Electromyographic activity of the biceps brachii after exercise-induced muscle damage.Abstract It is well known that strenuous eccentric exercise may result in muscle damage. We proposed that vigorous eccentric exercise (EE) would impair myoelectric The electrical signals within the human body that stimulate the muscles to move. The signal, which is less than one millivolt, has an average frequency of about 100Hz. Myoelectric signals are used to move prosthetic limbs. activity of the biceps brachii biceps bra·chi·i n. A muscle whose long head has origin from the supraglenoidal tuberosity of the scapula and whose short head has origin from the coracoid process, with insertion into the tuberosity of the radius, with nerve supply from the . This study utilised a 7-day prospective time-series design. Ten healthy males performed a session of 70 maximal EE elbow flexion flexion /flex·ion/ (flek´shun) the act of bending or the condition of being bent. flex·ion n. 1. The act of bending a joint or limb in the body by the action of flexors. 2. contractions. Analysis of surface electromyography electromyography Process of graphically recording the electrical activity of muscle, which normally generates an electric current only when contracting or when its nerve is stimulated. activity (sEMG) was performed on the signals recorded during isometric isometric /iso·met·ric/ (-met´rik) maintaining, or pertaining to, the same measure of length; of equal dimensions. i·so·met·ric adj. 1. contractions at 50% (IC50) and 80% (IC80) of maximum voluntary isometric torque (MVT MVT Movement MVT Mean Value Theorem MVT Mississippi Valley-Type (ore deposits) MVT Military Vehicle Trust MVT Most Valuable Team MVT Multi-Variable Testing MVT Mount Vernon Terminal (railroad destination) ), deriving RMS (1) (Record Management Services) A file management system used in VAXs. (2) (Root Mean Square) A method used to measure electrical output in volts and watts. 1. RMS - Record Management Services. 2. and MDF (1) (Main Distribution Frame) A wiring rack that connects outside lines with internal lines. It is used to connect public or private lines coming into the building to internal networks. as sEMG parameters. Linear regression Linear regression A statistical technique for fitting a straight line to a set of data points. of the RMS and MDF time-series (20-s sustained IC50 and IC80) was used to extract intercepts and slopes of these signals on each day. Plasma creatine kinase creatine kinase /cre·a·tine ki·nase/ (ki´nas) an enzyme that catalyzes the phosphorylation of creatine by ATP to form phosphocreatine. activity (CK), MVT, arm circumference, subjective perception of soreness and elbow joint elbow joint n. A compound hinge joint between the humerus and the bones of the forearm. Also called cubital joint. range of motion were also measured to assess effectiveness of EE to evoke muscle damage. CK increased over resting values until day 5 after EE, and remained significantly (p < 0.05) elevated even on day 7. MVT had decreased to 45% of its initial value by day 2 after EE, and remained significantly depressed for the following 6 days. In addition, muscle soreness and arm circumference increased, and range of motion decreased after EE. A significant shift of MDF intercept towards lower frequencies at both IC50 and IC80 was observed after EE in the exercised arm, and these values gradually recovered within the next 3 days during IC50. Although there were some changes in RMS values, these alterations were persistent in both control and exercised arms, and did not follow a consistent pattern. In conclusion, a prolonged reduction in MDF intercept was observed after EE, but this was not closely time-associated with the biochemical, anthropometric an·thro·pom·e·try n. The study of human body measurement for use in anthropological classification and comparison. an or functional markers of muscle damage. Compared to RMS, MDF was a more consistent measure to reflect changes in sEMG. Key words: Eccentric exercise, creatine kinase, surface electromyography, median frequency, root mean square. Introduction Eccentric exercise (EE) generates greater tension per active muscle fibre than concentric or isometric contractions, resulting in mechanical disruption of the muscle fibre (Clarkson and Sayers, 1999; Lieber and Friden, 2002). Delayed onset muscle soreness Delayed Onset Muscle Soreness (DOMS) is the pain or discomfort often felt 24 to 72 hours after exercising and subsides generally within 2 to 3 days. Once thought to be caused by lactic acid buildup, a more recent theory is that it is caused by tiny tears in the muscle fibers caused and impaired muscle function are the common consequences of excessive EE. Impaired glycogen glycogen (glī`kəjən), starchlike polysaccharide (see carbohydrate) that is found in the liver and muscles of humans and the higher animals and in the cells of the lower animals. resynthesis (O'Reilly et al., 1987), myofibrillar damage along the Z-band (Clarkson and Hubal, 2002), mitochondrial mitochondrial pertaining to mitochondria. mitochondrial RNAs a unique set of tRNAs, mRNAs, rRNAs, transcribed from mitochondrial DNA by a mitochondrial-specific RNA polymerase, that account for about 4% of the total cell RNA that swelling and increased intramuscular intramuscular /in·tra·mus·cu·lar/ (-mus´ku-ler) within the muscular substance. in·tra·mus·cu·lar adj. Abbr. IM Within a muscle. pressures (Friden et al., 1983) are some of morphologic and metabolic signs of muscle alteration post-EE that are associated with muscle damage. Exercise-induced muscle damage has been evaluated both directly (Miura et al., 2000; Stauber et al., 1990) and indirectly (Chen, 2003; Sayers et al., 2001). However, due to the invasive nature of direct studies, such as muscle biopsy In medicine, a muscle biopsy is a procedure in which a piece of muscle tissue is removed from an organism and examined microscopically. A biopsy needle is usually inserted into a muscle, wherein a small amount of tissue remains. , indirect methods of evaluating muscle damage have been preferred, and these have generally been utilized in human studies. Some examples of indirect methods have included measuring changes in plasma creatine kinase (CK) activity, perceived muscle soreness (SOR), maximum voluntary torque (MVT), inflammatory markers (in plasma and muscles), neuromuscular neuromuscular /neu·ro·mus·cu·lar/ (-mus´ku-ler) pertaining to nerves and muscles, or to the relationship between them. neu·ro·mus·cu·lar adj. 1. function (measured by electromyography, EMG EMG abbr. electromyogram Electromyography (EMG) A diagnostic test that records the electrical activity of muscles. ), MRI 1. (application) MRI - Magnetic Resonance Imaging. 2. MRI - Measurement Requirements and Interface. signal intensity, and muscle oxygenation oxygenation /ox·y·gen·a·tion/ (ok?si-je-na´shun) 1. the act or process of adding oxygen. 2. the result of having oxygen added. and blood flow (measured by ultrasound, plethysmography plethysmography /ple·thys·mog·ra·phy/ (ple?thiz-mog´rah-fe) the determination of changes in volume by means of a plethysmograph. plethysmography the determination of changes in volume by means of a plethysmograph. and near infrared spectroscopy This article is about spectroscopy. For the nonprofit nuclear energy watchdog, see Nuclear Information and Resource Service. Near infrared spectroscopy ) (For a review see Clarkson and Hubal 2002). However, the accuracy and reproducibility of some of these muscle damage assessment techniques are somewhat uncertain, and further improvements and investigations on the application of these techniques are warranted. Surface electromyography (EMG) is a technique for evaluating and recording physiologic properties of muscles at rest and during exercise. Electromyograms monitor and record neuromuscular action potentials as myoelectric signals. Two fundamental types of variables can represent EMG: frequency and amplitude. The underlying physiological processes associated with the excitation of motor units dictate the constituent frequencies that produce the generated myoelectric signal. Therefore, the frequency content of the recorded signal can be related to the numbers of units active as well as their constituent firing rates (Kamen and Caldwell, 1996). One popular measure of EMG frequency content is median frequency (MDF), the point at which the spectral power is divided into equal low- and high-frequency halves. MDF is a recommended variable for the study of muscle fatigue and damage (Felici et al., 1997; Merletti et al., 1995). On the other hand, EMG amplitude, which is usually presented as root mean square (RMS) of the signals, can also provide information about number and location of active motor units, recruitment of motor units and shape of motor unit action potentials (Felici et al., 1997). The analysis of EMG has been used to detect changes in the contractile contractile /con·trac·tile/ (kon-trak´til) able to contract in response to a suitable stimulus. con·trac·tile adj. Capable of contracting or causing contraction, as a tissue. properties of a muscle both during and after EE (Berry et al., 1990; Felici et al., 1997; McHugh et al., 2000). However, there are disagreements amongst different researchers who have studied the effects of EE on EMG signals. For instance, Komi and Viitasalo (1977) and Berry and colleagues (1990) observed some increases in EMG activity after EE, while Day et al. (1998) did not find any significant change in this parameter. Similarly, Day and co-workers (1998) and Felici et al. (1997) observed significant decreases in mean and median frequency, while Berry and colleagues (1990) did not observe any consistent change in EMG frequency after EE. The reason for such divergence of findings is unknown, although they could be partially attributed to methodological differences in inducing muscle damage (and therefore the magnitude of morphological disruption) or to different methods of analysing data amongst previous studies. However, this issue needs to be further investigated to determine; (i) whether EE results in any changes of neuromuscular activity within exercised muscle? (ii) if there are any changes, what might be the possible mechanisms underlying these? and, (iii) can EMG be used as a tool to assess exercise induced-muscle damage? Therefore, in this study, the effects of EE on some of the physiological characteristics of the muscle assessed via surface electromyography were investigated. We hypothetized that MDF and RMS will shift to lower and higher values, respectively. These changes in MDF and RMS could be primarily due to the possible impairments in the function of fast-twitch fibres resulting from unaccustomed eccentric contractions. Methods Subjects Ten healthy males (age 25.4 [+ or -] 4.3 yr, body mass 73.1 [+ or -] 9.8 kg, stature 1.73 [+ or -] 0.07 m; mean [+ or -] SD), who had not participated in any regular upper body muscular exercise training (i.e. at least 2-times per week for more than 30-mins) for 12-months prior to commencing the study, took part in the experiment. The Human Research Ethics Research ethics involves the application of fundamental ethical principles to a variety of topics involving scientific research. These include the design and implementation of research involving human participants (human experimentation); animal experimentation; various aspects of Committee of the University of Sydney The University of Sydney, established in Sydney in 1850, is the oldest university in Australia. It is a member of Australia's "Group of Eight" Australian universities that are highly ranked in terms of their research performance. approved this study. All subjects were informed of the purpose, nature, and potential risks of the investigation, and gave their written informed consent to participate. Subjects were in healthy physical condition with no signs or symptoms of neuromuscular disease Neuromuscular disease is a very broad term that encompasses many diseases and ailments that either directly (via intrinsic muscle pathology) or indirectly (animal muscle in general. Neuromuscular diseases are those that affect the muscles and/or their nervous control. . They were not under pharmacological treatments and followed a normal diet. All participants were requested to abstain from abstain from verb refrain from, avoid, decline, give up, stop, refuse, cease, do without, shun, renounce, eschew, leave off, keep from, forgo, withhold from, forbear, desist from, deny yourself, kick ( any exercise involving arm muscles for the duration of the study. Study design The exercise protocol used in this investigation was modified from previous studies that had been designed to induce muscle damage (Clarkson et al., 1992; Felici et al., 1997; Sbriccoli et al., 2001). Subjects were habituated to the equipment and performed some isometric contractions similar to those that they would perform during testing days. Testing sessions were performed over a 7-day period. Each subject's biceps brachii of the non-dominant arm performed EE (Exercise), whereas the biceps brachii of the dominant arm was employed as non-exercise limb (Control). Eccentric exercise protocol On the first day, subjects performed two sets of 35 maximal voluntary EE contractions (5-s of contraction and 12-s of passive recovery) with the elbow of their non-dominant arm placed in an isokinetic isokinetic /iso·ki·net·ic/ (-ki-net´ik) maintaining constant torque or tension as muscles shorten or lengthen; see isokinetic exercise, under exercise. strength machine. Subjects were requested and encouraged both verbally and visually (force output on a computer monitor), to maximally resist elbow extension movements in which the arm was forcibly forc·i·ble adj. 1. Effected against resistance through the use of force: The police used forcible restraint in order to subdue the assailant. 2. Characterized by force; powerful. extended from an elbow-flexed (on average 50[degrees]) to an elbow-extended (on average 170[degrees]) position at a preset angular velocity of 45 deg * [s.sup.-1]. The apparatus brought subjects' arm back to the elbow-flexed position after each eccentric contraction. The two EE sets were separated by a 5-min recovery interval. Resting assessments Before and 30-min after the EE session on day 1 and for the next 6-days, the following measurements were made on Exercise and Control arms. It should be noted that Creatine Kinase (CK) activity was not assessed in all sessions for methodological reasons of minimising repeated phlebotomy Phlebotomy Definition Phlebotomy is the act of drawing or removing blood from the circulatory system through a cut (incision) or puncture in order to obtain a sample for analysis and diagnosis. , however the order of performing the measurements was the same within each session. Plasma CK activity (CK): CK was measured on day 1 before and after EE, and on days 3, 5, and 7 at the beginning of each isometric exercise isometric exercise n. Exercise performed by the exertion of effort against a resistance that strengthens and tones the muscle without changing the length of the muscle fibers. session. At each sampling time, about 5-ml of venous blood venous blood n. Abbr. v Blood that has passed through the capillaries of various tissues other than the lungs, is found in the veins, in the right chambers of the heart, and in pulmonary arteries, and is usually dark red as a result of a was withdrawn from the antecubital vein, centrifuged for 10-min to extract plasma samples, and analysed for CK activity within 24-hr. Plasma CK activity was assayed spectrophotometrically at 37[degrees]C using CK-NAC reagent kits (Thermo electron Thermo Electron Corporation (TMO (NYSE)) (incorporated 1956) is a major provider of analytical instruments and services for a variety of domains. Thermo has revenues of over $2 billion, and employs 11,000 people in 30 countries. CORP., USA). Each plasma sample was assayed at least twice, until two assays were within 10% of the lower value and the mean of the two values was used for statistical analyses. Elbow range of motion (ROM): Subjects were instructed to stand beside a whiteboard in a relaxed position with their investigated arm relaxed (extended position). At this time, an experienced investigator marked the locations of shoulder (Acromion acromion /acro·mi·on/ (ah-kro´me-on) the lateral extension of the spine of the scapula, forming the highest point of the shoulder. a·cro·mi·on n. ), elbows (Olecranon) and wrist (Styloid styloid /sty·loid/ (sti´loid) resembling a pillar; long and pointed; relating to the styloid process. sty·loid n. process) on the whiteboard, and measured the resultant angles using a goniometer goniometer /go·ni·om·e·ter/ (go?ne-om´e-ter) 1. an instrument for measuring angles. 2. a plank that can be tilted at one end to any height, used in testing for labyrinthine disease. . The subject then flexed his forearm while the elbow and shoulder joints were kept constant with the assistance of another investigator. The new position of wrist was marked again on the whiteboard (flexed position) and the angle was measured. The difference between extended and flexed positions was taken into account as ROM. This was repeated 3-times and the average of the 3 ROM was used for statistical analyses. Arm circumference (CIR (Committed Information Rate) In a frame relay network, the average transmission rate in bits per second (typically Kbps) for a virtual circuit. It defines the maximum rate that the network can handle under normal conditions. ): CIR was measured at 4, 6, 8, and 10-cm above the elbow joint, while allowing the arm to hang down by the side. The average of the three trials for ROM and CIR was used for statistical analyses. Perception of muscle soreness (SOR): A subjective rating of SOR was performed during each session using a 7-point categorical scale, where 1 corresponded to "no pain" and 7 to "very, very painful". While standing, the subjects were instructed to palpate pal·pate v. To examine by feeling and pressing with the palms of the hands and the fingers. pal·pa  tion n. their upper arm during full range of motion biceps curls and then choose
the number that corresponded to their perceived level of soreness
(Sayers et al. 2000).
Exercising assessments After subject placement, equipment set up and resting measurements (described above) were effected, the following exercise assessments were performed. [FIGURE 1 OMITTED] Isometric maximal voluntary contraction torque (MVT) was assessed on the Exercise and Control limbs with the subject's elbow joint set to 90[degrees] and shoulder flexed at 45[degrees] using an isokinetic strength-assessment apparatus (Biodex System 2, Biodex, USA). Three 5-s repetitions were performed with 2-min of recovery between each maximal effort. The highest value was taken to represent the 100% MVT, and was employed for statistical analyses. After a further 5-min of recovery, isometric elbow flexions were performed on the Exercise and Control limbs at 50% of MVT (IC50). The highest MVT from the first day before EE was used to set IC50 for all subsequent sessions. The rationale for the IC50 test was to set a constant muscle contraction Noun 1. muscle contraction - (physiology) a shortening or tensing of a part or organ (especially of a muscle or muscle fiber) contraction, muscular contraction shortening - act of decreasing in length; "the dress needs shortening" force for all days before and after the EE stimulus. The 50% level was chosen after pilot testing to achieve a force that all subjects would be able to achieve after EE. During each session, subjects performed two isometric contractions at IC50, each lasting 20-s with 3-min of recovery between efforts. Isometric elbow flexions were also assessed on the Exercise and Control arms at 80% of the MVT recorded for that particular session (IC80). The torque values for IC80, therefore, varied amongst days, depending on the MVT achieved for that day. Our rationale for the IC80 test was to assess EMG at a consistent level of effort before and after eccentric exercise-evoking muscle damage. Two contractions were performed at IC80 of equal duration and recovery intervals as for IC50. Participants could observe their effort to reach and maintain the average exercise intensity requested by the investigator (50%, 80%, or 100% of MVT). IC50 and IC80 assessments were performed every day. On the first day only, an average of 10-min after the last IC80, subjects performed EE contractions (as described in 'EE protocol'). Then, subjects were rested in a comfortable position for 30-min and the pre-EE assessments repeated. The experimental protocol measured one arm at a time and subjects were unaware which was going to be assessed first. However, on day one after the pre-EE assessments on Control and Exercise limbs, subjects performed eccentric contractions with their Exercise arm, then after 30-min passive rest, their Exercise and Control arms were assessed, respectively (post-EE assessments). The experimental sessions were set at the same period every day (in the mornings) for each subject, and room temperature was set between 23[degrees]C to 25[degrees]C for all subjects. Electromyography EMG signals were recorded from the biceps brachii muscle
In human anatomy, the biceps brachii is a muscle located on the upper arm. The biceps has several functions, the most important simply being to flex the elbow and to rotate the forearm. . The skin was prepared by shaving, abrading, and cleaning the recording area with alcohol. Bipolar electrodes (9-mm, square shape, Tyco Health Care, H49P Cloth Solid Gel ELEC (Enterprise LEC) An organization that is large enough (about 2500 or more employees) to file for CLEC status and become its own customer. As a CLEC, it can purchase telephone service at wholesale rates that it can sell to itself and to others to further reduce costs. C450) were fastened over the belly of the biceps brachii muscle, parallel to fibres, with a centre to centre distance of 35-mm. A passive reference electrode Reference electrode is an electrode which has a stable and well-known electrode potential. The high stability of the electrode potential is usually reached by employing a redox system with constant (buffered or saturated) concentrations of each participants of the redox reaction. was placed on the dorsal surface of the wrist. Electrolyte electrolyte (ĭlĕk`trəlīt'), electrical conductor in which current is carried by ions rather than by free electrons (as in a metal). gel was used to improve signal conduction conduction, transfer of heat or electricity through a substance, resulting from a difference in temperature between different parts of the substance, in the case of heat, or from a difference in electric potential, in the case of electricity. between the skin and the electrodes. The electrode positions were selected and marked with a semi-permanent marker to assure standardized measurements from day to day. Electrode placement was preceded by abrasion of the skin to reduce the source impedance to <5 k [OMEGA] EMG was recorded using a Medelec Amplifier (MS6, input impedance The input impedance, load impedance, or external impedance of a circuit or electronic device is the Thévenin equivalent impedance looking into its input. In audio systems of 500-M.// 30-pf, common mode rejection ratio of greater than 10,000:1 at 50-Hz). The raw signal was filtered (10-Hz to 1-kHz), monitored on a digital oscilloscope oscilloscope (əsĭl`əskōp'), electronic device used to produce visual displays corresponding to electrical signals. Displays of such nonelectrical phenomena as the variations of a sound's intensity can be made if the phenomena are and digitized at 1000 Hz using a 12-bit analogue-to-digital (A/D A/D See advance-decline line (A/D). ) converter on a computer. Gain was adjusted to maximize resolution. During each 20-s isometric contraction, the participants were asked to reach the required percentage of MVT in less than 2-s and maintain it for 18-s using real-time feedback displayed on a computer monitor. RMS and MDF are the two EMG-derived variables that have been used frequently in previous EMG studies (Felici et al. 1997; Linnamo et al. 2000; Hermann and Barnes 2001; Mchugh et al. 2001). Using purpose-built software (Bioproc2, Robinson G., University of Ottawa [FIGURE 2 OMITTED] Statistical analysis For the EMG data, linear regression analyses of the time course of RMS and MDF (RMS and MDF against 1-s time epochs) were performed on the collected data (Merletti et al. 1990; Felici et al. 1997). To omit on- and off-transient phenomena associated with muscular exertion exertion, n vigorous action, a great effort, a strong influence. , the first and last 2-s of every contraction were discarded; therefore for each trial, there were 16-s of isometric effort (Figure 1). The axis intercepts ([[beta]0) and slopes ([beta]1) of regression lines for RMS and MDF were used for statistical analyses. Prior to statistical analyses of RMS and MDF intercepts and slopes, a Chi-Square established that these were significantly different from cipher cipher: see cryptography. (1) The core algorithm used to encrypt data. A cipher transforms regular data (plaintext) into a coded set of data (ciphertext) that is not reversible without a key. . Axis intercepts were employed as an index of muscle activation, while slopes represented the rate of fatigue in exercising muscles. The axis intercepts were assumed to be the indicative initial state of muscle activation, but because the first 2-s of each contraction had been discarded, this might slightly underestimate the "true" intercept (Merletti et al., 1990). A t-test was performed to test the null hypothesis null hypothesis, n theoretical assumption that a given therapy will have results not statistically different from another treatment. null hypothesis, n of similarity of linear regression coefficients ([beta]0, [beta]1) for the 2 trials of IC50 and IC80 within each session. Figure 1 shows an example of such a test for two trials on the same arm. As there were no significant differences between trials, data from both trials were combined for subsequent analyses. A two-way analysis of variance (ANOVA anova see analysis of variance. ANOVA Analysis of variance, see there ) with repeated measures was used to test the main effect of arm (Control, Exercise) by time (day one to day seven) for all variables except for CK activity. When a significant arm-by-time interaction effect was observed, univariate ANOVA was performed for each arm. For CK, since blood was drawn only from one arm, a separate univariate ANOVA was performed without the arm main effect. We used SPSS A statistical package from SPSS, Inc., Chicago (www.spss.com) that runs on PCs, most mainframes and minis and is used extensively in marketing research. It provides over 50 statistical processes, including regression analysis, correlation and analysis of variance. (version 14) for the statistical analyses and statistical significance for a meaningful change was set at the 95% confidence level (p < 0.05). Values reported as mean [+ or -] the standard error of means (SE). Results Significant arm-by-day interaction effects were observed for MVT, ROM, CIR (at 6, 8 and 10 cm above elbow), and SOR (active, passive, flexed and extended). Therefore, further statistical analyses were performed on each arm separately, and these revealed that in the Exercised arm, there was a significant decrease in MVT immediately after EE (Figure 2), that remained lower than initial values for the following 5 days. ROM also decreased after EE and gradually returned towards initial levels over the following 5 days (Table 1). CIR significantly increased at all four measurement locations on the day two, and over the following 6 days (Table 1). Similarly, SOR increased after EE, and remained higher than pre-EE over the next 5 days (Table 1). CK also increased significantly after EE, and it remained higher than the initial values for the following days (Figure 3). During IC50, MDF intercept decreased significantly after acute EE, and was significantly lower than pre-EE values on day 3, but gradually returned towards the initial values over the next 2 days (Figure 4). No significant arm-by-day interaction effects were observed for MDF slope (Table 1), RMS intercept (Figure 5) and RMS slope (Table 1) during IC50. There were significant arm-by-day interaction effect for MDF and RMS intercepts at IC80. Subsequently, a univariate ANOVA showed a significant decrease in MDF intercept after acute EE within the Exercised arm, which recovered afterwards (Figure 4). Although there was a significant arm-by-day interaction for RMS slope, the pattern of change was not consistent for either arm (Figure 5). No significant changes were observed for MDF and RMS slopes at IC80 (Table 1). Discussion The purpose of this study was to investigate the possible physiological changes within muscle assessed via surface electromyography after a session of heavy EE. The unique finding of this investigation was that EE-induced muscle damage revealed some significant alterations in surface EMG for up to seven days after exercise. Prolonged and significant decreases in MVT and ROM, and increases in CIR, SOR and CK were consistent with exercise-induced muscle damage. However, it is worthy to note that our perception of muscle damage was based on indirect measures such as CK, MVT, or physical signs, which are not categorical methods of determining muscle damage (e.g. muscle needle biopsy needle biopsy n. Removal of a specimen for biopsy by aspirating it through a needle or trocar that pierces the skin or the external surface of an organ and continues into the underlying tissue to be examined. Also called aspiration biopsy. ). Therefore, we have employed the term "muscle damage" with some caution. [FIGURE 3 OMITTED] EMG activity after EE In the present study, to track EMG parameters obtained day-to-day over seven days after EE, subjects were asked to perform isometric contractions at 50% of their MVT measured on the very first session (e.g. day 1 before-EE). That is, subjects were required to apply the same absolute amount of force to perform IC50 on every day of the 7day trial. However, to elicit a higher level of muscle fibre recruitment, subjects also performed isometric contractions at 80% of their MVT obtained on each particular day. Therefore, the amounts of force to perform IC80 were different between sessions depending on subjects' MVT during that session. We selected this approach to document possible changes of RMS and MDF at a constant level of force, as well as at a consistent level of effort. In this study, we did not normalize normalize to convert a set of data by, for example, converting them to logarithms or reciprocals so that their previous non-normal distribution is converted to a normal one. our EMG data based on daily EMG measures, because to do so would eliminate any changes that occurred between days. It is interesting to note that the 50% and 80% of MVT on days 2 and 3 often evoked similar isometric forces, because the subjects' maximum force declined significantly on those days. With the above approach in mind, when we aimed to compare the day-to-day changes in EMG, IC50 might be relevant to describing muscle physiological responses at the same absolute levels of torque production. But, when wishing to study responses of a constant level of effort, IC80 might provide the best way to document muscle physiological adaptations during post-EE recovery. [FIGURE 4 OMITTED] Although our findings showed significant arm-by-day interaction in RMS regression intercepts during IC80 (Figure 5), the overall changes did not follow a consistent trend or pattern. Similarly, we did not observe a consistent pattern of changes in RMS intercept and slope at IC50 or in RMS slope at IC80 (Table 1). Therefore, it seemed that RMS did not provide reliable information about muscle recovery after damage. RMS is more susceptible to the day-to-day changes compared to MDF (Felici et al., 1997; Merletti et al., 1995). These results supported the findings of other authors who either did not find any significant changes in RMS after EE (Sayers et al., 2001), or their RMS data was not statistically linear, and they did not perform further statistical analyses on RMS (Felici et al., 1997). MDF linear regression intercept decreased significantly after acute EE during both IC50 and IC80 within the Exercised arm and was also less than pre-EE on day 3 during IC50 (Figure 4). Although MDF had recovered by day 2 during IC80, there was a general trend of decrements over the next 5 days for this variable. This was also the case for MDF intercept at IC50 (Figure 4). These findings were in accord with the findings of some studies (Day et al. 1998; Felici et al. 1997), but not in line with the results of others (Berry et al., 1990; Komi and Viitasalo, 1977; McHugh et al., 2000). McHugh and co-workers (2000) reported that median frequency did not change after EE. Berry et al. (1990) did not observe any significant change in mean frequency after EE. [FIGURE 5 OMITTED] The possible reason for a decline in MDF after EE might be explained on a physiological basis. MDF represents information about conduction velocity of muscle fibres, the shape of motor unit action potentials, the mean firing rate of the individual motor units, the recruitment of motor units and the extent of superposition su·per·po·si·tion n. 1. The act of superposing or the state of being superposed: "Yet another technique in the forensic specialist's repertoire is photo superposition" of action potentials from concurrently active motor units (Felici et al., 1997). Muscle fibre conduction velocity is higher for fast-twitch fibres (Andearssen and Arendt-Nielsen, 1987), which means that when fast twitch twitch (twich) a brief, contractile response of a skeletal muscle elicited by a single maximal volley of impulses in the neurons supplying it. twitch v. 1. fibres are more active the MDF value will be higher. Friden et al. (1983) found that fast twitch fibres showed significant disruption at the myofibrillar Z-band after EE compared to the other types of muscle fibres (Friden et al., 1983). Therefore, fast twitch fibres are more susceptible to damage and fatigue (Berry et al., 1990), and consequently a shift towards greater recruitment of slow twitch motor units might be anticipated in order to decrease the stress on the susceptible fast-twitch fibres (McHugh et al., 2001). Therefore, a decrease in MDF could be the result of a preferential reduction in the recruitment of fast-twitch fibres. On the other hand, the changes in intra muscular pressure, as well as the changes in water content and blood volume of the muscle could have affected the EMG findings. Blood flow can affect characteristics of surface-recorded signals by imposing a low-pass filter A filter that blocks high frequencies and allows lower frequencies to pass through. Such filters are used in devices such as POTS splitters that direct phone and DSL signals to different lines. Contrast with high-pass filter. medium. This tissue filtering can decrease the frequency content of the signal (Kamen and Caldwell, 1996). Additionally, an increase in blood flow generally increases local temperature, which can change spectral features of the EMG signals (Holewijn and Heus, 1992). Some of the reasons for the dissimilar outcomes of our study compared to previous investigations might include dissimilar methodologies and different muscle groups that were employed to study the EE-induce muscle damage. In addition, different methods have been used to quantify EMG activity. For example, McHugh et al. (2000) obtained their MDF data from an MVT test, while MDF in the current study was derived from isometric contractions at pre-set percentages of subjects' MVT. In voluntary exercise, e.g. where a MVT is performed, there is always some variation in the instantaneous force due to motivation and other factors. This may consequently increase the variance in EMG data and mask the effect of EE on EMG signal. Therefore, some changes in the EMG parameters during maximal contractions could be attributed to factors such as motivation (Linnamo et al., 2000). By obtaining the EMG data from IC50, which was a constant level of force based on the MVT of day 1, we minimized the effect of subject's motivation on EMG acquisition. The EMG power spectrum has been shown to be reliable for measurements during isometric contractions with a given intensity, repeated over separate days (Linnamo et al., 2000). Additionally, the magnitude of muscle damage might have been relatively less in McHugh et al. (2000) compared to our study. Although they did not assess CK, the percentage of decrease in muscle strength after EE in the McHugh and colleagues' (2000) study (10%) was less than ours (45%). A lower reduction in MVT (and probably a less magnitude of muscle damage) could be due to the lower level (60% of MVT) of EE intensity that they employed to induce muscle damage, compared to our study (on average 100% MVT). Further more, McHugh and colleagues (2000) assessed the myoelectric activity of hamstrings. Their subjects, therefore, sat on the EMG electrodes during the tests. Sitting on the electrodes during hamstring contractions might have changed the orientation of the electrodes to the motor point of the respective muscles (McHugh, 2000) One of the methodological differences that could be observed between our study and that of Berry and co-workers (1990), is that their group employed mean frequency, resulting from 10 subsequent samples. Averaging the mean frequency values possibly smoothed their results. Besides, Berry et al. (1990) performed their EMG assessments while their subjects lifting their own legs off the ground. Although, the same assessments were performed before and after EE, it is not clear that this leglifting was equivalent to any known percentage of MVT. However, one can assume that the leg--lifting exercise would require a force level of much lower than 50% of MVT. The myoelectrical behaviour of muscles could be different during low vs. high intensity contractions (Felici, 1997). In other words Adv. 1. in other words - otherwise stated; "in other words, we are broke" put differently , the higher force produced during EMG acquisition in our study compared to that of Berry et al. (1990), probably better revealed any physiological changes within the muscle. In this study, we observed that MDF decreased over time during sustained isometric contractions (Figure 1). These decrements, which were shown as MDF slopes, were present in both Control and Exercised arms and at both intensities (IC50 and IC80). However, there were not any significant day-to-day changes amongst the slopes obtained from different arms and different intensities (Table 1). This suggests that in a sustained situation such as a 20-s isometric contraction, the rate of decrease in MDF, which could be also assumed as a rate of fatigue, was independent of EE-induced muscle damage. A possible mechanism for the decrease in MDF during prolonged contractions is the external accumulation of potassium ions (Mills and Edwards, 1984). An outward leakage of potassium resulting in an ionic imbalance around sarcolemma sarcolemma /sar·co·lem·ma/ (sahr?ko-lem´ah) the membrane covering a striated muscle fiber.sarcolem´micsarcolem´mous sar·co·lem·ma n. A thin membrane enclosing a striated muscle fiber. might slow the action potential and consequently decrease MDF (Day et al., 1998). Kroon kroon n. pl. kroon·i See Table at currency. [Estonian, from German Krone, from Middle High German kr and Naije (1991) observed a significant increase in the slope of mean power frequency immediately after EE, which recovered gradually within the consequent few days. Although our results followed a similar pattern to those of Kroon and Naije (1991), the changes in regression slope coefficient observed in our study were not statistically significant (Table 1). The reasons for this disparity of findings are not clear. Kroon and Naije (1991) recruited five subjects, which is a relatively small group compared to our cohort (n = 10). This might have induced larger inter-subject variations in EMG parameters. They did not delete any of the EMG data obtained during isometric contractions, while we deleted the first and the last 2-s to skip the transition phenomenon that could affect the EMG outcomes. Finally, their subjects performed different numbers of eccentric contractions at 40% of their MVT before they become exhausted, while in our study, the subjects performed a constant number of contractions (2 sets of 35) at 100% MVT (on average). A lower EE intensity could, therefore, result in a lesser magnitude of muscle damage, and this might have affected the fibre recruitment and consequently the EMG signals after EE. Although, our findings showed significant arm-by-day interactions for RMS regression intercepts during IC80 (Figure 5), the overall changes did not follow a consistent trend or pattern. Similarly, we did not observe a consistent pattern of changes in RMS intercept and slope at IC50, as well as RMS slope at IC80. Therefore, it seems that RMS does not provide reliable information about muscle recovery after muscle damage. These results supported the findings of other authors who either did not find any significant changes in RMS after EE (Sayers et al., 2001), or their RMS data was not statistically linear, and they did not perform further statistical analyses on RMS (Felici et al., 1997). However, our findings were not in line with the increased RMS observed by Berry et al. (1990) and Kroon and Naije (1991) after EE. The added variance introduced by electrode repositioning repositioning Laparoscopic surgery The changing of a Pt's position during a procedure to improve access or visualization of the operative field, which may be linked to complications, as it changes anatomic planes of operation. Cf Laparoscopic surgery. influences amplitude more than frequency parameters such as MDF (Merletti et al. 1995; Felici et al. 1997). This could result in observing different findings among different studies. Study limitation Because of its anatomical position anatomical position n. The erect position of the body with the face directed forward, the arms at the side, and the palms of the hands facing forward, used as a reference in describing the relation of body parts to one another. , we monitored biceps brachii as the only elbow flexor flexor /flex·or/ (flek´ser) 1. causing flexion. 2. a muscle that flexes a joint. flexor retina´culum see entries under retinaculum. in this study. There are some other elbow flexors that take part in elbow flexion. For example, as compared to biceps brachii, the brachialis muscle The brachialis (brachialis anticus) is a muscle in the upper arm that flexes the elbow joint. It lies just deep to biceps brachii, and is a more powerful flexor of the elbow. It makes up part of the floor of the region known as the cubital fossa. has a larger cross sectional area and is the prime elbow flexor. Therefore, it is possible that the functional responsibilities of the elbow flexors have altered during isometric contractions performed in this study, and this might have a confounding confounding when the effects of two, or more, processes on results cannot be separated, the results are said to be confounded, a cause of bias in disease studies. confounding factor effect on our findings. Conclusion We found a significant decrease in MDF during 50% and 80% of subject's MVT after a session of EE that did not fully recover to pre-exercise values up to 3 days after EE. This decrease could be related to a reduction in the recruitment of fast twitch fibres due to damage to these fibres. We also observed that compared to RMS, MDF was a more consistent parameter to reflect the changes in EMG during recovery from muscle damage. Key points * EMG can be a useful tool to detect exercise-induced muscle damage, * MDF decreased after eccentric exercise, * This decrease could be related to a reduction in the recruitment of fast twitch fibres, and * Compared to RMS, MDF was a more consistent parameter to reflect the changes in EMG after eccentric exercise. Acknowledgements Authors are grateful to Mr. Ray Patton, Dr. Pat Ruell and Dr. Che Fornusek for their technical support. Mr.Sirous Ahmadi is sponsored by the Iranian Ministry of Science, Research and Technology. Partial research funding Research funding is a term generally covering any funding for scientific research, in the areas of both "hard" science and technology and social science. The term often connotes funding obtained through a competitive process, in which potential research projects are evaluated and was provided by a New South Wales New South Wales, state (1991 pop. 5,164,549), 309,443 sq mi (801,457 sq km), SE Australia. It is bounded on the E by the Pacific Ocean. Sydney is the capital. The other principal urban centers are Newcastle, Wagga Wagga, Lismore, Wollongong, and Broken Hill. Office of Science and Medical Research Program Grant. References Andearssen, S. and Arendt-Nielsen, L. (1987) Muscle fibre conduction velocity in motor units of the human anterior tibial tibial pertaining to the tibia. tibial crest a longitudinal prominence on the cranial border of the proximal tibia. Its proximal end (tibial tubercle) has a growth plate separate from the proximal tibia; hyperflexion injuries to muscle: a new size principle parameter. Journal of Physiology 391, 561-571. Berry, C., Moritani, T. and Tolson, H. (1990) Electrical activity and soreness in muscle after exercise. American Journal of Physiology, Medicine and Rehabilitation rehabilitation: see physical therapy. 69, 60-66. Chen, T.C. (2003) Effects of a second bout of maximal eccentric exercise on muscle damage and electromyographic activity. European Journal European Journal is a weekly Deutsche Welle (DW) news program produced in English. It is broadcast from Brussels, Belgium and primarily covers political and economic developments across the European Union and the rest of Europe, as well as issues of particular concern to of Applied Physiology 89(2), 115-121. Clarkson, P. and Hubal, M. (2002) Exercise-induced muscle damage in humans. American Journal of Physiology, Medicine and Rehabilitation 81(Suppl. 11), S52-69. Clarkson, P., Nosaka, K. and Braun, B. (1992) Muscle function after exercise-induced muscle damage and rapid adaptation. Medicine & Science in Sports & Exercise 24, 512-520. Clarkson, P. and Sayers, S. (1999) Etiology of exercise-induced muscle damage. Canadian Journal of Applied Physiology 24, 234-248. Day, S.H., Donnelly, A.E., Brown, S.J. and Child, R.B. (1998) Electromyogram e·lec·tro·my·o·gram n. Abbr. EMG A graphic record of the electrical activity of a muscle as recorded by an electromyograph. Electromyogram (EMG) activity and mean power frequency in exercisedamaged human muscle. Muscle and Nerve 21, 961-963. Felici, F., Colace, L. and Sbriccoli, P. (1997) Surface EMG modifications after eccentric exercise. Journal of Electromyography and Kinesiology kinesiology Study of the mechanics and anatomy of human movement and their roles in promoting health and reducing disease. Kinesiology has direct applications to fitness and health, including developing exercise programs for people with and without disabilities, preserving 7(3), 193-202. Friden, J., Sjostrom, M. and Ekblom, B. (1983) Myofibrillar damage following intense eccentric exercise in man. International Jounral of Sports Medicine sports medicine, branch of medicine concerned with physical fitness and with the treatment and prevention of injuries and other disorders related to sports. Knee, leg, back, and shoulder injuries; stiffness and pain in joints; tendinitis; "tennis elbow"; and 4, 170-176. Hermann, K.M. and Barnes, W.S. (2001) Effects of eccentric exercise on trunk extensor extensor /ex·ten·sor/ (-ser) [L.] 1. causing extension. 2. a muscle that extends a joint. ex·ten·sor n. A muscle that extends or straightens a limb or body part. torque and lumbar lumbar /lum·bar/ (lum´bar) pertaining to the loins. lum·bar adj. Of, near, or situated in the part of the back and sides between the lowest ribs and the pelvis. paraspinal EMG. Medicine & Science in Sports & Exercise 33(6), 971-977. Holewijn, M. and Heus, R. (1992) Effects of temperature on electromyogram and muscle function. European Journal of Applied Physiology 65, 541-545. Kamen, G. and Caldwell, G.E. (1996) Physiology and interpretation of the electromyogram. Journal of Clinical Neurophysiology Clinical neurophysiology is a medical speciality that studies the central and peripheral nervous systems through the recording of bioelectrical activity, whether spontaneous or stimulated. In some countries it is a part of neurology, for example USA and Germany. 13(5), 366-384. Komi, P. and Viitasalo, J. (1977) Changes in motor unit activity and metabolism in human skeletal muscle during and after repeated eccentric and concentric contractions. Acta Physiologica Scandinavica 100(2), 246-254. Kroon, G.W. and Naieje, M. (1991) Recovery of the human biceps electromyogram after heavy eccentric, concentric or isometric exercise. European Journal of Applied Physiology and Occupational Physiology 63(6), 444-448. Lieber, R. and Friden, J. (2002) Mechanisms of muscle injury gleaned from animal models. American Journal of Physiology, Medicine and Rehabilitation 81(Suppl), S70-S79. Linnamo, V., Bottas, R. and Komi, P.V. (2000) Force and EMG power spectrum during and after eccentric and concentric fatigue. Journal of Electromyography & Kinesiology 10(5), 293-300. McHugh, M.P., Connolly, D.A., Eston, Rg., Gartman, Ej. and Gleim, Gw. (2001) Electromyographic analysis of repeated bouts of eccentric exercise. Journal of Sports Sciences 19(3), 163-170. McHugh, M.P., Connolly, D.A., Eston, R.G. and Gleim, G.W. (2000) Electromyographic analysis of exercise resulting in symptoms of muscle damage. Journal of Sports Sciences 18(3), 163-172. Merletti, R., Knaflitz, M.A. and De Luca, C. (1990) Myoelectric manifestations of fatigue in voluntary and electrically elicited contractions. Journal of Applied Physiology 69, 1810-1820. Merletti, R., Lo Conte, L. and Sathyan, D. (1995) Repeatability of Electrically-evoked Myoelectric Signals in the Human Tibialis Anterior Muscle In human anatomy, the tibialis anterior is a muscle in the shin that spans the length of the tibia. It originates in the upper two-thirds of the lateral surface of the tibia and inserts into the medial cuneiform and first metatarsal bones of the foot. . Jounral of Electromyography and Kinesiology 5(2), 67-80. Mills, K. and Edwards, R. (1984) Muscle fatigue in myophosphorylase deficiency myophosphorylase deficiency McArdle's disease, see there aka glycogen storage disease V, see there : power spectral analysis Spectral analysis may refer to:
Miura, H., Araki, H., Matoba, H. and Kitagawa, K. (2000) Relationship among oxygenation, myoelectric activity, and lactic acid lactic acid, CH3CHOHCO2H, a colorless liquid organic acid. It is miscible with water or ethanol. Lactic acid is a fermentation product of lactose (milk sugar); it is present in sour milk, koumiss, leban, yogurt, and cottage cheese. accumulation in vastus lateralis muscle The Vastus lateralis (Vastus externus) is the largest part of the Quadriceps femoris. It arises by a broad aponeurosis, which is attached to the upper part of the intertrochanteric line, to the anterior and inferior borders of the greater trochanter, to the lateral lip of the during exercise with constant work rate. International Journal of Sports Medicine 21(3), 180-184. O'Reilly, K., Warhol, M., Fielding, R., Frontera, W., Meredith, C. and Evans, W. (1987). Eccentric exercise-induced muscle damage impairs muscle glycogen repletion re·ple·tion n. 1. The condition of being fully supplied or completely filled. 2. A state of excessive fullness. . Journal of Applied Physiology 63, 252-256. Sayers, S., Clarkson, P. and Lee, J. (2000) Activity and immobilization Immobilization Definition Immobilization refers to the process of holding a joint or bone in place with a splint, cast, or brace. This is done to prevent an injured area from moving while it heals. after eccentric exercise: I. Recovery of muscle function. Medicine & Science in Sports & Exercise 32(9), 1587-1592. Sayers, S.P., Knight, C.A., Clarkson, P.M., Van Wegen, E.H. and Kamen, G. (2001) Effect of ketoprofen on muscle function and sEMG activity after eccentric exercise. Medicine & Science in Sports & Exercise 33(5), 702-710. Sbriccoli, P., Felici, F., Rosponi, A., Aliotta, A., Castellano, V., Mazza, C., Bernardi, M. and Marchetti, M. (2001) Exercise induced muscle damage and recovery assessed by means of linear and non-linear sEMG analysis and ultrasonography ultrasonography /ul·tra·so·nog·ra·phy/ (-so-nog´rah-fe) the imaging of deep structures of the body by recording the echoes of pulses of ultrasonic waves directed into the tissues and reflected by tissue planes where there is a change in . Journal of Electromyography & Kinesiology 11(2), 73-83. Stauber, W.T., Clarkson, P.M., Fritz, V.K. and Evans, W.J. (1990) Extracellular matrix extracellular matrix (eksˈ·tr  ·selˑ·y disruption and pain after eccentric muscle action.
Journal of Applied Physiology 69(3), 868-874.
Sirous Ahmadi, Peter J. Sinclair, Nasim Foroughi and Glen M. Davis Discipline of Exercise and Sport Science, Faculty of Health Sciences, The University of Sydney, Australia AUTHORS BIOGRAPHY Sirous AHMADI Employment Rehabilitation Research Centre, Discipline of Exercise and Sports Science, Faculty of Health Sciences, University of Sydney. Degree BS, MA, PhD student Research interests Exercise-induced muscle damage, Muscle oxygenation and blood flow. E-mail: Sahm8027@mail.usyd.edu.au Peter J. SINCLAIR Employment Lecturer, Sport Knowledge Australia, Discipline of Exercise and Sports Science, Faculty of Health Sciences, University of Sydney. Degree PhD Research interests Computer modelling and biomechanics The study of the anatomical principles of movement. Biomechanical applications on the computer employ stick modeling to analyze the movement of athletes as well as racing horses. Biomechanics of sport. E-mail: p.sinclair@ usyd.edu.au Nasim FOROUGHI Employment Discipline of Exercise and Sports Science, Faculty of Health Sciences, University of Sydney Degree BS, MA, PhD student Research interests Sports and clinical biomechanics, knee osteoarthritis osteoarthritis or osteoarthrosis or degenerative joint disease Most common joint disorder, afflicting over 80% of those who reach age 70. It does not involve excessive inflammation and may have no symptoms, especially at first. . E-mail: nfor3501@mail.usyd.edu.au Glen M. DAVIS Employment Associate Professor, Rehabilitation Research Centre, Discipline of Exercise and Sports Science, Faculty of Health Sciences, University of Sydney. Degree PhD Research interests Exercise therapy and assistive technologies for populations of chronic disease and disability. E-mail: G.Davis@usyd.edu.au Sirous Ahmadi Rehabilitation Research Centre, Discipline of Exercise and Sport Science, The University of Sydney, PO Box 170, Lidcombe NSW NSW New South Wales Noun 1. NSW - the agency that provides units to conduct unconventional and counter-guerilla warfare Naval Special Warfare 2141, Australia
Table 1. Summary of some physical signs and EMG parameters for the
exercised arm. Data are means ([+ or -]SE).
DAY 1 DAY 1
PRE POST DAY 2
ROM (deg) [dagger] 156 (3) 147 (4) * 147 (4) *
CIR (cm) [dagger] 25.3 (.6) 25.6 (.5) 25.8 (.6) *
SOR [dagger] 1.0 (.0) 1.7 (.3) * 3.0 (.3) *
MDF IC50 slope
([beta]1; Hz*[s.sup.-1]) -.55 (.06) -.62 (.08) -.81 (.01)
MDF IC80 slope
([beta]1; Hz*[s.sup.-1]) -.90 (.16) -.54 (.09) * -.89 (.10)
RMS IC50 slope ([beta]1) .011 (.005) .013 (.005) .005 (.004) *
RMS IC80 slope ([beta]1) .017 (.009) .004 (.005) .001 (.002)
DAY 3 DAY 4 DAY 5
ROM (deg) [dagger] 148 (4) 149 (4) * 151 (3)
CIR (cm) [dagger] 25.9 (.6) * 25.8 (.6) * 26.1 (.5) *
SOR [dagger] 3.4 (.5) * 3.0 (.4) * 2.4 (.4) *
MDF IC50 slope
([beta]1; Hz*[s.sup.-1]) -.57 (.08) -.41 (.11) -.42 (.08)
MDF IC80 slope
([beta]1; Hz*[s.sup.-1]) -.68 (.15) -.65 (.11) -.57 (.09)
RMS IC50 slope ([beta]1) .002 (.003) -.003 (.004) -.001 (.002) *
RMS IC80 slope ([beta]1) .008 (.005) .010 (.004) .004 (.005)
DAY 6 DAY 7
ROM (deg) [dagger] 152 (3) * 153 (3)
CIR (cm) [dagger] 26.1 (.6) * 25.9 (.6) *
SOR [dagger] 1.7 (.3) * 1.5 (.2)
MDF IC50 slope
([beta]1; Hz*[s.sup.-1]) -.45 (.08) -.59 (.04)
MDF IC80 slope
([beta]1; Hz*[s.sup.-1]) -.69 (.10) -.72 (.11)
RMS IC50 slope ([beta]1) .004 (.002) .002 (.002) *
RMS IC80 slope ([beta]1) -.001 (.006) .005 (.004)
Note: SOR refers to each subject's perception of muscle soreness
while arm was actively extended. ROM refers to active elbow range of
motion. CIR refers to arm circumference at 8-cm above elbow. CIR at
all anthropometrical landmarks (e.g. 4, 6, and 10-cm above elbow)
followed a similar pattern, therefore, data was only presented from
CIR at 8-cm. MDF refers to EMG median frequency. Derivation of
regression intercept ([beta]0) and slope ([beta]1) are described in
the text. [dagger] indicates a significant interaction between main
effects of arms x time (days); * denotes significant (p<0.05)
differences between day 1 pre-EE and other days.
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