L3 recap and exploration of skeletal system

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Slide 1: Vidéo

Cette leçon contient 39 diapositives, avec quiz interactifs, diapositives de texte et 3 vidéos.

Éléments de cette leçon

Slide 1 - Vidéo

Which bones do you
already know?

Slide 2 - Carte mentale

Why do we have a
skeleton?
(looking for 4 best answers)

Slide 3 - Carte mentale

List all functions of the human skeleton

Slide 4 - Question ouverte

Match up the functions of the skeleton to the images

Storage

Production

Protection

Movement

Structure

Slide 5 - Question de remorquage

Slide 6 - Diapositive

STRUCTURE OF THE SKELETON

Axial Skeleton

Includes the:

Cranium
Spine (vertebrae)
Sternum
Ribs

Appendicular Skeleton

Includes the:

Shoulder girdle
Upper limbs
Pelvic girdle
Lower limbs

The human skeleton is divided into 2 different sections:

Slide 7 - Diapositive

Cranium

Mandible

Humerus

Clavicle

Scapula

Sternum

Ulna

Radius

Patella

Fibula

Tibia

Illium

Ishium

Ribs

Pubis

Tarsals, metatarsals, phalanges

Carpals, metacarpals, phalanges

Slide 8 - Question de remorquage

STRUCTURE OF THE SKELETON

Cranium- This is the highest bone of the skeleton and is made up of 8 bones fused together to protect the brain.

Scapula- This bone is also named as the shoulder blade that connects the clavicle to the humerus. It forms the posterior of the shoulder girdle.

RIbs- Adults have 12 pairs of these flat bones which attach at the spine and the sternum to form a cage around heart and lungs to protect them.

Radius- This bone also forms part of the lower arm as it is positioned next to the Ulna and runs in line with the thumb side of the hand.

Clavicle- This bone forms part of the shoulder and attaches the upper arm to the body. It is sometimes called your collar bone.

Mandible- the lower jaw or jawbone is the largest, strongest and lowest bone in the human facial skeleton.

Femur- This is the longest bone in the body and attaches to the pelvis at the top and the knee at the bottom. It is commonly known as the thigh bone.

Fibula- This is the smaller bone of the lower leg, positioned behind the Tibia, it is mainly used for muscles of the lower leg to attach to

Tibia- This is the biggest bone in the lower leg, which joins with the Femur and Patella to form the knee joint, positioned at the front of the Fibula.

Pubis - This bone is one of three bones that fuse to form the hip bone. Together with the ilium and ischium.

Carpals- These bones are bones of the wrist that connect the end of the radius and ulnar bones of the forearm to the bases of the metacarpal bones of the hand.

Metacarpals- These bones are located in the wrist between the carpals and phalanges.

Phalanges- These bones are found in both the hands and feet and form the bony core of the digits

Sternum- This is a flat bone in the middle of the chest that is shaped like a dagger. It is attached to the clavicle and protects the heart and joins the ribs together.

Patella- This is a small square bone that sits on top of the femur and the Tibia to form the knee joint.

Tarsals- These bones are situated between the lower end of the tibia and the fibula of the lower leg and the metatarsals.

Metatarsals- These bones are located in the foot between the tarsals and phalanges.

Phalanges - These bones are found in both the hands and feet and form the bony core of the digits.

Humerus- This is sometimes called your funny bone and it forms the upper arm connecting the shoulder at the top and the forearm at the bottom.

Ulna- This bone forms part of the lower arm and joins the Humerus with the elbow joint and runs in line with the little finger.

Illium- This bone is the uppermost and largest part of the hip bone.

Ishium- This bone is a paired bone of the pelvis that forms the lower and back part of the hip bone.

Vertebral Coloumn- This is 33 separate bones all joined together and join your cranium to your hips. These bones also allow your to perform movements like bending and nodding.

Slide 9 - Diapositive

What is not a function of the skeleton?

Gives support and gives shape

The skeleton helps us think

Protects organs

Helps is move together with muscles

Slide 10 - Quiz

Which bone is located on the thumb side of the forearm?

Tibia

Femur

Radius

Ulna

Slide 11 - Quiz

What is the function of the carpals in the hand?

Support the spinal column

Aid in elbow movement

Stabilize the shoulder joint

Provide flexibility and support to the wrist

Slide 12 - Quiz

Which bone is located in the upper arm?

Humerus

Scaphoid

Radius

Femur

Slide 13 - Quiz

STRUCTURE OF THE SKELETON

Cervical region

7 vertebrae form a flexible framework for the neck and support the head. Top two bones are the Atlas (C1) and Axis (C2).

Thoracic region

12 vertebrae that move with the ribs.

Lumbar region

5 largest vertebrae that support most of the body’s weight.

Sacral region

5 vertebrae form the back wall of the pelvis (fused to the sacrum)

Coccyx region

4 vertebrae also known as the tailbone

The axial skeletons vertebral column consists of the following sections:

Slide 14 - Diapositive

The backbone

All vertebrates have a backbone
(birds, fish, mammals, reptiles, amphibians)
A backbone consists of discs
The backbone protects the spinal cord
(which carries nerve signals from the brain
to organs and back)
It also gives support to our bodies

Slide 15 - Diapositive

The backbone and nerves

Slide 16 - Diapositive

Slide 17 - Vidéo

Not a good posture! How are you sitting right now....?

Slide 18 - Diapositive

How do you think you can prevent a back injury like this?

Slide 19 - Question ouverte

Match the axial skeleton components to the descriptions

This is the highest bone of the skeleton and is made up of 8 bones fused together to protect the brain.

This is a flat bone in the middle of the chest that is shaped like a dagger. It is attached to the clavicle and protects the heart and joins the ribs together.

Adults have 12 pairs of these flat bones which attach at the spine and the chest bone to form a cage around heart and lungs to protect them.

This is 33 separate bones all joined together and join your cranium to your hips. These bones also allow your to perform movements like bending and nodding.

7 vertebrae for the neck and support the head.

5 largest vertebrae.

4 vertebrae also known as the tailbone.

5 vertebrae fused to the sacrum.

12 vertebrae that move with the ribs and allow the largest range of movement.

Cervical

Coccyx

Thoracic

Ribs

Lumbar

Sacral

Sternum

Cranium

Vertebrae

Slide 20 - Question de remorquage

CLASSIFICATION OF BONES

Long Bone Composition

Periosteum- a membrane covering the outer surface of all bones.

Diaphysis- the bone shaft.

Epiphysis- the end of a long bone which forms the joint.

Epiphyseal line- or plates considered growth plates.

Medullary cavity- where bone marrow is stored.

Articular cartilage- tough connecvtive tissue helps to protect the ends of bone from wear and tear.

Slide 21 - Diapositive

CLASSIFICATION OF BONES

The human skeleton has a number of functions, such as protection and supporting weight. Different types of bones have differing shapes related to their particular function.

There are five types of bones in the skeleton: flat, long, short, irregular, and sesamoid.

Let’s go through each type and see examples.

Slide 22 - Diapositive

CLASSIFICATION OF BONES

Long Bones

Long bones are longer than they are wide, their function is to support the weight of the body and facilitate movement.

Long bones are mostly located in the appendicular skeleton and include bones in the lower limbs (the tibia, fibula, femur, metatarsals, and phalanges) and bones in the upper limbs (the humerus, radius, ulna, metacarpals, and phalanges).

Slide 23 - Diapositive

CLASSIFICATION OF BONES

Sesamoid Bones

Sesamoid bones are bones embedded in tendons. These small, round bones are commonly found in the tendons of the hands, knees, and feet.

Sesamoid bones function to protect tendons from stress and wear. The patella, commonly referred to as the kneecap, is an example of a sesamoid bone.

Slide 24 - Diapositive

CLASSIFICATION OF BONES

Irregular Bones

Irregular bones vary in shape and structure and therefore do not fit into any other category.

They often have a fairly complex shape, which helps protect internal organs. For example, bones of the vertebral column protect the spinal cord. The irregular bones of the pelvis protect organs in the pelvic cavity..

Slide 25 - Diapositive

CLASSIFICATION OF BONES

Short Bones

Short bones are about as long as they are wide. Located in the wrist and ankle joints, short bones provide stability and some movement.

The carpals in the wrist and the tarsals in the ankles are examples of short bones..

Slide 26 - Diapositive

CLASSIFICATION OF BONES

Flat Bones

There are flat bones in the skull, thoracic cage (sternum and ribs), and pelvis (ilium, ischium, and pubis).

The function of flat bones is to protect internal organs Flat bones are somewhat flattened and can provide protection, like a shield; flat bones can also provide large areas of attachment for muscles.

Slide 27 - Diapositive

Finish the sentence.

Sesamoid Bones...

Reinforce Tendons.

Have Complex Shapes.

Support Weight and Facilitate Movement.

Are Cube-shaped.

Slide 28 - Quiz

Finish the sentence.

Irregular Bones...

Reinforce Tendons.

Are Cube-shaped.

Protect Internal Organs.

Have Complex Shapes.

Slide 29 - Quiz

Finish the sentence.

Long Bones...

Protect Internal Organs.

Are Cube-shaped.

Reinforce Tendons.

Support Weight and Facilitate Movement.

Slide 30 - Quiz

Finish the sentence.

Short Bones...

Support Weight and Facilitate Movement

Reinforce Tendons.

Are Cube-shaped.

Have Complex Shapes.

Slide 31 - Quiz

Finish the sentence.

Flat Bones...

Support Weight and Facilitate Movement

Protect Internal Organs

Have Complex Shapes

Are Cube-shaped.

Slide 32 - Quiz

Slide 33 - Vidéo

STAGES OF BONE GROWTH & REPAIR

Slide 34 - Diapositive

STAGES OF BONE GROWTH & REPAIR

The steps in which bones of the skeleton form from cartilage are illustrated. The steps are as follows:

1. Cartilage “model” of bone forms. This model continues to grow as ossification takes place.

2. Ossification begins at a primary ossification center in the middle of bone.

3. Ossification then starts to occur at secondary ossification centers at the ends of bone.

4. The medullary cavity forms. This cavity will contain red bone marrow.

5. Areas of ossification meet at epiphyseal plates, osteoblasts are triggered to transform cartilage into osteocytes. Bones strengthen and increase in size.

6. More cartilage is added to the epiphyseal plate and repeated until adolescence (growth) ceases.

Slide 35 - Diapositive

STAGES OF BONE GROWTH & REPAIR

Keys bone growth cells

Osteoclasts- A type of cell which resorbs bone to enable bones to be formed correctly.

Osteoblasts- A bone building cell.

Osteocytes- A mature bone cell

Ossification

Ossification is a process in which bone tissue is created from cartilage.

It begins at a primary ossification center in the middle of the bone (during fetal development), and later also occurs at secondary ossification centers at the ends of the bone (after birth).

The bone can no longer grow in length after the areas of ossification meet and fuse at the time of skeletal maturity.

Slide 36 - Diapositive

STAGES OF BONE GROWTH & REPAIR

Bone Growth

Bone is a very active tissue. Its cells are constantly forming and resorbing bone matrix.

Early in the development of a human fetus, the skeleton is made almost entirely of cartilage. The relatively soft cartilage gradually turns into hard bone.

This is called ossification.

Slide 37 - Diapositive

STAGES OF BONE GROWTH & REPAIR

Following an injury to the bone

There is a trigger for osteoblast activity due to damage to the bones periosteum.
Osteoblasts migrate to the blood clot formed at the site of injury.
Ossification takes place casuing the entire blood clot to become calcified before beginning to turn into bone.
The repaired bone is often larger than its original size therefore osteoclasts are released to resorb/ remodel any unnecessary bone back to original shape and size before cells are fully matured (osteocytes).

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L3 recap and exploration of skeletal system

Éléments de cette leçon

Slide 1 - Vidéo

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Slide 5 - Question de remorquage

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