Brian 1. Pease, MS, P p lanet Wigglesworth, PhDS 0 bjective and reliable measurements of subtalar joint (STJ) motion and position are absolutely necessary for clinicians involved in treatment of lower extremity dysfunctions, specifically foot orthotic fabrication, prescription, and management. Overuse injuries of the lower extremity are common, and the position and mobility of the foot and ankle have been reported to influence overuse injuries in the lower extremity (1,3,6).Because of its anatomical position, STJ position influences foot and ankle function. The STJ consists of the articulation between the talus and the calcaneus. The predominant motion at this joint is inversion/eversion, with components of abduction/ adduction and dorsiflexion/plantar flexion also present (8). The STJ provides the triplanar motions of pronation and supination. Pronation in the closed kinetic chain consists of calcaneal eversion, and adduction and plantar flexion of the talus. Supination in the closed kinetic chain consists of calcaneal inversion, and abduction and dorsiflexion of the talus.In order to clinically measure motion at the subtalar joint, bony landmarks are required. Two such landmarks are the posterior calcaneus and the navicular tuberosity.
Myofascial trigger points (TrPs) have been clinically described as discrete areas of muscle tenderness presenting in taut bands of skeletal muscle. Using well-defined clinical criteria, prior investigations have demonstrated interrater reliability in the diagnosis of TrPs within a given muscle. No reports exist, however, with respect to the precision with which experienced clinicians can determine the anatomic locations of TrPs within a muscle. This paper details a study wherein four trained clinicians achieved statistically significant reliability (see below) in estimating the precise locations of latent TrPs in the trapezius muscle of volunteer subjects (n=20). To do so, the clinicians trained extensively together prior to the study. The precise anatomic location of each subject's primary TrP was measured in a blinded fashion using a 3 dimensional (3-D) camera system. Use of this measurement system permitted the anatomic co-ordinates of each TrP to be located without providing feedback to subsequent clinicians. The clinicians each used a pressure algometer along with patient feedback to document the sensitivity of each suspected TrP site, however unlike routine clinical practice, the algometry was performed with a double-blinded approach hence the results were only examined post-hoc. At the time of data collection (algometry readings unknown), 16 of the 20 subjects were judged to present with a latent TrP. Subsequently, when subjected to a criterion pressure threshold value of <3.0 kg.cm(-2), 12 of these TrPs were classified as being clinically sensitive. To assess the 3-D measurement precision, and the reliability of the TrP estimates, statistical measures of the SEM and the Generalizability coefficient (G-coeff) were determined for all suspected TrP sites in the superior-inferior, medial-lateral and anterior-posterior directions. The best results were determined by pooling the measurements of all 4 clinicians, however, based upon exceeding a criterion reliability threshold of 80%, the use of just two testers was found to produce reliable results. The two-tester condition yielded a precision of 7.5, 7.6 and 6.5 mm (SEM) with reliability (G-coeff) of 0.92, 0.86 and 0.83, respectively. Given the double-blinded methodology, the use of pressure algometry was also found to demonstrate internal validity. The algometer responses associated with TrP estimates varied inversely with respect to the clinical group's reliability in identify the TrP locations. To summarize, for the trapezius muscle, this study demonstrates that two trained examiners can reliably localize latent TrPs with a precision that essentially approaches the physical dimensions of the clinician's own fingertips. Finally, it should be recognized that the ability to precisely document TrP location appears critical to the success of future studies that may be designed to investigate the etiology and pathogenesis of this commonly diagnosed clinical disorder.
The purpose of this study was to investigate the efficacy of, and the adherence to, a 12-week home-based progressive resistance training program for older adults utilizing elastic tubing. Sixty-two adults (mean age, 71.2 years) qualified to participate in the study. Subjects were randomly assigned to either the exercise (E) (n = 31) or non-exercise (NE) group (n = 31). Pre- and post-testing included isokinetic (1.05 rad.s-1) concentric/eccentric knee extension/flexion strength testing and flexibility measures of the hip, knee, and ankle. The E group trained three times per week, performing one to three sets of 10-12 repetitions for each of 12 resistance exercises. The exercises involved muscles of both the lower and upper body. Within the E group, 25 of the 31 subjects (80.6%) completed the study. Of the E subjects completing the study adherence to the three training sessions per week was 90% (range 72%-100%). Training resistances used during workouts increased significantly with the average estimated increase being 82% (P < 0.001). The E group also demonstrated significant (P < 0.05) increases in isokinetic eccentric knee extension (12%) and flexion (10%) strength. No other significant changes were observed between E and NE groups. These results suggest that home-based resistance training programs utilizing elastic tubing can serve as a practical and effective means of eliciting strength gains in adults over the age of 65.
Many pitching injuries occur during deceleration of the upper extremity when the muscles of the shoulder and arm are acting eccentrically. Published information regarding eccentric muscular strength in baseball pitchers is nonexistent. The purpose of this study was to assess bilateral isokinetic eccentric and concentric muscular strength of the shoulder's external and internal rotator muscles and the elbow's flexor and extensor muscles in a group of collegiate baseball pitchers (N = 25). Isokinetic strength was assessed at 1.6, 3.7, and 5.2 rad/sec. Our findings indicate that the internal rotator muscles were always stronger than the external rotator muscles and that the concentric and eccentric external-to-internal strength ratios ranged from 62% to 81%. The eccentric strength of the shoulder rotator muscles averaged 114% that of concentric strength. The concentric and eccentric elbow extension-to-flexion strength ratios ranged from 71% to 110%; eccentric strength averaged 33% higher than concentric strength. No differences were noted between dominant and nondominant limbs for any of the strength measures or ratios. Clinically, the findings of this study can serve as a reference during the evaluation, rehabilitation, and conditioning of throwing athletes.
Although only a minority of physical therapists reported use of some CBT techniques when treating older patients with chronic pain, their interest in incorporating these techniques into practice is substantial. Concerns with their skill level using the techniques, time constraints, and reimbursement constitute barriers to use of the interventions.
This study tested whether a 12-week dynamic resistance strength training program can change gait velocity and improve measures of balance among adults age 65 and older. Fifty-five community-dwelling adults (mean age = 71.1) were randomized into an exercise (n = 25) or control (n = 30) group. The exercisers were requested to complete three bouts of strength training per week for 12 weeks using elastic tubing. At posttest the exercisers demonstrated slower gait velocity, enhanced balance, and an improved ability to walk backward, although none of these posttest measures was significantly different from the control group.
The term frailty is increasingly used in gerontological literature and in practice. However, indicators differentiating frail from nonfrail are not well delineated. Identifying factors discriminating between frail and nonfrail older community-residing adults may lead to more comprehensive clinical assessments and targeted interventions to minimize or prevent frailty. Eighty-four adults, ages 60 to 88 (mean = 74) living independently in the community completed a functional performance questionnaire and a perceived health questionnaire that were combined as measures of frailty. Predictor variables of frailty included four measures of balance and three measures of lower leg strength. Discriminant analysis revealed that one balance score and dorsiflexion correctly classified 65% of group membership, with better prediction of the nonfrail than frail group. This study clarifies that the predictors of frailty include the combination of dorsiflexion strength and balance, specifically the contribution of vision to balance when the support surface is compliant. Recommendations are proposed for conceptualizing and operationalizing frailty and adding variables to enhance discrimination between frailty and nonfrailty. Nursing implications include adding clinical assessments of specific components of balance and ankle strength to develop a more comprehensive evaluation of frailty.
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