sistem rangka

Rangka Aksial -Tengkorak

-Tulang vertabra-Sangkar thorasik

rosley i3p, Skeleton 2Figure 5.6

Two sets of bones◦ Cranium◦ Facial bones

Bones are joined by sutures Only the mandible is attached by a freely

movable joint

rosley i3p, Skeleton 3

(The skull)


The cranium is composed of 8 bones, except for 2 paired bones, they are all single bones.

Frontal Bone : the forehead, also forms the the projections under the eyebrows and the superior part of each eye orbit

Parietal Bones : paired bones that form the superior and lateral walls of the skull

They meet at the sagittal suture and form the coronal suture where they meet the frontal


The temporal bones are inferior to the parietal bones, and join with them at the squamous suture

There are several important bone markings on the temporal bone.

External auditory meatus: ear canal

Styloid process : allows for muscle attachment

Zygomatic process : the thin bridge of bone that joins anteriorly with the zygomatic bone


Mastoid process provides an attachment site for some neck muscles. Also contains the mastoid sinuses.

Jugular foramen : allows for the passage of the jugular vein .

Carotid canal : anterior to the jugular foramen, allows for passage of the carotid artery.


Occipital Bone forms the inferior posterior portion of the skull.

The occipital bone contains the magnum foramen, which is the large opening that allows for passage of the spinal cord from the base of the brain down the vertebral column .

The occipital bone joins with the temporal and parietal bones


The occipital bone features the occipital condyles, which articulate with the first cervical vertebrae, called the atlas.

The sphenoid bone is the wing shaped bone which spans the skull, most of which is visible on the interior of the skull .


14 bones compose the face

12 Bones are paired, and only the mandible and the vomer are single bones.

Maxillae ( maxillary bones) fuse to form the upper jaw. All of the facial bones join the maxillae, except the mandible


The palatine processes form the anterior hard palate

The maxillae also contain the para-nasal sinuses

Palatine Bones – paired bones that lie posterior to the hard palate

Failure of these bones to fuse results in a cleft palate

Hollow portions of bones surrounding the nasal cavity



The Zygomatic bones : commonly called the cheekbones, they also form a large portion of the eye sockets

Vomer : single plow-shaped bone that forms the nasal septum

Inferior conchae : thin curved bones that project from the lateral walls of the nasal cavity.

Mandible : Lower jaw, the largest strongest bone of the face


Hyoid Bone:

The only bone in the body that does not directly articulate with another bone.

It is located in the mid neck, above the larynx, and is anchored to the styloid process by ligaments

Shaped like a horse shoe, it serves as a movable base for the tongue and as a point of muscular attachment for muscles in the neck

The only bone that does not articulate with another bone

Serves as a moveable base for the tongue



The fetal skull is large when compared to the body of the fetus.

A newborn’s skull has regions that have yet to be converted to bone.

These ‘soft spots’ are called fontanels ( little fountains)

The rhythm of the baby’s pulse can be felt in these areas.

They are usually converted to bone 22 to 24 months post – partum.

The fetal skull is large compared to the infants total body length


Fontanelles – fibrous membranes connecting the cranial bones

◦ Allow the brain to grow

◦ Convert to bone within 24 months after birth


•

1. Kranium* Berfungsi untuk melindungi otak.* Mempunyai 8 kepingan tulang yang berasingan bercantum melalui satur(sendi tak bergerak).

• 2. Soket mata (atau Orbit)* Berfungsi untuk melindungi kedua-dua bebola mata.

• 3. Tulang hidung* Berfungsi untuk menyokong tisu-tisu hidung yang lembut.

• 4. Lubang telinga* Berfungsi untuk melindungi bahagian dalam telinga.

• 5. Rahang atas (atau Maksila)* Berfungsi menyokong barisan gigi atas.

• 6. Rahang bawah (atau Mendibel)* Berfungsi menyokong barisan gigi bawah.* Rahang berkebolehan untuk bergerak, iaitu untuk menguyah makanan dan sebagainya.

• 7. Bukaan pada dasar tengkorak* Berfungsi untuk menyambung tengkorak dengan turus vertebra.

• • • • • • • • •

(Vertabral Column)

Is formed by 26 irregular bones Is a flexible, curved structure extending

from the skull to the pelvis Protects the delicate spinal cord Transmits the weight load of the body to the

lower limbs


Vertebrae separated by intervertebral discs

The spine has a normal curvature

Each vertebrae is given a name according to its location


There are 33 separate vertebrae at birth Nine of these fuse to for the composite

bones of the sacrum and the coccyx From superior to inferior the bones are

designated by location and number Cervical 7 Thoracic 12 Lumbar 5


The number of bones in each group can remembered by the time of day we typically eat.

7 Cervical 12 Thoracic 5 Lumbar Individual vertebrae are separated by

flexible fibrocartilage intervertebral disks


The intervertebral disks absorb shock, and are highly compressible.

They are 90% water As we age, the water content decreases and

the disks become less flexible This helps explain why some elderly people

seem to ‘shrink’ with age.


Herniated, or ‘slipped’ disks can press against the spinal cord or nerves that exit the spinal cord..

This can result in extreme pain, and loss of function

Spinal Curvatures The spine is curved to help absorb shock.


The thoracic and sacral curves are called primary curves because they are present at birth.

The secondary curves develop later. The cervical develops when the baby begins

to raise it’s head, and the lumbar when the child begins to walk.


All vertebrae have a similar structural pattern.

Some common features: Body or centrum: the weight bearing part

of the vertebra, and it faces anteriorly. Vertebral arch: formed by the joining of all

the posterior extensions from the body of the vertebrae.

Vertebral foramen: canal through which the spinal cord passes.


Transverese Process: Two lateral projections from the vertebral arch

Spinous Process : Single projection arising from the posterior aspect of the vertebral arch.

Superior and Inferior Articular Processes : paired projections that allow vertebra to form joints with adjacent vertebrae

Vertebral arch: formed by the joining of all the posterior extensions from the body of the vertebrae.


rosley i3p, Skeleton 37Figure 5.17a–b

Cervical vertebrae ( C1 to C7 )form the neck region of the spine.

C1 and C2 are specialized, they perform functions not shared by other vcervical vertebrae

The Atlas ( C1) Has no body


Transverse processes have depressions that receive the occipital condyles.

The Axis ( C2 ) Acts as a pivot for the atlas and the skull

C3 through C7 are the smallest and lightest vertebrae

Their spinous processes are short and divide into two branches.


The transverse processes contain foramina for the arteries to pass through on their way to the brain.

They are the only group of vertebrae with this feature.


Thoracic vertebrae ( T1 – T 12 ). Larger than cervical vertebrae Have two costal demifacets on each side to

receive the head of the ribs Have long spinous processes that angle

sharply downward. When viewed from the side resemble the

head of giraffe


rosley i3p, Skeleton 44Figure 5.17c–d

Lumbar vertebrae ( L1 – L 5 ). Are the strongest and stursiest of all

vertebrae. Have large block- like bodies Spinous processes are short, and hatchet

shaped. When viewed from the side resemble the

head of a moose.


rosley i3p, Skeleton 46Figure 5.17c–d

Formed by 5 fused vertebrae Superior aspect articulates with the inferior

aspect of L5 Laterally the wing-like alae articulate with

the hip bones to form the sacroiliac joints It forms the posterior wall of the pelvis The vertebral canal continues inside the

sacrum as the sacral canal


Formed by the fusion of 3 to 5 tiny irregular vertebrae

It is the vestigial tail in humans

The ThoraxThe sternum, ribs and thoracic vertebrae

make up the thorax, or thoracic cage


The Thoracic cage surrounds and protects the heart, lungs and major blood vessels.

The Sternum Is a flat bone composed of the fusion of 3

bones. Superior to inferior they are: Manubrium Body ( Gladiolus) Xiphoid process


The jugular notch: the concave upper part of the manubrium, usually at the level of T3

The sternal angle : site where the manubrium and the gladiolus meet to form a slight angle.

It is the reference point for locating the second intecostal space for listening to the heart valves

Xiphisternal joint : Where the sternal body and the xiphoid process meet. Used as a landmark to locate the level of T9


12 Pairs of ribs form the thoracic cage Men and women have the SAME number of

ribs All ribs articulate with the vertebral column

posteriorly The first 7 pairs are known as true ribs

because they attach directly to the sternum by costal cartilage


The next 5 pairs are false ribs because they either attach indirectly to the sternum, or not at all

The last 2 pairs of false ribs lack sternal attachment, and are called floating ribs


Tulang-tulang vertebra terdiri daripada 33 ruas tulang bersendi. Pada setiap hujungnya terbentuk satu turus yang boleh luntur. Turus vertebra berfungsi untuk melindungi saraf tunjang yang terletak dibahagian tengahnya. Diantara tulang-tulang vertebra, terdapat cakera rawan yang bertindak sebagai kusyen untuk penyerap hentakan(daya) dan mengurangkan geseran semasa pergerakan.

Bahagian-bahagian turus vertebra ialah:

* 7 vertebra serviks - Bahagian leher* 12 vertebra toraks - Bahagian toraks* 5 vertebra lumbar - Bahagian pinggang* 5 vertebra sakrum - Bahagian punggung* 4 vertebra koksiks - Bahagian hujung tulang belakang

1. Sentrum* Bersifat Pejal dan tegar* Memberi sokongan* Menentang daya mampatan

• 2. Arka* Merupakan lengkuk saraf* Terletak pada bahagian dorsal sentrum* Melindungi saraf tunjang

• 3. Salur saraf* Merupakan salur rongga kosong* Berfungsi sebagai laluan saraf tunjang

• 4. Zigapofisis* Merupakan muka sendi antara 2 vertebra.* Prazigapofisis mengarah ke atas.* Postzigapofisis mengarah ke bawah.

• 5. Cuaran spina* Berfungsi untuk melekatkan otot

• 6. Cuaran melintang* Berfungsi untuk melekatkan otot

• Sangkar rusuk berfungsi untuk melindungi jantung dan peparu.

Tulang-tulang yang membentuk sangkar rusuk ialah:

* 12 pasang tulang rusuk bersendi dengan vertebra toraks dan melengkung ke hadapan.* 7 pasang tulang rusuk bersendi dengan sternum secara terus.* 3 pasang yang lain dihubung secara tidak langsung dengan rawan.* 3 pasang tulang rusuk terakhir tergantung bebas dan tidak dihubungkan kepada sternum.

-Pectoral girdle dan tangan- Pelvic girdle dan kaki

Composed of 126 bones Shoulder girdle Also known as the pectoral or shoulder

girdle, consists of 2 bones Clavicle Scapula


Also called the collar bone Attaches medially to the manubrium Attaches laterally to the scapula Serves to hold the arm away from the

thorax, and helps prevent shoulder dislocation

A broken clavicle causes the shoulder to collapse medially


Also called the shoulder blades Flat, triangular in appearance, has 2

important processes Acromion process: the enlarged end of the

spine of the scapula Coracoid process : points over the top of the

shoulder and helps anchor the muscles of the arm


The scapula does not attach directly to the axial skeleton, but is held in place by muscles

The scapula has three borders: Superior Medial Lateral


The scapula has three angles: Superior Inferior Lateral


The glenoid cavity is the shallow socket that receives the head of the humerous

The shoulder girdle is exceptionally free to move

However the price of this range of motion is that it is easily dislocated


There are 30 bones in each upper limb The arm is formed by the single long bone,

the humerus The proximal end has a rounded head that

fits into the glenoid cavity


The greater and lesser tubercles opposite the head are sites for muscular attachment

The deltoid tuberosity is a roughened are at the midpoint of the shaft where the deltoid muscle attaches

The radial grove allows for the passage of the radial nerve.


The distal end of the humerus has a spool shaped trochlea on the medial side, and the ball like capitulum on the lateral side

On the anterior surface the coronoid fossa is a depression above the trochlea

On the posterior surface you will find the olecranon fossa

These 2 depressions allow for free movement of the elbow


The radius and ulna form the forearm In anatomical position the radius is the

lateral bone The radius and ulna articulate with each

other proximally and distally at small radio-ulnar joints

The bones are also connected by a long interosseous membrane


The forearm has two bones

◦ Ulna◦ Radius

rosley i3p, Skeleton 77Figure 5.21c

The head of the radius forms a joint with the capitulum

The radial tuberosity is the location for the attachment of the biceps tendon

The ulna is the medial bone The coronoid fossa can be found on the

proximal anterior surface of the bone The olecranon process can be found on the

proximal posterior surface


The forearm has two bones

◦ Ulna◦ Radius


The coronoid and olecranon processes grip the trochlea like pliers to form the elbow.


The hand consists of the carpals, metacarpals and phalanges.

The carpals are 2 rows of 4 irregular bones, and form the wrist

Hamate Pisiform Triquetral Lunate

Trapezoid Trapezium ScaphoidCapitate


The hand◦ Carpals – wrist◦ Metacarpals – palm◦ Phalanges – fingers


The carpals are bound together by ligaments that restrict movement between them

The palm consists of metacarpals numbered 1 to 5, starting on the thumb side.

Each hand has 14 phalanges, and all of the fingers are composed of three phalanges, except for the thumb, which has 2.


Hip bones Composed of three pair of fused bones

◦ Ilium◦ Ischium◦ Pubic bone

The total weight of the upper body rests on the pelvis

Protects several organs◦ Reproductive organs◦ Urinary bladder◦ Part of the large intestine


rosley i3p, Skeleton 90Figure 5.23a

The pelvic bone is formed by 2 coxal bones Each of these bones is formed by the fusion

of 3 bones. Ilium Ischium Pubis


rosley i3p, Skeleton 92Figure 5.23b

The pelvis is constructed of fairly large and heavy bones

The hips are responsible for bearing the entire weight of the torso

They also bear the stress associated with locomotion

Reproductive organs, urinary bladder, and part of the large intestine are protected by the pelvis


The femur is the only bone in the thigh It is the largest, strongest bone of the body The proximal end of the femur has a ball-

like head, and an obvious neck The femur slants medially to bring the

knees in line with the body’s center of gravity


The thigh has one bone

◦ Femur – thigh bone


Distally, the lateral and medial condyles articulate with the tibia

The LEG The larger and more medial bone in the

lower leg is the tibia(shinbone) Proximally, it articulates with the distal

femur to form the knee joint Distally the medial malleolus forms the

inner bulge of the ankle


The leg has two bones◦ Tibia◦ Fibula


The smaller, lateral bone of the lower legThe fibula does not form the knee jointThe distal end of the fibula forms the outer

part of the ankle with it’s lateral malleolusThe tibia and fibula are connected by an

interosseous membrane, just like the radius and ulna are.




Figure 5.24c

The thigh has one bone

◦ Femur – thigh bone


Figure 5.24a–b



Figure 5.24c

The foot◦ Tarsus – ankle◦ Metatarsals – sole◦ Phalanges – toes


Figure 5.25

-pola artikular dan fungsi-klasifikasi sendi

• Articulations• Junctions between bones• Bind parts of skeletal system together• Make bone growth possible• Permit parts of the skeleton to change shape during childbirth• Enable body to move in response to skeletal muscle contraction

Joints of the Skeletal System

Articulation – site where two or more bones meet

Two Fundamental Functions of Joints:Allow the skeleton to have mobilityHold the skeleton together

Joints = Articulations

Three Functional Classifications

•Synarthrosis – immovable •Amphiarthrosis – slightly movable •Diarthrosis – freely movable

Three Structural Classifications:

•Fibrous – suture, syndesomosis, gomphosis•Cartilaginous – synchondrosis, symphysis•Synovial

Joints – Structural and Functional Classes

Sinarthrosis – Dua tulang akan rapat tetapi tiada pergerakan .

contoh : tengkorak (skull)Diarthrosis – Pergerakan pelbagai arah

contoh : sendi lutut, sendi bahuAmphiarthrosis – Pergerakan yang sedikit

contoh : vetebra (tulang belakang)

Sendi melonsor: buku lali / pergelangan tangan

Sendi engsel: siku / lutut Sendi pangsi: leher Sendi elipsoid: pergelangang tangan Sendi pelana: trapizium Sendi lesung: femur & pelvis, humerus

114

2.6.1 Sendi Berdasarkan Fungsi

Rajah 1.4 Jenis Sendi Sinovial

2.6.2 Sendi Berasaskan Struktur

Fungsi Struktur Contoh Sendi Contoh Pergerakan

Jenis ContohPenerangan

Jenis Penerangan Contoh

Rajah 1.5 Model RIngkas Pergerakan Artikular

• Fibrous Joints• dense connective tissues connect bones• between bones in close contact

• Cartilaginous Joints• hyaline cartilage or fibrocartilage connect bones

• Synovial Joints• most complex• allow free movement

• synarthrotic• immovable

• amphiarthrotic• slightly movable

• diarthrotic• freely movable

Classification of Joints

3 Types• Syndesmosis• Suture• Gomphosis

Syndesmosis• long fibers connect bones• amphiarthrotic• distal ends of tibia and fibula

Fibrous Joints

Suture• between flat bones• synarthrotic• thin layer of connective tissue connects bones

Gomphosis• cone-shaped bony process in a socket• tooth in jawbone• synarthrotic

Fibrous Joints

2 Types• Synchondrosis• Symphysis

Synchondrosis• bands of hyaline cartilage unite bones• epiphyseal plate (temporary)• between manubrium and first rib• synarthrotic

Symphysis• pad of fibrocartilage between bones• pubis symphysis• joint between bodies of vertebrae• amphiarthrotic

• diarthrotic• joint cavity• synovial fluid• joint capsule• synovial membrane• bursae

Ball-and-Socket Joint• hip• shoulder

Condyloid Joint• between metacarpals and phalanges

Gliding Joint• between carpals• between tarsals

Hinge Joint• elbow• between phalanges

Pivot Joint• between proximal ends of radius and ulna

Saddle Joint• between carpal and metacarpal of thumb

Flexion — bending movement that decreases the angle of the jointExtension — reverse of flexion; joint angle increasesDorsiflexion and Plantar flexion — up and down movement of the footAbduction — movement of a limb away from the midline or median planeAdduction — movement of a limb toward the midline or median planeCircumduction — movement of a limb describing a cone in space

Angular Movement – Change of Angle Between Bones

• abduction/adduction• dorsiflexion/plantarflexion• flexion/extension/hyperextension

The turning of a bone around its own long axis

Examples:Between first two vertebraeHip and shoulder joints

Rotation

• rotation/circumduction• supination/pronation

Supination and Pronation – refer to movements of radius around the ulna (also applied to foot movements)

Special Movements

• eversion/inversion• protraction/retraction• elevation/depression

Inversion and Eversion

Protraction and Retraction

Special Movements

Elevation and Depression

Opposition

Special Movements

• ball-and-socket• head of humerus• glenoid cavity of scapula• loose joint capsule• bursae• ligaments prevent displacement• very wide range of movement

• hinge joint• trochlea of humerus• trochlear notch of ulna

• gliding joint• capitulum of humerus• head of radius

• flexion and extension• many reinforcing ligaments• stable joint

• ball-and-socket joint• head of femur• acetabulum• heavy joint capsule• many reinforcing ligaments• less freedom of movement than shoulder joint

• largest joint• most complex• medial and lateral condyles of distal end of femur• medial and lateral condyles of proximal end of tibia• femur articulates anteriorly with patella• modified hinge joint• flexion/extension/little rotation• strengthened by many ligaments and tendons• menisci separate femur and tibia• bursae

Sendi melonsor: buku lali / pergelangan tangan

Sendi engsel: siku / lutut Sendi pangsi: leher Sendi elipsoid: pergelangang tangan Sendi pelana: trapizium Sendi lesung: femur & pelvis, humerus

162

sistem rangka

Documents

trapizium

leher sendi

24c 10rosley

bones tibia

bones ulna

occipital

spinal cord

transverse