Musculo-skeletal geometry and the control of single degree of freedom elbow movements

Gribble, Paul L.

January 1995

No description available.

Human mechanics.

Elbow -- Movements.

Joints -- Range of motion.

The mechanical power analysis of the lower limb action during the recovery phase of the sprinting stride for advanced and intermediate sprinters /

Vardaxis, Vassilios

January 1988

No description available.

Sprinting

Joints -- Range of motion

Human mechanics -- Anthropometry

The effects of sacroiliac manipulative therapy versus functional and kinetic treatment with rehabilitation (FAKTR) on improving hamstring flexibility

Gouws, Estelle

January 2015

M.Tech. (Chiropractic) / Background: In sporting activity, especially rugby, soccer, cricket and hockey, re-occurring hamstring injuries are a common sight that suggests that there is an opening for an improvement in the treatment and management of these injuries. This can be debilitating to any sportsman as it results in recurrent time away from his/her sporting activity. A study by Fyfer, Yelverton and Sher (2005), found that sacroiliac manipulation alone had a positive effect in the treatment of recurrent hamstring injuries. Cibuklka, Rose, Delitto and Sinacore (1986), proposed a possible link between hamstring muscle injuries and sacroiliac joint dysfunction. A study conducted by Donahue, Docherty and Schrader (2010), on the effects of Graston technique on pressure pain threshold, revealed a significant improvement in the patient’s pain threshold due to the fact that the instrument assisted technique effectively broke down scar tissue and correct fascial restrictions. The FAKTR approach to soft tissue dysfunction combines instrument-assisted soft tissue mobilization (Graston Technique) with proprioceptive (functional) techniques to reduce pain and return to function (Hyde and Doerr, 2012). Objective: This blinded, randomised pilot study was done to investigate the effects of sacroiliac joint manipulative therapy versus functional and kinetic treatment with rehabilitation on hamstring flexibility in previously injured hamstring muscle. Design: The study consisted of 30 participants recruited from the University of Johannesburg by word of mouth and posters, which met the inclusion criteria. They were equally and randomly divided into 2 groups. Group 1 received chiropractic therapy of the sacroiliac joint. Group 2 received functional and kinetic treatment with rehabilitation. Objective measurements consisted of digital inclinometer which measured the flexibility and range of motion of the hamstring muscle. The pressure algometry was used to measure pain pressure threshold. Procedure: Both group participants hamstring flexibility and ranges of motion were tested. Group 1 participants were motion palpated to determine sacroiliac joint dysfunction and treated with a high velocity, low amplitude trust to restricted segment, group 2 received functional and kinetic treatment with rehabilitation. Results: The statistical results should be viewed with regards that this study only represent a small group of thirty participants and therefore no assumption can be made with respect to whole population. The p-value was set at 0.05 and represents the level of significance of the results. If the p-value was less or equal to 0.05 (p≤0.05) there was a statistical significance finding. If the p-value is greater than 0.05 (p>0.05) vi there was no statistical finding. Statistical significance only means that a given result is unlikely to have occurred by chance. Analysis included demographic data analysis of age and gender. Objective data were collected using Digital Inclinometer and Pressure Algometry. Intra-group and inter-group analysis was done on straight leg raise, passive knee extension, hip extension, lateral rotation of the hip and medial rotation of the hip. The Shapiro-Wilk test was performed to determine normality. As normality could not be assumed, non-parametric testing were used to do intra-group analysis. The Non-parametric Friedman test was used to determine if a change occurred over time. As change did occur over time the Wilcoxon Signed Rank Test was use to determined where the change within each group occurred. The Mann-Whitney U test was also used to determine if any difference between the groups were present at any given time. At the end of the study both test groups showed significant clinical as well as statistical improvement over the three week course of the study. Conclusion: The FAKTR treatment did clinically have the greatest improvement, however the changes seen was not statistically superior to those seen with the sacroiliac joint manipulation treatment. A statistical significant improvement was seen in both treatment protocols, concluding that both the spinal manipulative therapy and the functional and kinetic treatment with rehabilitation could be proficient protocols in treating hamstring flexibility.

Hamstring muscle

Sacroiliac joint

Joints - Range of motion

Manipulation (Therapeutics)

Chiropractic

Influence of ankle orthoses on ankle joint motion and postural stability before and after exercise

Jorden, Ryan A.

05 May 2000

Ankle injuries comprise more than 15% of all sports injuries worldwide. The efficacy of the ankle taping for injury prevention has long been under scrutiny as numerous studies have shown that tape rapidly loses its ability to constrain ankle motion with exercise. Consequently, ankle braces (orthoses) are being used with increasing frequency for the prevention and functional management of ankle injuries. However, the motion restraining qualities of ankle orthoses have not been widely evaluated in closed kinetic chain environments under physiologic loads. The primary purpose of this study was to compare the abilities of four ankle orthoses (ankle taping, lace-up brace, semirigid orthosis and hybrid brace) against a control condition (no brace or tape) to control subtalar and talocrural motion during running on a laterally-tilted treadmill at 16.2 km/h before and after exercise. It has been hypothesized that ankle orthoses make a secondary contribution to injury prevention through enhanced proprioception. The secondary purpose of this study was to quantify the effects of the aforementioned ankle orthoses on postural stability during single-limb stance following a bout of exercise. Fifteen healthy university students (8 men and 7 women) with no history of significant ankle injuries (age, mean �� SD: 22.9 �� 3.9 years) volunteered to participate in this study. Three-dimensional kinematic data were captured with an active infrared digital camera system sampling at 120 Hz. To address the first question, data analyses were performed using 2way univariate (Ankle Orthoses x Pre/Post-Exercise x Subjects) (5 x 2 x 15) repeated measures analysis of variance (ANOVA) to determine the existence of differences among three closed and four open kinematic chain dependent measures before and after exercise. Maximum inversion angles (MAXINV) were similar for all ankle orthoses, with no orthosis limiting inversion during tilted treadmill running significantly more than another, or compared to the control condition, either before or after exercise (p>.05). Pre-exercise MAXINV group means and standard deviations during treadmill running ranged from 6.8 �� 3.4 deg with the Royce Medical Speed Brace to 9.5 �� 4.1 deg in the tape condition; post-exercise MAXINV mean values ranged from 7.6 �� 3.2 deg for the Aircast Sport Stirrup to 9.1 �� 4.6 deg with closed basketweave tape. While not statistically significant (p=0.10), ankle taping provided the least amount of inversion restraint, both before and after the exercise bout. The MAXINV angles measured during treadmill running (8.2 �� 4.0 deg) and open chain inversion AROM measured with a goniometer (34.5 �� 6.2 deg) were not related (r=-0.0003). The compressive forces present during closed kinetic chain activity are known to increase joint stability and thus may explain why MAXINV under dynamic varus loads was so much less in magnitude than inversion AROM measured under open kinetic chain conditions. The nonlinear relationship of these two variables supports our contention that reports of the motion controlling properties of ankle orthoses measured in open kinetic chain environments should not be used to infer the response characteristics of these same orthoses under dynamic, physiologic loads. To address the second question, data were analyzed using 3-way univariate (Ankle Orthoses x Pre/Post-Exercise x Eyes Open/Closed x Subjects) (5 x 2 x 2 x 15) repeated measures ANOVAs. Subjects' postural stability was assessed using a Biodex Balance System with eyes open and eyes closed conditions, before and after an exercise bout. The ankle orthoses evaluated did not influence postural stability as measured by mediolateral sway index, anteroposterior sway index, and overall sway index. Removal of visual perception via blindfolding resulted in significant decreases in all three measures of postural stability (p=.001). There was poor association among the closed chain postural stability parameters and the open chain AROM measures. These correlations ranged from r=.04 to .17, indicating minimal relationship between the amount of AROM permitted by the orthoses and postural stability as quantified by this method. / Graduation date: 2000

Orthopedic braces

Ankle -- Wounds and injuries

Joints -- Range of motion

The effect of running speed and turning direction on lower extremity joint moment

Lee, Ki-Kwang

19 November 1998

Fast medio-lateral movements, frequent in a number of sports activities, are associated with lower extremity injuries. These injuries may occur as a result of excessive musculoskeletal stresses on the joints and their associate structures. The purpose of this study was to investigate the effect of running speed and turning movement on the three-dimensional moments at the ankle, knee, and hip joints. Data were collected using video cameras and force plate. Eight male recreational basketball players were tested during slow (1.5 m/s), moderate (3.0 m/s), and fast running (4.5 m/s) and when cutting to the right or left (+60, +30, 0, -30, and -60��). The inverse dynamics approach was used to integrate the body segment parameter, kinematic and force plate data, and to solve the resultant joint moments. At the ankle joint, inversion/eversion, dorsi/plantar flexion, and internal/external rotation moments of the ankle joint increased with running speed (p<.05). At the knee joint, flexion/extension and abduction/adduction moments increased with running speed except flexion moment that decreased with running speed (p<.05). At the hip joint, internal/external rotation, flexion/extension, and abduction/adduction moments increased with running speed (p<.05). In medial cutting movements, greater abduction moments of the ankle, adduction moments of the knee and external rotation and adduction of the hip were found (p<.05). In lateral cutting movements, greater inversion and adduction moments of the ankle, abduction moments of the knee and hip were found (p<.05). These findings reinforce the intuitive notion that fast medio-lateral turning movements produce substantially greater musculoskeletal loading on the joint structures than does straight running and consequently have greater potential for inducing lower extremity injuries such as ankle sprain or anterior cruciate ligament injury. / Graduation date: 1999

Running -- Physiological aspects

Joints -- Range of motion

Leg -- Movements

Coordination of multiple muscles in two degree of freedom elbow movements

Sergio, Lauren E. (Lauren Elisabeth)

January 1994

The present study quantifies electromyographic variables in one and two degree of freedom elbow movements involving flexion/extension and pronation/supination, in order to understand the associated central commands. Agonist burst magnitude varied with motion in a second degree of freedom for some muscles but not for others. In movements for which a biarticular muscle acted as agonist in two degrees of freedom, agonist burst magnitudes were approximately the sum of the magnitudes in the component movements. Agonist burst magnitude varied with motion in a second degree of freedom for some, but not all, monoarticular muscles. When biarticular muscles acted as agonist in one degree of freedom and antagonist in the other, the muscle often displayed both components simultaneously. The additivity of EMG burst magnitudes in two degree of freedom movements and the presence of both agonist and antagonist bursts in a muscle suggest that central commands associated with motion in individual degrees of freedom are superimposed in producing two degree of freedom movements.

Elbow -- Muscles.

Joints -- Range of motion.

Electromyography.

Human mechanics.

To determine the effectiveness of a chiropractic adjustment on the speed of a soccer ball in soccer players with lumbar facet and sacroiliac joint dysfunction

Rebelo, Ricardo Jorge Silva

05 September 2012

M.Tech. / Soccer is the most widely played sport in the world and, of all the skills required to participate, the instep soccer kick is considered to be the primary offensive action within the game of soccer. Biomechanical analysis of the instep soccer kick has revealed that the action of kicking is characterised by a proximal to distal series of multi-articular movements with distal segmental movements being predetermined by more proximal ones (Kellis and Katis, 2007). According to Smith, Gilleard, Hammond and Brooks (2006), the lower spine and pelvis play a pivotal role in determining the placement and actions of distal segmental motion during the action of the instep soccer kick. The aim of this study was to determine the effectiveness of chiropractic adjustments in soccer players with lumbar facet and sacroiliac joint dysfunctions by assessing the resultant speed of a soccer ball once kicked with an instep soccer kick. By correcting the lumbar facet and sacroiliac joint dysfunction of the affected soccer players, it was postulated that with restoration of joint motion and reduction of pain, the speed of the soccer ball, when kicked, would improve. When kicked the resultant ball speed is indicative of biomechanical kicking success. Thirty male professional soccer players from the Jomo Cosmos football establishment who met the study’s selection criteria were selected and randomly divided into one of two groups. The study group received chiropractic adjustments of dysfunctional lumbar facets and sacroiliac joints and the control group received a placebo treatment in form of a de-tuned stationary ultra-sound head over the effected facets joints for five minutes. Treatment for both groups occurred over a two week period with treatment being administered twice a week, totalling of four treatments per participant. Data capture was collected 3 times over the 2-week period; 1st reading done before the 1st treatment, the 2nd reading before the 3rd treatment and the final reading taken after the 4th and final treatment. Data capture consisted of both subjective and objective readings. The subjective data consisted of the measurements of pain experienced by the participants in the form of a Numerical Pain Rating Scale. Objective data involved the measurement of ball speed once kicked, with the use of a radar speed gun as well as lumbar spine range of motion measurements by means of a Digital Inclinometer. In executing the group comparisons, it was found that both groups would present with contrasting results. The group undergoing the chiropractic adjustments would show an improvement in their ball speed, reduction in their overall pain and increased lumbar spine extension and rotation ROM; where as the group undergoing the placebo treatment experienced a decrease in their ball speed, an increase in their overall pain and decreased lumbar spine ROM. The results obtained from the study demonstrated that the majority of the data was not statistically significant in either of the groups however, from a clinical perspective there was a definite effect on the lumbar spine range of motion, ball speed and pain reduction as a result of the Chiropractic adjustments that would warrant further investigation. There is a definite link with the negative effects that lumbar facet and sacroiliac joint dysfunctions have on the proximal to distal sequence of events that take place during the instep soccer kick. Therefore, treating the lumbar facet and sacroiliac joint dysfunction with chiropractic adjustments allows for better transfer of energy between segments and for greater resultant ball speed. In conclusion, the study demonstrated that chiropractic adjustment of lumbar facet and Sacroiliac joint dysfunctions showed good improvement in the resultant ball speed, reduction in lower back pain and improved lumbar spine extension and rotation ROM. From these results, it would be prudent to incorporate more chiropractic treatment into mainstream soccer and encourage further research into the advantages that chiropractic treatment has in better understanding the biomechanics involved in the instep soccer kick.

Soccer injuries - Chiropractic treatment

Biomechanics

Joints - Range of motion

Chiropractic

The effect of chiropractic cervical spine adjustment on cervical range of motion, beyond the direct effect of cavitation

Paton, Glen James

01 April 2014

M.Tech. (Chiropractic) / Purpose: This study aims to ascertain the extent Chiropractic manipulative therapy increases ROM beyond the joint-separation induced ROM initially experienced via the cavitation phenomenon in the absence of neck pain. Method: Sixty participants between eighteen and thirty-five years of age, thirty male and thirty female whom met the inclusion of no neck pain and perceived decreased ROM were selected for participation. There was a single group with each participant‟s pre-adjustment readings acting as a baseline. Procedure: Participants were assessed for hypomobility and joint dysfunction. Those who met the inclusion criteria underwent a detailed history, physical and cervical spine regional examination on the initial consult. A pre-adjustment objective measurement was acquired using a cervical spine range of motion (CROM) device. Once the consent form was signed participants received Chiropractic cervical spine manipulative therapy to the area/s of the cervical spine found to be restricted on motion palpation by the researcher. Post-adjustment objective measurements were taken at one, twenty, forty and sixty minutes using the CROM device. Participants were required to remain in the researcher‟s examination room for 60 minutes post-adjustment with continuation of regular day to day activity and no strenuous activity during the twenty-four hour period of the study. The participant was required to return for a single follow up visit within a time frame of twenty-four hours of the initial visit. The follow-up visit required no treatment. At twenty-four hours, the participant was objectively measured for cervical spine ROM using the CROM. The results were based on objective data in the form of cervical spine ROM measurements. Results: Clinical analysis of the percentage change in cervical spine ROM values revealed that clinically and statistically significant improvement was seen in all ranges of motion post-adjustment. General consensus showed that a peak value of improved ROM was seen post-adjustment at the one minute interval for all ranges of motion except flexion. Flexion demonstrated a peak ROM value at the twenty minute post-adjustment interval.

Chiropractic

Spinal adjustment

Joints - Range of motion

Cervical vertebrae

The transmission of forces through animal joints

Greenwald, A. Seth

January 1970

No description available.

Coordination of multiple muscles in two degree of freedom elbow movements

Sergio, Lauren E. (Lauren Elisabeth)

January 1994

No description available.

Elbow -- Muscles.

Electromyography.

Human mechanics.

Joints -- Range of motion.