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Lifestyles Of Health And Sustainability for Breast Cancer Survivors

6 aprile 2021 aggiornato da: In Deok Kong, MD, Wonju Severance Christian Hospital

Lifestyle Intervention for Breast Cancer Survivors

The purpose of this study is to examine the effects of exercise program on health-related physical fitness and biomarkers among breast cancer survivors.

Panoramica dello studio

Stato

Reclutamento

Condizioni

Intervento / Trattamento

Descrizione dettagliata

Patients and survivors of breast cancer present impaired physical fitness and various complications including acute and chronic pain, severe fatigue, limited range of motion, and bone loss attributable to anticancer treatments. Therefore, regular exercise during and following cancer treatments has been recommended to enhance physical capabilities and relieve side-effect severities, leading to an improved quality of life. Despite the known general benefits to patients with cancer, the effects of exercise on cancer-related biomarkers and their modulators remain unclear.

PRIMARY OBJECTIVES:

I. To determine whether a 12-week exercise intervention will improve components of health-related physical fitness by measuring cardiorespiratory fitness, muscular exercise capacity and flexibility in breast cancer survivors.

II. To determine whether a 12-week exercise intervention will improve risk parameters of metabolic disease by measuring changes in body composition, waist circumference, blood pressure, and circulating levels of glucose, insulin, lipids components and C-reactive protein in breast cancer survivors.

III. To determine whether a 12-week exercise intervention will conduce to changes of cancer-related biomarker by measuring in serum levels of dickkopf-related protein 1 (DKK1), secreted frizzled-related protein 1 (SFRP1), sclerostin, osteoprotegerin, osteopontin, growth differentiation factor 15 (GDF-15), insulin like growth factor 1 (IGF-1), and IGFBP-3 in breast cancer survivors.

IV. To determine whether a 12-week exercise intervention will result in a improvement in inflammatory cytokines and adipokines by measuring in serum levels of interleukin 1 beta (IL-1β), IL-10, IL-11, tumor necrosis factor alpha (TNFα), leptin and adiponectin in breast cancer survivors.

V. To determine whether a 12-week exercise intervention will conduce to changes of myokines by measuring in serum levels of brain-derived neurotrophic factor (BDNF), IL-8, IL-15, fatty acid-binding protein 3 (FABP3), leukemia inhibitory factor (LIF), follistatin, fractalkine, fibroblast growth factor 21 (FGF-21), osteonectin and irisin in breast cancer survivors.

Tipo di studio

Interventistico

Iscrizione (Anticipato)

60

Fase

  • Non applicabile

Contatti e Sedi

Questa sezione fornisce i recapiti di coloro che conducono lo studio e informazioni su dove viene condotto lo studio.

Contatto studio

Luoghi di studio

  • Corea, Repubblica di
    • Gangwon-do
      • Wonju, Gangwon-do, Corea, Repubblica di
        • Reclutamento
        • Center for Exercise medicine; Yonsei University
        • Contatto:
        • Investigatore principale:
          • Jae Seung Chang, Ph.D

Criteri di partecipazione

I ricercatori cercano persone che corrispondano a una certa descrizione, chiamata criteri di ammissibilità. Alcuni esempi di questi criteri sono le condizioni generali di salute di una persona o trattamenti precedenti.

Criteri di ammissibilità

Età idonea allo studio

Da 18 anni a 64 anni (Adulto)

Accetta volontari sani

No

Sessi ammissibili allo studio

Femmina

Descrizione

Inclusion Criteria:

  • Have diagnosed as a stage of I-III breast cancer
  • Have undergone a lumpectomy or mastectomy
  • Have completed neoadjuvant/adjuvant chemotherapy and able to initiate Exercise program
  • Nonsmokers (i.e., not smoking during previous 12 months)
  • Able to provide physician clearance to participate in exercise program for 12 weeks

Exclusion Criteria:

  • History of chronic disease including diabetes, uncontrolled hypertension or thyroid disease
  • Weight reduction >= 10% within past 6 months
  • Metastatic disease
  • Participate in more than 60 minutes of exercise per week in the past 6 months
  • Cardiovascular, respiratory or musculoskeletal disease or joint problems that preclude moderate physical activity

Piano di studio

Questa sezione fornisce i dettagli del piano di studio, compreso il modo in cui lo studio è progettato e ciò che lo studio sta misurando.

Come è strutturato lo studio?

Dettagli di progettazione

  • Scopo principale: Terapia di supporto
  • Assegnazione: Randomizzato
  • Modello interventistico: Assegnazione parallela
  • Mascheramento: Triplicare

Armi e interventi

Gruppo di partecipanti / Arm
Intervento / Trattamento
Sperimentale: Exercise in breast cancer survivors
Combined aerobic and strength exercise training for 12 weeks under supervision
Comportamentale: Combined aerobic and strength exercise training
Subjects participate in supervised exercise sessions for 60 minutes thrice weekly and are encouraged to participate in a home-based exercise session over 30 minutes once weekly for 12 weeks.
Nessun intervento: No exercise in breast cancer survivors
Lifestyle counseling and standard of care follow up for 12 weeks
Comparatore fittizio: Exercise in healthy subjects
Age-matched healthy subjects. Combined aerobic and strength exercise training for 12 weeks under supervision
Comportamentale: Combined aerobic and strength exercise training
Subjects participate in supervised exercise sessions for 60 minutes thrice weekly and are encouraged to participate in a home-based exercise session over 30 minutes once weekly for 12 weeks.

Cosa sta misurando lo studio?

Misure di risultato primarie

Misura del risultato
Misura Descrizione
Lasso di tempo
Changes of health-related physical fitness components (1).
Lasso di tempo: Changes from baseline aerobic capacity at 12 weeks
Aerobic capacity is assessed using multi-stage 20 meters shuttle run test (the maximum number of repetitions).
Changes from baseline aerobic capacity at 12 weeks
Changes of health-related physical fitness components (2).
Lasso di tempo: Changes from baseline muscular endurance at 12 weeks
Muscular endurance is assessed using sit-up test for 30 seconds (the maximum number of repetitions).
Changes from baseline muscular endurance at 12 weeks
Changes of health-related physical fitness components (3).
Lasso di tempo: Changes from baseline muscular strength at 12 weeks
Muscular strength is assessed by the maximum voluntary strength of handgrip (kg).
Changes from baseline muscular strength at 12 weeks
Changes of health-related physical fitness components (4).
Lasso di tempo: Changes from baseline muscular power at 12 weeks
Muscular power is assessed using standing long jump test (the maximum horizontal distance of two trials, cm).
Changes from baseline muscular power at 12 weeks
Changes of health-related physical fitness components (5).
Lasso di tempo: Changes from baseline agility at 12 weeks
Agility is assessed using 10 meters agility shuttle run test (the time taken to complete a 10 meters course is recorded, seconds).
Changes from baseline agility at 12 weeks
Changes of health-related physical fitness components (6).
Lasso di tempo: Changes from baseline flexibility at 12 weeks
Flexibility is assessed using sit and reach test (the greater distance of two trials, cm)
Changes from baseline flexibility at 12 weeks
Changes of anthropometric parameters (1).
Lasso di tempo: Changes from baseline waist circumference at 12 weeks
Waist circumference is measured at the midpoint between the lower rib margin and the iliac crest (expressed in cm).
Changes from baseline waist circumference at 12 weeks
Changes of anthropometric parameters (2).
Lasso di tempo: Changes from baseline BMI at 12 weeks
BMI calculated as body weight / height (kg per square meters).
Changes from baseline BMI at 12 weeks
Changes of body composition parameters (1).
Lasso di tempo: Changes from baseline body fat mass at 12 weeks
Body fat mass is measured by a bio-impedance analyzer (expressed as kg).
Changes from baseline body fat mass at 12 weeks
Changes of body composition parameters (2).
Lasso di tempo: Changes from baseline lean body mass at 12 weeks
Lean body mass is measured by a bio-impedance analyzer (expressed as kg).
Changes from baseline lean body mass at 12 weeks
Changes of body composition parameters (3).
Lasso di tempo: Changes from baseline percentage body fat at 12 weeks
Percentage body fat is calculated as body fat mass (kg) divided by weight (kg).
Changes from baseline percentage body fat at 12 weeks
Changes of serum levels of Wnt signaling-related molecules (1).
Lasso di tempo: Changes from baseline serum levels of DKK1 at 12 weeks
The serum concentration of DKK1 is measured by commercial enzyme-linked immunosorbent assay kits (Minimal detectable density, 15.6 pg/ml; Standard curve range, 31.2 - 2,000 pg/ml, R&D systems).
Changes from baseline serum levels of DKK1 at 12 weeks
Changes of serum levels of Wnt signaling-related molecules (2).
Lasso di tempo: Changes from baseline serum levels of Sclerostin at 12 weeks
The serum concentration of sclerostin is measured by commercial enzyme-linked immunosorbent assay kits (Minimal detectable density, 6.96 pg/ml; Standard curve range, 7.49 - 1,820 pg/ml, R&D systems).
Changes from baseline serum levels of Sclerostin at 12 weeks
Changes of serum levels of Wnt signaling-related molecules (3).
Lasso di tempo: Changes from baseline serum levels of SFRP1 at 12 weeks
The serum concentration of SFRP1 is measured by commercial enzyme-linked immunosorbent assay kits (Minimal detectable density, 53 pg/ml; Standard curve range, 156 - 10,000 pg/ml, USCN Life Science Inc.).
Changes from baseline serum levels of SFRP1 at 12 weeks
Changes of serum levels of Wnt signaling-related molecules (4).
Lasso di tempo: Changes from baseline serum levels of β-catenin at 12 weeks
The serum concentration of β-catenin is measured by commercial enzyme-linked immunosorbent assay kits (Minimal detectable density, 3.9 pg/ml; Standard curve range, 15.6 - 1000 pg/ml, Cusabio Biotech).
Changes from baseline serum levels of β-catenin at 12 weeks
Changes of serum levels of Wnt signaling-related molecules (5).
Lasso di tempo: Changes from baseline serum levels of WISP-1 at 12 weeks
The serum concentration of WISP-1 is measured by commercial chemiluminescent immunoassay kits (Minimal detectable density, 0.97 pg/ml; Standard curve range, 2.74 - 2,000 pg/ml, USCN Life Science Inc.).
Changes from baseline serum levels of WISP-1 at 12 weeks

Misure di risultato secondarie

Misura del risultato
Misura Descrizione
Lasso di tempo
Changes of serum levels of cancer-related molecules (1).
Lasso di tempo: Changes from baseline serum levels of osteoprotegerin at 12 weeks
The serum concentration of osteoprotegerin is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 3.62 pg/ml; Standard curve range, 81.4 - 19,770 pg/ml, R&D systems).
Changes from baseline serum levels of osteoprotegerin at 12 weeks
Changes of serum levels of cancer-related molecules (2).
Lasso di tempo: Changes from baseline serum levels of osteopontin at 12 weeks
The serum concentration of osteopontin is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 413 pg/ml; Standard curve range, 3.4 - 826.9 ng/ml, R&D systems).
Changes from baseline serum levels of osteopontin at 12 weeks
Changes of serum levels of cancer-related molecules (3).
Lasso di tempo: Changes from baseline serum levels of GDF-15 at 12 weeks
The serum concentration of GDF-15 is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 1.2 pg/ml; Standard curve range, 34 - 8,270 pg/ml, R&D systems).
Changes from baseline serum levels of GDF-15 at 12 weeks
Changes of serum levels of adipokines (1).
Lasso di tempo: Changes from baseline serum levels of adiponectin at 12 weeks
The serum concentration of adiponectin is measured by commercial enzyme-linked immunosorbent assay kits (Minimal detectable density, 0.891 ng/ml; Standard curve range, 3.9 - 250 ng/ml, R&D systems).
Changes from baseline serum levels of adiponectin at 12 weeks
Changes of serum levels of adipokines (2).
Lasso di tempo: Changes from baseline serum levels of leptin at 12 weeks
The serum concentration of leptin is measured by commercial enzyme-linked immunosorbent assay kits (Minimal detectable density, 7.8 pg/ml; Standard curve range, 15.6 - 1,000 ng/ml, R&D systems).
Changes from baseline serum levels of leptin at 12 weeks
Changes of serum levels of myokines (1).
Lasso di tempo: Changes from baseline serum levels of BDNF at 12 weeks
The serum concentration of BDNF is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 0.32 pg/ml; Standard curve range, 10.9 - 2,650 pg/ml, R&D systems).
Changes from baseline serum levels of BDNF at 12 weeks
Changes of serum levels of myokines (2).
Lasso di tempo: Changes from baseline serum levels of IL-8 at 12 weeks
The serum concentration of IL-8 is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 1.8 pg/ml; Standard curve range, 8.19 - 1,990 pg/ml, R&D systems).
Changes from baseline serum levels of IL-8 at 12 weeks
Changes of serum levels of myokines (3).
Lasso di tempo: Changes from baseline serum levels of IL-15 at 12 weeks
The serum concentration of IL-15 is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 1.01 pg/ml; Standard curve range, 7.7 - 18,700 pg/ml, R&D systems).
Changes from baseline serum levels of IL-15 at 12 weeks
Changes of serum levels of myokines (4).
Lasso di tempo: Changes from baseline serum levels of FABP3 at 12 weeks
The serum concentration of FABP3 is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 472 pg/ml; Standard curve range, 1.3 - 312.2 ng/ml, R&D systems).
Changes from baseline serum levels of FABP3 at 12 weeks
Changes of serum levels of myokines (5).
Lasso di tempo: Changes from baseline serum levels of LIF at 12 weeks
The serum concentration of LIF is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 9.31 pg/ml; Standard curve range, 68.1 - 16,550 pg/ml, R&D systems).
Changes from baseline serum levels of LIF at 12 weeks
Changes of serum levels of myokines (6).
Lasso di tempo: Changes from baseline serum levels of follistatin at 12 weeks
The serum concentration of follistatin is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 133 pg/ml; Standard curve range, 2.6 - 650 ng/ml, R&D systems).
Changes from baseline serum levels of follistatin at 12 weeks
Changes of serum levels of myokines (7).
Lasso di tempo: Changes from baseline serum levels of fractalkine at 12 weeks
The serum concentration of fractalkine is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 64.8 pg/ml; Standard curve range, 1.3 - 325.8 ng/ml, R&D systems).
Changes from baseline serum levels of fractalkine at 12 weeks
Changes of serum levels of myokines (8).
Lasso di tempo: Changes from baseline serum levels of FGF-21 at 12 weeks
The serum concentration of FGF-21 is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 27 pg/ml; Standard curve range, 623 - 151,330 pg/ml, R&D systems).
Changes from baseline serum levels of FGF-21 at 12 weeks
Changes of serum levels of myokines (9).
Lasso di tempo: Changes from baseline serum levels of SPARC (osteonectin) at 12 weeks
The serum concentration of SPARC (osteonectin) is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 97.9 pg/ml; Standard curve range, 3.4 - 829.9 ng/ml, R&D systems).
Changes from baseline serum levels of SPARC (osteonectin) at 12 weeks
Changes of serum levels of myokines (10).
Lasso di tempo: Changes from baseline serum levels of irisin at 12 weeks
The serum concentration of irisin is measured by commercial enzyme-linked immunosorbent assay kits (Minimal detectable density, 1.29 ng/ml; Standard curve range, 0.1 - 1,000 ng/ml, Phoenix Pharmaceuticals).
Changes from baseline serum levels of irisin at 12 weeks
Changes of serum levels of inflammatory-related cytokines (1)
Lasso di tempo: Changes from baseline serum levels of IL-1 beta at 12 weeks
The serum concentration of IL-1 beta is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 0.8 pg/ml; Standard curve range, 17.8 - 4,320 pg/ml, R&D systems).
Changes from baseline serum levels of IL-1 beta at 12 weeks
Changes of serum levels of inflammatory-related cytokines (2)
Lasso di tempo: Changes from baseline serum levels of IL-10 at 12 weeks
The serum concentration of IL-10 is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 1.6 pg/ml; Standard curve range, 13.7 - 3,340 pg/ml, R&D systems).
Changes from baseline serum levels of IL-10 at 12 weeks
Changes of serum levels of inflammatory-related cytokines (3)
Lasso di tempo: Changes from baseline serum levels of IL-11 at 12 weeks
The serum concentration of IL-11 is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 24.7 pg/ml; Standard curve range, 0.5 - 125.4 ng/ml, R&D systems).
Changes from baseline serum levels of IL-11 at 12 weeks
Changes of serum levels of inflammatory-related cytokines (4)
Lasso di tempo: Changes from baseline serum levels of TNF-alpha at 12 weeks
The serum concentration of TNF-alpha is measured using commercial luminex multiplexed cytokine assay panels (Minimal detectable density, 1.2 pg/ml; Standard curve range, 14 - 3,410 pg/ml, R&D systems).
Changes from baseline serum levels of TNF-alpha at 12 weeks
Changes of bone mineral density
Lasso di tempo: Changes from baseline bone mineral density at 12 weeks
Bone mineral density is expressed as T-score, which is measured by a compact ultrasonometer at calcaneus (Achilles Express, GE LUNAR Corp., Madison, WI)
Changes from baseline bone mineral density at 12 weeks

Collaboratori e investigatori

Qui è dove troverai le persone e le organizzazioni coinvolte in questo studio.

Sponsor

Wonju Severance Christian Hospital

Investigatori

  • Cattedra di studio: In Deok Kong, Professor, Yonsei University

Pubblicazioni e link utili

La persona responsabile dell'inserimento delle informazioni sullo studio fornisce volontariamente queste pubblicazioni. Questi possono riguardare qualsiasi cosa relativa allo studio.

Pubblicazioni generali

Studiare le date dei record

Queste date tengono traccia dell'avanzamento della registrazione dello studio e dell'invio dei risultati di sintesi a ClinicalTrials.gov. I record degli studi e i risultati riportati vengono esaminati dalla National Library of Medicine (NLM) per assicurarsi che soddisfino specifici standard di controllo della qualità prima di essere pubblicati sul sito Web pubblico.

Studia le date principali

Inizio studio

1 maggio 2014

Completamento primario (Anticipato)

1 marzo 2023

Completamento dello studio (Anticipato)

1 dicembre 2023

Date di iscrizione allo studio

Primo inviato

21 agosto 2016

Primo inviato che soddisfa i criteri di controllo qualità

4 settembre 2016

Primo Inserito (Stima)

9 settembre 2016

Aggiornamenti dei record di studio

Ultimo aggiornamento pubblicato (Effettivo)

8 aprile 2021

Ultimo aggiornamento inviato che soddisfa i criteri QC

6 aprile 2021

Ultimo verificato

1 aprile 2021

Maggiori informazioni

Termini relativi a questo studio

Parole chiave

Termini MeSH pertinenti aggiuntivi

Altri numeri di identificazione dello studio

  • LOHAS-BCS

Piano per i dati dei singoli partecipanti (IPD)

Hai intenzione di condividere i dati dei singoli partecipanti (IPD)?

NO

Queste informazioni sono state recuperate direttamente dal sito web clinicaltrials.gov senza alcuna modifica. In caso di richieste di modifica, rimozione o aggiornamento dei dettagli dello studio, contattare register@clinicaltrials.gov. Non appena verrà implementata una modifica su clinicaltrials.gov, questa verrà aggiornata automaticamente anche sul nostro sito web .

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