TMG100 -TENSIOMYOGRAPHY A BRIEF INTRODUTION Tensiomyography is a validated method to precisely measure individual muscles’ contraction characteristics. This information helps identify injury risk and shows change in performance over time.
SCIENCE FOR BODY EVOLUTION.
TMG100 tensiomyography is a rapidly evolving technology that is non-invasive, practical, fast and reliable. It helps quantify rehabilitation or training progress to objectively assess whether a selected methodology is truly working. The specific muscle contraction properties it measures are important factors for medical and performance staff looking for real insight into individual muscle status. The strengths of TMG100 are its simplicity, flexibility and compatibility with other methods and applications on or off the field. Athletes can be profiled, monitored, and guided in rehabilitation in a matter of minutes. Unlike static medical imaging, TMG100 reveals the true functional ability of muscles without excessive costs, time and travel. Assessments are painless, require no effort from the athlete and can be done even during the acute phases of injury to obtain essential, clear and objective benchmarks. The informative value of the data about muscle function cannot be replicated by any other modality, making it invaluable to teams. Team management and sports medicine and performance professionals all have a common need for relevant and objective information so that decisions can be made faster and more informed. TMG100 provides this in a efficient, fast and simple way.
“IN A NUTSHELL, TEAM MANAGEMENT, SPORTS MEDICINE AND PERFORMANCE PROFESSIONALS ALL HAVE A COMMON NEED FOR RELEVANT AND OBJECTIVE INFORMATION SO THAT DECISIONS CAN BE MADE FASTER AND MORE INFORMED. TMG100 PROVIDES THIS INFORMATION IN A EFFICIENT, FAST AND SIMPLE WAY.”
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SPORTS MEDICINE
TMG100 solves the challenges of: • Screening and Assessment to prevent injuries • Managing risk during recovery • Making informed decisions about safe return-to-play
SPORTS PERFORMANCE
TMG100 helps performance coaches: • Ensure and maintain player readiness • Profile athletes for a more individual approach • Set accurate benchmarks for training
MANAGEMENT AND COACHING
FOR THE SUCCESS OF SPORTSMEN THE COOPERATION OF ALL STAFF, FROM PHYSIO TO MANAGEMENT IS WELL CONNECTED AND COORDINATED. TMG 100 PROVIDES ACCESS TO OBJECTIVE INFORMATION TAILORED TO DIFFERENT EXPERTS THAT SUPPORTS THEIR COOPERATION AND EMPOWER THEIR DECISIONS.
TMG100 assists management and coaching staff to: • Visualize medical and performance data • Make faster and more informed tactical and strategic decisions • Monitor player status throughout the season
TMG100 - TENSIOMYOGRAPHY
A BRIEF INTRODUCTION
THE POWER OF TMG100 TECHNOLOGY TMG100 testing is flexible, rapid and readily integrated in therapeutic and performance settings. With TMG100 in use, coaches and therapists can make decisions that otherwise were not possible with conventional approaches and equipment. TMG100 solves the following problems in top level sport:
FIBER TYPING Muscle fiber composition can be estimated to determine fatigue and prescribe individual training programs.
RISK PROFILING Data from testing can be used for appraisal of specific risk of injury.
INSTANT PLAYER READINESS Entire rosters of teams can be evaluated before practice and games to safeguard against injury. Data can be exported or shared with mobile devices and athlete management software.
Typical screen display of TMG100 measurements showing the evolution throughout therapy of a grade II biceps femoris strain in a professional basketball athlete. The initial measurement, taken within hours of sustaining injury, shows lower lateral displacement of the muscle with increased contraction time. Throughout therapy, lateral displacement increases and contraction time decreases.
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TMG100 - TENSIOMYOGRAPHY
A BRIEF INTRODUCTION
Visit www.tmg.si for more information. Or get to us on one of the following contacts: TMG-BMC Ltd. Zidovska steza 6, 1000 Ljubljana, Slovenia info@tmg.si +386 838 43 007
SCIENCE FOR BODY EVOLUTION.
TMG TM 100 SYSTEM ELECTRODES
IMPORTANCE OF THE RIGHT ELECTODES Electro stimulation is vital part of Tensiomyography, that is why quality and easy to use electrodes play important role in accurate, fast and effective measuement. Our clients use several different electrodes, which are more or less appropriate for Tensimyographic measurements. That is why we have decided to offer our custmers tested and proven electrodes for Tensiomyographic measurements of world leading manufactrer of neurostimulation electodes Axelgaard.
MAIN FEATURES • Scientifically calculated grid pattern, printed on a conductive material. • The grid pattern precisely controls and optimizes the electrical current over the surface of the electrode. The border around the pattern allows for an intentional current roll off. • Conventional electrodes provide current distribution that may be amplified at the edges which can cause edge biting and stinging. • Innovative design enhances subject stimulation comfort • Made exclusively in the USA
For more information and ordering contact your TMGTM distributor or contact us directly through our website: www.tmg.si
TMG TM100 SYSTEM ON THE GO
Take your TMG 100 System wherever you need it with TMGTM On The Go travel case solution.
Save Your Time Carefully designed foam inserts help you to keep the parts organized and easily accessible when you need them.
Protect Your System
Travel Smoothly
Rugged aluminium exterior and moulded shock-absorbing inner foam base ensure that your system will stay in perfect shape.
Whether you travel by car, train or plane the case with make your trip smoother. It is easy to move, is airline handling approved (ATA 300) and has a TSA-approved lock.
For more information and ordering contact your TMGTM distributor or contact us directly through our website: www.tmg.si
TMG - SCIENCE FOR BODY EVOLUTION
TMG S1 -Tensiomyography Tensiomyography is a validated method to precisely measure individual muscles’ contraction characteristics. This information helps identify injury risk and shows change in performance over time. TMG S1tensiomyography is a rapidly evolving technology that is non-invasive, practical, fast and reliable. It helps quantify rehabilitation or training progress to objectively assess whether a selected methodology is truly working. The specific muscle contraction properties it measures are important factors for medical and performance staff looking for real insight into individual muscle status. The strengths of TMG S1 are its simplicity, flexibility and com-
patibility with other methods and applications on or off the field. Athletes can be profiled, monitored, and guided in rehabilitation in a matter of minutes. Unlike static medical imaging, TMG100 reveals the true functional ability of muscles without excessive costs, time and travel. Assessments are painless, require no effort from the athlete and can be done even during the acute phases of injury to obtain essential, clear and
objective benchmarks. The informative value of the data about muscle function cannot be replicated by any other modality, making it invaluable to teams. Team management and sports medicine and performance professionals all have a common need for relevant and objective information so that decisions can be made faster and more informed. TMG S1 provides this in a efficient, fast and simple way. TMG
TMG - SCIENCE FOR BODY EVOLUTION
Sports Medicine
Sports Performance
Management and Coaching
TMG S1 solves the challenges of: • Screening and Assessment to prevent injuries • Managing risk during recovery • Making informed decisions about safe return-to-play
TMG S1 helps performance coaches: • Ensure and maintain player readiness • Profile athletes for a more individual approach • Set accurate benchmarks for training
TMG S1 assists management and coaching staff to: • Visualize medical and performance data • Make faster and more informed tactical and strategic decisions • Monitor player status throughout the season
“In a nutshell, team management and sports medicine and performance professionals all have a common need for relevant and objective information so that decisions can be made faster and more informed. TMG S1 provides this information in a efficient, fast and simple way.” The Power of S1 Technology TMG100 testing is flexible, rapid and readily integrated in therapeutic and performance settings. With TMG100 in use, coaches and therapists can make decisions that otherwise were not possible with conventional approaches and equipment. TMG100 solves the following problems in top level sport: Fiber Typing - Muscle fiber composition can be estimated to determine fatigue and prescribe individual training programs. Typical screen display of TMG S1measurements showing the evolution throughout therapy of a grade II biceps femoris strain in a professional basketball athlete. The initial measurement, taken within hours of sustaining injury, shows lower lateral displacement of the muscle with increased contraction time. Throughout therapy, lateral displacement increases and contraction time decreases.
Risk Profiling - Data from testing can be used for appraisal of specific risk of injury. Instant Player Readiness - Entire rosters of teams can be evaluated before practice and games to safeguard against injury. Data can be exported or shared with mobile devices and athlete management software. TMG
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Tensiomyography
Decrease Injury - Increase Performance Dallas Mavericks, has often cited studies that either predict or examine the effects of injuries as delivering useful and actionable Analytics Magazine
TMG is a method, validated by research, of identifying precise muscle characteristics that identify risk and change in performance over time. After years of availability in Europe, TMG United States. Tensiomyography, or TMG, is a rapidly evolving technology that is practical, fast, and reliable. Perfect for sports organizations looking for objective
for real insight of what is going on with the individual muscle, or how the body is responding to training and therapy. With injuries and performance incompetence being a major factor with wins and losses, organizations can no longer continue with educated guesses and intuition. The strength of the TMG system is
trouble zones such as hamstrings and TMG is painless and essential to teams looking for clear objective benchmarks in the athletes neuromuscular system. TMG is an exclusive technology that can not be replicated by any other system or modality, making it invaluable to teams.
and applications in sport. Athletes can be
of each muscle. TMG can measure rehabilitation progress, and if a methodology is truly working.
rehabilitation with TMG in a matter of minutes. Unlike medical imaging that is static, TMG can reveal true functional ability of the body without excessive costs, time, travel, and discomfort. A
characteristics, important factors for medical and performance staff looking
minutes per athlete, or elect to track risk areas daily with as little as 3 minutes for
TMG completes a medical and performance department with an integrated approach for support.
The Future of Sport As elite sport evolves, professionals are looking for answers that are immediate and actionable... Sports Medicine
Medical professionals have the challenging need for screening for risk, reducing non-contact injuries, and result in re-injury. TMG can solve those three problems quickly and with precise and objective evaluation. Screening and Assessment- TMG works as an isolated system as well as an added value tool for other methods in screening. The combination of use with orthopedic screens and TMG is a powerful option for anticipating injury.
Sports Performance
Performance coaches and specialists are involved with similar challenges of medical professionals, but also have the need to improve the athletic abilities effectively. TMG works in concert with performance coaches by ensuring that Monitoring Readiness- TMG can provide in depth and immediate updates on the readiness of athletes. Acute training adjustments and program design changes can be administered more effectively.
Managing Risk - Often athletes need to compete being less than 100% healthy,
- Athletes are highly individual and TMG can work with preexisting legacy methods to prescribe
by more precision and objectivity. TMG can work with existing interventions rapidly and effectively.
TMG can also integrate seamlessly with other similar technologies for even more precise individualism.
Return to Play Strategies - The need to reduce re-injury is a common challenge with teams, and TMG gives immediate data on the time course of baseline data with repair and function.
Program Benchmarking
- Measuring
allows coaches to have a clear path to later training programs as well as create validation to existing systems.
Management and Game Coaches
Sport coaches and management can many export and output options for between sports medicine and performance is now blurred, and now teams are starting to leverage data. Visualization techniques are now shaping how team coaches use medical and performance data effectively. Player Career MonitoringManagement can get more information on how athletes are aging and developing, creating the advantage of deciding on what athletes are matching well with their organization. The information gathered from TMG can anticipate durability and the ability to handle long competitive seasons. Tactical and Strategic DecisionsTeam coaches can get more value from sports medicine and performance reports with information that they can understand and make actionable decisions on preparing for competition.
Intensive Case Study Athlete History A high level athlete in team sport experienced a repetitive injury cycle over four years to both soft tissue and joint rehabilitation followed traditional approaches and an injury cascade from compensations continued to cause secondary injury. Finally, after frustration, a third party sports medicine clinic reviewed the injury history and took a holistic approach, integrating conventional methodology with TMG, thus discovering revealing data.
muscle groups. General training became revealed the muscular imbalances not found by other screening methodologies, the conclusion was that his injury pattern was caused by foot dysfunction. Since the injuries were complex in nature, as many of them were not fully rehabilitated because of therapist changes, a progressive combination of soft tissue therapy, joint manual therapy, creative workaround methods of training were implemented.
TMG Rehabilitation Outline symmetry between right and left legs, commonly found with most injuries because of compensation. What was
metatarsal joint of the foot with a turf toe like injury, and a rash of injuries followed after. Throughout his career, small but continual soft tissue injuries to the compromised leg hampered the athlete, such as adductor and hamstring strains.
the current tone of each muscle group tested acutely. With the aforementioned details, a conditioning and strength program was designed to scaffold the
low back pain. The athlete received typical rehabilitation and was repeatedly screened orthopedically, and no risk
Foot manual therapy was done to restore
while manual therapy and gait reeducation was performed.
improved. A temporary orthotic was used to alleviate some of the strain found during a complete gait analysis, including both walking and running. Due to the age of the athlete, the device was no longer necessary as the manual therapy effects were sustained during heavier training. perfect symmetry and the athlete was monitored for the duration of the current season.
Case Study Conclusions The ability to cohesively work with any environment is the strength of TMG, regardless if it is a performance or medical setting. TMG analysis in isolation, or paired with other tools and methodologies, creates the perfect solution to making decisions requiring immediate and objective information. As more and more teams and organizations adopt TMG, the evolution in athlete care will continue to grow in sports medicine and performance.
as localized strengthening of supporting
The Power of TMG Technology therapeutic and performance settings. With TMG use coaches and therapists can make decisions that otherwise were not possible with conventional approaches and equipment. TMG solves the following problems with high level sport.
Fiber Typing Athletes be measured to calculate fatigue and prescribe individual training programs. Data from testing can be
Instant Player Readiness - Entire rosters of teams can be evaluated before practice and games to safeguard against injury. Data can be exported or shared with mobile devices and athlete management software.
TMG Clients TMG equipment and TMG services supported some of the best teams and institutions in the world. Inthe future, the information captured by TMG will create better solutions to teams looking to get the edge on the competition. Research and Sport
FC Athletic Bilbao (ESP)
Manchester United FC (UK)
Manchester Metropolitan University (UK)
FC Atletico de Madrid (ESP)
Chelsea FC (UK)
INEFC (ESP)
FC Racing Santander (ESP)
Newcastle United FC (UK)
Universidad de Sevilla (ESP)
Manchester City FC (UK)
University of Toledo (ESP)
(RFEA, ESP)
VF Sport Sevilla (ESP)
University of Craiva (RO)
FC Celta Vigo (ESP)
Italy National Football Team (ITA)
University of Ljubijana (SLO)
FC Getafe (ESP)
UK Sports (UK)
University of Primorska (SLO)
FC Zaragoza (ESP)
ACF Fiorentina (ITA)
Austrian Olympic Centre (AUT)
CAI Zaragoza (ESP)
FC Livorno Calcio (ITA)
Norwegian Sport Federation (NOR)
Pamesa Valencia (ESP)
FC Inter Milan (ITA)
UK Sport institute (UK)
FC Dinamo Kiev (UA)
Elite Teams and Organizations
(ESP)
FC Interblock (SLO)
FC Barcelona (ESP)
Real Madrid Baloncesto (ESP)
UC Sampdoria (ITA) and more...
FC Almeria (ESP) UD Las Palmas (ESP)
(RFEF)
FC Mallorca (ESP)
Federazione Italiana di Calcio Liverpool FC (UK)
TMG-BMC Ltd. Splitska 5 1000 Ljubljana Slovenia T: +386 51 390 551 E: info@tmg.si W: www.tmg.si
TMG-BMC Ltd. Is a cutting-edge biomechanics and kinesiology company providing the best in fitness and rehabilitation solutions for sports, medical, research and work related applications. Our own in-house research resources continually develop patented, highly effective programs for the optimization of the training and rehabilitation processes for top sportspeople as well as general physiotherapy and medical requirements. As a result of creating and developing the field of Tensiomyography (TMG), TMG-BMC Ltd’s unique products and techniques have already been adopted by major users from elite football clubs such as FC Barcelona to leading medical and research institutions. TMG-BMC Ltd. is fast becoming the primary option for accurate, non-invasive and costeffective diagnosis and treatment.
TENSIOMYOGRAPHY - MUSCLE DIAGNOSTICS
MEASUREMENT RESULTS
Subject: EXAMPLE13 TMG File Name: ET2010071423425.pdf Date: 14-07-2010 14:42:14
TENSIOMYOGRAPHY Tensiomyography (TMG) is measuring method for detecting skeletal muscles’ contractile properties. It enables selective measurements of radial muscle belly enlargements in single muscle. Muscle is stimulated with single electrical stimulus or train of electrical stimuli (tetanic stimulation). Measurements are carried out under isometric conditions.
METHOD Radial displacement of skeletal muscle belly is proportional to relative muscle force. TMG provides selective information on contractile properties of neuro-muscular system. Measuring method is non-invasive.
PROTOCOL Measured subject is sitting or laying on one side, on the back or on the front, depending on measured muscle. Joints are put in natural physiognomic position – flexed for 5 – 20 degrees. Both electrodes are placed symmetric to sensor; positive electrode (anode) is placed proximal and negative electrode (cathode) distal, 50 – 60 mm from measuring point. Electrodes are selfadhesive. In portable measuring system the cathode can be integrated part of a sensor. Measuring tool – the displacement sensor is pressed to the skin above measured muscle belly, radial to the surface. Positioning of the sensor is performed in voluntary contracted or electrically stimulated muscle by palpation. Initial displacement of the sensor is set manually or automatic with servo system.
ELECTRICAL STIMULATION Electrical stimulation consists of single DC electrical stimuli of 1 ms duration. Their amplitude is of supramaximal value. Tetanic stimulation is a set of 0.1 ms DC stimuli. Pulse amplitude is adjusted to measured subjects, pulse frequency ranges from 10 to 40 Hz – depending on the process observed. For electrical stimulation mainly current impulse generator is used. It is powered by installed batteries. Stimuli are repeated three to five times with at least 5 s pauses between them. Muscle responses are stored and analyzed with a PC.
PARAMETERS OF MUSCLE BELLY RESPONSE TMG signals are analyzed in order to determine the following parameters: delay time, contraction time, sustain time, relaxation time and maximal amplitude. Additionally also statistical analysis, differences between agonistic pairs, synergistic pairs and lateral pairs can be calculated.
RESULTS AND MEASUREMENT ANALYSIS S Standard output of TMG measurement is table of results, which is included in this report. Extended report contains also graphs of measured muscles’ responses. It is possible to request for additional analyses on the basis of TMG measurement database. Discussion on measuring results is based on comparison between measured subject data and database of average responses (with standard deviation) for each muscle or database on specific sport.
AGREEMENT Measured person, measurement performer and applicant are informed about the test (TMG) and its objective. Measured person agrees that test results can/will be used for sport training technology planning, for diagnostics and rehabilitation with patients with neuro-muscular diseases and injuries. Measurement performer may use test results for research of contractile properties of skeletal muscles according to medical and sports ethics and protection of personal data.
PARAMETERS DEFINITIONS
MUSCLE LEGEND
Subject: EXAMPLE13 TMG Date: 14-07-2010 14:42:14 Sex: Male
Age: 15 Height: 172 Weight: 61
Diagnosis: LoadType: Sport:
Healthy Not defined Football - defense
Reference database: Reference database 24022012 Lateral Symmetry (LS): Muscle Side Tc [ms] m.BF R 26.85 m.BF L 28.51 m.ES R 23.00 m.ES L 22.91 m.GL R 26.03 m.GL L 19.00 m.GM R 29.18 m.GM L 29.20 m.RF R 21.31 m.RF L 17.71 m.TA R 23.25 m.TA L 45.90 m.VL R 20.27 m.VL L 24.65 m.VM R 26.92 m.VM L 24.14
Ts [ms] 169.65 169.16 209.55 194.32 145.64 200.72 148.44 146.23 90.67 191.51 167.44 149.83 127.02 140.99 169.07 161.73
Tr [ms] 48.39 52.95 179.92 163.71 35.81 32.90 100.35 20.32 51.10 83.69 38.07 46.22 101.63 108.64 55.33 131.71
Dm [mm] 4.74 4.79 4.12 5.21 2.74 2.14 3.33 2.11 4.67 2.44 3.35 3.50 6.39 6.42 10.54 7.83
Td [ms] 23.44 23.64 19.48 20.58 23.33 18.93 22.46 20.38 20.26 18.78 21.36 22.01 22.73 22.55 26.40 24.77
Sym [%] 96 94 75 92 74 68 88 88
Functional Symmetry (FS): Sym [%] Elbow: (BB/TB) Achilles Tendon: (GL/GM) Lig.Patellae: (VM/VL)
R L R L R L
Knee: (VL&VM&RF/BF) 91 69 76 96
Ankle: (TA/GL&GM) Leg: (VL&VM/GL&GM)
R L R L R L
Sym [%] 85 81 85 60 88 96
BF Biceps Femoris
ES Erector Spinae
GL Gastrocnemius Lateralis
GM Gastrocnemius Medialis
RF Rectus Femoris
TA Tibialis Anterior
VL Vastus Lateralis
VM Vastus Medialis
INTERPRETATION LATERAL SYMMETRY (LS): BF Biceps Femoris General Biceps Femoris (BF) muscle LS is very high 96%. ES Erector Spinae General Erector Spinae (ES) muscle LS is very high 94%. The muscle is slightly slower than selected sport average. GL Gastrocnemius Lateralis General Gastrocnemius Lateralis (GL) muscle LS is slightly lower than recommended 75%. LS of contraction time is significantly lower than recommended. Slower is the muscle on the right side. We recommend activation exercises for right side. GM Gastrocnemius Medialis General Gastrocnemius Medialis (GM) muscle LS is very high 92%. LS of maximal displacement is significantly lower than recommended. It is lower on the left side. The muscle is slightly slower than selected sport average. We recommend strength exercises for both sides. RF Rectus Femoris General Rectus Femoris (RF) muscle LS is slightly lower than recommended 74%. LS of contraction time is significantly lower than recommended. Slower is the muscle on the right side. LS of maximal displacement is significantly lower than recommended. It is lower on the left side. The muscle is significantly faster than selected sport average. We recommend activation exercises for right side and strength exercises for both sides. TA Tibialis Anterior General Tibialis Anterior (TA) muscle LS is significantly lower than recommended 68%. LS of contraction time is significantly lower than recommended. Slower is the muscle on the left side. The muscle is significantly slower than selected sport average. We recommend activation exercises for both sides with emphasis on the left one. VL Vastus Lateralis General Vastus Lateralis (VL) muscle LS is sufficiently high 88%. LS of contraction time is significantly lower than recommended. Slower is the muscle on the left side. We recommend activation exercises for left side. VM Vastus Medialis General Vastus Medialis (VM) muscle LS is sufficiently high 88%. FUNCTIONAL SYMMETRY (FS): R Knee General FS of the right Knee is sufficiently high 85%. Knee flexor muscle (BF) is the slower one. We recommend activation exercises. L Knee General FS of the left Knee is sufficiently high 81%. FS of contraction time is significantly lower than recommended. Knee flexor muscle (BF) is the slower one. We recommend activation exercises. R Achilles Tendon General FS of the right Achilles Tendon is very high 91%. L Achilles Tendon
General FS of the left Achilles Tendon is significantly lower than recommended 69%. FS of contraction time is significantly lower than recommended. Muscle GM is the slower one. We recommend activation exercises. R Ankle General FS of the right Ankle is very high 85%. L Ankle General FS of the left Ankle is slightly lower than recommended 60%. FS of contraction time is significantly lower than recommended. Ankle flexor muscle (TA) is the slower one. We recommend activation exercises. R Lig.Patellae General FS of the right Lig.Patellae is sufficiently high 76%. FS of contraction time is significantly lower than recommended. Muscle VM is the slower one. We recommend activation exercises. L Lig.Patellae General FS of the left Lig.Patellae is very high 96%. R Leg General FS of the right Leg is sufficiently high 88%. Ankle extensor muscles (GM and GL) are the slower ones. We recommend activation exercises. L Leg General FS of the left Leg is very high 96%.
MEASUREMENT RESULTS SHORT REPORT The concept that helps the understanding of what occurs within the muscles during the loading.
EXAMPLE13 TMG QR-ET2010071423425.pdf 14-07-2010 14:42:14
Lateral Symmetry [%]
Functional Symmetry [%]
Tc / Ref (%)
Dm / Ref [%]
0 Activation exercise 0 Strength exercise 0 Stretch / Relax
Visit www.tmg-bodyevolution.com for more information. Or get to us on one of the following contacts: TMG-BMC Ltd. Splitska 5, 1000 Ljubljana, Slovenia info@tmg-bodyevolution.com +386 838 43 007
MEASUREMENT RESULTS IMPROVEMENT REPORT The concept that helps the understanding of what occurs within the muscles during the loading.
Salem Aldossari SA201311081234.pdf 11/08/2013 08:12:54 SCIENCE FOR BODY EVOLUTION.
Ljubljana, 19. 3. 2014
MUSCLE LEGEND
Deltoideus
Pectoralis Major
Biceps Brachii Flexor Digitorum Rectus Abdominalis
Extensor Digitorum Obliques Externus
Adductor Longus Rectus Femoris Vastus Lateralis
Gastrocnemius Lateralis
Vastus Medialis
Tibialis Anterior Peroneus Brevis
Adductor Longus
Triceps Brachii Latissimus Dorsi Erector Spinae Brachioradialis Gluteus Maximus Biceps Femoris Semimembranosus
2
Gastrocnemius Medialis
Gastrocnemius Lateralis
MUSCLE LEGEND
IMPROVEMENT REPORT
RESULTS 1. AL Adductor Longus Td Left 20,65 22,33 20,28 20,13 22,30 26,82 20,13 21,13
Right 20,65 22,30 20,65 22,30 20,65 20,65 22,30 22,30
Sim % 19,18 17,60 21,80 23,78 19,18 21,80 17,60 23,78
Left 20,65 22,33 20,28 20,13 22,30 26,82 20,13 21,13
Right 20,65 22,30 20,65 22,30 20,65 20,65 22,30 22,30
Sim % 19,18 17,60 21,80 23,78 19,18 21,80 17,60 23,78
Left 20,65 22,33 20,28 20,13 22,30 26,82 20,13 21,13
Right 20,65 22,30 20,65 22,30 20,65 20,65 22,30 22,30
Sim % 19,18 17,60 21,80 23,78 19,18 21,80 17,60 23,78
50 Left Right
40 Time (ms)
Date 10.03.2011 10.05.2011 10.12.2011 10.03.2012 10.06.2012 10.10.2012 10.05.2013 10.12.2013
30 20 10 0 0
10
20
30
40
50
60
Days
Tc 50
50
60
25.02.2014
11.03.2013
13.01.2013
Left Right Left Right
TimeTime (ms)(ms)
40 30 30 20 20 10 30
40
50
Days
13.01.2014
60 25.02.2014
20
03.11.2013
10
18.06.2013
00
11.03.2013
10 0 13.01.2013 50 Left Right Left Right
50 40 40 30 30 20 20 10 20
30 Days
40
50
60 25.02.2014
10
13.01.2014
0
18.06.2013
0
03.11.2013
10 0
11.03.2013
Sim % 19,18 17,60 21,80 23,78 19,18 21,80 17,60 23,78
40
50 40
13.01.2013
Right 20,65 22,30 20,65 22,30 20,65 20,65 22,30 22,30
30
50
Time Time (ms) (ms)
Left 20,65 22,33 20,28 20,13 22,30 26,82 20,13 21,13
20
13.01.2014
10
0
Dm Date 10.03.2011 10.05.2011 10.12.2011 10.03.2012 10.06.2012 10.10.2012 10.05.2013 10.12.2013
Left Right
Days
Dm Date 10.03.2011 10.05.2011 10.12.2011 10.03.2012 10.06.2012 10.10.2012 10.05.2013 10.12.2013
Left Right
03.11.2013
40 50 30 40 20 30 10 20 0 10 0
18.06.2013
Time (ms) Time (ms)
Date 10.03.2011 10.05.2011 10.12.2011 10.03.2012 10.06.2012 10.10.2012 10.05.2013 10.12.2013
50 40
RESULTS
30 IMPROVEMENT REPORT
Time (ms)
3
20 10
Left Right
50
10 30
4
RESULTS
13.01.2014
25.02.2014
18.06.2013
11.03.2013
30
40
50
13.01.2014
20
60
50
50 30
25.02.2014
0
18.06.2013
Days
Left Right Left Right
40 20 30 10 10
20
30
40
50
60
Days
0
25.02.2014
0
13.01.2014
10
03.11.2013
20 0
50 Left Right
Time (ms)
40 30 20 10
IMPROVEMENT REPORT
25.02.2014
13.01.2014
13.01.2013
0 03.11.2013
Sim % 19,18 17,60 21,80 23,78 19,18 21,80 17,60 23,78
10
03.11.2013
0
18.06.2013
Right 20,65 22,30 20,65 22,30 20,65 20,65 22,30 22,30
Left Right
0 20
18.06.2013
Left 20,65 22,33 20,28 20,13 22,30 26,82 20,13 21,13
60
Left Right
13.01.2013
Sim % 19,18 17,60 21,80 23,78 19,18 21,80 17,60 23,78
50
10 30
10
Time (ms)Time (ms)
Right 20,65 22,30 20,65 22,30 20,65 20,65 22,30 22,30
40
20 40
40
Left 20,65 22,33 20,28 20,13 22,30 26,82 20,13 21,13
30
30 50
11.03.2013
Sim % 19,18 17,60 21,80 23,78 19,18 21,80 17,60 23,78
13.01.2013
Right 20,65 22,30 20,65 22,30 20,65 20,65 22,30 22,30
20
Days
50
Time (ms) Time (ms)
Left 20,65 22,33 20,28 20,13 22,30 26,82 20,13 21,13
10
0
Dm Date 10.03.2011 10.05.2011 10.12.2011 10.03.2012 10.06.2012 10.10.2012 10.05.2013 10.12.2013
0
03.11.2013
0 20 10
Dm Date 10.03.2011 10.05.2011 10.12.2011 10.03.2012 10.06.2012 10.10.2012 10.05.2013 10.12.2013
Left Right
20 40
40
Tc Date 10.03.2011 10.05.2011 10.12.2011 10.03.2012 10.06.2012 10.10.2012 10.05.2013 10.12.2013
30 50
11.03.2013
Sim % 19,18 17,60 21,80 23,78 19,18 21,80 17,60 23,78
11.03.2013
Right 20,65 22,30 20,65 22,30 20,65 20,65 22,30 22,30
13.01.2013
Left 20,65 22,33 20,28 20,13 22,30 26,82 20,13 21,13
Time (ms) Time (ms)
Td Date 10.03.2011 10.05.2011 10.12.2011 10.03.2012 10.06.2012 10.10.2012 10.05.2013 10.12.2013
Left Right
40
Visit www.tmg-bodyevolution.com for more information. Or get to us on one of the following contacts: TMG-BMC Ltd. Splitska 5, 1000 Ljubljana, Slovenia info@tmg-bodyevolution.com +386 838 43 007
SCIENCE FOR BODY EVOLUTION.
Ljubljana, 19. 3. 2014
TENSIOMYOGRAPHY - MUSCLE DIAGNOSTICS
GROUP REPORT
File Name: Blank Team Report.pdf Date: 01-05-2014 19:30:00
1. PLAYERS
AND METHODS
1.1. Players Name EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG
Age 24 18 18 18 18 17 18
Height 188 80 75 65 74 83 65
Weight 85 186 183 172 182 190 174
Table 1.1: Name, age, height and weight
1.2. Measured Skeletal Muscles Muscle Adductor Longus Biceps Femoris Erector Spinae Gastrocnemius Lateralis Gastrocnemius Medialis Rectus Femoris Tibialis Anterior Vastus Lateralis Vastus Medialis
Abbreviation AL BF ES GL GM RF TA VL VM Table 1.2: The list of measured muscles
MUSCLE LEGEND
2. RESULTS 2.1. Team
Contraction Times
Muscle AL Adductor Longus
Lateral Side
LEFT RIGHT BF Biceps Femoris LEFT RIGHT ES Erector Spinae LEFT RIGHT GL Gastrocnemius Lateralis LEFT RIGHT GM Gastrocnemius Medialis LEFT RIGHT RF Rectus Femoris LEFT RIGHT TA Tibialis Anterior LEFT RIGHT VL Vastus Lateralis LEFT RIGHT VM Vastus Medialis LEFT RIGHT
Average Tc [ms] 18.67 23.17 22.20 23.05 17.89 17.78 30.61 31.67 24.53 23.46 27.27 27.16 21.91 19.59 22.67 21.93 25.10 23.66
Table 2.1: Team TMG results Tc in ms
Standard Deviation Tc [ms] 0.30 0.09 2.22 9.02 2.93 3.13 13.47 14.21 4.34 4.00 4.34 2.96 2.30 1.32 2.52 2.59 2.30 2.87
2.2. Team
Muscle Tonus
Muscle AL Adductor Longus
Lateral Side
LEFT RIGHT BF Biceps Femoris LEFT RIGHT ES Erector Spinae LEFT RIGHT GL Gastrocnemius Lateralis LEFT RIGHT GM Gastrocnemius Medialis LEFT RIGHT RF Rectus Femoris LEFT RIGHT TA Tibialis Anterior LEFT RIGHT VL Vastus Lateralis LEFT RIGHT VM Vastus Medialis LEFT RIGHT
Average Dm [mm] 1.81 4.73 5.94 4.91 4.83 4.75 3.26 3.33 2.44 2.40 8.29 9.46 1.72 1.57 5.56 5.33 7.89 7.45
Table 2.4: Team TMG results Dm in mm
Standard Deviation Dm [mm] 0.10 0.12 0.78 1.25 1.77 1.44 1.02 0.73 0.56 0.61 3.54 4.19 0.60 0.35 0.85 0.97 1.37 2.51
3. INDIVIDUAL
REPORTS
3.1. EXAMPLE13 3.1.1. Average
TMG
of both lateral sides
3.1.2. Lateral
Symmetry
3.1.3. Functional
Symmetry
3.1.4. Recommendations
Muscle
Activation LEFT
AL BF ES GL GM RF TA VL VM
Strength RIGHT X X
LEFT X
RIGHT X
XX X
X X
X
XX
Stretching/Check LEFT RIGHT X
X
X X
Lateral Symmetry / Functional Symmetry / Team Contraction Times / Sport Average
X
3.2. EXAMPLE13 3.2.1. Average
TMG
of both lateral sides
3.2.2. Lateral
Symmetry
3.2.3. Functional
Symmetry
3.2.4. Recommendations
Muscle BF ES GL GM RF TA VL VM
Activation LEFT X X
Strength RIGHT X X X
LEFT X XX
RIGHT XX X
Stretching/Check LEFT RIGHT X
X X
X
Lateral Symmetry / Functional Symmetry / Team Contraction Times / Sport Average
3.3. EXAMPLE13 3.3.1. Average
TMG
of both lateral sides
3.3.2. Lateral
Symmetry
3.3.3. Functional
Symmetry
3.3.4. Recommendations
Muscle BF ES GL GM RF TA VL VM
Activation
Strength
LEFT X
RIGHT
X X
X
LEFT X
RIGHT XX
X
X
Stretching/Check LEFT RIGHT
Lateral Symmetry / Functional Symmetry / Team Contraction Times / Sport Average
3.4. EXAMPLE13 3.4.1. Average
TMG
of both lateral sides
3.4.2. Lateral
Symmetry
3.4.3. Functional
Symmetry
3.4.4. Recommendations
Muscle BF ES GL GM RF TA VL VM
Activation
Strength
LEFT X X
RIGHT
X X
X
LEFT
RIGHT
Stretching/Check LEFT RIGHT
Lateral Symmetry / Functional Symmetry / Team Contraction Times / Sport Average
3.5. EXAMPLE13 3.5.1. Average
TMG
of both lateral sides
3.5.2. Lateral
Symmetry
3.5.3. Functional
Symmetry
3.5.4. Recommendations
Muscle BF ES GL GM RF TA VL VM
Activation
Strength
LEFT
RIGHT
X
X
LEFT
RIGHT
Stretching/Check LEFT RIGHT
X
X X
XX
X Lateral Symmetry / Functional Symmetry / Team Contraction Times / Sport Average
3.6. EXAMPLE13 3.6.1. Average
TMG
of both lateral sides
3.6.2. Lateral
Symmetry
3.6.3. Functional
Symmetry
3.6.4. Recommendations
Muscle
Activation LEFT
BF ES GL GM RF TA VL VM
Strength RIGHT
RIGHT
X
LEFT X X
X
X
XX
Stretching/Check LEFT RIGHT
X
X Lateral Symmetry / Functional Symmetry / Team Contraction Times / Sport Average
3.7. EXAMPLE13 3.7.1. Average
TMG
of both lateral sides
3.7.2. Lateral
Symmetry
3.7.3. Functional
Symmetry
3.7.4. Recommendations
Muscle BF ES GL GM RF TA VL VM
Activation
Strength
LEFT
RIGHT
LEFT
RIGHT
X
XX
XX
X
X
X
X
X
Stretching/Check LEFT RIGHT
X
Lateral Symmetry / Functional Symmetry / Team Contraction Times / Sport Average
4. Activation Name EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG
exercises AL R
BF R LR L L
ES R L LR R
GL R LR LR
L LRR
GM
RF R
L LR R
TA L
VL R LR
VM
L R
L R
5. Strength Name EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG EXAMPLE13 TMG
exercises AL LR
BF
ES
LRR LRR
LLR
L
GL
GM
RF LLR
TA LR
VL
VM LRR
LR R L LLR
LRR LRR LR
LR
AUGMENT YOUR WORK WITH UNIQUE INSIGHT INTO MUSCLE FUNCTION
SCIENCE FOR BODY EVOLUTION.
SCIENTIFICALLY VALIDATED, FUNCTIONAL AND SELECTIVE MUSCLE MEASUREMENTS Our proprietary and patented TMG - S1 measurement system is based on tensiomyography, a scientifically validated method substantiated by more than 50 independent studies. TMG provides relevant information about muscle contractile properties in an objective, selective and non-invasive way. It gives insights into: muscle composition, muscle functional characteristics, local muscle fatigue, atrophy, muscle inhibition, spasticity, tonus, and more. High repeatability enables long term monitoring of acute and chronic changes in muscle function.
AN EFFECTIVE DIAGNOSTIC AND TREATMENT MONITORING PROCESS Our methodology is based on selective, qualitative and quantitative monitoring of treatments or action plans with fast and simple measurements to determine results of your interventions.
3 1. MEASUREMENT 2. ANALYTICS 3. ACTION 4. FEEDBACK LOOP
1
2
4
THE MEASUREMENT PROCESS The measurement is completely noninvasive, fast and userfriendly. The displacement sensor is placed on the skin above a selected muscle, which is artificially stimulated with an electro stimulator to obtain a standarized, repeatable contraction. The sensor measures the displacement and obtains time-based characteristics. The results are displayed in real-time on screen as time/displacement curves. The dynamic response time of the sensor lies in the millisecond range, allowing you to distinguish differences in reaction between fast and slow muscle fibres.
2
1
1. M USCLE BEFORE ELECTRICAL STIMULATION 2. MEASUREMENT OF RADIAL DISPLACEMENT CAUSED BY MUSCLE CONTRACTION
THE MEASUREMENT SYSTEM Our patented measurement system was developed in cooperation with the Laboratory for Biomedical and Muscle Biomechanics at the University of Ljubljana, Slovenia.
ELECTRICAL STIMULATOR Output current Output voltage Pulse duration Pulse shape Power supply (battery)
0 – 110 mA Uimax < 30 V rms 1 ms square, monophase 12 V DC
DIGITAL - OPTICAL SENSOR Operating principle Maximum measuring lengt Resolution Error Maximum velocity
optical ladder 42 mm 2 μm 2 μm across entire measuring length 1 m/s
3
1. ELECTRICAL STIMULATOR 2. DIGITAL SENSOR 3. TRIPOD & MANIPULATING HAND 4. ELECTRODES 5. SUPPORTING PADS 6. USER INTERFACE
2
4
6
1
5
SELECTED REFERENCES EDUCATIONAL SECTOR INEFC, Spain Ruhr-Universität Bochum, Germany Johannes Gutenberg University Mainz, Germany Manchester Metropolitan University, UK University of Stirling, UK Technical University of Madrid, Spain Nanjing Sport Institute, China Beijing sport University, China University of Primorska, Slovenia University College for Health Studies, Slovenia SPORT CLUBS AND TRAINING FACILITIES FC Barcelona Chelsea FC Liverpool FC Manchester United FC FIGC – Italian Football Association ACF Fiorentina Genoa CFC Maria Sharapova Merlene Ottey AS Bari Calcio HEALTH SECTOR Massachusetts General Hospital, USA Quiron Groupo Hospitalario, Spain Centre of a physical Rehabilitation, Moscow, Russia Research Centre in Sports, Health and Human Development, Vila Real, Portugal Soča Rehabilitation Centre, Slovenia Orthopaedic Hospital Valdoltra, Slovenia School of Public Health, Physiotherapy and Population Science, Dublin, Ireland ZVD - Institute of Occupational Health, Slovenia Stubičke toplice, Croatia Faculty of Medicine, University of Maribor, Slovenia
SELECTED SCIENTIFIC PUBLICATIONS TITLE
YEAR
TYPE
PUBLICATION
Noninvasive Estimation of Myosin Heavy Chain Composition in Human Skeletal Muscle
2011
Journal
Med Sci Sports Exerc. 2011 Sep;43(9):1619-25. doi: 10.1249/MSS.0b013e31821522d0. PMID: 21552151
Tensiomyography in Physical Rehabilitation of High Level Athletes
2010
Journal
The Open Sports Sciences Journal, 2010, 3, 47-48
Monitoring of muscle activation changes after acl surgery
2012
Conference
XXI International conference on sports rfhabjutation and traumatology
Physical activity program effects on the functional efficiency of flexors and extensor’s knee and ankle in Alzheimer’s patients
2011
Journal
European Geriatric Medicine. 2S. Pág.: S154. ISSN: 1878-7659.
Atrophy dynamics of quadriceps muscles during 35 days of bed rest
2008
Presentation
EJAP Bedrest 2008
Evaluation of the Ability to Make Non-invasive Estimation of Muscle Contractile Properties on the Basis of the Muscle Belly Response
2001
Journal
Med Biol Eng Comput. 2001 Jan;39(1):51-5. JCR IF (1999): 1.004; SE, x: 0.661 (13/76), computer science, interdisciplinary applications, x: 1.055 (16/43), engineering, biomedical, x: 1.014 (9/19), medical informatics. PMID: 11214273
Effect of high-load and high-volume resistance exercise on the tensiomyographic twitch response of biceps brachii
2012
Journal
J Electromyogr Kinesiol. 2012 Aug;22(4):612-9. ISSN: 1050-6411 doi: 10.1016/j. jelekin.2012.01.005. Epub 2012 Feb 15. PMID: 22341590
Neuromuscular Investigation in Diabetic Polyneuropathy (Case report)
2009
Journal
Rom J Morphol Embryol. 2009;50(2):283-290. PMID: 19434324
Strength and endurance of knee extensors in subjects after paralytic poliomyelitis
2005
Journal
Disabil Rehabil. 2005 Jul 22;27(14):791-9. PMID: 16096231
Inter-Rater Reliability of Muscle Contractile Property Measurements Using Non-Invasive Tensiomyography
2010
Journal
J Electromyogr Kinesiol. 2010 Aug;20(4):761-6. doi: 10.1016/j.jelekin.2010.02.008. Epub 2010 Mar 16. PMID: 20236839
Check references online.
AUTHOR(S)
INSTITUTION
Simunič B, Degens H, Rittweger J, Narici M, Mekjavič IB, Pišot R.
Institute for Kinesiology Research, Science and Research Centre Koper, University of Primorska, Koper, Slovenia
Pedro S. Dias, Joan S. Fort, Daniel A. Marinho, Albano Santos and Mário C. Marques
University of Beira Interior, Sport Sciences Department (UBI, Covilhã, Portugal). Universidade de Barcelona, Instituto Nacional de Educação Física da Catalunha, (INEFC, Barcelona, Spain). Research Centre in Sports, Health and Human Development (CIDESD, Vila Real, Portugal)
Tramullas JA
Sports Medicine Barcelona, Barcelona, Spain
Sarmiento, S.; Rodríguez-Ruiz, Rodríguez-Matoso, De Saa, Bartolomé de la Rosa, García-Manso, J.M.
University of Las Palmas de Gran Canaria
Šimunic Boštjan, Križaj Dejan, Rittweger Jörn, Narici Marco, Mekjavic B Igor, Pišot Rado
Institute for Kinesiology Research, Science and Research Centre of Koper, University of Primorska, Slovenia Laboratory for Bioelectromagnetics, Faculty of Electrical Engineering, University of Ljubljana, Slovenia Institute for Biophysical and Clinical Research into Human Movement, Manchester Metropolitan University, UK Department of Automation, Biocybernetics and Robotics, Institute of Josef Stefan, Slovenia
R. Dahmane, V. Valenčič, N. Knez, I. Eržen
Institute of Anatomy, Medical Faculty, Ljubljana, Slovenia Faculty of Electrical Engineering, University of Ljubljana, Slovenia
García-Manso, Rodríguez-Matoso, Sarmiento, De Saa, Vaamonde, Rodríguez-Ruiz, Da Silva-Grigoletto.
Laboratorio de Análisis y planificación del entrenamiento deportivo, Physical Education Department, University of Las Palmas de Gran Canaria, Spain.
Rusu, Calina, Avramescu, Paun, Vasilescu
Department of Sport Medicine and Rehabilitation, University of Craiova, Craiova, Romania. ligiarusu@hotmail.com
Grabljevec, Burger, Kersevan, Valencic, Marincek.
Institute for Rehabilitation Ljubljana, and University of Ljubljana, Faculty of Electrical Engineering, Slovenia. klemen.grabljevec@mail.ir-rs.si
Tous-Fajardo, Moras, Rodríguez-Jiménez, Usach, Doutres, Maffiuletti.
Sports Science Research Group, Institut Nacional d'Educacio Fisica de Catalunya, Centro de Barcelona, Avda. de l'Estadi s/n, Anella Olimpica de Montjuic, Barcelona, Spain. juliotous@mastercede.com
CONTACT US TMG-BMC Ltd. Splitska 5, SI 1000 Ljubljana E: info@tmg-bodyevolution.com W: www.tmg-bodyevolution.com T: +386 838 775 30
SCIENCE FOR BODY EVOLUTION.
REFERENCES & ARTICLES
SCIENCE FOR BODY EVOLUTION.
TITLE
YEAR
TYPE
PUBLICATION
AUTHOR(S)
INSTITUTION
NCBI LINK
Do We Have Enough Information to Reduce Musculoskeletal Disorders?
2015
Journal
Multi-, Inter-, and Trans-disciplinary Issues in Computer Science and Engineering
Jemec, Jure1, Đorđevič, Srđan1
1TMG-BMC Ltd.
-
-
Differences in muscle mechanical properties between elite power and endurance athletes: a comparative study
2014
Journal
Journal of Strength and Conditioning Research
Irineu Loturco1, Saulo Gil1, Cristiano Frota de Souza Laurino2, Hamilton Roschel3, Ronaldo Kobal1, Cesar Cavinato Cal Abad1, Fabio Yuzo Nakamura4
1- NAR - Nucleus of High Performance in Sport, São Paulo, SP, Brazil 2- Brazilian Track & Field Confederation, Medical Department, São Paulo, SP, Brazil, 3- School of Physical Education and Sport - University of São Paulo, SP, Brazil, 4- State University of Londrina, Londrina, PR, Brazil
NCBI
-
Neuromuscular profile of top level women kayakers, assessed through tensiomyography.
2014
Journal
Journal of Strength and Conditioning Research
Oscar García-García1, Jose María Cancela-Carral1, Fernando Huelin-Trillo2
1Faculty of Education and Sport Sciences. University of Vigo (Spain). 2Galician Sports Performance Center. Spanish Canoe Federation (Spain)
NCBI
-
Assessment of neuromuscular function after different strength training protocols using tensiomyography.
2014
Journal
Journal of Strength & Conditioning Research
De Paula Simola RA1, Harms N, Raeder C, Kellmann M, Meyer T, Pfeiffer M, Ferrauti A
11Department of Training and Exercise Science, Faculty of Sports Science, Ruhr-University Bochum, Germany 2Department of Sport Psychology, Faculty of Sports Science, Ruhr-University Bochum, Germany 3School of Human Movement Studies and School of Psychology, The University of Queensland, Brisbane, Australia 4Institute of Sports and Preventive Medicine, Saarland University, Saarbrücken, Germany 5Institute of Sports Science, Johannes-Gutenberg University, Mainz, Germany.
NCBI
-
Effects of anterior cruciate ligament injury on neuromuscular tensiomyographic characteristics of the lower extremity in competitive male soccer players
2014
Journal
Knee Surgery, Sports Traumatology, Arthroscopy
Pedro Alvarez-Diaz, Eduard AlentornGeli, Silvia Ramon, Miguel Marin, Gilbert Steinbacher, Juan José Boffa, Xavier Cuscó, Oscar Ares, Jordi Ballester, Ramon Cugat
1Mutualidad de Futbolistas, Federación Española de Fútbol, Delegación Cataluña, Barcelona, Spain
Springer link
Comparison of tensiomyographic neuromuscular characteristics between muscles of the dominant and non-dominant lower extremity in male soccer players
2014
Journal
Knee Surgery, Sports Traumatology, Arthroscopy
Pedro Alvarez-Diaz, Eduard AlentornGeli, Silvia Ramon, Miguel Marin, Gilbert Steinbacher, Marta Rius, Roberto Seijas, Jordi Ballester, Ramon Cugat
1Mutualidad de Futbolistas, Federación Española de Fútbol, Delegación Cataluña, Barcelona, Spain
Springer link
Neuromuscular profile of top level women kayakers, assessed through tensiomyography
2014
Journal
Journal of Strength & Conditioning Researc
García-García, Oscar PhD (Sport Sciences and Physical Activity); Cancela-Carral, Jose María PhD (Sport Sciences and Physical Activity); Huelin-Trillo, Fernando
1Faculty of Education and Sport Sciences. University of Vigo (Spain). Campus A Xunqueira s/n 36005. Pontevedra (Spain). 2Faculty of Education and Sport Sciences. University of Vigo (Spain). Campus A Xunqueira s/n 36005. Pontevedra (Spain). 3Galician Sports Performance Center. Spanish Canoe Federation (Spain). Padre Fernando Olmedo, 1. 36002 Pontevedra (Spain).
-
Complex assessment in progressive multiple sclerosis: a case report
2014
Journal
RJME - Romanian Journal of Morphology and Embryology
Marius Cristian Neamţu1), Lligia Rusu2), Oana Maria Neamţu2), Rucsandra Dănciulescu Miulescu3), Mihnea Ion Marin4)
1)Department of Pathologic Physiology, University of Medicine and Pharmacy of Craiova, Romania 2)Department of Sports Medicine and Kinesiology, University of Craiova, Romania 3) “Carol Davila” University of Medicine and Pharmacy, Bucharest, Romania 4)Department of Applied Mechanics, University of Craiova, Romania
-
OTHER LINK
-
TITLE
YEAR
TYPE
PUBLICATION
AUTHOR(S)
INSTITUTION
NCBI LINK
OTHER LINK
Assessment of neuromuscular risk factors for anterior cruciate ligament injury through tensiomyography in male soccer players
2014
Journal
Knee Surgery, Sports Traumatology, Arthroscopy
Eduard Alentorn-Geli, Pedro Alvarez-Diaz, Silvia Ramon, Miguel Marin, Gilbert Steinbacher, Juan José Boffa, Xavier Cuscó, Jordi Ballester, Ramon Cugat
Department of Orthopaedic Surgery and Traumatology - Universitat Autonoma de Barcelona (UAB), Barcelona, Spain, Mutualidad de Futbolistas—Federación Española de Fútbol, Delegación Cataluña, Barcelona, Spain, Fundación García-Cugat, Barcelona, Spain, Department of Orthopaedic Surgery, Hospital Quirón, Barcelona, Spain, Universitat Internacional de Catalunya, Barcelona, Spain, Department of Physical Medicine and Rehabilitation, Hospital Quirón, Barcelona, Spain, Department of Surgery, Universitat Autònoma de Barcelona (UAB), Barcelona, Spain
Springer link
Assessment of gastrocnemius tensiomyographic neuromuscular characteristics as risk factors for anterior cruciate ligament injury in male soccer players
2014
Journal
Knee Surgery, Sports Traumatology, Arthroscopy
Eduard Alentorn-Geli, Pedro Alvarez-Diaz, Silvia Ramon, Miguel Marin, Gilbert Steinbacher, Marta Rius, Roberto Seijas, Oscar Ares, Ramon Cugat
Department of Orthopaedic Surgery and Traumatology, Universitat Autonoma de Barcelona (UAB), Barcelona, Spain, Mutualidad de Futbolistas, Federación Española de Fútbol, Delegación Cataluña, Barcelona, Spain, Fundación García-Cugat, Barcelona, Spain, Department of Orthopaedic Surgery, Hospital Quirón, Barcelona, Spain, Universitat Internacional de Catalunya, Barcelona, Spain, Department of Physical Medicine and Rehabilitation, Hospital Quirón, Barcelona, Spain
Springer link
Analysis of the Response Speed ofMusculature of the Knee in Professional Male and Female Volleyball Players
2014
Journal
BioMed Research International
D. Rodríguez-Ruiz, I. Diez-Vega, D. Rodríguez-Matoso, M. Fernández-del Valle, R. Sagastume, and J. J. Molina,
1University of Las Palmas de Gran Canaria, Campus Universitario de Tafira, s/n, Edificio de Ciencias de la Actividad Física y el Deporte, 35017 Las Palmas de Gran Canaria, Spain, 2European University of Madrid, Calle Rio Tajo s/n, Villaviciosa de Odón, 28670 Madrid, Spain, 3Department of Health, Exercise, and Sport Sciences, Texas Tech University, P.O. Box 43011, Lubbock, TX 79409, USA, 4University of País Vasco, Carretera Lasarte s/n, 01007 Vitoria-Gasteiz, Spain
Tensiomyography used for analysis on mechanical characteristics of knee muscles in subjects diagnosed with Stage 1 Parkinson’s disease
2014
Poster presentation
Abstracts from the Eighteenth International Congress of Parkinson’s Disease and Movement Disorders
David Rodríguez-Ruiz1, Antonio Palomino1, Sara Gutierrez1, Daniel García1 and Darío RodríguezMatoso1
1Department of Physical Education (University of Las Palmas de Gran Canaria - Spain).
Effects of different aquatic exercises programs on mechanical characteristics of vastus lateralis in subjects diagnosed with Stage 1 Parkinson’s disease
2014
Poster presentation
Abstracts from the Eighteenth International Congress of Parkinson’s Disease and Movement Disorders
David Rodríguez-Ruiz1, Antonio Palomino1, Sara Gutierrez1, Daniel García1 and Darío RodríguezMatoso1
1Department of Physical Education (University of Las Palmas de Gran Canaria - Spain).
Reliability of muscle response measurements within different electrical stimulation intensities using tensiomyography
2014
Poster presentation
Abstracts from the 19th Annual Congress of European College of Sports Sciences (ECSS) - 2.-5. July 2014
Simola, R.A.P, Harms, N., Ferauti, A.
Ruhr.-University Bochum, Faculty of Sport Science, Department of Training and Exercise Science
A novel approach of measuring force transmission and efficiency over knee joint in cycling-case study
2014
Presentation
Abstracts from the 19th Annual Congress of European College of Sports Sciences (ECSS) - 2.-5. July 2014
Dordevic, S.1, Milic, R.2, Cucek, G.M.1, Berdajs, M.1, Zumer, J.1, Modic, Z.1
1: TMG-BMC (Ljubljana, Slovenia), 2:University of Ljubljana, Faculty of Sport, Institute of Sport, (Ljubljana, Slovenia)
A novel approach to biomechanical analysis of the knee during squatting
2014
Presentation
Abstracts from the 19th Annual Congress of European College of Sports Sciences (ECSS) - 2.-5. July 2014
Djordjevic, S.1, Modic, Z.1, Gerbec Cucek, M.1, Stancin, S.2, Sodnik, J.2, Tomazic, S.2, Berdajs, M.1
1:TMG-BMC d.o.o(Ljubljana,Slovenia),2:University of Ljubljana,Faculty of Electrical Engineering (Ljubljana, Slovenia)
Complex assessment in progressive multiple sclerosis: a case report
2014
Journal
Romanian Journal of Morphology & Embryology
Marius Christian Neamtu1, Liga Rusu2, Oana Maria Neamtu2, Rucsandra Danciulescu Miulescu3, Mihnea Ion Marin4
1Department of Pathologic Physiology, University of Medicine and Pharmacy of Craiova, Romania, 2Department of Sports Medicine and Kinesiology, University of Craiova, Romania, 3“Carol Davila” University of Medicine and Pharmacy, Bucharest, Romania, 4Department of Applied Mechanics, University of Craiova, Romania
Wellness, Fitness, and Lifestyle Sensing Applications
2013
Book
Sensor Technologies: Healthcare, Wellness and Environmental Applications
Michael J. McGrath and Cliodhna Ní Scanaill
-
Springer link
TITLE
YEAR
TYPE
PUBLICATION
AUTHOR(S)
INSTITUTION
NCBI LINK
OTHER LINK
Influence of fat percentage, front thigh skinfold and girth on the maximum radial displacement of the dominant rectus femoris
2013
Journal
Abstracts from the 3rd European College of Sports and Exercise Physicians (ECOSEP) conference on 25–27 April 2013
Ignacio Diez-Vega1, David Rodriguez-Ruiz2, María Fernándezdel-Valle3, Darío Rodríguez-Matoso2, Joaquín Cerdá-Béjar1, José. Molina-Martín Juan1
Universidad Europea de Madrid, Madrid, Spain 2 Universidad de Las Palmas de Gran Canaria, Las Palmas de Gran Canaria, Spain 3 Texas Tech University, Lubbock, USA
–
British Jurnal of Sports Medicine
Muscles within muscles: a tensiomyographic and histochemical analysis of the normal human vastus medialis longus and vastus medialis obliquus muscles
2013
Journal
J Anat. 2013 Apr 15. doi: 10.1111/ joa.12045.
Ludvik Travnik,1 Srdjan Djordjevi c,2,3 Sergej Rozman,3 Marija Hribernik4 and Raja Dahmane4
Department of Orthopedic Surgery, University Medical Centre, Ljubljana, Slovenia 2Applied Kinesiology, Faculty of Mathematics, Natural Sciences and Information Technologies, University of Primorska, Koper, Slovenia 3TMG-BMC, Ljubljana, Slovenia 4Medical Faculty, Institute of Anatomy, University of Ljubljana, Ljubljana, Slovenia
NCBI
Scienceindex
Effects of age and physical activity on response speed in knee flexor and extensor muscles
2013
Journal
European Review of Aging and Physical Activity DOI: 10.1007/ s11556-013-0127-7. ISSN. 1813-7253
Rodríguez-Ruiz, D.; García-Manso, J.M.; Rodríguez-Matoso, D.; Sarmiento, S.; Da Silva-Grigoletto, M.2; Pisot, R.3
Department of Physical Education, University of Las Palmas de Gran Canaria, Campus Universitario de Tafira, s/n, Edificio de Ciencias de la Actividad Física y el Deporte, 35017, Las Palmas de Gran Canaria, Spain 2. Andalusian Sports Medicine Centre, Seville, Spain 3. Institute of Kinesiology Research, Science and Research Centre of Koper, University of Primorska, Koper, Slovenia
–
Springer link
Tensiomyography relationship between parameters and potential indicators of performance in professional cyclists
2013
Journal
International Journal of Medicine and Science of Physical Activity and Sport , ISSN-e 1577-0354, N º. 52-53, 2013-2014 11 p.
Oscar García García
(Sport Sciences and Physical Activity), Faculty of Education and Sport Sciences. University of Vigo (Spain).
Differences in the contractile properties of the knee extensor and flexor muscles in professional road cyclists during the season
2013
Journal
J Strength Cond Res. 2013 Jan 8. PMID: 23302746
García-García O, Cancela-Carral JM, Martínez-Trigo R, Serrano-Gómez V.
(Sport Sciences and Physical Activity), Faculty of Education and Sport Sciences. University of Vigo (Spain). Campus A Xunqueira s/n 36005. Pontevedra (Spain). Telf. +34 986 801 700 Fax. + 34 986 801 701. oscargarcia@uvigo.es. chemacc@uvigo.es, robertotrigo@uvigo.es 2Sport Sciences and Physical Activity, Faculty of Sport Sciences and Physical Education. University of Corunna (Spain). Avda Che Guevara n 121 15993 Oleiros. A Corunna (Spain). Telf. +34 981 167 000 Fax. + 34 981 167 001. virginia.serrano@udc.es.
Long-term stability of tensiomyography measured under different muscle conditions
2013
Journal
Journal of Electromyography and Kinesiology. PMID: 23461833
Massimiliano Ditroilo 1, Iain J. Smith 2, Malcolm M. Fairweather 3, Angus M. Hunter 4
Department of Sport, Health & Exercise Science, Faculty of Science, University of Hull, England, United Kingdom; Don Building, Room 001A, Hull HU6 7RX, Tel.: +44 (0)1482 463859; fax: +44 (0)1482 463855. 2 Health and Exercise Sciences Research Group, University of Stirling, Scotland, United Kingdom 3 Sportscotland Institute of Sport, Stirling, Scotland, United Kingdom 4 Health and Exercise Sciences Research Group, University of Stirling, Scotland, United Kingdom. M.Ditroilo@ hull.ac.uk
NCBI
Journal of Electromyography and Kinesiology
Tensiomyography of selected lower-limb muscles in professional soccer players
2012
Journal
J Electromyogr Kinesiol. 2012 Dec;22(6):866-72. doi: 10.1016/j. jelekin.2012.06.003. Epub 2012 Jul 7. PMID: 22776612
Rey E, Lago-Peñas C, LagoBallesteros J.
Department of Sports Sciences, Faculty of Sports Sciences, University of Vigo, Pontevedra, Spain.
NCBI
Journal of Electromyography and Kinesiology
Functional differences in the musculature of the knee in professional female volleyball players
2012
Kronos
Kronos. 12/2011; 10(2):55-62. ISSN: 1579-5225. BDDS: Directory of Open Access Journals (DOAJ), LILACS (Literatura Latino-Americana e do Caribe em Ciências da Saúde), SciELO Scopus.
Diez Vega, I.2, Rodríguez-Matoso, D.1, Fernández-del Valle, M.2, Sagastume, R.3, Estevez, R.2, Molina, J.J.2, Rodríguez-Ruiz, D.1
Universidad de Las Palmas de Gran Canaria. 2 Universidad Europea de Madrid. 3 Universidad de País Vasco.
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Kronos
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Assessment of muscle response as a control tool in the area of physical activity, health, and sports
2012
Elsevier
Rev Andal Med Deporte. 2012;5(1):2840
D. Rodríguez-Matoso a, J.M. García-Manso a, S. Sarmiento a, Y. de Saa a, D. Vaamonde b, D. RodríguezRuiz a y M.E. da Silva-Grigoletto c,d
a Laboratorio de Análisis y Planificación del Entrenamiento Deportivo. Departamento de Educación Física de la Universidad de Las Palmas de Gran Canaria. Las Palmas de Gran Canaria. España. b Departamento de Ciencias Morfológicas. Facultad de Medicina de la Universidad de Córdoba. Córdoba. España. c Centro Andaluz de Medicina del Deporte. Córdoba. España. dAsociación Scientific Sport. Córdoba. España.
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Increased fatigability of the gastrocnemius medialis muscle in individuals with intermittent claudication
2012
Journal
Eur J Vasc Endovasc Surg. 2012 Aug;44(2):170-6. doi: 10.1016/j. ejvs.2012.04.024. Epub 2012 May 31. PMID: 22658608
Gasparini M, Sabovic M, Gregoric ID, Simunic B, Pisot R.
Department of Vascular Surgery, General Hospital Izola, Izola, Slovenia. mladen.gasparini@telemach.net
NCBI
Journal of Electromyography and Kinesiology
Between-day reliability of a method for non-invasive estimation of muscle composition
2012
Journal
J Electromyogr Kinesiol. 2012 Aug;22(4):527-30. doi: 10.1016/j. jelekin.2012.04.003. Epub 2012 Apr 29. PMID: 22546361
Šimunič B.
University of Primorska, Science and Research Centre Koper, Institute for Kinesiology Research, Slovenia. Bostjan.simunic@zrs.upr.si
NCBI
Journal of Electromyography and Kinesiology
Effect of high-load and high-volume resistance exercise on the tensiomyographic twitch response of biceps brachii
2012
Journal
J Electromyogr Kinesiol. 2012 Aug;22(4):612-9. ISSN: 1050-6411 doi: 10.1016/j.jelekin.2012.01.005. Epub 2012 Feb 15. PMID: 22341590
García-Manso JM, Rodríguez-Matoso D, Sarmiento S, de Saa Y, Vaamonde D, Rodríguez-Ruiz D, Da SilvaGrigoletto ME.
Laboratorio de Análisis y planificación del entrenamiento deportivo, Physical Education Department, University of Las Palmas de Gran Canaria, Spain.
NCBI
Journal of Electromyography and Kinesiology
Skeletal muscles in elite football players
2012
Magazine
MAGAZINE / PREPARAZIONE ATLETICA
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Calciatori
Assessment of eccentric exercise-induced muscle damage of the elbow flexors by tensiomyography
2012
Journal
J Electromyogr Kinesiol. 2012 Jun;22(3):334-41. doi: 10.1016/j. jelekin.2012.01.009. Epub 2012 Feb 13. PMID: 22336641
Hunter AM, Galloway SD, Smith IJ, Tallent J, Ditroilo M, Fairweather MM, Howatson G.
Health and Exercise Sciences Research Group, University of Stirling, Stirling, UK. a.m.hunter1@stir.ac.uk
NCBI
Journal of Electromyography and Kinesiology
The tensiomyography used for evaluating high level beach volleyball players
2012
Journal
Rev Bras Med Esporte vol.18 no.2 São Paulo Mar./Apr. 2012
David Rodríguez Ruiz; Miriam Esther Quiroga Escudero; Dario Rodríguez Matoso; Samuel Sarmiento Montesdeoca; José Losa Reyna; Yves de Saá Guerra; Gloria Perdomo
University of Las Palmas de Gran Canaria
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Scielo
The Influence of Different Elbow Angles on theTwitch Response of the Biceps Brachii Muscle Between Intermittent Electrical Stimulation
2012
InTech
Applied Biological Engineering Principles and Practice, Chapter 12, Edited by Dr. Ganesh R. Naik ISBN 978-953-51-0412-4. Hard cover, 662 pages. Publisher InTech 2012. DOI: 10.5772/35312 www.intechopen.com
Srdjan Djordjeviè1,3, Sašo Tomažiè2, Gregor Zupanèiè1, Rado Pišot3 and Raja Dahmane4
Department of Biology, Biotechnical Faculty, University of Ljubljana, Ljubljana, 2Department of Telecommunications, Faculty of Electrical Engineering, University of Ljubljana, Ljubljana, 3Institute for Kinesiology Research, Science and Research Center of Koper, University of Primorska, Koper, 4Medical Faculty, Institute of Anatomy, University of Ljubljana, Ljubljana, Slovenia
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Intech
The effect of recovery strategies on contractile properties using Tensiomyography and perceived muscle soreness in professional soccer players
2012
Journal
J Strength Cond Res. 2012 Nov;26(11):3081-8. doi: 10.1519/ JSC.0b013e3182470d33. PMID: 22210472
Rey E, Lago-Peñas C, LagoBallesteros J, Casáis L.
Department of Sports Sciences, Faculty of Sports Sciences, University of Vigo, Pontevedra, Spain.
NCBI
Journal of Strength & Conditioning Research
Assessment of the knee flexor and extensor muscles in older people according to their previous physical activity level
2011
Kronos
Kronos: la revista científica de actividad física y deporte, Vol. 10 (2), JulioDiciembre 2011, artículo 200.
Heredia, J., Rodríguez-Matoso, D., Mantecón, A., Sarmiento, S., García-Manso, J.M., Rodríguez-Ruiz, D.
Laboratorio de Análisis y Planificación del Entrenamiento Deportivo, Departamento de Educación Física, Universidad de Las Palmas de Gran Canaria
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Kronos
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Physical activity program effects on the functional efficiency of flexors and extensor’s knee and ankle in Alzheimer’s patients
2011
Journal
European Geriatric Medicine. 2S. Pág.: S154. ISSN: 1878-7659.
Sarmiento, S.; Rodríguez-Ruiz, D.; Rodríguez-Matoso, D.; De Saa, Y.; Bartolomé de la Rosa, D.; GarcíaManso, J.M.
University of Las Palmas de Gran Canaria
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Neuromuscular assessment in the study of structural changes of striated muscle in multiple sclerosis
2011
Journal
Rom J Morphol Embryol. 2011;52(4):1299-303. PMID: 22203937
Neamţu MC, Rusu L, Rusu PF, Neamţu OM, Georgescu D, Iancău M.
Department of Pathologic Physiology, University of Medicine and Pharmacy of Craiova, Romania. drcristianneamtu@yahoo.com
NCBI
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Comparison of the Contractile Properties of the m. Rectus Femoris in Young and Elderly Subjects Using Tensiomyography
2011
Presentation
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Stef Harley, MRS-P
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Tensiomyographic contraction time of selected skeletal muscles in elite football players
2011
Presentation
2nd International Scientific Conference EXERCISE AND QUALITY OF LIFE Novi Sad, Serbia: March 24 - 26, 2011 Proceedings Book
Šimunič B.
University of Primorska, Science and Research Centre Koper, Institute for Kinesiology Research, Slovenia. Bostjan.simunic@zrs.upr.si
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Assessment of Muscle Fatigue After an Ultra-endurance Triathlon Using Tensiomyography (TMG)
2011
Journal
J Sports Sci. 2011 Mar;29(6):619-25. doi: 10.1080/02640414.2010.548822. PMID: 21391085
García-Manso JM, Rodríguez-Ruiz D, Rodríguez-Matoso D, de Saa Y, Sarmiento S, Quiroga M.
Department of Physical Education, Universidad de Las Palmas de Gran Canaria, Las Palmas, Gran Canaria, Spain.
NCBI
Peer
Effect of Cold-Water Immersion on Skeletal Muscle Contractile Properties in Soccer Players
2011
Journal
Am J Phys Med Rehabil. 2011 May;90(5):356-63. doi: 10.1097/ PHM.0b013e31820ff352. PMID: 21765254
García-Manso JM, Rodríguez-Matoso D, Rodríguez-Ruiz D, Sarmiento S, de Saa Y, Calderón J.
Sports Training Analysis and Planning Laboratory, University of Las Palmas de Gran Canaria (ULPGC), Las Palmas de Gran Canaria, Madrid, Spain.
NCBI
American Journal of Physical Medicine & Rehabilitation
The Effectiveness of Two Novel Techniques in Establishing the Mechanical and Contractile Responses of Biceps Femoris
2011
Journal
Physiol Meas. 2011 Aug;32(8):1315-26. Epub 2011 Jul 15. PMID: 21765207
Ditroilo M, Hunter AM, Haslam S, De Vito G.
Institute for Sport and Health, University College Dublin, Ireland. TRIL (Technology Research for Independent Living) Centre, University College Dublin, Ireland. massimiliano.ditroilo@ucdconnect.ie
NCBI
IOP Science
Noninvasive Estimation of Myosin Heavy Chain Composition in Human Skeletal Muscle
2011
Journal
Med Sci Sports Exerc. 2011 Sep;43(9):1619-25. doi: 10.1249/ MSS.0b013e31821522d0. PMID: 21552151
Simunič B, Degens H, Rittweger J, Narici M, Mekjavič IB, Pišot R.
Institute for Kinesiology Research, Science and Research Centre Koper, University of Primorska, Koper, Slovenia. Bostjan.simunic@zrs.upr.si
NCBI
ELIB
Use of Tensiomyography for Early Detection of Muscle Injuries
2011
Presentation
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Petra Zupet1, Martin Zorko1, Sergej Rozman2, Srdjan Djordjevic2
Sports medicine unit, University Medical Centre Ljubljana, Slovenia; 2 TMG-BMC Ltd., Ljubljana, Slovenia
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Study of Mechanical Characteristics of the Knee Extensor and Flexor Musculature of Volleyball Players
2011
Journal
European Journal of Sport Science Volume 12, Issue 5, 2012 doi:10.1080/1 7461391.2011.568633
David Rodríguez-Ruiz1, Dario Rodríguez-Matosoa1, Miriam E. Quirogaa1, Samuel Sarmientoa1, Juan Manuel García-Mansoa1 Marzo E. Da Silva-Grigolettob2
Department of Physical Education, Univenidad de Las Palmas de Gran Canaria, Las Palmas de Gran Canaria, Spain 2Andalusian Center of Sports Medicine, Cordoba, Spain
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European Journal of Sport Science
Tensiomyographic Characteristics of Rectus Femoris after a Single Bout of Intense Exercise
2011
Journal
Journal of Social Sciences 7 (3): 354-357, 2011. ISSN 1549-3652 DOI: 10.3844/jssp.2011.354.357
1Luis Carrasco Paez, 1Borja Sañudo Corrales 1Moises de Hoyo Lora, 2Gabriela Ochiana
Department of Physical Education and Sport, University of Seville, Spain 2Department of Sports and Human Movement Sciences, Faculty of Health, University “Vasile Alecsandri” of Bacau, Romania
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BioMedSearch
Reproducibility of Muscle Response Measurements Using Tensiomyography in a Range of Positions
2010
Elsevier
Rev Andal Med Deporte. 2010;3(3):8186
D. Rodríguez-Matoso a, D. Rodríguez-Ruiz a, S. Sarmiento a, D. Vaamonde b, M.E. Da SilvaGrigoletto b and J.M. García-Manso c
Physical Education Department. School of Physical Activity and Sport Sciences. University of Las Palmas de Gran Canaria. Las Palmas de Gran Canaria. Spain. c Andalusian Center of Sports Medicine. Córdoba. Spain. b Morphological Sciences Department. School of Medicine. University of Córdoba. Córdoba. Spain.
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Elsevier
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Inter-Rater Reliability of Muscle Contractile Property Measurements Using Non-Invasive Tensiomyography
2010
Journal
J Electromyogr Kinesiol. 2010 Aug;20(4):761-6. doi: 10.1016/j. jelekin.2010.02.008. Epub 2010 Mar 16. PMID: 20236839
Tous-Fajardo J, Moras G, RodríguezJiménez S, Usach R, Doutres DM, Maffiuletti NA.
Sports Science Research Group, Institut Nacional d’Educacio Fisica de Catalunya, Centro de Barcelona, Avda. de l’Estadi s/n, Anella Olimpica de Montjuic, Barcelona, Spain. juliotous@mastercede.com
NCBI
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Transversal and Longitudinal Twitch Response of Biceps Brachii
2010
Journal
Medicina Sportiva” Nr.10 - 2007
Boštjan Šimunič1,2, Dejan Križaj2, Rado Pišot1
1University of Primorska, Scientific Research Centre Koper, Institute of Kinesiology Research, Slovenia 2University of Ljubljana, Faculty of Electrical Engineering, Slovenia
Tensiomyography in Physical Rehabilitation of High Level Athletes
2010
Journal
The Open Sports Sciences Journal, 2010, 3, 47-48
Pedro S. Dias1, Joan S. Fort2, Daniel A. Marinho1,3, Albano Santos1 and Mário C. Marques1,3
University of Beira Interior, Sport Sciences Department (UBI, Covilhã, Portugal) 2Universidade de Barcelona, Instituto Nacional de Educação Física da Catalunha, (INEFC, Barcelona, Spain) 3Research Centre in Sports, Health and Human Development (CIDESD, Vila Real, Portugal)
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Bentham Science Publishers
Tensiomyographic Measurements Of Muscle Atrophy Dynamics During 35-Day Bed Rest
2010
Presentation
Life in Space for Life on Earth Session: Session 9a: Muscle Physiology I (15). Oral presentation. Wednesday, June 16, 2010 Time: 14:00 - 15:30
B. Simunic, J. Rittweger, H. Dagens, M. Narici, P. Di Prampero, S. Lazzer, G. Biolo, I.B. Mekjavic, R. Pisot
Life in Space for Life on Earth Session: Session 9a: Muscle Physiology I (15) Type: Oral presentation Date: Wednesday, June 16, 2010 Time: 14:00 - 15:30 ISSBB conference 2010
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Congrex
Tensiomyography as muscle evaluation tool in sports Original: La tensiomiografía como herramienta de evaluación muscular en el deporte
2010
Elsevier
Published in Rev Andal Med Deporte.2010; 03 :98-102 - vol.03 num 03
J.M. García-Manso a, D. RodríguezMatoso a, S. Sarmiento a, Y. De Saa a; D. Vaamonde b, D. Rodríguez-Ruiz a y M.E. Da Silva-Grigoletto c
Laboratorio de Análisis y Planificación del Entrenamiento Deportivo. Departamento de Educación Física de la Universidad de Las Palmas de Gran Canaria. Las Palmas de Gran Canaria. España. b Departamento de Ciencias Morfológicas. Facultad de Medicina de la Universidad de Córdoba. Córdoba. España. c Centro Andaluz de Medicina del Deporte. Córdoba. España.
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Elsevier
Contractile Parameters Comparison between Twelve Skeletal Muscles in Inter-dance Couple Athletes
2010
Journal
Kinesiologia Slovenica, 16, 3, 57–65 (2010)
Meta Zagorc1 Boštjan Šimunič2 Rado Pišot2 Goran Oreb3
University of Ljubljana, Faculty of Sport, Slovenia 2University of Primorska, Scientific and Research Centre Koper, Institute for Kinesiology Research, Slovenia 3University of Zagreb, Faculty of Kinesiology, Croatia *Corresponding author: Meta Zagorc, PhD University of Ljubljana, Faculty of Sport, Gortanova 22, 1000 Ljubljana, Slovenia Phone: 00-386 (0)1 520 7763 Email: meta.zagorc@guest.arnes. si
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Assesment of knee stability using neuromuscular measurement in soccer players
2009
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Rusu L, Cernaianu S, Vasilescu M, Baltac G, Ciocanescu D, Fortan C
Department of Sport Medicine and Rehabilitation, University of Craiova, Craiova, Romania. ligiarusu@hotmail.com
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Neuromuscular Investigation in Diabetic Polyneuropathy (Case report)
2009
Journal
Rom J Morphol Embryol. 2009;50(2):283-290. PMID: 19434324
L. Rusu, M.L. Calina, E.T. Avramescu, E. Paun, M. Vasilescu
Department of Sport Medicine and Rehabilitation, University of Craiova, Craiova, Romania. ligiarusu@hotmail.com
NCBI
Europe PMC
The Effect of Ageing on Contraction Time of Postural and Non-Postural Skeletal Muscles in Master Athletes
2009
Presentation
Faculty of Sport and Physical Education, Novi Sad, Serbia; EQOL, Volume I, Issue I.
B. Šimunic 1, R. Pišot 1, J. Rittweger 2
Institute for Kinesiology Research, Science and Research centre of Primorska, University of Primorska, Koper, Slovenia 2 Institute for Biomedical Research into Human Movement and Health, Manchester Metropolitan University, UK
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Short Term Repeatibility of Parameters Extracted from Radial Displacement of Muscle Belly
2008
Journal
J Electromyogr Kinesiol. 2008 Aug;18(4):645-51. Epub 2007 Mar 26. PMID: 17379538
D. Krizaj, B. Simunic, T. Zagar
Faculty of Electrical Engineering, University of Ljubljana, Trzaska 25, 1000 Ljubljana, Slovenia. dejan.krizaj@fe.uni-lj.si
NCBI
Journal of Electromyography and Kinesiology
Whole Muscle Contractile Parameters and Thickness Loss During 35-day Bed Rest
2008
Journal
Eur J Appl Physiol. 2008 Sep;104(2):409-14. Epub 2008 Feb 23. PMID: 18297302
R. Pisot, M.V. Narici, B. Simunic, M. De Boer, O. Seynnes, M. Jurdana, G. Biolo, I.B. Mekjavic
Institute of Kinesiology Research, University of Primorska, Science and Research Centre of Koper, 6000, Koper, Slovenia. rado.pisot@zrs.upr.si
NCBI
Springer link
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Regular Sport Activity does not Prevent Skeletal Muscle Contraction Time Loss in Master Athletes
2008
Presentation
Brno EVACS
Boštjan Šimunic 1, Rado Pišot 1, Jörn Rittweger 2 Igor B Mekjavic 3
Institute for Kinesiology Research, Science and Research centre of Primorska, University of Primorska, Koper, Slovenia 2 Institute for Biophysical and Clinical Research into Human Movement, Manchester Metropolitan University, UK 3 Department of Automation, Biocybernetics and Robotics, Institute of Josef Stefan, Ljubljana, Slovenia
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Atrophy dynamics of quadriceps muscles during 35 days of bed rest
2008
Presentation
EJAP Bedrest 2008
Šimunic Boštjan 1, Križaj Dejan 2, Rittweger Jörn 3, Narici Marco 3, Mekjavic B Igor 4, Pišot Rado 1
Institute for Kinesiology Research, Science and Research Centre of Koper, University of Primorska, Slovenia 2 Laboratory for Bioelectromagnetics, Faculty of Electrical Engineering, University of Ljubljana, Slovenia 3 Institute for Biophysical and Clinical Research into Human Movement, Manchester Metropolitan University, UK 4 Department of Automation, Biocybernetics and Robotics, Institute of Josef Stefan, Slovenia
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The 5 Year Follow-up Study of Body Mass Index in Correlation to Skeletal Muscle Belly Stiffness and Lateral Symmetry
2008
Preprint
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Boštjan Šimunic 1, Franjo Prot 2 and Rado Pišot 1
Institute of Kinesiology Research, Science and Research Centre of Koper, University of Primorska, Koper, Slovenia 2 Faculty of Kinesiology, University of Zagreb, Zagreb, Croatia
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Tensiomyography as method of evaluating muscles status
2007
Journal
Acta Med Croatica. 2007;61 Suppl 1:23-6. PMID: 18949921
Markulincić B, Muraja S.
Specijalna bolnica za fizikalnu medicinu i rehabilitaciju, Stubicke Toplice, Hrvatska.
NCBI
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Evaluation of Muscle Dynamic Response Measured Before and After Treatment of Spastic Muscle with a BTX-A - a case study
2007
Presentation
11th Mediterranean Conference on Medical and Biomedical Engineering and Computing 2007; IFMBE Proceedings Volume 16, 2007, pp 393-396
D. Križaj 1, K. Grabljevec 2, B. Šimunic 3,4
University of Ljubljana, Faculty of Electrical Engineering, Ljubljana, Slovenia 2 Institute for rehabilitation, Ljubljana, Slovenia 3 University of Primorska, Institute of Kinesiology Research, SRC Koper, Koper, Slovenia 4 TMG-BMC Ltd., Ljubljana, Slovenia
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Springer link
Skeletal Muscle Differentiation Related to Child Physical Activity
2007
Presentation
Zbornik radova interdisciplinarne naučne konferencije sa međunarodnim učešćem Antropološki status i fizička aktivnost dece, omladine i odraslih, Str. 249-258; Novi Sad, 6-7. decembar 2007
Rado Pišot 1, Petra Dolenc 1, Mihaela Jurdana 2, Tina Šetina 3, Tadeja Volmut 4, Boštjan Šimunič 5
University of Primorska, Science and Research Centre of Koper, Slovenia; University of Primorska, Faculty of Education, Slovenia 2 University of Primorska, Science and Research Centre of Koper, Slovenia; University of Primorska, College of Health Care Izola, Slovenia 3 University of Primorska, Science and Research Centre of Koper, Slovenia; 4 University of Primorska, Science and Research Centre of Koper, Slovenia 4 University of Primorska, Faculty of Education, Slovenia 5 University of Primorska, Science and Research Centre of Koper, Slovenia
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Adaptive potential of human biceps femoris muscle demonstrated by histochemical, immunohistochemical and mechanomyographical methods
2006
Journal
Med Biol Eng Comput. 2006 Nov;44(11):999-1006. Epub 2006 Oct 6. PMID: 17024467
R. Dahmane, S. Djordjevic, V. Smerdu
Institute of Anatomy, Medical Faculty, University of Ljubljana, Korytkova 2, Ljubljana, Slovenia. raja.dahmane@guest.arnes.si
NCBI
Springer link
Biomechanical Properties of Calf Muscles in Patients with Peripheral Artery Disease
2006
Presentation
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M. Gasparini, M. Sabovic, B. Simunic, R. Pisot, V. Videcnik
Institute of Kinesiology Research, University of Primorska, Science and Research Centre of Koper, 6000, Koper, Slovenia.
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Spatial Fiber Type Distribution in Normal Human Muscle - Histochemical and Tensiomyographical Evaluation
2005
Journal
J Biomech. 2005 Dec;38(12):2451-9. PMID: 16214493
R. Dahmane, S. Djordjevic, B. Simunic, V. Valencic
University College for Health Studies, Poljanska 26 a, 1000 Ljubljana, Slovenia. raja.dahmane@guest.arnes.si
NCBI
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Histochemical and Tensiomyographical Analysis of Sedentary Men and Sprinters Biceps Femoris
2005
Presentation
10th European College of Sport Science. Annual Congress : July 13-16, 2005: Belgrade. Book of abstracts. Sport Medicine Association of Serbia, [2005], str. 280. [COBISS.SI-ID 910291]
Djordjevič Srdjan1,3, Dahmane Raja2 , Šimunič Boštjan1,3 , Pišot Rado1, Kropej Veronika L.1
Institut for Kinesiology, Science and Research Centre of Koper, University of Primorska, Slovenia 2University College for Health Studies, University of Ljubljana, Slovenia 3TMG-BMC Ltd, Biomedical Consulting, Ljubljana, Slovenia
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SMAS
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NCBI LINK
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Monitoring of Biceps Femoris (BF) Activation Pattern Changes between Maximal and Supramaximal Sprints
2005
Presentation
10th European College of Sport Science. Annual Congress: July 13-16, 2005: Belgrade. Book of abstracts. Sport Medicine Association of Serbia.
Djordjevič Srdjan1,2, Rozman Sergej1, Pišot Rado2
TMG-BMC Ltd, Biomedical Consulting, Ljubljana, Slovenia 2Institut for Kinesiology, Science and Research Centre of Koper, University of Primorska, Slovenia
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SMAS
Validation of an accelerometer for determination of muscle belly radial displacement
2005
Journal
Medical and Biological Engineering and Computing 2005, Volume 43, Issue 1, pp 78-84
Zagar T1, Krizaj D.
1Faculty of Electrical Engineering, Laboratory for Bioelectromagnetics, Ljubljana, Slovenia
NCBI
Springer link
Strength and endurance of knee extensors in subjects after paralytic poliomyelitis
2005
Journal
Disabil Rehabil. 2005 Jul 22;27(14):7919. PMID: 16096231
Grabljevec K, Burger H, Kersevan K, Valencic V, Marincek C.
Institute for Rehabilitation and University of Ljubljana, Faculty of Electrical Engineering, Slovenia. klemen.grabljevec@mail.ir-rs.si
NCBI
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Biomechanical Properties of Skeletal Muscle in Child The Chronological Overview
2005
Presentation
10th European College of Sport Science. Annual Congress : July 13-16, 2005: Belgrade. Book of abstracts. Sport Medicine Association of Serbia, [2005], str. 201. [COBISS.SI-ID: 909779]
B. Šimunic1,2, R. Pišot1, S. Rozman2, J. Planinšec1
Institut for Kinesiology, Science and Research Centre of Koper, University of Primorska, Slovenia 2TMG-BMC Ltd, Biomedical Consulting, Ljubljana, Slovenia
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SMAS
Detecting the Velocity of the Muscle Contraction
2005
Presentation
New technologies in sport, Sarajevo 2005
Boštjan Šimunič1,2, Sergej Rozman1, Rado Pišot2
TMG-BMC Ltd, Biomedical Consulting, Ljubljana, Slovenia 2 Institut for Kinesiology, Science and Research Centre of Koper, University of Primorska, Slovenia
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Transversal and Longitudinal Twitch Response of Biceps Brachii
2005
Presentation
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Boštjan Šimunic 1, 2, Dejan Križaj 2, Marco Narici 3, Rado Pišot 1
Institute of Kinesiology Research, Scientific and Research Centre Koper, University of Primorska, Koper, Slovenia 2 Laboratory for muscle biomechanics, Faculty of Electrical Engineering, University of Ljubljana, Ljubljana, Slovenia 3 Institute for Biomedical Research into Human Movement and Health, Manchester, Metropolitan University, Manchester, Great Britain
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Age Related Changes of the Skeletal Muscle Contractile Properties
2005
Presentation
Opatija 2005
Boštjan Šimunic1, Rado Pišot1, Srdjan Djordjevic1, Otmar Kugovnik2
1Institute for Kinesiology, Science and Research Centre Koper, University of Primorska, Slovenia 2 Faculty of Sport, University of Ljubljana, Slovenia
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Detection of Contractile Properties of Chronically Spastic Muscles in Subjects After Traumatic Brain Injury with Tensiomyographic (TMG) Method
2004
Journal
Int. j. rehabil. res., June 2004, vol. 27, suppl. 1, str. 132-133. [COBISS.SI-ID 526441]
K. Grabljevec¹, B. Šimunic², K. Kerševan², D. Križaj², V.Košorok¹ and M.Gregoric¹
Institute for Rehabilitation, Ljubljana, Slovenia ²University of Ljubljana, Faculty of Electrical Engineering, Ljubljana, Slovenia
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Differentiation of skeletal muscles in 9-year old children
2004
Journal
Kinesiology (Zagreb). [English ed.], 2004, vol. 36, no. 1, str. 90-97, graf. prikazi. [COBISS.SI-ID 718291].
Rado Pišot1,2; Katarina Kerševan3; Srdjan Djordjević3; Vladimir Medved4; Jernej Završnik2; Boštjan Šimunič3
Faculty of Education, University of Primorska, Slovenia 2Science and Research Centre Koper, University of Primorska, Slovenia 3Faculty of electrical engineering, University of Ljubljana, Ljubljana, Slovenija 4Faculty of Kinesiology, University of Zagreb, Croatia
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Hrcak
Geometric Model of Muscle Contraction
2003
Journal
EUROCON 2003. Computer as a Tool. The IEEE Region 8: Ljubljana 22-24 Sept. 2003, Vol.2, Page(s): 206 - 208
I. Hafner, B. Simunic, V. Valencic, S. Djordjevic, P. Stusek, G. Znidaric
Faculty of electrical engineering, University of Ljubljana, Ljubljana, Slovenija
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IEE explore
Tensiomyographic and electromyographic methods for neuro-muscular system assessment: information content, differences and applications
2003
Preprint
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V. Valencic, S. Djordjevic, K. Kersevan, B. Simunic
University of Ljubljana, Faculty of Electrical Engineering,
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The Muscle Adaptation Process as a Result of Pathological Changes or Specific Training Procedures
2002
Journal
Cell Mol Biol Lett. 2002;7(2):367-9. PMID: 12097988
K. Kersevan, V. Valencic, S. Djordjevic, B. Simunic
Laboratory of Biomedical Visualization and Muscle Biomechanics, Faculty of Electrical Engineering, University of Ljubljana, SI-1000, Ljubljana, Slovenia.
NCBI
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Povezanost maksimalne hitrosti teka s kontraktilnimi lastnostmi mišic
2002
Presentation
ZAJC, Baldomir (ur.). Zbornik enajste mednarodne Elektrotehniške in racunalniške konference ERK 2002, 23.-25. september 2002, Portorož, Slovenija. Ljubljana: IEEE Region 8, Slovenska sekcija IEEE, [2002], zv. B, str. 329-332. [COBISS.SI-ID 3206740]
U. Praprotnik, V. Valencic, M. Coh, B. Simunic
Laboratory of Biomedical Visualization and Muscle Biomechanics, Faculty of Electrical Engineering, University of Ljubljana, SI-1000, Ljubljana, Slovenia
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The Comparison of Dynamic Characteristics of Skeletal Muscles in two Groups of Sportsmen Sprinters and Cyclists
2001
Preprint
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S. Djordjevic, V. Valencic, B. Jurcic-Zlobec
University of Ljubljana, Faculty of Electrical Engineering
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Tensiomyography - Detection of skeletal muscle response by means of radial muscle belly displacement
2001
Preprint
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V. Valencic, N. Knez, B. Simunic
University of Ljubljana, Faculty of Electrical Engineering Laboratory for Biomedical Visualisation and Biomechanics of Skeletal muscels, Slovenia
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Evaluation of the Ability to Make Non-invasive Estimation of Muscle Contractile Properties on the Basis of the Muscle Belly Response
2001
Journal
Med Biol Eng Comput. 2001 Jan;39(1):51-5. JCR IF (1999): 1.004; SE, x: 0.661 (13/76), computer science, interdisciplinary applications, x: 1.055 (16/43), engineering, biomedical, x: 1.014 (9/19), medical informatics. PMID: 11214273
R. Dahmane 1 V. Valenčič 2 N. Knez 2 I. Eržen 1
Institute of Anatomy, Medical Faculty, Ljubljana, Slovenia 2Faculty of Electrical Engineering, University of Ljubljana, Slovenia
NCBI
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Merjenje dinamike živčnomišične utrujenosti z metodo imenovano tenziomiografija
1999
Journal
Atletika (Ljubl.), 1999, št. 20/21, str. XI-XIII, ilustr. [COBISS-ID 486065]
PRAPROTNIK Urban, VALENČIČ Vojko, ČOH Milan
University of Ljubljana Faculty of Electrical Engineering Trzaska 25, 1000 Ljubljana, Slovenia Laboratory for Biomedical Visualization and Muscle Biomechanics Laboratory for Computational Electromagnetics
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Measuring of skeletal muscles’ dynamic properties
1997
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Artif Organs. 1997 Mar;21(3):240-2. [COBISS-ID 781908] JCR IF: 0.893; SE, x: 1.138 (21/41), engineering, biomedical. PMID: 9148715
Valencic V, Knez N.
Faculty of Electrical Engineering, University of Ljubljana, Slovenia.
NCBI
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Properties of musculus gluteus maximus in above-knee amputees
1996
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Clin Biomech (Bristol, Avon). 1996 Jan;11(1):35-38. [COBISS-ID 781652] JCR IF: 0.746; SE, x: 0.723 (15/37), orthopedics, x: 1.138 (24/41), engineering, biomedical. PMID: 11415596
Burger H, Valencic V, Marincek C, Kogovsek N.
University Rehabilitation Institute, University of Ljubljana, Ljubljana, Slovenia.
NCBI
SciVerse