Cachexia in Gynecological Cancer and the Preventive Role of Weight Training

Not Applicable

Completed

• Conditions: Gynecologic Cancer; Physical Activity; Breast Cancer Female; Menopause
• Interventions: Other: High intensity interval training with body weight; Other: Combined training

• Registration Number: NCT03200639
• Lead Sponsor: Universidade Federal do Triangulo Mineiro

Brief Summary

The study aim was to compare the effectiveness of combined training (CT; aerobic + resistance exercises) and high-intensity interval body weight training (HIITBW) on body composition, metabolic and inflammatory profile, physical function and quality of life in older women with gynecological and breast cancer and their pair-matched controls (older women with no cancer). The hypothesis of the present clinical trial is that HIITBW is effective as well as CT for improvements on body composition, metabolic and inflammatory profile, physical function and quality of life in older women with gynecological and breast cancer.

Detailed Description

Physical training has been recommended to prevent or attenuation cachexia and sarcopenia in older people with or without cancer. The American College of Sports Medicine recommends 150 min of moderate intensity exercise combining aerobic exercise with resistance exercises, termed as combined training (CT). However, it has been reported that very low proportion (\<10%) of older adults meet the physical activity recommendation. Lack of time has been reported as a common reason to people not to do exercise. Thus, identifying effective physical training dosages and modalities which may be feasible are necessary for this population.

Repeated brief bouts of fast and intense exercise interspersed with low intensity exercise termed as high intensity interval training (HIIT) has shown to be a time-effective strategy to improve cardiorespiratory fitness in young and older. Moreover, HIIT has shown to improve glycemic control in patients at high risk for TDM2, muscle mass, body fat and physical function. However, there were many pending issues involving the HIIT for sarcopenia and cachexia in older people. For instance, the lack of access to physical activity facilities, such as the need for specific equipment (i.e. fitness equipment: treadmill, bike or resistance exercise equipment) and the need for high motor skill levels to performance the high-intensity exercise (i.e. run at high speed) have been reported as another reason to older people not to do HIIT.

Different HIIT programs performed outside of laboratory has been proposed, especially with body-weight exercises. The high-intensity interval body weight training (HIBWT) is performed without equipment and with low motor skill levels. HIBWT has been shown to improve fat mass, muscle mass, cardiorespiratory capacity and physical performance in young adults with or without overweight. Despite this, no previous studies have evaluated HIBWT efficacy and safe in older people with sarcopenia and cachexia. The study aim was to compare the effectiveness of CT and HIITBW on body composition, metabolic and inflammatory profile, physical function and quality of life in older women with gynecological and breast cancer and their pair-matched controls (older women with no cancer). The hypothesis of the present clinical trial is that HIITBW is effective as well as CT for improvements on body composition, metabolic and inflammatory profile, physical function and quality of life in older women with gynecological and breast cancer.

Study Timeline

• Study Start: 2015-05-30
• Primary Completion: 2015-12-01
• Study Completion: 2015-12-10
• Status Verified: 2017-06
• Study First Submitted: 2017-06-20
• Study First Submitted QC: 2017-06-23
• Last Update Submitted: 2017-06-23
• Study First Posted: 2017-06-27
• Last Update Posted: 2017-06-27

Recruitment & Eligibility

• Status: COMPLETED
• Sex: Female
• Target Recruitment: 38

Inclusion Criteria

• Postemenopausal women without cancer
• Postemenopausal women with breast cancer
• Postemenopausal women with gynecological cancer

Exclusion Criteria

• No several physical limitations (wheelchair, canes or any similar device)

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Physical training, HIITBWc	High intensity interval training with body weight	High intensity interval training with body weight with gynecological and/or breast cancer (HIITBWc): Post menopausal women with gynecological and/or breast cancer submitted to 12 weeks of high intensity interval training with body weight (i.e. step climbing plus squats)
Physical training, CT	Combined training	Combined Trained with no cancer (CT): Post menopausal women with no cancer submitted to 12 weeks of combined training (i.e. aerobic training plus resistance training)
Physical training, HIITBW	High intensity interval training with body weight	High intensity interval training with body weight with no cancer (HIITBW): Post menopausal women with no cancer submitted to 12 weeks of high intensity interval training with body weight (i.e. step climbing plus squats)
Physical training, CTc	Combined training	Combined Trained with gynecological and/or breast cancer (CTc): Post menopausal women with with gynecological and/or breast cancer submitted to 12 weeks of combined training (i.e. aerobic training plus resistance training)

Primary Outcome Measures

Name	Time	Method
Body composition	pre intervention and post intervention (i.e. 12 weeks)	Soft-tissue (fat mass, kg and lean mass, kg) of whole body and regional composition were assessed via dual-energy x-ray absorptiometry scanning (iDXA; GE Healthcare-Luna, Madison, WI; software Encore version 14.10)
Muscle strength	pre intervention and post intervention (i.e. 12 weeks)	It was measured by the one repetition maximum (1RM) test in the leg extension equipment.
Rate of force development (a critical component of muscle power)	pre intervention and post intervention (i.e. 12 weeks)	It was measured by a rapid maximum isometric voluntary contraction of the one-sidedly knee extension force pulses (Metrolog SD20-LVDT, São Carlos/SP, Brazil) of both legs.
Cardiorespiratory fitness	pre intervention and post intervention (i.e. 12 weeks)	The six-minute walk test and the one mile walk test was performed indoor, on a flat floor in a sports court.
Short physical performance battery (SPPB)	pre intervention and post intervention (i.e. 12 weeks)	The SPPB consisted of three tests performed in the following order: balance test, four-meter walk test, and five-time-sit-to-stand test.; Each test score varied to zero to four points, and the SPPB total score varied to zero to 12 points (sum of the scores of the three tests).

Secondary Outcome Measures

Name	Time	Method
Citokines	pre intervention and post intervention (i.e. 12 weeks)	Blood samples (16 ml) were collected between 7:30 AM and 9:00 AM after an overnight fast (10-12 hours). The blood samples (venous) were collected by a dry tube with gel separator or EDTA (vacuum-sealed system; Vacutainer, England). The sample was centrifuged for 10 minutes (3.000 rpm) and samples were separated and stocked (-80 C) for futures analysis.; The blood indicators were measured as follows: IL-10, IL-6, IL-1ra, TNF-α, ICAM-1, MCP-1, Leptin and Total Adiponectin (enzyme-linked immunosorbent assay method) with Readwell Touch equipment (Robonik, India) and R\&D kits (USA).
Quality of life	pre intervention and post intervention (i.e. 12 weeks)	Quality of life - The 36-Item Short Form Health Survey (SF-36) was used to measure the overall quality of life aspects, separated in the following domains: functional capacity, physical limitations, pain, overall health, vitality, social aspects, emotional limitations and mental health.
Hormones	pre intervention and post intervention (i.e. 12 weeks)	Blood samples (16 ml) were collected between 7:30 AM and 9:00 AM after an overnight fast (10-12 hours). The blood samples (venous) were collected by a dry tube with gel separator or EDTA (vacuum-sealed system; Vacutainer, England). The sample was centrifuged for 10 minutes (3.000 rpm) and samples were separated and stocked (-80 C) for futures analysis.; The blood indicators were measured as follows: Testosterone, LH, TSH, T4, insulin, DHEA-S, E2 and FSH (electrochemoluminescence method).
Metabolic markers	pre intervention and post intervention (i.e. 12 weeks)	Blood samples (16 ml) were collected between 7:30 AM and 9:00 AM after an overnight fast (10-12 hours). The blood samples (venous) were collected by a dry tube with gel separator or EDTA (vacuum-sealed system; Vacutainer, England). The sample was centrifuged for 10 minutes (3.000 rpm) and samples were separated and stocked (-80 C) for futures analysis.; The blood indicators were measured as follows: Glucose, C-reactive protein, Hb1Ac (automated colorimetric method), total cholesterol, ALT and AST (kinetic method) with Cobas 6000 equipment and Roche kit (USA).
Electromyography	pre intervention and post intervention (i.e. 12 weeks)	Quadriceps electromyography
Physical activity level	pre intervention and post intervention (i.e. 12 weeks)	The International Physical Activity Questionnaire (IPAQ) was used to measure the level (time spent) of physical activities of light, moderate and high intensities during the day. Also, the sitting time (minutes) per day was measured.
Nutrition habits	pre intervention and post intervention (i.e. 12 weeks)	A three-day food record (two days in the middle of week and one on the weekend) was used to determine the energy and macronutrients (carbohydrates, proteins and fats).
Functional capacity	pre intervention and post intervention (i.e. 12 weeks)	The activities of daily living was assessed by Lawnton and Katz scale.