Research Outputs

Now showing 1 - 4 of 4
  • Publication
    Relationship between anthropometric nutritional status and functional capacity in older adults living in the community
    (Sociedad MĆ©dica de Santiago, 2020)
    Guede Rojas, Francisco
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    Jerez Mayorga, Daniel
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    Soto MartĆ­nez, Adolfo
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    RamĆ­rez Campillo, Rodrigo
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    Barboza GonzƔlez, Paola
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    Angarita DƔvila, LissƩ
    Background: The functional fitness of older people may be associated with their nutritional status. Aim: To assess the association between of anthropometric measures with functional fitness in older people. Material and Methods: Cross-sectional study conducted in 75 participants aged 65 to 89 years. Body mass index (BMI), waist-to-height ratio (WHtR), fat mass (FM) and skeletal muscle mass index (SMI) were calculated from anthropometric measures. The functional fitness was determined using the Senior Fitness Test battery. Results: BMI and FM indicated obesity, and WHtR indicated cardiometabolic risk in 49%, 55% and 83% of participants, respectively. SMI indicated a low muscle mass in 91% of females. Performance standards of chair stand, arm curl, 2-min step test and 8-foot up-and-go tests were met in 1%, 8%, 1% and 89% of participants, respectively. Significant negative correlations were found between 2-min step test and BMI, WHtR and FM (r = āˆ’0.26, āˆ’0.31 and āˆ’0.48 respectively). Back scratch had a negative correlation with BMI (r = āˆ’0.23) and SMI (rho = āˆ’0.28). Significant positive correlations were found between 8-foot up-and-go, WHtR (rho = 0.28) and FM (rho = 0.23), and between 2-min step test and SMI (rho = 0.28). The coefficient of determination (R2) between 2-min step test with BMI, WHtR and FM were 0.05, 0.08 and 0.22, respectively, while the R2 between back scratch and BMI was 0.04. Multiple regression models indicated that FM affected the 2-min step test independently of BMI and WHtR (adjusted R2 = 0.22), however age and sex negatively influenced these associations. Conclusions: Functional fitness of older adults is influenced by nutritional anthropometric measures, particularly BMI, WHtR and FM for aerobic capacity, and BMI for upper limb flexibility.
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    Publication
    Assessment of the load-velocity profile in the free-weight prone bench pull exercise through different velocity variables and regression models
    (PLOS, 2019)
    GarcĆ­a-Ramos, Amador
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    ;
    Barboza GonzƔlez, Paola
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    Rodrƭguez Perea, Ɓngela
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    MartĆ­nez GarcĆ­a, DarĆ­o
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    Quidel CatrilelbĆŗn, Mauricio
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    Guede Rojas, Francisco
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    Janicijevic, Danica
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    Weakley, Jonathon
    This aims of this study were (I) to determine the velocity variable and regression model which best fit the load-velocity relationship during the free-weight prone bench pull exercise, (II) to compare the reliability of the velocity attained at each percentage of the one-repetition maximum (1RM) between different velocity variables and regression models, and (III) to compare the within- and between-subject variability of the velocity attained at each %1RM. Eighteen men (14 rowers and four weightlifters) performed an incremental test during the free-weight prone bench pull exercise in two different sessions. General and individual load-velocity relationships were modelled through three velocity variables (mean velocity [MV], mean propulsive velocity [MPV] and peak velocity [PV]) and two regression models (linear and second-order polynomial). The main findings revealed that (I) the general (Pearsonā€™s correlation coefficient [r] range = 0.964ā€“0.973) and individual (median r = 0.986 for MV, 0.989 for MPV, and 0.984 for PV) load-velocity relationships were highly linear, (II) the reliability of the velocity attained at each %1RM did not meaningfully differ between the velocity variables (coefficient of variation [CV] range = 2.55ā€“7.61% for MV, 2.84ā€“7.72% for MPV and 3.50ā€“6.03% for PV) neither between the regression models (CV range = 2.55ā€“7.72% and 2.73ā€“5.25% for the linear and polynomial regressions, respectively), and (III) the within-subject variability of the velocity attained at each %1RM was lower than the between-subject variability for the light-moderate loads. No meaningful differences between the within- and between-subject CVs were observed for the MV of the 1RM trial (6.02% vs. 6.60%; CV ratio = 1.10), while the within-subject CV was lower for PV (6.36% vs. 7.56%; CV ratio = 1.19). These results suggest that the individual load-MV relationship should be determined with a linear regression model to obtain the most accurate prescription of the relative load during the free-weight prone bench pull exercise.
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    Publication
    Reliability of isometric and isokinetic trunk flexor strength using a functional electromechanical dynamometer
    (PeerJ, 2019)
    Rodriguez-Perea, Angela
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    Chirosa RĆ­os, Luis J.
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    Martinez-Garcia, Dario
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    Guede Rojas, Francisco
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    Jerez-Mayorga, Daniel
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    Chirosa Rios, Ignacio J.
    Aim. To determine the absolute and relative reliability of functional trunk tests, using a functional electromechanical dynamometer to evaluate the isokinetic strength of trunk flexors and to determine the most reliable assessment condition, in order to compare the absolute and relative reliability of mean force and peak force of trunk flexors and to determine which isokinetic condition of evaluation is best related to the maximum isometric. Methods. Test-retest of thirty-seven physically active male student volunteers who performed the different protocols, isometric contraction and the combination of three velocities (V1 = 015 m sāˆ’1, V2 = 0.30 m sāˆ’1, V3 = 0.45 m sāˆ’1) and two range of movement (R1 = 25% cm ; R2 = 50% cm) protocols. Results. All protocols to evaluate trunk flexors showed an absolute reliability provided a stable repeatability for isometric and dynamic protocols with a coefficient of variation (CV) being below 10% and a high or very high relative reliability (0.69 < intraclass correlation coefficient [ICC] > 0.86). The more reliable strength manifestation (CV = 6.82%) to evaluate the concentric contraction of trunk flexors was mean force, with 0.15 m sāˆ’1 and short range of movement (V1R1) condition. The most reliable strength manifestation to evaluate the eccentric contraction of trunk flexors was peak force, with 0.15 m sāˆ’1 and a large range of movement (V1R2; CV = 5.07%), and the most reliable way to evaluate isometric trunk flexors was by peak force (CV = 7.72%). The mean force of eccentric trunk flexor strength with 0.45 m sāˆ’1 and short range of movement (V3R1) condition (r = 0.73) was best related to the maximum isometric contraction. Conclusion. Functional electromechanical dynamometry is a reliable evaluation system for assessment of trunk flexor strength.
  • Publication
    Reliability and validity of different methods of estimating the one-repetition maximum during the free-weight prone bench pull exercise
    (Routledge, 2019)
    GarcĆ­a-Ramos, Amador
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    Barboza GonzƔlez, Paola
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    Rodriguez Perea, Angela
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    Martinez Garcia, DarĆ­o
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    Guede Rojas, Francisco
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    Hinojosa Riveros, Hans
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    Chirosa RĆ­os, Luis Javier
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    Janicijevic, Danica
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    Weakley, Jonathon
    This study examined the reliability and validity of three methods of estimating the one-repetition maximum (1RM) during the free-weight prone bench pull exercise. Twenty-six men (22 rowers and four weightlifters) performed an incremental loading test until reaching their 1RM, followed by a set of repetitions-to-failure. Eighteen participants were re-tested to conduct the reliability analysis. The 1RM was estimated through the lifts-to-failure equations proposed by Lombardi and O'Connor, general load-velocity (L-V) relationships proposed by SƔnchez-Medina and Loturco and the individual L-V relationships modelled using four (multiple-point method) or only two loads (two-point method). The direct method provided the highest reliability (coefficient of variation [CV] = 2.45% and intraclass correlation coefficient [ICC] = 0.97), followed by the Lombardi's equation (CV = 3.44% and ICC = 0.94), and no meaningful differences were observed between the remaining methods (CV range = 4.95-6.89% and ICC range = 0.81-0.91). The lifts-to-failure equations overestimated the 1RM (3.43-4.08%), the general L-V relationship proposed by SƔnchez-Medina underestimated the 1RM (-3.77%), and no significant differences were observed for the remaining prediction methods (-0.40-0.86%). The individual L-V relationship could be recommended as the most accurate method for predicting the 1RM during the free-weight prone bench pull exercise.