Background: Test-retest strength reliability of the Electronic Push/Pull Dynamometer (EPPD) in the measurement of the extensor and flexor muscles on a new constructed chair. The objective of the study was to assess reliability of Electronic Push/Pull Dynamometer in the measurement of the knee flexion and extension at 90° and 60° on a new constructed chair. The aims of the author: To assess reliability of Electronic Push/Pull Dynamometer in the measurement of the knee flexion and extension at 90° and 60° on a new constructed chair. Design: A test-retest reliability study. Subjects: One hundred healthy students male and female (mean age, 21y). Methods: Maximum isometric strength of the quadriceps and hamstring muscle groups was measured using the EPPD were recorded at 60° and 90° for 3 trials on 2 occasions. Reliability was assessed with the Intraclass correlation coefficient (ICC), mean and standard deviation (SD) of measurements, and smallest real differences were calculated for the maximum and for the mean and work of the 3 repetitions. Results: Mean strength ranged from 50.44 kg for knee flexion to 55.76 kg for knee extension 50.44 kg to 61.98 kg at 90° hip flexion. Test-retest reliability Intraclass correlation coefficients (ICCs) ranged from 0.85 to 0.99. ICCs for test-retest reliability ranged from 0.780 to 0.998. Conclusions: The results of the reliability study indicate that the EPPD in reliable dynamometer to use in determining lower limb muscle force production. It can be used to measure disease progression and to evaluate changes in knee extension and flexion strength at the individual patient level.
Muscle strength in different positions of the knee joint is an important factor in evaluating the joint in rehabilitation settings. Most of the published articles used hand-held dynamometer and manual muscle testing to evaluate the muscle strength of the knee joint; quadriceps and hamstrings in particular. The Electronic Push/Pull Dynamometer (EPPD) is a hand-held dynamometer, which has gained popularity in measuring muscle strength in clinical practice because of its simplicity and objectivity [1-5]. Clinically, EPPD is a widely used tool for measuring muscle and has been found to correlate with isokinetic strength scores [
The Department of Biomedical Engineering of Virginia Commonwealth University, Medical College of Virginia Campus (
could be attached in the physiotherapy department at Jordan University of Science and technology, Irbid (
side to the other. The advantage of the new designed is that the patient can seat it with backrest, whereas, in figure 2, the chair was not have back support. The main objective of this study was to examine the reliability of the EPPD on a new designed chair.
Base line of Electronic Push/Pull Digital Dynamometer with 250l b/120 Kg capacity, which can measure muscle strength in kilograms (kg) or in pounds (lb) .This device, has two ends one side is push and another side is pull. It has only 5 buttons that is on/off, zero, max, max clear, l b/kg. On/off button for switching on and off the equipment, zero buttons to ensure that you are starting from zero measurement, max button to memorize the last maximum reading, max clear button to clear the last maximum reading and lb/kg button is to shift either to pounds or kilograms. Machine is battery operated and requires two AAA batteries to work. Two inch wide digital screen shows the strength measurement, battery life and lb or kg according to choice (figure 4). Inch tape, weighing scale, rolled towel padding and a couch are the other required materials. Handles and accessories are interchangeable with the Baseline hydraulic pushpull dynamometer: Large curved pad; Straight pad; 1 cm2 circ padded; Medium hook and Oval snap hook.
One hundred healthy adult male and female physiotherapy students were recruited from the department of physiotherapy in Allied Medical Sciences at Jordan University of Science and Technology. Individual subjects attending reliability session were in between 18 - 35 year of age were included in the study. Participants were excluded with at least one of the following factors: Presence of other active rheumatic disease (e.g. rheumatoid, septic arthritis, gouty arthritis); Medical history of neuromuscular or neurological disease (e.g. stroke, Parkinson’s disease); medically unstable; lower limb joint replacement and Musculoskeletal disease. A sample size of 100 participants was selected. Written informed consent was obtained from club officials and individual participants. Ethical approval was obtained prior to the commencement
of the study from the Human Research Ethics Committee of Jordan University of science and Technology.
Each individual was tested on 2 separate occasions at the same time of the day (e.g. 10 am - 2 pm), 1 week apart. The same examiner performed all measurements. The total time for a test session was approximately 5 minutes.
Maximal isometric strength of the knee extensors (quadriceps muscle) and flexors (hamstring muscle) was measured using the EPPD. This digital strain gauge dynamometer displays the force measurement to the nearest 0.1 kg, up to a maximum of 199.9 kg. Measurements were used at 60˚ and 90˚ of knee flexion. Prior to each episode of measurement, the instrument was calibrated according to the manufacturer’s instructions and specifications.
The individuals were seated in a comfortable position with the backrest angled at 100˚ to the seat without shoes or orthotic device. Before each measurement the full range of motion (ROM) was set and the dynamometer was applied. The dynamometer position was standardized with specific landmarks. The shin pad was placed 2 cm between the above the medial and lateral malleoli. The instrument shaft remained horizontal to the anterior aspect of the mid shaft of tibia and horizontal to the posterior aspect over the musculotendinous junction of calf muscles. Subjects were then asked to maintain the limb in the stipulated position and to hold that position while pushing or pulling against the dynamometer. Subjects were asked to push or pull against the gauge pad as hard as possible when given the appropriate command. All measurements were performed with the limb segment in a position that was with gravity eliminated. Rests between trials were approximately 30 seconds. Each contraction was held for six seconds, and the subject was encouraged to breathe normally to avoid any increase in heart rate or blood pressure. Before measuring each muscle group, the examiner explained to the subject the contraction to be performed. Re-tests of the specific muscle groups were performed 1 week after the initial measurement.
Two variables were extracted for each of the knee direction (flexion, extension) and isometric strength was measured in kilograms. The procedure was performed three times. The highest output was selected and recorded throughout the range of motion of each repetition Wang et al. [
The study was approved by the Human Research Ethics Committee of Jordan University of science and Technology. Confidentially was maintained by restricting access to data, which stored on a password protected computer hard disk. All subject information was coded with each participant being identified by number only and only one supervisor was hold the master list. All materials were stored in a secure archive at Jordan University of science and technology for seven years.
All data analysis was performed with the SPSS, version 17, for Windows statistical program. Descriptive analysis was conducted on the demographic variables. Means were calculated for each muscle group for both knee flexion and extension at 90˚ and 60˚ were used in the data analysis separately. The infraclass correlation coefficients (ICCs) and the 90% confidence intervals (CIs) were determined for the individual scores. To determine the reliability of the knee flexion and extension at 90˚ and 60˚, ICCs were estimated along with 90% confidence intervals.
One hundred healthy physiotherapy students were invited to participate in the reliability study. All subjects who were approached agreed to participate and all of them completed the testing session. The age of participants ranged from 18 to 35 years (mean 21.31, SD. 1.9).