Transcript document
OBHS Physical Education ANATOMY – The Skeletal System 5 Major Functions There are five major functions of the skeleton: 1. Shape and support 2. Movement 3. Protection 4. Blood Production 5. Storage Remember : Should Mothers Protect Babies Skins • Shape and Support - This is our body's framework. It provides shape for our body, holds our vital organs in place and allows us to have a good posture. • Movement - Our muscles are attached to our bones in a way which allows movement. • Protection - Protects our delicate organs e.g.-SKULL protects the BRAIN. RIB CAGE protects the HEART and LUNGS etc. • Blood Production - Red and white blood cells are produced in the bone marrow found in many bones. RED CELLS carry oxygen to the muscles to enable them to work. They are red in colour because they carry haemoglobin. WHITE CELLS fight infection in the body. • Storage- minerals like calcium are stored in the bones to add strength Main Bones 1. Cranium 2. Scapula 3. Clavicle 4. Humerus 5. Pelvis 6. Sternum 7. Ribs 8. Vertebrae 9. Radius 10. Ulna 11. Carpals & Metacarpals 12. Phalanges 13. Femur 14. Patella 15. Tibia 16. Fibula 17. Tarsals & Metatarsals 18. Phalanges Don’t be confused… The Chest Clavicle – collar bone Scapula – shoulder blade The Arm Radius - thumb side lower Ulna - finger side lower Humerus - upper arm – “funny bone” The Leg Fibula - small lower Tibia - large lower Patella - knee The Hand Carpals - wrist bones Metacarpals – hand The Foot Metatarsals - foot Tarsals - ankle – think “T” for “toes” Joints Where bones meet they form JOINTS. The movement of the skeleton is helped by joints. There are THREE kinds of joints: • • • Fibrous (non-moving e.g.- skull) Cartilagenous (limited movement e.g.vertebrae of spine) Synovial (a range of movements are available) Connective tissue Joints are moved by muscles and bones. These are attached by LIGAMENTS and TENDONS. LIGAMENTS attach bone to bone. TENDONS attach muscle to bone. e.g.- The knee joint. Movements other than flexion/extension can cause serious ligament damage in hinge joints like the knee. In contact sports like rugby these ligaments are often strained by forces acting in other directions. Synovial Joints Most moving joints are SYNOVIAL JOINTS. They are very complex structures. The Bones are linked together by ligaments and allow a wide range of movements. Features of a synovial joint include: Synovial fluid – Lubricates the joint Synovial Membrane – Seals the joint Synovial Capsule - Surround the joint to prevent leakage The knee is an example of a synovial joint Joints Cont’d Joints can be separated into FOUR categories: Ball and Socket joint Hinge joint Gliding joint Pivot joint Quiz 9/5 What bones make up the following parts of the body The Arm 1. 2. 3. The Leg 4. 5. 6. The Hand 7. 8. 9. 10. What sort of joint is the shoulder ? 1. Ball and Socket Definition: A ball-shaped bone end fits into a socket or cupshaped bone. Examples: 1. Hip 2. Shoulder Movements: A multiaxial joint allowing movement in many directions around the joint. The movements possible are: 1. Back and forth (extension/flexion) 2. Side to side (abduction/adduction) 3. Rotation 4. Circumduction 2. Hinge Definition: Two bones join in such a way that movement is possible only in one direction, usually at right angles to the bones. Examples: 1. Elbow 2. Knee 3. Ankle Movements: A uniaxial joint allowing movement in only one direction The only movement possible is: Back and forth (extension/flexion) 3. Gliding Definition: The bone surfaces are small and flat, or slightly concave and one bones slides over the other. Examples: 1. Carpals and tarsals 2. Ribs and vertebrae 3. Scapula and ribs Movements: Only slight movement is possible due to the restrictions of attached ligaments. Movements possible are: 1. side to side (abduction / adduction) 2. Back and forth (extension/flexion) 4. Pivot Definition: A joint constructed in such a way that rotation only is possible (usually about the long axis of the bone) Examples: 1. Atlas and axis of neck 2. Radius and humerous Movements: A uniaxial joint allowing movement in only one direction The only movement possible is: Rotation Quiz – Anatomy 12/5 1. 2. 5. 6. 3. 4. 7. 8. What sort of joints are the following 9. Shoulder 10. Elbow 11. Knee 12. Ribs and vertebrae Today 12/5 1. Learn the language used to describe movement in the human body Types of Movement There are many types of movement that the skeleton and muscles can produce. The following are the most common: • Flexion • Extension • Rotation • Abduction • Adduction • Dorsiflexion • Plantarflexion 3.7. Movements at Synovial Joints Just as we learnt a set of terms to describe the positioning of bones, muscles and organs in the body, so we have a set of terms to describe how joints move. Term Definition Flexion Bending or decreasing the angle between two bones Examples 1. Trunk Bending forwards (sideways – lateral flexion) 2. Shoulder Moving the arm forward 3. Arm Bending at the elbow 4. Wrist Bringing the palm towards the forearm 5. Hip Raising the thigh towards the trunk 6. Knee Bending at the knee Term Definition Extension Straightening or increasing the angle between two bones Examples 1. Trunk Straightening up 2. Shoulder Moving the arm backward 3. Arm Straightening the elbow 4. Wrist Straightening the wrist 5. Hip Moving the leg backward 6. Knee Straightening the knee Term Definition Abduction Moving a limb or part of a limb away from the midline of the body Adduction Moving a limb or part of a limb towards the midline of the body Circumduction A combination of flexion, extension, abduction and adduction. The movement of the limb resembles the shape of a cone Examples Moving outwards on a star jump Bringing the limbs back together in a star jump The arm stroke in Butterfly Term Definition Rotation Twisting of a limb about its long axis Supination Movement of the hand into a palm-up position Holding a bowl of soup Pronation Movement of the hand into a palmdown position tipping the soup out Examples Turning the head Twisting the trunk Turning a card over Turning a page in a book Turning a card face down Closing a book Term Definition Inversion Movement of the sole of the foot inward Eversion Movement of the sole of the foot outward Dorsi flexion Movement of the top of the foot upward, closer to the shin Plantar flexion Movement of the sole of the foot downward Examples Recapping Movements Types of Movement cont’d FLEXION – Bending the joint. E.g. Bending the knee or elbow. BALL and SOCKET and HINGE are the main joint types that can produce this movement. Types of Movement cont’d EXTENSION of a joint is where the joint is straightened. BALL and SOCKET and HINGE joints are common examples of joints that can produce this movement. Straightening the leg when striking a ball is an example of EXTENSION at the knee (HINGE JOINT) Types of Movement cont’d The ROTATION movement can occur at a BALL and SOCKET and a PIVOT joint. e.g. turning the head or the movement at the shoulder when swimming backstroke. Types of Movement cont’d ABDUCTION and ADDUCTION movements can be produced by BALL and SOCKET joints. ABDUCTION is where a limb moves away from the centre of the body. ADDUCTION is where the limb is moved TOWARDS the centre of the body. Joints and Performance Injuries to joints can occur from: • Over use (Too much training) • Incorrect movement injuries (e.g.-wrong techniques) • Impact or twisting (e.g.-twist of knee or elbow from a tackle or collision) Such injuries should be iced immediately, given plenty rest, elevated and compressed to aid recovery and avoid permanent damage. sports injuries clip Muscle Recap – Name the muscle Types of Muscle In the Human Body there are 3 different types of muscle. These are: SMOOTH – Also known as INVOLUNTARY muscles. Found in the internal organs such as the intestine. They are named as such because we do not have conscious control over them. CARDIAC – Found only in the heart. We cannot control it and it is constantly working. It enables blood to be pumped from the heart to the body. SKELETAL – Often called VOLUNTARY or STRIPED muscle. It enables us to move and is under our conscious control. Muscles for Endurance and Power Muscles are made up of lots of individual fibres. In skeletal muscle, these fibres are either FAST TWITCH or SLOW TWITCH. Both have their different roles … Fast twitch for power, slow twitch for endurance. Fast twitch fibres contract very quickly and powerfully, get tired fast useful for explosive, short duration activities Eg sprinting and weightlifting. Slow twitch fibres contract more slowly and with less force don't get tired as quickly useful for endurance activities Eg Swimming and running Muscles for Endurance and Power Slow twitch fibres contract more slowly and with less force, but they don't get tired as quickly. They are useful for endurance activities. Everyone has a similar number of muscle fibres, but it is the proportion of fast twitch to slow twitch fibres that differs. You cannot change the amount of slow or fast twitch muscle fibres that you have, but you can train them to work more effectively. The Effect of Exercise and Training on Muscles Skeletal muscle responds to training and exercise (or lack of it) in two ways. Regular training and exercise can create greater muscle development (HYPERTROPHY). Too much inactivity causes muscle wastage (ATROPHY) The Effect of Exercise and Training on Muscles When we exercise our bodies regularly and with heavy workloads (normally ANAEROBIC), muscle fibre size increases until the muscle has become large and strong enough to do the tasks required of them. Carrying heavy, bulked muscle does not help endurance athletes so the muscles adapt to using the energy efficiently, and normally will only grow to the maximum size that they need to be. How the Muscles Move To make a joint move in two directions, you need two muscles that work in opposite directions. ANTAGONISTIC muscles are pairs of muscles that work against each other. One muscle contracts. This is called the AGONIST or PRIME MOVER. The other one relaxes. This is called the ANTAGONIST Remember what ANTAGONISTIC PAIRS Do!!!!! Term 1. Agonist (Prime Mover) 2. Extension 3. Abduction 4. Flexion 5. Antagonist 6. Adduction 7. Plantar Flexion 8. Dorsi Flexion Definition A. Movement of the sole of the foot downward B. The muscle that relaxes during a movement C. Straightening a joint D. Bending a joint E. Movement of sole of foot towards the shine F. Moving a limb towards the midline of the body G. The muscle that contracts, creating the movement H. Moving a limb away from the midline of the body Today 1. Recap the Muscular System • Create your own labelled diagram of the muscular system 2. Describe movement of sporting examples using correct anatomical language 3. Go over Homework sheet 4. Anatomy and movement bingo The Muscular System Trapezius Deltoids Biceps Triceps Pectoralis Major Abdominals Quadriceps Tibialis Anterior Latissimus Dorsi Erector Spinae Gluteus Maximus Hamstrings Gastrocnemius Hip Flexors Muscles and Movement Movement Agonist Antagonist Function and Movement of Major Muscles Deltoid – Flexes, Extends and Abducts your arm at the shoulder. Function and Movement of Major Muscles Biceps - Flexes your arm at the elbow. Function and Movement of Major Muscles Triceps – Extends your arm at the elbow joint. Function and Movement of Major Muscles Abdominals - Flex the spine so you can bend forward. Function and Movement of Major Muscles Pectorals - Raises your arm at the shoulder. Draws it across your chest. Function and Movement of Major Muscles Latissimus Dorsi (lats) - Pulls your arm down at the shoulder. Draws it behind your back. Function and Movement of Major Muscles Trapezius - Holds and rotates your shoulders. Moves your head back and sideways. Function and Movement of Major Muscles Quadriceps - Straighten the leg at the knee. Keep it straight when you stand. Function and Movement of Major Muscles Hamstrings – Flex your leg at the knee. Function and Movement of Major Muscles Gluteals - Extension at the hip. Function and Movement of Major Muscles Gastrocnemius – Plantarflexion of the ankle joint (standing on your tiptoes). Quiz 29/7 8. Bending or ↓ the angle of a joint it known as 9. Moving a limb away from the bodies midline is known as 10. Which OBHS blues were awarded today? Homework out Quiz 4/8 8. Straightening or ↑ the angle of a joint it known as 9. Moving a limb towards the bodies midline is known as 10. Moving a limb away from the bodies midline is known as? Today 4/8 1. Recap the Muscular System • Create your own labelled diagram of the muscular system 2. Describe movement of sporting examples using correct anatomical language 3. Identify and describe parts of and how the Cardio-respiratory System works Label cardio-respiratory system Complete paragraph describing cardiorespiratory Homework Out Quiz 5/8 Match the term with its definition Term Definition 1. Agonist (Prime Mover) A. The muscle that contracts, creating the movement 2. Extension 3. Abduction B. The muscle that relaxes during a movement C. Straightening a joint 4. Flexion D. Bending a joint 5. Antagonist E. Moving a limb away from the midline of the body 6. Adduction F. Moving a limb towards the midline of the body What's Happening ??? Quiz 10/8 Elbow Joint Movement:___1____ Agonist: ____2____ Antagonist: ___3___ Hip Joint Movement:____4___ Agonist: _____5___ Antagonist: ___6___ Ankle Joint Movement:___7____ Agonist: ____8____ Antagonist: __9____ 10. What is the sporting event that takes place during week 7? Cardio-respiratory System The heart and lungs are responsible for moving oxygen around the body. The ________ system inhales oxygen into the _____ where it is _______ into the blood. The ______ system pumps ____ filled blood around the body where it provides the ______ with the ____ it needs to perform work. The cardio respiratory system ______ more oxygen into the body as a resppnse to _____. It does this by _____ both its ______ and ______ rate to deliver an increased quality of oxygen to _____ muscles. Factors affecting the Heart and Lungs