- Docente: Lucia Bertozzi
- Credits: 2
- Language: Italian
- Teaching Mode: Traditional lectures
- Campus: Bologna
- Corso: First cycle degree programme (L) in Physiotherapy (for certified professional physiotherapists) (cod. 0165)
Learning outcomes
To learn the principles generates from the kinesinesiology related to the base capacity of gesticulation of the movement. To acquire the abilities to estimate the amplitude and the quality of the excursion in the main articular fulcrums, the force and the muscular length to elaborate a re-education functional program.
Course contents
KINESIOLOGY OF THE VERTEBRAL COLUMN AND TRUNK
OVERALL VIEW
Normal curvatures of the spine. Typical vertebrae. Functional
divisions of the spine. The elements of intervertebral connection.
The intervertebral disc. Comparison of vertebrae at different
regions. The flexion-extension, the lateral flexion to the right or
left, the axial rotation to the right or left as a whole.
LUMBAR REGION
The lumbar spine as a whole. The lumbar vertebrae. The system of ligaments at the lumbar region. The flexion-extension, the lateral flexion to the right or left, the axial rotation to the right or left. The muscles of the trunk. The muscles of the abdominal wall. Static lumbar spine in an upright position. The flexion-extension of the lumbar spine.
THORACIC REGION AND THE MUSCLES OF THE BREATHING
Thoracic typical vertebrae. The flexion-extension, the lateral
flexion to the right or left, the axial rotation to the right or
left . The cost-vertebral joints. The deformation of the thorax
during ventilation. The muscles for breathing. Value of
synergy-antagonism between the diaphragm and abdominal muscles.
THE CERVICAL REGION
The cervical spine as a whole. The upper cervical spine, the lower cervical spine. Atlas vertebrae (C1), Axis vertebrae(C2). Atlanto-occipital joint, Atlanto-axial joint, intracervical region (C2-C7). The ligaments and movements of the cervical spine. Form of a cervical vertebrae. Fine tuning motions of the head and neck. Anterior craniocervical muscles posterior craniocervical muscles.
Anterior-lateral muscles of the trunk. Posterior muscles of the trunk.
KINESIOLOGY OF UPPER LIMB
THE SHOULDER
Joints of the shoulder complex. Physiology of the
shoulder. Movement of flexion-extension , adduction, abduction,
axial rotation of the arm and horizontal rotation.The movement of
circumduction. Glenohumeral joint. The ligaments of the
Glenohumeral joint. The coerciveness of the articulation by
periarticular muscles and muscles of the arm. Scapulothoracic joint
–and the position of the scapula in relation to the chest. The
movements of the scapular cingulum. Sternoclavicular joint.
Movements of the clavicle in the horizontal plane and in the
frontal plane. Acromionclavicular joints and ligaments
Coracoclavicular. Scapulohumeral rhythm. Muscles of the
shoulder.
THE ELBOW
Structure and function of the elbow and forearm complex. The
Homeroulnar and homeradial Joints. The ligaments of the elbow. The
limitations of the flexion-extension. The muscles of flexion. The
muscles of the extension. The range of the elbow joints. The
pronation and supination. The muscles of pronation and
supination. Proximal radioulnar and distal radioulnar
THE WRIST AND HAND
The structure and function of the wrist and the hand. The radio-carpal joint. The adduction and abduction, the flexion-extension. The muscles of the wrist. Metacarpo-phalangeal Joints. The interphalangeal joints. The tendons of flexor muscle and long extensors of the fingers. Palmar Interossei, Dorsal Interossei and lumbricals. The extension of the fingers. The muscles of Hypothenar Eminence. The trapezium-metacarpal joint and Metacarpo-phalangeal of the thumb. The muscles of the thumb. The opposition of the thumb. The prehension.
KINESIOLOGY OF THE LOWER LIMBS
THE HIP AND PELVIC REGION
The structure and function of the hip. The capsule and
ligaments. Supporting structure located within the hip joint and
Supporting structure located outside the hip joint. Flexor,
extensor, abduttor, adductor and rotator muscles. The sacro-iliac
joint. The ligaments of the articulation sacro-iliac. The nutation
and counternutazion.
THE KNEE
The structure and function of the knee. Capsule and ligaments.
The menischi. The movements of the patella on the femur and tibia.
The collateral ligaments. The antero-posterior stability. The
cruciate ligaments. The stability of the knee in rotation. The
extensor, flexor and rotator muscles.
The structure and function of the ankle. The ligaments of the tibio-femoral joint. The antero-posterior stability and crossbar. The proximal tibiofibular joints.
THE FOOT
The structure and function of the foot. Prossimal joints of ankle and foot:The talocrural, subtalar joint, trasverse tarsal joints. Dosiflexion and plantar flexion, inversion and eversion abduction and adduction. Distal joints of ankle and foot tarsometatarsal, metatarsophalangeal, interphalangeal joints. The flexion and extension, abduction and adduction of the toes. The muscles of ankle and foot. The medial longitudinal Arch, the lateral longitudinal Arch and the trasverse Arch.
Readings/Bibliography
Hochschild Jutta (2008) Grundlagen zur Wirbelsäule, HWS und Schädel, BWS und Brustkorb, Obere Extremität - Thieme Portofreie Lieferung
Teaching methods
Short lectures
Work in small groups
Assessment methods
Written examination with 40 closed answers and 2 open answers
ALP (Acceptable level of performance)=23 correct answers
and 1 correct open answer
The tests are all different
You can not see notes
Teaching tools
PC and Projector
Links to further information
http://www.webmed.unibo.it/cdl_fisioterapia/
Office hours
See the website of Lucia Bertozzi