follow-up of structured interviews with study participants. In case of technical failure, paper case report forms (CRF) are used. When available, values of laboratory tests and additional data are added to the electronic database. All data capture is pre-specified by the principal investigator.
The study is based on a superiority approach with a comparison of two kinds of treatment and with three equal-ranking primary endpoints.
Treatment arms:
Treatment arm A: Endurance exercise intervention → group A
Treatment arm B: No endurance exercise intervention → group B
Primary endpoints:
(1): CVLT total trials 1-5 after 12 months [-]
(2): CVLT short delay after 12 months [-]
(3): CVLT long delay after 12 months [-]
The type I error will be adjusted according to Bonferroni.
(1):
H-01:
CVLT total trials 1–5 after 12 months is not higher in group A than in group B
H-11:
CVLT total trials 1–5 after 12 months is higher in group A than in group B
(2):
H-02:
CVLT short delay after 12 months is not higher in group A than in group B
H-12:
CVLT short delay after 12 months is higher in group A than in group B
(3):
H-03:
CVLT long delay after 12 months is not higher in group A than in group B
H-13:
CVLT long delay after 12 months is higher in group A than in group B
The following information and assumptions are used for sample size estimations:
Use of data from the study of Andreotti et al. (
Postulation of a 15% change of the mean scores in group A over group B for all 3 primary endpoints (Xgroup A = 1.15 * Xgroup B).
Postulation of a 7.5% change of the standard deviations in group A over group B for all 3 primary endpoints (SDgroup A = 1.075 * SDgroup B).
Type I error (Bonferroni-adjusted) = 0.833% one-sided.
Type II error = 20%.
Independent samples
The result of the sample size estimation (see
Sample size estimation.
| CVLT total trials 1–5 after 12 months | 48.56 ± 7.47 | 55.84 ± 8.03 | 7.28 | 7.75 | 2 × 25 |
| CVLT short delay after 12 months | 11.02 ± 2.26 | 12.67 ± 2.43 | 1.65 | 2.35 | 2 × 44 |
| CVLT long delay after 12 months | 10.97 ± 2.38 | 12.62 ± 2.56 | 1.65 | 2.47 | 2 × 48 |
All subjects whose study intervention has actually started (group A) or who have reached a time when the study intervention could have started (group B) will be included in the ITT population. All variables will be analyzed.
All subjects without occurrence of any drop-out situation (all valid cases) will be included in the PP population. All variables will be analyzed. The PP analysis is paramount.
All enrolled subjects, that is the ITT population plus subjects whose study intervention has never started (group A) or who don't have reached a time when the study intervention could have started (group B). All variables of all subjects not belonging to the ITT population are analyzed by descriptive statistics, provided that the number of the corresponding subjects is higher than 5, otherwise a narrative presentation of these cases takes place.
Implausible values have to be identified during the data management process in agreement with the clinical investigator. They will be converted into missing values.
Missing values will be replaced only in the ITT population and only for the three primary endpoints. The replacements will be made according to the worst-case principle (use of the worst assessed value in the study).
If the hypothesis of normal distribution cannot be rejected (Kolmogorov-Smirnov with Lilliefors significance correction, type I error = 10%) and if homoscedasticity exists (Levene's test; type I error = 5%) a parametric analysis of covariance (ANCOVA) will be applied (type I error = 0.833% one-sided). Otherwise, a non-parametric analysis of covariance (rank analysis of covariance according to Quade) will be used (type I error = 0.833% one-sided).
Covariates are
CVLT total trials 1–5/CVLT short delay/CVLT long delay (corresponding variable) at baseline [-]
BMI at baseline [kg/m2]
Age at baseline [years]
BDI II at baseline [-]
STAI at baseline [-]
Fatigue at baseline [yes/no]
All other variables will be analyzed by usual parametric and non-parametric tests for univariate comparisons of independent samples.
Parametric and non-parametric correlation coefficients will be calculated to test relationships between the primary endpoints and other outcome variables.
The influence of exercise and exercise test results on overall survival and disease-free survival will be investigated by cox regression analyses. Multiple regression analyses will be used to investigate the influence of baseline characteristics and any specific findings during the intervention phase on the primary endpoints in group A.
For selected variables, two-sided 95% confidence intervals will be calculated.
Except for hypotheses testing no adjustment for the type I error will be made. Therefore – apart from hypotheses testing – the results of inferential statistics will be descriptive only.
Categorical variables will be presented using counts and percentages. Variables measured on ordinal scales will be presented using counts and percentages (where appropriate) or minimum, 25%-percentile, median, 75%-percentile, maximum and number of patients (where appropriate). Continuous variables will be presented using minimum, 25%-percentile, arithmetic mean, median, 75%-percentile, maximum, standard deviation, and number of patients.
All results will be presented in the form of tables, selected results additionally in the form of graphs (bar charts, boxplots).
Time-to-event variables will be depicted by Kaplan Meier plots.
Analyses of subgroups and other