Search Results

You are looking at 1 - 10 of 72 items for :

  • "core stability" x
Clear All
Restricted access

Sajad Bagherian, Khodayar Ghasempoor, Nader Rahnama and Erik A. Wikstrom

standard approach for assessing movement quality that would increase musculoskeletal injury risk. 4 , 5 Athletes need an adequate amount of balance, core stability, and neuromuscular control to safely and effectively perform the necessary movements of their sport. 6 A fundamental movement pattern is a

Restricted access

Francisco J. Vera-Garcia, Diego López-Plaza, Casto Juan-Recio and David Barbado

Core stability is a popular concept attracting the interest of coaches, athletes, clinicians, and researchers in the last 20 years because of its potential benefits for injury prevention and athletic performance. 1 – 4 Consequently, many different tests have been used to assess core stability in

Open access

David M. Werner and Joaquin A. Barrios

Core stability is considered fundamental for optimized whole-body movement. Functionally, core stability is partly reflected in the ability of the trunk to maintain or return the body to equilibrium when challenged by both expected and unexpected internal and external perturbations. 1 , 2 While no

Restricted access

Tricia Majewski-Schrage, Todd A. Evans and Brian Ragan

Context:

Despite widespread acceptance, there is currently no consensus on the definition, components, and the specific techniques most appropriate to measure and quantify core stability.

Objective:

To develop a comprehensive core-stability model addressing its definition, components, and assessment techniques.

Design:

Delphi technique.

Setting:

University laboratory.

Participants:

15 content experts from United States and Canada, representing a variety of disciplines.

Main Outcome Measure:

The authors distributed an open-ended questionnaire pertaining to a core-stability definition, components, and assessment techniques specific to each expert. They collected data over 2 rounds of telephone interviews. They concluded data collection once a consensus was achieved that equated with 51% agreement among respondents.

Results:

The authors developed a working definition of core stability as the ability to achieve and sustain control of the trunk region at rest and during precise movement. Eighty-three percent of the experts considered the definition satisfactory. Therefore, the definition was accepted. Furthermore, the experts agreed that muscles (14/15 = 93.3%) and neuromuscular control (8/12 = 66.7%) were components of core stability. Assessment techniques were identified and inconsistencies were highlighted; however, no consensus was established.

Conclusions:

A consensus core-stability definition was created and 2 components were identified. However, of the initial definitions provided by the experts, no 2 were identical, which revealed the inconsistencies among experts and the importance of this study. Nonetheless, the goal of obtaining a consensus definition was obtained. Although a consensus for the assessment techniques of core stability could not be reached, it was a beneficial starting point to identify the inconsistencies that were discovered among the content experts.

Restricted access

Cathy Arnold, Joel Lanovaz, Alison Oates, Bruce Craven and Scotty Butcher

This study compared sit to stand (STS) performance between older adults in a nine-week training program focusing on core stability exercises to enhance balance and postural control (EB) versus standard balance (SB) exercises. Repetitions in 30 s (STSreps) and kinematic performance (vertical and horizontal momentum, and margin of stability) were measured pre and postintervention in 23 older adults with at least one fall risk factor. Although both groups combined improved STSreps (P = .001) and vertical momentum (.008), a significant between-group difference was observed for completers only (MANCOVA of posttest group differences, with pretest scores as covariates; P = .04). EB demonstrated a greater but nonsignificant improvement in vertical momentum (P = .095). In conclusion, core stability training added to SB did not result in STS reps improvement. Compliance may modify these results and future larger sample studies should evaluate the impact of core stability training on STS biomechanics.

Restricted access

Athanasios Trampas, Anastasia Mpeneka, Vivian Malliou, George Godolias and Periklis Vlachakis

Context:

Previous studies showed improved dynamic-balance (DB) performance after core-stability (CS) exercises in populations with chronic low back pain. Although clinical massage plus exercise is likely to better enhance analgesia than exercise alone, its efficacy on balance remains unclear.

Objective:

To evaluate the immediate effects of CS exercises plus myofascial trigger-point (MTrP) therapy in comparison with CS exercises alone on DB performance, pressure-pain threshold (PPT), and cross-sectional area of active MTrPs in patients with clinical instability of the lumbar spine and chronic myofascial pain syndrome.

Design:

Randomized, assessor-blind, test–retest.

Setting:

University research laboratory.

Patients:

10 physically active adults (5 men, 5 women).

Main Outcome Measures:

Single-leg DB performance and side-to-side ratios in 2 planes of motion (frontal, sagittal), as well as PPT and cross-sectional area of active MTrPs, were measured using stabilometry, pressure algometry, and real-time ultrasound scanning, respectively.

Interventions:

The 1st group performed CS exercises alone, whereas the same exercise program was applied in the 2nd group plus cross-fiber friction on active MTrPs (3.5 min/MTrP).

Results:

Within-group statistically and clinically significant differences were observed only for group II in PPT. However, group I also exhibited a large effect size with clinically significant changes from baseline on this outcome. Furthermore, patients in group II clinically improved their balance ratios and differed from group I at posttest in sagittal-plane DB performance of the painful side.

Conclusion:

CS exercises immediately increase the PPT of active MTrPs in physically active adults with clinical instability of the lumbar spine and chronic myofascial pain syndrome. When MTrP therapy is added, side-to-side asymmetries in DB are minimized.

Restricted access

Yi-Ju Tsai, Chieh-Chie Chia, Pei-Yun Lee, Li-Chuan Lin and Yi-Liang Kuo

participation in volleyball grows, it is necessary to have effective prevention programs for knee injuries in volleyball athletes. Core stability is defined as the ability to control the position and movement of the trunk over the pelvis. 5 Anatomically, the region between the diaphragm, abdominal muscles

Restricted access

Marisa A. Colston

Edited by Monique Mokha

Restricted access

Marisa A. Colston

Edited by Monique Mokha