This article reviews the scientific literature on the biomechanics of kicking in soccer. Recent research has expanded beyond just the kicking leg to consider the entire kicking motion from approach to ball impact to ball flight. Studies have explored characteristics of overall technique, the influences of the upper body, support leg and pelvis on kicking, as well as foot-ball impact, footwear effects, and ball launch characteristics. The review evaluates this recent research and identifies directions for future study to further understand factors that affect kicking performance.
This document discusses shoulder impingement syndrome, including its anatomy, causes, symptoms, diagnosis, stages, and treatment approaches. It provides details on the rotator cuff muscles, signs and symptoms of impingement, external and internal factors that can lead to impingement, stages of the syndrome, common tests used for diagnosis, goals of treatment, and manual therapy, therapeutic exercise, and preventative measures used in treatment.
The document discusses shin pain in athletes, which can be caused by bone stress, vascular issues, inflammation, nerve entrapment, and biomechanical factors related to foot type; it provides details on the clinical perspectives, pain sites, effects of exercise, and treatments for various conditions like stress fractures, periostitis, and compartment syndrome; treatments discussed include rest, bracing, electrical stimulation, ultrasound, stretching, orthotics, and physiotherapy.
Apply pressure to cuff to flatten lumbar curve
Client attempts to maintain neutral spine by contracting TA
Assess ability to maintain neutral spine with increasing pressure
Assess symmetry of contraction
Poor control = inability to maintain neutral or asymmetric contraction
6/19/2012 Ratankhuman M.P.T. (Ortho & Sports) 33
Abdominal Neuromuscular Control Test
Supine with hips & knees in 90
Pressure cuff placed under lum
Patellar tendinopathy, also known as jumper's knee, is a chronic overuse injury caused by repetitive stress on the knee extensor mechanism from activities like jumping, running, and kicking. It results from microtears in the patellar tendon from forces that are 3 times greater than normal during movements like acceleration, deceleration, takeoff, and landing. Symptoms include dull aching knee pain after exercise that worsens with sitting or stairs. Treatment focuses on eccentric strengthening exercises and bracing to promote healing of the tendon.
This document discusses prosthetic gait patterns and deviations. It begins by explaining that amputee gait varies from normal gait, with increased energy expenditure and use of different muscle groups. Gait analysis is needed to identify deviations and their causes. Key aspects of transtibial and transfemoral gait patterns and common deviations are described, including excessive or insufficient knee flexion, lateral thrust, and vaulting or hip hiking during swing phase. Gait training involves static and dynamic evaluation, starting with activities off the prosthesis and progressing to ambulation with or without aids on different surfaces.
Physiotherapy management for rheumatoid arthritissenphysio
Rheumatoid arthritis is an autoimmune disease that causes chronic inflammation of the joints. It most commonly affects women and can lead to joint damage, deformity, and disability over time. Physiotherapy plays an important role in managing rheumatoid arthritis by providing pain relief, preventing deformities, improving flexibility and strength, and maintaining functional ability. Treatment involves heat/cold therapy, exercises, joint protection techniques, and alternative therapies to help reduce inflammation and preserve joint function. The goals of physiotherapy are to protect joints, relieve pain, and prevent disability through regular exercise and mobility work.
- The ACL originates on the lateral femoral condyle and inserts on the tibia, providing primary stability to prevent anterior tibial translation.
- Most ACL tears are non-contact injuries involving sudden deceleration, change of direction, or landing from a jump with the knee near full extension.
- Physical exam includes Lachman, anterior drawer, and pivot shift tests to assess knee stability. MRI is used to confirm ACL tear.
- Treatment options include conservative rehab for partial or low-grade tears or ACL reconstruction surgery using grafts like patellar tendon or hamstring tendons fixed with interference screws. Post-op rehab emphasizes early range of motion and weight bearing.
The posterior cruciate ligament (PCL) is one of the four major ligaments of the knee. It connects the posterior intercondylar area of the tibia to the medial condyle of the femur. The PCL prevents the femur from sliding off the anterior edge of the tibia and prevents hyperextension of the knee. Injuries to the PCL typically occur from direct blows to the flexed knee, falling on the knee, or hyperextension injuries. Treatment involves rest, bracing, and physical therapy, with surgery required for complete tears.
This document discusses shoulder impingement syndrome, including its anatomy, causes, symptoms, diagnosis, stages, and treatment approaches. It provides details on the rotator cuff muscles, signs and symptoms of impingement, external and internal factors that can lead to impingement, stages of the syndrome, common tests used for diagnosis, goals of treatment, and manual therapy, therapeutic exercise, and preventative measures used in treatment.
The document discusses shin pain in athletes, which can be caused by bone stress, vascular issues, inflammation, nerve entrapment, and biomechanical factors related to foot type; it provides details on the clinical perspectives, pain sites, effects of exercise, and treatments for various conditions like stress fractures, periostitis, and compartment syndrome; treatments discussed include rest, bracing, electrical stimulation, ultrasound, stretching, orthotics, and physiotherapy.
Apply pressure to cuff to flatten lumbar curve
Client attempts to maintain neutral spine by contracting TA
Assess ability to maintain neutral spine with increasing pressure
Assess symmetry of contraction
Poor control = inability to maintain neutral or asymmetric contraction
6/19/2012 Ratankhuman M.P.T. (Ortho & Sports) 33
Abdominal Neuromuscular Control Test
Supine with hips & knees in 90
Pressure cuff placed under lum
Patellar tendinopathy, also known as jumper's knee, is a chronic overuse injury caused by repetitive stress on the knee extensor mechanism from activities like jumping, running, and kicking. It results from microtears in the patellar tendon from forces that are 3 times greater than normal during movements like acceleration, deceleration, takeoff, and landing. Symptoms include dull aching knee pain after exercise that worsens with sitting or stairs. Treatment focuses on eccentric strengthening exercises and bracing to promote healing of the tendon.
This document discusses prosthetic gait patterns and deviations. It begins by explaining that amputee gait varies from normal gait, with increased energy expenditure and use of different muscle groups. Gait analysis is needed to identify deviations and their causes. Key aspects of transtibial and transfemoral gait patterns and common deviations are described, including excessive or insufficient knee flexion, lateral thrust, and vaulting or hip hiking during swing phase. Gait training involves static and dynamic evaluation, starting with activities off the prosthesis and progressing to ambulation with or without aids on different surfaces.
Physiotherapy management for rheumatoid arthritissenphysio
Rheumatoid arthritis is an autoimmune disease that causes chronic inflammation of the joints. It most commonly affects women and can lead to joint damage, deformity, and disability over time. Physiotherapy plays an important role in managing rheumatoid arthritis by providing pain relief, preventing deformities, improving flexibility and strength, and maintaining functional ability. Treatment involves heat/cold therapy, exercises, joint protection techniques, and alternative therapies to help reduce inflammation and preserve joint function. The goals of physiotherapy are to protect joints, relieve pain, and prevent disability through regular exercise and mobility work.
- The ACL originates on the lateral femoral condyle and inserts on the tibia, providing primary stability to prevent anterior tibial translation.
- Most ACL tears are non-contact injuries involving sudden deceleration, change of direction, or landing from a jump with the knee near full extension.
- Physical exam includes Lachman, anterior drawer, and pivot shift tests to assess knee stability. MRI is used to confirm ACL tear.
- Treatment options include conservative rehab for partial or low-grade tears or ACL reconstruction surgery using grafts like patellar tendon or hamstring tendons fixed with interference screws. Post-op rehab emphasizes early range of motion and weight bearing.
The posterior cruciate ligament (PCL) is one of the four major ligaments of the knee. It connects the posterior intercondylar area of the tibia to the medial condyle of the femur. The PCL prevents the femur from sliding off the anterior edge of the tibia and prevents hyperextension of the knee. Injuries to the PCL typically occur from direct blows to the flexed knee, falling on the knee, or hyperextension injuries. Treatment involves rest, bracing, and physical therapy, with surgery required for complete tears.
At the end of the lecture, the students should be able to:
Discuss the theoretical basis of the neurodevelopmental approaches
Discuss the concepts and principles underlying the Bobath approach
Discuss the concepts and principles underlying the Brunnstrom approach
The document discusses sports injury evaluation and management on and off the field. It describes conducting a thorough subjective and objective injury assessment, including observation, palpation, and range of motion testing. For on-field management, it recommends following an ABCDE approach to assess airway, breathing, circulation, disability, and exposure/environment. It emphasizes the importance of stabilizing any life-threatening injuries before transporting an athlete for further medical care. Musculoskeletal injuries are common in sports and may require splinting or referral for risks like fractures, dislocations, or neurovascular compromise.
This document outlines an ACL reconstruction rehabilitation protocol with the following key phases:
1. The preoperative phase focuses on controlling pain and swelling, restoring range of motion through various exercises, and developing muscle strength before surgery.
2. Understanding the surgery involves a local anesthetic injection for pain control, potential use of a drainage tube, and a Cryocuff being applied before leaving the operating room.
3. The postoperative phases involve strict guidelines for range of motion and strength exercises over the first 6-12 months to ensure a full recovery, including the use of crutches, bracing, cycling and other low-impact activities.
Physiotherapy Management in Peripheral nerve & Plexus injuriesSreeraj S R
1. The document discusses various aspects of peripheral nerve anatomy and injury. It describes the formation and branches of the major plexuses from spinal nerves and classifies peripheral nerve injuries.
2. Mechanisms of nerve injury including compression, ischemia, traction and friction are outlined. The process of nerve degeneration and regeneration after injury is explained.
3. Methods for assessing peripheral nerve injuries are provided, including history taking, physical examination techniques, and electrodiagnostic studies. Specific peripheral nerves like the radial and ulnar nerves are used as examples.
Lumbar Spnine: Anatomy, Biomechanics and PathomechanicsRadhika Chintamani
This document discusses the anatomy and biomechanics of the lumbar spine. It begins with an introduction describing the basic structure and lordotic curves of the spine. It then covers topics like the typical vertebrae, articulating joints, intervertebral discs, and ligaments. It discusses concepts such as the articular tripod mechanism and load distribution across the facets. The document provides clinical relevance for various anatomical structures and their relationship to pathologies like fractures, spondylolysis, and nerve impingement. In summary, the document provides a detailed overview of lumbar spine anatomy, biomechanics, and common pathomechanics.
This document discusses total knee replacement (TKR) and the physiotherapy rehabilitation process. It covers pre-surgical physiotherapy focusing on strength and mobility. Post-surgical physiotherapy is divided into phases focusing initially on range of motion and strengthening, then adding balance and proprioception training. The goals and key exercises of each phase are outlined in detail over 12 weeks of recovery. Complications of TKR like infection, loosening and failure are also mentioned.
Turf toe is an injury to the big toe caused by sudden forced extension of the toe upwards beyond its normal range of motion. This can occur during sports on hard artificial surfaces when an athlete's foot is forcibly stopped by their shoe gripping the ground. It damages the ligaments and joint capsule of the big toe, causing pain, swelling, and reduced motion. Treatment focuses on RICE and may include immobilization, physical therapy, or surgery for severe cases. Prevention involves wearing shoes with better support and limiting time on hard artificial surfaces.
competitive swimming injuries- causes and prevention Edward Loniewski
This document provides an outline and overview of common swimming injuries, including swimmer's shoulder, breaststroke knee, spondylolysis, growth plate disorders, and sprains/strains. It discusses the causes, symptoms, diagnoses, and treatment approaches for each condition. The document is intended to help coaches, parents, physicians, and swimmers understand and address orthopedic injuries that frequently occur in competitive swimming.
This document provides an overview of pes planus (flat foot) including the anatomy of the foot arches, definition and causes of pes planus, and discussions of common causes such as flexible flat foot, congenital vertical talus, tarsal coalition, and posterior tibial tendon disorder. Flexible flat foot is usually asymptomatic in infants and children. Congenital vertical talus is a rigid deformity characterized by dorsal dislocation of the talonavicular joint. Treatment involves serial casting or surgery to gradually correct contractures and restore normal anatomy.
The document discusses the biomechanics of different swimming strokes and common shoulder injuries in swimmers. It describes the phases and muscle activity involved in the freestyle, butterfly, backstroke, and breaststroke strokes. It notes that the shoulders are most vulnerable to injury due to the repetitive overhead motion required. Swimmers with painful shoulders often have decreased activity of the serratus anterior and teres minor muscles, resulting in a less stable scapula. Maintaining proper technique can help reduce humeral hyperextension and risk of injury.
This document discusses several age-related changes in older adults and athletes including decreases in bone mineral density and muscle mass as well as increased risk of arthritis. It also covers how exercise can help maintain flexibility, range of motion, metabolic rate, and cardiovascular and respiratory function in older age. The benefits of exercise include improved strength, endurance, psychological well-being and social interaction. Proper training should account for individual abilities and health conditions.
Shoulder dislocation with physiotherapy managementKrishna Gosai
The document summarizes the types, diagnosis, treatment, and physiotherapy management of shoulder dislocations. There are three main types of shoulder dislocations - anterior, posterior, and luxatio erecta. Anterior dislocations are the most common, often caused by a fall on an outstretched hand. Treatment involves reduction, immobilization for 3 weeks, followed by a mobilization phase and physiotherapy to regain full range of motion. Physiotherapy focuses on strengthening muscles around the shoulder and regaining passive range of motion to prevent recurrent dislocations and return to full function.
Shoulder impingement syndrome occurs when the tendons of the rotator cuff muscles become irritated and inflamed as they pass through the subacromial space under the coraco-acromial arch. It results in pain, weakness, and loss of movement, especially in an arc between 45-160 degrees of shoulder abduction and elevation. Causes include repeated overhead arm use, trauma, poor posture, and degenerative changes. Clinical features are pain at rest or with movement, and limited range of motion. Diagnosis involves x-rays and MRI, while special tests like Neer's and Hawkins' tests reproduce shoulder pain. Treatment consists of rest, anti-inflammatories, physical therapy including stretching,
Piriformis syndrome is an underdiagnosed cause of buttock and leg pain that can result from myofascial pain or sciatic nerve compression by the piriformis muscle. It most commonly affects middle-aged females and accounts for 5-6% of sciatica cases. Diagnosis is challenging as symptoms can mimic other conditions, but involves physical exams like the Freiberg test and imaging. Treatment includes physical therapy, medications, piriformis muscle injections, or rarely surgery.
Myofascial release refers to the manual
technique for stretching the fascia and
releasing bonds between fascia and
Lintegument, musles,and bones, with the goal of
eliminating pain, increasing range of motion
and balancing the body.
This document provides information on meniscal tears of the knee. It begins with an introduction stating that meniscal tears are common injuries responsible for many arthroscopies annually. It then covers anatomy of the medial and lateral menisci, blood supply, classification of tears, mechanisms of injury, clinical features, investigations like MRI and arthroscopy, and treatment options including non-operative care, meniscectomy, and meniscal repair. The focus is on providing detailed information on meniscal anatomy, tears, and surgical and non-surgical management.
The document analyzes the biomechanics of two types of soccer kicks - the straight kick and sweep kick - using 3D motion capture. It finds that the hip flexors and extensors produce most of the kicking force, with hip extensors initiating knee extension just before ball contact. While the sweep kick involves substantial abduction/adduction forces, these contribute less to power than flexion/extension motions due to anatomical resistance of moments. The study supports previous findings and recommends further 3D kinetic analysis of soccer kicks.
The Biomechanic Lab provides services related to soccer and other sports performance including athlete evaluation, product innovation, and scientific advice. Using tools like inertial sensors, video analysis software, and electromyography, the lab conducts research on topics like metabolic analysis and postural assessment. Notable past innovations include graduated compression stockings and zero gravity soccer shoes. The lab offers both annual and project-based collaborations.
At the end of the lecture, the students should be able to:
Discuss the theoretical basis of the neurodevelopmental approaches
Discuss the concepts and principles underlying the Bobath approach
Discuss the concepts and principles underlying the Brunnstrom approach
The document discusses sports injury evaluation and management on and off the field. It describes conducting a thorough subjective and objective injury assessment, including observation, palpation, and range of motion testing. For on-field management, it recommends following an ABCDE approach to assess airway, breathing, circulation, disability, and exposure/environment. It emphasizes the importance of stabilizing any life-threatening injuries before transporting an athlete for further medical care. Musculoskeletal injuries are common in sports and may require splinting or referral for risks like fractures, dislocations, or neurovascular compromise.
This document outlines an ACL reconstruction rehabilitation protocol with the following key phases:
1. The preoperative phase focuses on controlling pain and swelling, restoring range of motion through various exercises, and developing muscle strength before surgery.
2. Understanding the surgery involves a local anesthetic injection for pain control, potential use of a drainage tube, and a Cryocuff being applied before leaving the operating room.
3. The postoperative phases involve strict guidelines for range of motion and strength exercises over the first 6-12 months to ensure a full recovery, including the use of crutches, bracing, cycling and other low-impact activities.
Physiotherapy Management in Peripheral nerve & Plexus injuriesSreeraj S R
1. The document discusses various aspects of peripheral nerve anatomy and injury. It describes the formation and branches of the major plexuses from spinal nerves and classifies peripheral nerve injuries.
2. Mechanisms of nerve injury including compression, ischemia, traction and friction are outlined. The process of nerve degeneration and regeneration after injury is explained.
3. Methods for assessing peripheral nerve injuries are provided, including history taking, physical examination techniques, and electrodiagnostic studies. Specific peripheral nerves like the radial and ulnar nerves are used as examples.
Lumbar Spnine: Anatomy, Biomechanics and PathomechanicsRadhika Chintamani
This document discusses the anatomy and biomechanics of the lumbar spine. It begins with an introduction describing the basic structure and lordotic curves of the spine. It then covers topics like the typical vertebrae, articulating joints, intervertebral discs, and ligaments. It discusses concepts such as the articular tripod mechanism and load distribution across the facets. The document provides clinical relevance for various anatomical structures and their relationship to pathologies like fractures, spondylolysis, and nerve impingement. In summary, the document provides a detailed overview of lumbar spine anatomy, biomechanics, and common pathomechanics.
This document discusses total knee replacement (TKR) and the physiotherapy rehabilitation process. It covers pre-surgical physiotherapy focusing on strength and mobility. Post-surgical physiotherapy is divided into phases focusing initially on range of motion and strengthening, then adding balance and proprioception training. The goals and key exercises of each phase are outlined in detail over 12 weeks of recovery. Complications of TKR like infection, loosening and failure are also mentioned.
Turf toe is an injury to the big toe caused by sudden forced extension of the toe upwards beyond its normal range of motion. This can occur during sports on hard artificial surfaces when an athlete's foot is forcibly stopped by their shoe gripping the ground. It damages the ligaments and joint capsule of the big toe, causing pain, swelling, and reduced motion. Treatment focuses on RICE and may include immobilization, physical therapy, or surgery for severe cases. Prevention involves wearing shoes with better support and limiting time on hard artificial surfaces.
competitive swimming injuries- causes and prevention Edward Loniewski
This document provides an outline and overview of common swimming injuries, including swimmer's shoulder, breaststroke knee, spondylolysis, growth plate disorders, and sprains/strains. It discusses the causes, symptoms, diagnoses, and treatment approaches for each condition. The document is intended to help coaches, parents, physicians, and swimmers understand and address orthopedic injuries that frequently occur in competitive swimming.
This document provides an overview of pes planus (flat foot) including the anatomy of the foot arches, definition and causes of pes planus, and discussions of common causes such as flexible flat foot, congenital vertical talus, tarsal coalition, and posterior tibial tendon disorder. Flexible flat foot is usually asymptomatic in infants and children. Congenital vertical talus is a rigid deformity characterized by dorsal dislocation of the talonavicular joint. Treatment involves serial casting or surgery to gradually correct contractures and restore normal anatomy.
The document discusses the biomechanics of different swimming strokes and common shoulder injuries in swimmers. It describes the phases and muscle activity involved in the freestyle, butterfly, backstroke, and breaststroke strokes. It notes that the shoulders are most vulnerable to injury due to the repetitive overhead motion required. Swimmers with painful shoulders often have decreased activity of the serratus anterior and teres minor muscles, resulting in a less stable scapula. Maintaining proper technique can help reduce humeral hyperextension and risk of injury.
This document discusses several age-related changes in older adults and athletes including decreases in bone mineral density and muscle mass as well as increased risk of arthritis. It also covers how exercise can help maintain flexibility, range of motion, metabolic rate, and cardiovascular and respiratory function in older age. The benefits of exercise include improved strength, endurance, psychological well-being and social interaction. Proper training should account for individual abilities and health conditions.
Shoulder dislocation with physiotherapy managementKrishna Gosai
The document summarizes the types, diagnosis, treatment, and physiotherapy management of shoulder dislocations. There are three main types of shoulder dislocations - anterior, posterior, and luxatio erecta. Anterior dislocations are the most common, often caused by a fall on an outstretched hand. Treatment involves reduction, immobilization for 3 weeks, followed by a mobilization phase and physiotherapy to regain full range of motion. Physiotherapy focuses on strengthening muscles around the shoulder and regaining passive range of motion to prevent recurrent dislocations and return to full function.
Shoulder impingement syndrome occurs when the tendons of the rotator cuff muscles become irritated and inflamed as they pass through the subacromial space under the coraco-acromial arch. It results in pain, weakness, and loss of movement, especially in an arc between 45-160 degrees of shoulder abduction and elevation. Causes include repeated overhead arm use, trauma, poor posture, and degenerative changes. Clinical features are pain at rest or with movement, and limited range of motion. Diagnosis involves x-rays and MRI, while special tests like Neer's and Hawkins' tests reproduce shoulder pain. Treatment consists of rest, anti-inflammatories, physical therapy including stretching,
Piriformis syndrome is an underdiagnosed cause of buttock and leg pain that can result from myofascial pain or sciatic nerve compression by the piriformis muscle. It most commonly affects middle-aged females and accounts for 5-6% of sciatica cases. Diagnosis is challenging as symptoms can mimic other conditions, but involves physical exams like the Freiberg test and imaging. Treatment includes physical therapy, medications, piriformis muscle injections, or rarely surgery.
Myofascial release refers to the manual
technique for stretching the fascia and
releasing bonds between fascia and
Lintegument, musles,and bones, with the goal of
eliminating pain, increasing range of motion
and balancing the body.
This document provides information on meniscal tears of the knee. It begins with an introduction stating that meniscal tears are common injuries responsible for many arthroscopies annually. It then covers anatomy of the medial and lateral menisci, blood supply, classification of tears, mechanisms of injury, clinical features, investigations like MRI and arthroscopy, and treatment options including non-operative care, meniscectomy, and meniscal repair. The focus is on providing detailed information on meniscal anatomy, tears, and surgical and non-surgical management.
The document analyzes the biomechanics of two types of soccer kicks - the straight kick and sweep kick - using 3D motion capture. It finds that the hip flexors and extensors produce most of the kicking force, with hip extensors initiating knee extension just before ball contact. While the sweep kick involves substantial abduction/adduction forces, these contribute less to power than flexion/extension motions due to anatomical resistance of moments. The study supports previous findings and recommends further 3D kinetic analysis of soccer kicks.
The Biomechanic Lab provides services related to soccer and other sports performance including athlete evaluation, product innovation, and scientific advice. Using tools like inertial sensors, video analysis software, and electromyography, the lab conducts research on topics like metabolic analysis and postural assessment. Notable past innovations include graduated compression stockings and zero gravity soccer shoes. The lab offers both annual and project-based collaborations.
A STEM Module for Bioengineering Topics Muscle and Movement: Part I - Kicking...mjmurp05
This learning module takes a look into the bioengineering world from the perspective of every day activities. The activity that this part of the module focuses is on kicking a soccer ball and the bones/joints, muscles and forces that are involved. This is the powerpoint supplement to the learning module. See PDF file with the same title for lesson plan. Target Grade: 6th
This document summarizes a study on the biomechanics of the instep kick in soccer. The study investigated factors that affect the efficiency of the instep kick, including last stride length, angle of thigh flexion/extension, and relationship of velocity between body joints. Three subjects performed instep kicks that were analyzed using APAS and Kinovea systems. The results showed that a longer last stride length, greater thigh extension angle, and smaller knee flexion angle contributed to higher ball velocity and kicking accuracy. Subject 3 generally demonstrated biomechanical parameters that were more favorable for an accurate instep kick.
This document summarizes the history and rules of soccer. It discusses the origins of soccer in ancient China and Europe. The modern game was developed in England in 1863 when the Football Association established the first unified set of rules. Key events include the establishment of FIFA in 1904 and the first World Cup in 1930 hosted by Uruguay. The document also outlines the laws of the game including field dimensions, equipment specifications, fouls, free kicks, throw-ins, corner kicks, penalty kicks, substitutions and more.
Mens Soccer Australian Uni Games Preparation - Sports PhysiotherapyKusal Goonewardena
Kusal Goonewardena, Elite Athlete Sports Physiotherapist for the University of Melbourne and founder of Elite Akademy Sports Medicine shares:
1. The types of injuries that are prevalent in soccer
2. Why these injuries occur
3. How to prevent these injuries and
In this presentation Kusal shares:
4. How an athlete can prepare for the Australian University Games (and apply the same principles for any major tournament)
5. Elite Akademy Sports Physiotherapy's unique assessment process.
6. How Elite Akademy Sports Medicine is helping to identify these injuries earlier and therefore getting these athletes back faster, fitter and stronger.
Hope you enjoy!
For more information go to www.EliteAkademy.com
Womens Soccer- Improve Performance & Decrease Injury (Preparation for the Aus...Kusal Goonewardena
Kusal Goonewardena, Elite Athlete Sports Physiotherapist for the University of Melbourne and founder of Elite Akademy Sports Medicine shares:
1. The types of injuries that are prevalent in womens soccer
2. Why these injuries occur
3. How to prevent these injuries and
In this presentation Kusal shares:
4. How an athlete can prepare for the Australian University Games (or apply the same principles for any major tournament)
5. Elite Akademy Sports Physiotherapy's unique assessment process.
6. How Elite Akademy Sports Medicine is helping to identify these injuries earlier and therefore getting these athletes back faster, fitter and stronger.
Hope you enjoy!
For more information goto www.EliteAkademy.com
John Ralston (X2 Biosystems) How Wearables are Helping to Monitor Head Impac...AugmentedWorldExpo
The ability to directly monitor head impact biomechanics using wearable sensors has fundamentally changed our understanding of the corresponding risks in a wide range of sports. One key finding is that significant tissue damage and changes in neural connectivity may result even in the absence of clinically diagnosed concussion symptoms. We will discuss our recent advances in evolving wearable sensors into advanced neuro-trauma dosimeters, suitable for monitoring cumulative damage due to repetitive head impacts and developing remove-from-play thresholds. These efforts combine measured head impact biomechanics, finite element modeling of the corresponding forces generated in the brain, and high resolution MRI imaging of the resulting changes in neural connectivity. We will also discuss related applications of wearable head impact sensors in the development of new concussion diagnostics such as blood biomarkers and eye tracking.
Augmented World Expo (AWE) is back for its seventh year in our largest conference and expo featuring technologies giving us superpowers: augmented reality (AR), virtual reality (VR) and wearable tech. Join over 4,000 attendees from all over the world including a mix of CEOs, CTOs, designers, developers, creative agencies, futurists, analysts, investors, and top press in a fantastic opportunity to learn, inspire, partner, and experience first hand the most exciting industry of our times. See more at http://AugmentedWorldExpo.com
The Biomechanic Lab provides services related to sports biomechanics including evaluating athlete performance, developing innovative sport products, and advising companies. The lab uses advanced tools like sensors and video analysis software to study human movement. It has collaborated with companies to develop patented products and conduct research and testing to enhance sport performance and safety.
The document describes the steps a child takes to properly kick a soccer ball, including placing the ball on the ground, stepping back with eyes on the ball, running and bending the knee to kick the top of the ball with the laces of the shoe so it flies through the air safely without hurting others, only kicking to others when playing together outside.
Combination therapy involves applying ultrasound and electrical stimulation simultaneously. It has several advantages, including reducing accommodation effects from interferential therapy, treating deeper lesions more effectively, and localizing ultrasound treatment. The mechanism is that ultrasound reduces the nerve membrane resting potential, bringing it closer to firing threshold, while electrical stimulation induces depolarization with a smaller current due to ultrasound potentiation. Diagnostic use specifies parameters like 0.5W/cm2 ultrasound at 1MHz with 100Hz interferential current. Therapeutic use follows individual modality doses tailored for each lesion.
Soccer requires certain equipment like shorts, socks, shin guards, goals, shoes, and a ball. A soccer team has 11 players that play in different positions like forwards who try to score, midfielders who pass and control the ball, and defenders including fullbacks and a goalie who protect the goal. The ball can be put into play through throw-ins, goal kicks, or corner kicks depending on where it goes out of bounds. Players use skills like kicking, passing, dribbling, trapping, and heading. Referees and linesmen officiate matches and enforce rules around fouls and out of bounds.
This document provides an overview of biomechanics and its relevance to physical education and sports. It defines biomechanics and kinesiology, explains how biomechanics analyzes human movement using mechanical principles, and discusses how its insights can enhance athletic performance, injury prevention, and physical rehabilitation. Key areas of biomechanics research focus on development, exercise, equipment design, and movement across the lifespan. Quantitative and qualitative methods are used to study forces, leverage, stability and other mechanical factors underlying human motion.
Applied Biomechanics – a multifaceted approach to answering human movement qu...InsideScientific
Experts review the basic principles of biomechanics and how the study of human movement has evolved over time. Presenters highlight examples in applied kinematics, applied kinetics and applied neuromuscular/motor control and demonstrate how methodologies vary depending on the field of study or area of expertise.
This document discusses the field of biomechanics and its importance in physical education, exercise science, and sports. Biomechanics applies principles of physics to understand human and sports movements. It emerged as a specialized field of study in the 1960s-1970s and has since developed various professional organizations and journals. Biomechanics research examines topics like injury prevention, sport technique analysis, and equipment design in order to improve athletic performance, safety, and physical skills.
Roberto Carlos scored an impossible goal by curving a shot around a wall of defenders using the outside of his left foot from 30 meters out. While Brazilian fans celebrated the shot, others thought he must have cheated. However, the forces of physics - the force of the kick, drag, gravity, and the Magnus force caused by spin on the ball - made such a shot possible. Carlos had practiced the technique but did not understand the physics behind it. His shot inspired other soccer players like David Beckham to master curved shots and improved the sport.
This document discusses key biomechanical concepts related to strength training exercises. It defines biomechanics as the study of movement and the forces acting on the human body. It emphasizes the importance of stability when performing exercises with free weights to ensure safety and effectiveness. It describes the components of force, angle of muscle pull, inertia, and Newton's laws of motion. It also discusses concepts like work, power, levers, and the equal and opposite reaction principle and how they relate to weightlifting and bodybuilding exercises.
This chapter discusses biomechanics and its importance in sports. It covers Newton's laws of motion and how forces like centripetal and centrifugal impact sports. The chapter also examines levers, equilibrium, center of gravity, and how understanding these concepts can help improve athletic performance and prevent injuries.
communicate with people,listing,,organizing,Ensure safe Motherhood,Maternal health,Information on Reproductive health,Awareness on safe motherhood,Female Education and addescent friendly services should play a catalystrale in addressing maternal health issues,Improve the health status of adolescent girls and pregnant mothers
Individual development,health promotion and disease prevention,gender equality,social integration,peace building and conflict prevention,post disaster intervention and psychosocial nurture,economic development and communication and social mobilization
Organize Workshop.Management,Reporting.accounting ,Build healthy nation,Information on Reproductive health,Awareness on safe motherhood,Female Education and addescent friendly services ,Works to empower adolescent girls and fights against child marriage.
I taught Social sci,English,physical exercise,computer sci.
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The document describes a study that aimed to assess anticipatory reactions and cortical activation in tennis players. 20 tennis players aged 13-16 were divided into high and low performer groups. Flicker fusion threshold was measured to assess cortical arousal level, while a anticipation timer was used to measure anticipation ability. In phase I, cortical activation was measured using flicker fusion followed by an anticipation test with stimuli at 10 mph. In phase II, the same measures were done but with stimuli at 60 mph, to evaluate the impact of higher stimulus speed on anticipation and cortical activation. The study aimed to examine the relationship between cortical arousal and anticipatory skills in tennis players under different stimulus conditions.
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The biomechanics of kicking in soccer: A review
A. Leesa; T. Asaib; T. B. Andersenc; H. Nunomed; T. Sterzinge
a
Research Institute for Sport and Exercise Sciences, Liverpool John Moores University, Liverpool, UK b
Institute of Health and Sports Science, University of Tsukuba, Tsukuba, Japan c Department of Sport
Science, University of Aarhus, Aarhus, Denmark d Research Centre for Health, Physical Fitness and
Sports, Nagoya University, Nagoya, Japan e Institute for Sports Science, Chemnitz University of
Technology, Chemnitz, Germany
First published on: 27 May 2010
To cite this Article Lees, A. , Asai, T. , Andersen, T. B. , Nunome, H. and Sterzing, T.(2010) 'The biomechanics of kicking in
soccer: A review', Journal of Sports Sciences, 28: 8, 805 — 817, First published on: 27 May 2010 (iFirst)
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2. Journal of Sports Sciences, June 2010; 28(8): 805–817
The biomechanics of kicking in soccer: A review
A. LEES1, T. ASAI2, T. B. ANDERSEN3, H. NUNOME4, & T. STERZING5
1
Research Institute for Sport and Exercise Sciences, Liverpool John Moores University, Liverpool, UK, 2Institute of Health and
Sports Science, University of Tsukuba, Tsukuba, Japan, 3Department of Sport Science, University of Aarhus, Aarhus,
Denmark, 4Research Centre for Health, Physical Fitness and Sports, Nagoya University, Nagoya, Japan and 5Institute for
Sports Science, Chemnitz University of Technology, Chemnitz, Germany
(Accepted 25 March 2010)
Downloaded By: [Edinburgh Napier University] At: 15:01 20 October 2010
Abstract
Kicking is the defining action of soccer, so it is appropriate to review the scientific work that provides a basis of our
understanding of this skill. The focus of this review is biomechanical in nature and builds on and extends previous reviews
and overviews. While much is known about the biomechanics of the kicking leg, there are several other aspects of the kick
that have been the subject of recent exploration. Researchers have widened their interest to consider the kick beginning from
the way a player approaches the ball to the end of ball flight, the point that determines the success of the kick. This interest
has encapsulated characteristics of overall technique and the influences of the upper body, support leg and pelvis on the
kicking action, foot–ball impact and the influences of footwear and soccer balls, ball launch characteristics and
corresponding flight of the ball. This review evaluates these and attempts to provide direction for future research.
Keywords: Kicking, biomechanics, technique, soccer
addition, there is now more information available
Introduction
concerning foot–ball impact, the influences of foot-
Kicking is the defining action of soccer (also known wear on foot–ball impact and the corresponding
as association football or simply football in many launch and flight characteristics of the ball. This
countries), so it is appropriate to review the scientific review considers the kick in its entirety beginning
work that provides the basis of our understanding of from the way a player approaches the ball to the end
this skill. The focus of this review is biomechanical in of ball flight, the point that determines the success of
nature, as it is advances in biomechanical methods in the kick.
recent years that have made an impact on our The intention of this review is not only to evaluate
understanding of the kicking skill. This review recent research as it impacts on our understanding of
focuses on soccer but more specifically it focuses factors that affect performance, but also to provide
on the kicking of a stationary ball, as most of the directions for future research.
published research emanates from this variant of
football and type of kick.
Previous reviews and overviews (Barfield, 1998; Kicking technique
Kellis & Katis, 2007; Lees & Nolan, 1998) have
considered mainly the kicking leg, and the kinematic, The approach
kinetic, and electromyographic characteristics of its Skilled players performing an instep kick approach
segments, joints, and muscles. While much is known the stationary soccer ball from an angle to the
about the biomechanics of the kicking leg, there are a direction of ball flight, at a distance of a few steps,
number of other aspects that have been the subject of and make a curved approach to the ball. An angled
recent exploration. Researchers have widened their approach is favoured by players and self-selected
interest to consider the characteristics of overall approach angles around 438 have been reported by
technique and the influences of the upper body, Egan and colleagues (Egan, Vwerheul, & Savels-
support leg and pelvis on the kicking action. In bergh, 2007), supporting previous research that
Correspondence: A. Lees, Research Institute for Sport and Exercise Sciences, Liverpool John Moores University, Tom Reilly Building, Byrom Street,
Liverpool, L3 3AF, UK. E-mail: a.lees@ljmu.ac.uk
ISSN 0264-0414 print/ISSN 1466-447X online Ó 2010 Taylor & Francis
DOI: 10.1080/02640414.2010.481305
3. 806 A. Lees et al.
found an approach angle of around 458 generated posterior and lateral (to non-kicking side) directions.
maximum ball speed (Isokawa & Lees, 1988). These force data, together with the reduced velocity
Players also prefer to use an approach distance that of the hip after support foot contact, suggest that the
requires them to take a small number (2–4) of steps. motion of the body is slowed during the kicking
An approach of this type generates a modest action. This slowing may have benefits for stabilizing
approach speed of around 3–4 m Á s–1 (Kellis & the action, enabling greater muscle forces to be
Katis, 2007; Lees, Kershaw, & Moura, 2005). Thus produced, or to influence the kicking leg action. To
the nature of the approach appears to be important date, there has been no adequate investigation of
for performance. these possibilities.
The length of the last stride or step is important in The support leg knee is flexed to 268 at foot
maximal kicking. Stoner and Ben-Sira (1981) contact and remains flexed throughout the duration
reported a longer last stride length when professional of the kick, being flexed to 428 at ball contact (Lees
players performed a long-range kick (1.69 m) com- et al., 2009). The flexion of the knee continues for
pared with a medium-range kick (1.50 m). Lees and longer than necessary to absorb the impact of landing
Nolan (2002) reported a larger last step length for and is a cause of the slowing forward motion. It
two professional players performing a maximal instep begins to extend just before ball contact (Lees et al.,
kick (0.72 and 0.81 m) compared with a sub- 2009) stabilizing the action, as the slow contraction
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maximal kick (0.53 and 0.55 m). They associated velocity of the muscles around the support leg knee
the greater length of the last step with a greater enables these muscles to generate their highest
degree of pelvic retraction, which in turn allowed a forces.
greater range for pelvic protraction (i.e. forward Kinetic data for the joints of the support leg during
rotation of the kicking side). kicking are sparse. Lees et al. (2009) reported
The approach path made by skilled players is flexion/extension joint moments during a maximal
curved (Marques-Bruna, Lees , & Grimshaw, 2007)
´ instep kick performed by skilled players of 4.0, 3.2,
and as a consequence the body is inclined towards and 2.2 N Á m Á kg–1 for the hip, knee, and ankle
the centre of rotation. It is likely that the purpose of joint respectively. The values for the knee and ankle
the curved run is to ensure the body produces and are considerably larger than those for the kicking leg
maintains a lateral inclination as the kick is (reviewed by Kellis & Katis, 2007) and may be the
performed. One reason is that the inclined kicking cause of bilateral strength differences noted in
leg foot is more able to get under the ball to make players (Rahnama, Reilly, Lees, & Graham-Smith,
better contact with it (Plagenhoef, 1971). A second 2003).
reason is that a more inclined lower body would The body is inclined backwards to the vertical and
allow a more extended kicking leg knee at impact and laterally to the non-kicking side at ball contact,
thus a higher foot velocity. A third reason is that a although researchers have reported only on the
curved approach provides a stable position for angulation of the trunk and shank segments. With
executing the kick, thus contributing to the accuracy regard to the trunk, Prassas and colleagues (Prassas,
and consistency of kick performance (Lees, Steward, Terauds, & Nathan, 1990) reported a backward lean
Rahnama, & Barton, 2009). of 138 and 178 in skilled players performing a low
and high trajectory kick respectively. Lees and Nolan
(2002) reported a backward lean of 128 and 08 and
The support leg and pelvis
lateral inclinations to the non-kicking side of 108 and
Lees and Nolan (1998) reported that the placement 168 at ball contact for two professional players
of the support foot had received little interest in the performing a maximal instep kick. In collegiate level
research literature and this issue has not been players, Orloff et al. (2008) reported trunk backward
addressed subsequently. The authors of this review lean of 38 and 138 and a lateral lean of 38 and –88 in
have identified no recent research that has reported males and females respectively, the negative sign
data on this issue, even though it is known to be indicating that the males were leaning to the kicking
important to the type of kick produced. side. With regard to the support leg shank, a lateral
The ground reaction forces made as the support angle to the vertical of 258 was reported by Orloff
foot contacts the ground have been reported for a et al. (2008), which did not differ between the sexes.
maximal instep kick as 15–20, 4–6, and 5–6 N Á kg–1 It appears that the support leg is inclined further to
in the vertical, posterior (braking), and lateral the non-kicking side than the trunk, leading to lateral
(towards the non-kicking side) direction respectively flexion between the two segments.
(Kellis, Katis, & Gissis, 2004; Lees et al., 2009) but The pelvis is retracted before support foot contact
slightly higher values have been reported by Orloff and protracts through a significant range of motion
et al. (2008). In particular, all three studies showed to ball impact. Mean ranges of rotation for pelvic
that the horizontal forces are directed solely in the retraction to protraction at ball contact in skilled
4. Biomechanics of kicking 807
players have been reported as 308 and 368 (Lees & energy generated before ball contact should not be
Nolan, 2002; Lees et al., 2009; Levanon & Dapena, reduced. The nature of the leg swing observed by
1998). Although none of these studies established many in the final phase of kicking has left an enigma
maximal ranges of motion at the joints, it is likely, that has been interpreted by some as a motor control
given the good agreement in these data, that skilled strategy to ‘‘enhance accuracy’’ (Teixeira, 1999). In
kickers use a maximal or close to maximal pelvic contrast, coaches often advise players to ‘‘kick
range of motion. Levanon and Dapena (1998) and through the ball’’. In an attempt to address this
Lees et al. (2009) have also reported on pelvic tilt conflict, Nunome and colleagues (Nunome, Lake,
and obliquity. Regarding tilt, the pelvis at kicking Georgakis, & Stergioulas, 2006b) reported represen-
foot take-off was orientated forwards (178 and 258 tative kinematics of the soccer instep kick using
respectively) and then moved backwards to have a advanced technology, which included high sampling
backward orientation (108 and 208 respectively) at rates (1000 Hz) and a new filtering procedure (time-
ball contact. Regarding obliquity, the pelvis at frequency filtering). They found that the shank was
kicking foot take-off was lowered on the kicking side still accelerating until ball impact (Figure 1), which
(28 and 38 respectively) and then elevated on the was very different than that reported previously. They
kicking side (158 and 108 respectively) at ball also succeeded in reproducing the typical reduction
contact. This raising of the pelvis on the kicking leg in shank angular velocity before impact by down-
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side, together with the inclination of the lower body, sampling of the data (to 250 Hz) and applying a
would allow greater kicking leg knee extension and conventional filter with low cut-off frequency
hence foot speed at contact. The data of Lees et al. (10 Hz). These results provided new evidence
(2009) indicate two further things. First, the supporting the above practical instruction from a
obliquity of the pelvis changed little between support biomechanical perspective, thereby helping to fill the
foot contact and ball contact, suggesting a stable gap between coaching practice and biomechanical
pelvis in the medio-lateral direction, which would be research.
beneficial to the precision of foot impact position on Kinetic data, represented by joint moments, have
the ball. Second, a rapid change in pelvic tilt and been of interest for some time with two-dimensional
rotation was found just (around 50 ms) before ball (2D) flexion/extension moments widely reported (for
contact, suggesting that muscles are acting to a summary, see Kellis & Katis, 2007). Nunome and
increase the rotational speed of the pelvis in these colleagues (Nunome, Asai, Ikegami, & Sakurai,
two directions. This in turn would influence the 2002) were the first to report full 3D joint moments
dynamics of the kicking leg but to date this (i.e. for the abduction/adduction and internal/ex-
interaction not been investigated. ternal axes) for the kicking leg. Further 3D joint
The kicking leg
The kicking leg has been studied widely and recent
reviews (Barfield, 1998; Kellis & Katis, 2007; Lees &
Nolan, 1998) have provided a good account of the
kinematic and kinetic data associated with this limb.
It is worth noting that despite a wide acknowl-
edgement that the kick is three dimensional (3D) in
nature, relatively few 3D studies have been con-
ducted and relatively limited kinematic data in the
abduction/adduction and internal/external axes are
available. There is no normative data and little
statistical information available for these important
descriptive variables.
Many studies have reported a reduction in angular
and/or linear velocity of the kicking leg immediately
before ball impact (Barfield, 1995; Dorge, Andersen,
¨
Sorensen, & Simonsen, 2002; Lees, 1996, Lees &
Nolan, 1998; Teixeira, 1999). A robust relationship
exists between the foot swing velocity and the
resultant ball velocity (Asami & Nolte, 1983; Bar- Figure 1. Comparison of changes in angular velocity of the shank
through ball impact computed from three different filtering and
field, 1995; Levanon & Dapena, 1998; Nunome, sampling techniques: (1) raw, (2) applied time-frequency filter,
Ikegami, Kozakai, Apriantono, & Sano, 2006a). This and (3) re-sampled (250 Hz) and applied conventional filter at
implies that to achieve maximal performance, the 10 Hz. Reprinted with permission from Nunome et al. (2006b).
5. 808 A. Lees et al.
moment data for the kicking leg have been reported interference of ball impact on the change of moments
recently by Kawamoto and colleagues (Kawamoto, just before ball impact. As mentioned earlier, the
Miyagi, Ohashi, & Fukashiro, 2007), who attributed change of joint moments near ball impact are very
the better performance of experienced players to sensitive to data treatments. To date, the study by
their greater hip joint moments (hip flexion, adduc- Nunome et al. (2006a) is the only one to have
tion, and external rotation were 168, 100, and 41 addressed such issues using reasonable data treat-
N Á m respectively) compared with inexperienced ments and clearly demonstrated the detailed time-
players (94, 115, and 26 N Á m respectively). series changes of both joint and motion-dependent
Inconsistencies between the joint moment and the moments simultaneously. In their study, the knee
segmental motion (e.g. a flexor moment at the knee extension moment rapidly decreased during the final
joint while the knee extends) have been reported phase of kicking and finally began to exhibit a reverse
(Luhtanen, 1988; Nunome et al., 2002; Robertson & (flexion) moment immediately before ball impact,
Mosher, 1985). Barfield and colleagues (Barfield, while the motion-dependent moment rapidly in-
Kirkendall, & Yu, 2002) referred to this unique creased to exhibit an extension moment at ball
phenomenon as the ‘‘soccer paradox’’, associated impact (Figure 2). It is possible that the motion-
with ‘‘Lombard’s paradox’’ (Gregor, Cavanagh, & dependent moment helps to compensate for the
LaFortune, 1985) found in the early years of the last inhibition of the muscle moment, thereby serving to
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century for a standing movement from a chair. increase the angular velocity during the final phase of
However, from another point of view, this paradox kicking. From these changes, Nunome et al. (2006a)
implies that kinetic sources other than muscle speculated that as the shank angular velocity
moments are partially responsible for the distinctive exceeded the inherent force–velocity limitation of
pattern of segment motion during kicking. Putnam muscles immediately before ball impact, the mus-
(1991) was the first to reveal the substantial influence cular system becomes incapable of generating any
of the ‘‘motion-dependent’’ moment on soccer concentric force. It would seem that the coaching
kicking. Dorge et al. (2002) applied Putnam’s
¨ advice to ‘‘kick through the ball’’ should be focused
procedure to soccer instep kicking and quantified on muscle groups other than the knee, with the hip
the amount of work done by the motion-dependent and trunk muscles most likely contributing.
moment due to the thigh angular velocity. This Efficient action of the motion-dependent moment
corresponded to 20% of the work done by the knee can be considered as an index of better segmental
extension moment. coordination. This index has been used to clarify the
These studies markedly improved our under- inter-segmental coordination influences of limb
standing of the effectiveness of segmental interaction preference (Dorge et al., 2002) and fatigue (Aprian-
¨
in kicking. However, they did not acknowledge the tono, Nunome, Ikegami, & Sano, 2006). It seems
Figure 2. Average (s) changes in joint and motion-dependent moment at the knee joint during leg swing of soccer instep kicking. Reprinted
with permission from Nunome et al. (2006a).
6. Biomechanics of kicking 809
that the motion-dependent moment is independent recently and might serve as an aid to bridge the gap
from the joint moment and depends greatly on the between the training field and scientific research.
action of joint moments generated at other joints, The concept of segmental interaction may provide an
mainly the proximal joints. This implies that adjacent alternative view for describing kicking mechanics.
or even distant joints are effectively coupled to each This has great potential to explain efficient human
other through the action of the motion-dependent movement, in which adjacent or distant joints couple
moments. Putnam’s (1991) equation allows the together to achieve higher resultant end-point
effect of the hip linear motion (acceleration) on the velocity.
motion-dependent moment acting at the knee to be
extracted. To date, conflicting results have been
The upper body
reported for the effect of the hip motion on the
motion-dependent moment. Dorge et al. (2002)
¨ The upper body demonstrates some important
showed no positive work done by the hip motion, characteristics of technique. The non-kicking side
while Putnam (1991) showed a small but positive arm is abducted and horizontally extended before
contribution (16% of the averaged magnitude of the support foot contact and then adducts and horizon-
net moment) and Nunome and Ikegami (2005) tally flexes to ball contact (Shan & Westerhoff,
demonstrated a more dominant contribution of the 2005). In addition, the shoulders are rotated such
Downloaded By: [Edinburgh Napier University] At: 15:01 20 October 2010
hip upward motion. In these cases, the interference that they move out of phase with the rotation of the
of ball impact and its treatment would not account pelvis. This leads to a trunk twist during the
for these discrepancies because the shock of ball preparation phase of the kick and untwist during
impact is not thought to transmit to the hip the execution phase.
(Nunome et al., 2006a). It is clear that further Shan and Westerhoff (2005) reported shoulder
investigation of this issue is necessary, and such joint angle data during the kick stride in skilled male
attempts have the potential to reveal the concealed performers. The non-kicking side shoulder went
kinetic link between the support and kicking legs. through a range of horizontal extension of 1588 and a
Of interest, but infrequently reported, is the power range of abduction of 368, compared with 638 and
produced at the joints during kicking. Robertson and 208 respectively during the previous running strides.
Mosher (1985) computed the hip and knee power These results have been confirmed for maximal
produced by the kicking leg. In both joints there was instep kicking by female participants (Shan, Daniels,
power absorption during the early phase of the kick Wang, Wutzke, & Lemire, 2005). The greater range
(before support foot contact) that served to slow the of motion suggests that the non-kicking side arm has
retraction of the kicking leg followed by a power a role to play in the kick. The horizontal elevation of
generation (from support foot contact to ball the arm is frequently attributed to the maintenance
contact) representing the kicking effort. This reached of balance, but Shan and Westerhoff (2005) provide
around 2000 W for the hip, although no more than a more convincing explanation. They identified a
100 W for the knee. The mean positive work done by ‘‘tension arc’’ that goes across the body from the
the hip was 113 J, while that for the knee was only 5 J. kicking leg as it is withdrawn to the non-kicking side
These data suggest that the hip is the prime mover arm as it is extended and abducted (Figure 3). The
for the kick and the work done by the knee forward motion of both limbs yields a release of this
contributes little to the angular acceleration of the tension arc (a shorten arc) and is an expression of the
shank. Nunome et al. (2002) reported power profiles stretch–shorten cycle. Shan and Westerhoff (2005)
for the kicking leg hip, knee, and ankle during an also reported greater ranges of motion in the hip,
instep kick similar to that of Robertson and Mosher knee, and ankle for skilled players compared with
(1985) but the positive power values for the knee novice players, suggesting more prominent use of the
were much higher at over 1000 W. Furthermore, stretch–shorten cycle.
Nunome et al. (2002) are the only authors to present The retraction of the kicking leg and non-kicking
internal/external rotation power profiles, reporting a side arm leads to a twist in the torso that is indicated
positive rotational power at the hip close to 1000 W by the ‘‘hip–shoulder’’ separation angle. This is
for the side foot kick. It would appear that consider- measured by the difference in orientation angles of a
able effort is expended at the hip joint to orientate the line representing the hip joints and a line represent-
foot so that a suitable side foot kick may be made. ing the shoulder joints projected onto the transverse
Lees et al. (2009) also reported flexion/extension plane. This variable may also be considered to
power values for the kicking leg ankle, knee, and hip represent the ‘‘tension arc’’ (Shan & Westerhoff,
that had similar profiles and values to Robertson and 2005). Lees and Nolan (2002) reported that range of
Mosher (1985). motion for hip–shoulder separation reached 388 and
A more detailed understanding of the action and 428 for maximal instep kicks in two professional
power source of the kicking motion has been gained players, but was lower in sub-maximal kicks (68 and
7. 810 A. Lees et al.
Figure 3. An illustration of (A) the tension arc and (B) the shorten arc.
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128 respectively). The higher values for the maximal support leg and kicking leg actions that affect kicking
kick suggests that hip–shoulder separation is an success (Sterzing & Hennig, 2008). Regarding the
important performance variable. support leg, traction properties of the shoe affect the
run-up and the critical final foot plant prior to
kicking. Suitable traction characteristics would in-
Foot–ball interaction
crease the horizontal ground reaction forces acting
Foot–ball contact lasts for less than 10 ms (Nunome on the support leg and provide a superior start to the
et al., 2006b), so high-speed imaging has proved to kinetic chain sequence (Sterzing & Hennig, 2007a).
be invaluable for determining the precise nature of Regarding the kicking foot, one benefit of footwear is
impact. Asami and Nolte (1983) used high-speed that it reduces impact pain compared with unshod
cameras (500 Hz) during a maximal instep kick to kicking. Astonishingly, the use of soccer footwear
show that ball impact on the foot was located towards reduces ball velocity by up to 1.5% compared with
the distal end of the foot causing forced plantar barefoot kicking for players that are able to disregard
flexion of the ankle joint. Their results revealed not pain during barefoot kicking (Sterzing, Kroiher, &
only that increased plantar flexion resulted in Hennig, 2008), confirming an early observation of a
reduced ball speed, but provided an explanatory football player kicking faster and further without
mechanism for the medical condition of anterior shoes (Plagenhoef, 1971). The suggested mechanism
ankle impingement syndrome or ‘‘footballer’s an- underlying this phenomenon is passive forced plantar
kle’’. This was later confirmed by Tol and colleagues flexion of the foot during the impact phase (Lees,
(Tol, Slim, Soest, & Dijk, 2002), who analysed 1993; Shinkai, Nunome, Ikegami, Sano, & Isokawa,
impact location and impact force using high-speed 2007). The shoe does not allow players to voluntarily
video (1000 Hz) and supported the hypothesis that fully plantar flex the ankle joint immediately before
spur formation in the anterior ankle impingement impact leading to further forced plantar flexion
syndrome was related to recurrent ball impacts during impact. The absence of this mechanism
producing repetitive microtrauma to the antero- during barefoot kicking was detected by high-speed
medial aspect of the ankle. Using higher-speed video video analysis (Sterzing & Hennig, 2008). When
(2500 Hz), Ishii and Maruyama (2007) found that kicking barefoot, the foot is already fully plantar
the ball speed was maximized when the area of flexed at the beginning of impact, providing a more
impact was near the centre of gravity of the foot and rigid surface and therefore superior collision me-
estimated the peak impact force to be approximately chanics.
1200 N for a ball speed of 16.3 m Á s–1. Shinkai and The specific soccer shoe features that reduce ball
colleagues (Shinkai, Nunome, Ikegami, & Isokawa, velocity have been examined in isolation (Sterzing &
2008) used ultra high-speed video (5000 Hz) to Hennig, 2008). An increased toe box height can
observe that the foot was passively abducted, everted, reduce ball velocity by up to 2.0%. As the toe box
and plantar flexed (following slight dorsal flexion) deforms during contact, the initial stiffness of the
during ball impact, and estimated that the peak shoe is reduced, increasing the range of forced
impact force could exceed 2800 N in a maximal plantar flexion, as described above. The shoe upper
speed kick. material friction can reduce ball velocity by up to
Soccer footwear has been shown to influence foot– 1.2%. Moderate friction appears to be superior to
ground and foot–ball interaction and modify both the low or high friction between shoe and ball (Sterzing
8. Biomechanics of kicking 811
& Hennig, 2007b), which may be due to the amount the centre of the area of impact and the centre of the
of spin imparted to the ball. ball) on ball speed and spin. The maximum ball
Two other important characteristics of soccer velocity was achieved for a zero offset, but this was
shoes were shown to have no influence on ball also associated with a small spin, which was thought
velocity. First, shoe weight does not affect ball to be due to the asymmetries of the foot. As the offset
velocity. While an increase of weight has been shown distance increased, ball velocity decreased and spin
to reduce foot velocity (Amos & Morag, 2002), it has increased . Maximum ball spin of 101 rad Á s–1 was
not been found to influence ball velocity (Amos & generated but this caused the ball velocity to fall from
Morag, 2002; Sterzing & Hennig, 2008). An 26 to 11 m Á s–1. It was also found that for very large
explanation for this is that the heavier shoe produces offset distances, both spin and velocity decreased as
a more effective strike providing a compensatory the energy of impact failed to be transferred to the
mechanism leading to an unaltered ball velocity. ball. In addition, Asai et al. (2002) showed that ball
Second, outsole stiffness does not affect ball velocity. spin increased as the coefficient of friction between
A small degree of outsole stiffness appears to be foot and ball increased, although variation in the
sufficient to resist the full voluntary plantar flexion of coefficient of friction had less effect than the
the ankle joint. Furthermore, high outsole stiffness horizontal offset distance. Their model was also able
does not increase ball velocity (Sterzing & Hennig, to predict the impact force during an instep kick
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2008), contradicting the idea that this would support (Figure 4) with the maximum forces for an ankle
the foot and enhance the transfer of momentum. velocity of 25 m Á s–1 being approximately 2500 N.
The soccer shoe can improve ball accuracy, as Such high values were later confirmed by Shinkai
barefoot kicking has been shown to decrease et al. (2008).
accuracy compared with shod kicking by up to Asai and colleagues (Asai, Nunome, Maeda,
20%. Furthermore, various types of soccer footwear Matsubara, & Lake, 2005) expanded their earlier
evoked different ball accuracies for instep kicks. work to include a finite element skeletal leg–foot
Differences in accuracy of up to 13% between model (Figure 5) and used this to evaluate the effect
different shoes have been reported (Hennig, Althoff, of vertical offset distance on ball speed and release
& Homme, 2009).
¨ angle for an instep kick. They demonstrated that the
Soccer ball construction also influences foot–ball maximum ball velocity was obtained for an offset
interaction. The soccer ball deforms during impact distance below the ball’s centre of mass of between –
by as much as 68 mm after initial ball contact 20 to –40 mm. The greatest angle of projection of
(Shinkai et al., 2007). Robotic kicking leg testing has 168 was achieved for an offset of –20 mm. Both
shown no effect of different ball pressures (0.6, 0.9, velocity and projection angles reduced as the offset
1.2 bar) on ball velocity (Neilson & Jones, 2005). distance moved below or above these optimal
However, the authors suggested that ball launch positions.
elevation was approximately 28 higher with lower ball In the above studies, the foot was constrained to
pressure (0.6 vs. 1.2 bar). In addition, ball launch approach the ball along its line of impact (attacking
elevation was lower when placing the valve at the angle ¼ 08). Kicks are typically made with the foot
bottom versus the top. These data illustrate the need
to control for ball characteristics when performing
kicking studies in soccer.
Rigid body modelling has been widely used to
understand foot–ball impact (Bull-Andersen, Dorge,
& Thomsen, 1999; Plagenhoef, 1971; Tsaousidis &
Zatsiorsky, 1996). More recently, finite element
analysis modelling has been undertaken to system-
atically investigate the factors that influence foot–ball
interaction. Asai and colleagues (Asai, Akatsuka, &
Kaga, 1995) constructed a three-dimensional finite
element model of the leg and foot and ball and
studied the ball speed and the deformations in the
ball and ankle joint during ball impact. They showed
that deformations of the ankle joint reduce ball
speed, confirming earlier findings on the effect of
forced plantar flexion. Asai and colleagues (Asai,
Figure 4. The impact force of an instep kick based on finite
Carre, Akatsuka, & Haake, 2002) employed finite
´ element analysis. The x-axis indicates horizontal direction, the y-
element analysis to quantify the influence of the axis indicates vertical direction, and the z-axis indicates lateral
horizontal offset distance (i.e. the distance between direction.
9. 812 A. Lees et al.
flight of the ball and the success of a kick. In recent
years, there has been increased interest in under-
standing the aerodynamics of a soccer ball. The
trajectory of a soccer ball that is kicked or thrown is
influenced not only by the initial condition of release,
but also by the flow of air caused by a rotation of the
ball during its flight. Consequently, an analysis of the
ball’s in-flight trajectory is indispensable for an
analysis of its aerodynamic characteristics.
The forces acting on a soccer ball in flight are
specified by the drag and lift forces and are
determined by the drag (CD) and lift (CL) coefficient
respectively. Asai and colleagues (Asai, Akatsuka, &
Haake, 1998) speculated that the soccer ball would
behave like a rough sphere where at low ball
velocities the drag coefficient would be high (around
0.5), reduce rapidly to around 0.1 at the critical
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Figure 5. An example of stress contour on deformed shape at Reynolds number (the point at which the air flow in
impact using the finite element skeletal leg–foot model. Units of the boundary layer becomes turbulent), and then
stress are Pa. gradually increase again as ball speed increased.
Carre and colleagues (Carre, Goodwill, Asai, &
´ ´
Haake, 2005) confirmed this general pattern in wind
moving at an angle to the line of impact where the tunnel experiments, where the drag coefficient
attacking angle is the angle made between the decreased from 0.5 to 0.2 over the transition phase
velocity vector of the foot and to the normal at the (corresponding to a Reynolds number from 90,000
point of impact. Using their finite element skeletal to 130,000). The increase in drag coefficient with
leg–foot model, Asai and colleagues (Asai, Takano, Reynolds number (from 130,000 to 500,000,
Carre, & Haake, 2004) investigated the effect of
´ equivalent to ball speeds of 9 to 32 m Á s–1) was
attacking angle on ball speed and spin for curve gradual and linear, reaching no higher than 0.25 at
kicks. They showed that ball spin increased with the the highest speed.
attacking angle, but decreased sharply at attacking Average drag and lift coefficients over the whole of
angles greater than approximately 558 as the foot the period of ball flight have been estimated by
slipped across the ball. Ozaki and Aoki (2008) comparing simulated flight paths with actual flight
conducted an experimental investigation of the paths. Carre and colleagues (Carre, Asai, Akatsuka,
´ ´
values for attacking angles of the standard curve kick & Haake, 2002) were able to estimate average drag
(which was found to have an attacking angle of 468) and lift coefficients from the trajectory of soccer balls
and the angle curve kick (attacking angle of 368). The in flight, employing ball launching equipment and
ball spin of the standard curve kick was greater than high-speed video cameras. The average drag coeffi-
that of the angle curve, confirming the predictions of cient increased from 0.05 to 0.35 as launch velocity
Asai et al. (2004). increased from 17 to 30 m Á s–1. The increase in the
Foot–ball interaction during impact is a complex drag coefficient suggests that the critical Reynolds
phenomenon that occurs over an extremely short number had been surpassed and the data lay on the
time. It is therefore necessary to investigate it using a ascending part of the drag coefficient curve (Asai
variety of experimental and modelling methods. Foot et al., 1998; Carre et al., 2002). However, this range
´
placement on the ball must be quite precise to is in excess of that reported from wind tunnel tests.
achieve maximum or desired speeds and spin. Small Bray and Kerwin (2003) found an average drag
modifications in technique will lead to sub-optimal coefficient of between 0.25 and 0.3 for kicks whose
performance. Footwear and soccer balls also influ- speeds ranged from 23 to 28 m Á s–1 using a similar
ence this interaction, and industrial aims are to comparative approach. They assumed these had all
develop equipment that allows kicking to be as fast surpassed the critical Reynolds number, which was
and accurately controlled as possible. taken to be 210,000.
It is clear that there is a discrepancy between wind
tunnel and comparative flight path tests both in
Ball flight
terms of actual drag coefficients and how they change
The consequence of kicking technique and foot–ball as ball speed increases. This discrepancy has not
interaction is that the ball will be projected with been resolved but it is worth noting that the drag
linear and angular velocity. These will determine the force acting on the ball (around 3.25 N for a typical
10. Biomechanics of kicking 813
ball speed of 25 m Á s–1) would cause the ball to slow original direction of motion by over 3 m but
by around 6 m Á s–1 over an 18-m free kick, in turn requiring a greater angle of projection and a 78%
reducing the drag force further. Thus, the average longer flight time. For a similar free kick at 25 m Á s–1
drag force would represent a mean as it changed over a distance of 18 m, Bray and Kerwin (2003)
from a higher to lower value during flight. Clarifica- estimated that to successfully curve over and around
tion of this issue would be helpful to understand the a defensive wall and enter the goal, the ball would
influence of drag on ball flight and would be have to be kicked with a vertical angle within the
especially important for penalty and short free kicks. narrow range of 16.5–17.58. Clearly, successful free
The curve kick has become strategically important kicks of this type require exceptional precision by the
for free kicks close to the goal. The curve of the ball player.
in flight is due to the Magnus or lift force induced by The methods described above have enabled re-
the spin of the ball and is determined by the lift searchers to investigate specific characteristics of ball
coefficient. Carre et al. (2002) were able to add spin
´ design and construction on flight characteristics. Asai
to their ball-launching experiments and reported that and colleagues (Asai, Seo, Kobayashi, & Sakashita,
the average lift coefficient increased rapidly from zero 2006) examined a full-scale soccer ball of the type used
as spin was applied, but reached its maximum value in the 2002 Football World Cup (Fevernova and
of 0.26 with spins of around 100 rad Á s–1. This did Roteiro; 32-panel type) and the 2006 Football World
not increase further as spin increased to 240 rad Á s–1.
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Cup (Teamgeist; 14-panel type) in wind-tunnel tests
Interestingly, they also found the average drag (Figure 6). In the case of a non-rotating ball, the
coefficint was influenced by spin, increasing from critical Reynolds number was found to be 220,000
0.2 at zero spin to 0.5 at 240 rad Á s–1. Bray and (approximately 15 m Á s–1), considerably higher than
Kerwin (2003) reported average lift coefficients in that reported previously by Carre et al. (2002). Barber
´
the range 0.23–0.29. Griffiths and colleagues (Grif- and colleagues (Barber, Haake, & Carre, 2006) ´
fiths, Evans, & Griffiths, 2005) used a motion- examined the effect of the seam shape on the drag
capture system to track the trajectory and rotation of coefficient in non-rotating soccer balls and found the
a soccer ball kicked within the range 15–18 m Á s–1. width of the seam to have a greater influence on the
They obtained lift coefficients within the range 0.15 drag coefficient than its depth. The differences
to 0.36, which also showed an increase with spin between the two studies noted above could be due to
rate. The data reported by these authors using in- the influence of the seams associated with the balls
flight methods are generally in agreement. In wind used. Furthermore, Asai and colleagues (Asai, Seo,
tunnel tests, Carre et al. (2005) reported a gradual
´ Kobayashi, & Sakashita, 2007), also using wind-
increase in the lift coefficient as a function of spin tunnel tests, examined the Teamgeist ball when both
from zero to a value of 0.2, which then remained rotating and non-rotating. Their results indicated that
constant. However, they did not find that spin for a rotating ball the critical Reynolds number was
influenced the drag coefficient. In contrast, Spampi- 300,000 (approximately 20 m Á s–1) and was closer in
nato and colleagues (Spampinato, Felten, Ostafi- value to that of a smooth ball.
chuk, & Brownlie, 2004) used a full-scale soccer ball Existing research has shown that non-rotating
in a wind-tunnel test to study rotating and non- soccer balls show a reduction in the drag coefficient
rotating soccer balls. In the case of a rotating ball, an
increase in speed from 13 to 32 m Á s–1 resulted in a
corresponding increase in the lift coefficient from
0.31 to 0.39. While there appears to be general
agreement between researchers on lift coefficients,
there is still uncertainty regarding the influence of
spin on the drag coefficient.
The data reported above have enabled researchers
to speculate on flight paths and free kick strategies.
Carre et al. (2002) computed the flight path taken by
´
two hypothetical free kicks over 18 m: one, a
maximal kick of 26 m Á s–1 with no spin, and a
second, a curved kick, with the same foot speed but
an impact position on the ball 8 cm off-centre. Based
on their earlier data (Asai et al., 2002), this off-centre Figure 6. Graph of drag coefficients (CD) for a non-spinning
impact reduced the speed of the ball to 18.5 m Á s–1 soccer ball. For comparison, the drag coefficients for a smooth
sphere during non-spinning flight were *0.5 in the sub-critical
and induced a spin of 64 rad Á s–1 around a vertical region and *0.1 in the super-critical region. The critical Reynolds
axis. This changed the flight path considerably by number for the soccer ball reached 2.2–3.0 6 105, which was
introducing a curve, with the ball deviating from its between that of a golf ball and a smooth sphere.
11. 814 A. Lees et al.
corresponding to a critical Reynolds number in the kick. For example, in the mature kick the approach is
range of 200,000 to 300,000 depending on the type angled and a curved run is used. Less skilled players
of ball. However, in the case of a rotating ball, approach at an angle but use a straight run. Players
changes in drag and lift coefficients do not involve a who are even less skilled use a straight approach.
sudden change in their aerodynamic coefficients and These define three ‘‘technical levels’’ of perfor-
it is speculated that this is due to increased airflow mance. Marques-Bruna, et al. (2007) identified
´
around the rotating ball. technical levels associated with five key aspects of
In recent years, irregular movements or ‘‘knuck- the kicking skill, all based on principles of move-
ling effects’’ have been observed and are caused by ment, and evaluated them for 187 children in three
zero or low rotation. The knuckling effect makes the age groups (5–6, 7–8, and 9–10 years) and 31 adults
ball travel unpredictably with haphazard changes in who were recreationally active but not soccer players.
the direction of the trajectory or even ‘‘zigzagging’’. The authors showed how technical level improved as
The causes of this are the shape and arrangement of age increased, but found that not all adults were able
the ball panels and the materials used to make the to demonstrate the highest technical level associated
soccer ball, the speed required to reach the critical with a mature form of the skill. Furthermore, they
Reynolds number, and large-scale undulations of the were able to show how gender influenced technical
vortex trail following the ball (Asai, Kazuya, Kobaya- level, with girls performing at a lower technical level
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shi, & Nunome, 2008a). Although several other and with a slower technical development with age.
reasons are also believed to cause the knuckling The use of technical level is a novel approach for the
effect, their details are unknown (Asai et al., 2008b). analysis of skill. It capitalizes on the descriptive
characteristics of the kicking skill and qualitative
observation, which provides the means for investiga-
Other aspects tions involving large numbers of participants.
One area of developing interest is the application
General aspects
of kinematic analysis to investigate issues related to
Kicking technique has been associated with under- coordination (Davids, Lees, & Burwitz, 2000). In a
lying principles of movement. Principles of move- series of studies, Chow and colleagues (Chow,
ment are qualitative statements about a movement Davids, Button, & Koh, 2005, 2007, 2008) investi-
that are based on mechanical or biological principles. gated lofted chip tasks to establish characteristics of
Lees (2007) identified five such principles that are coordination patterns. They used a range of kine-
applicable to kicking: range of motion, stretch– matic data but focused primarily on the kicking leg
shorten cycle, end-point speed, action and reaction, knee angles and angular velocities. They used angle–
and proximal-to-distal sequence. These principles angle plots to demonstrate coordination and the
are not necessarily exclusive (for example, a prox- timing of peak flexion or extension velocities to
imal-to-distal segmental sequence also results in a quantify coordination. They were able to show the
high end-point speed), and they are not necessarily presence of a global pattern of coordination in skilled
applicable to only one aspect of the technique (for kickers but with subtle individual differences (Chow
example, the stretch–shorten cycle is applicable to et al., 2005), important coordination differences
kicking leg knee flexion and extension, as well as between skilled and unskilled (Chow et al., 2007),
stretch of the torso produced by the elevation and and the positive influences of practice on coordina-
horizontal extension and flexion of the non-kicking tion (Chow et al., 2008). These studies have
side arm). One of these principles (proximal-to-distal demonstrated that kicking can be used as a vehicle
sequence) has been the subject of intense biomecha- to successfully investigate skilled performance.
nical investigation (for an overview, see Kellis &
Katis, 2007), but the others have received little
Methodological issues
attention in the literature. The value of representing
the kick in these terms is that it encourages a Advances in the technology of measurement systems
mechanical understanding of the skill and enables have meant that it is possible for researchers to
practitioners to make qualitative evaluations of undertake 3D analyses. Some studies that have used
performance, enhancing their own effectiveness, 3D analyses have reported angular orientations and
without recourse to complex and detailed biomecha- angular velocities along the abduction/adduction and
nical data. To date, there has been no attempt to internal/external axes as well as the more conven-
evaluate the efficacy of this approach within a tional flexion/extension axis. However, angular or-
coaching and training context. ientations (but not angular velocities; Zatsiorsky,
The idea of ‘‘technical level’’ was introduced by 1998) reconstructed from 3D data are influenced by
Marques-Bruna et al. (2007) to rank the way in
´ the Cardan sequence used. The most common
which a child performed selected key parts of the sequence used in kicking research is the X–Y–Z