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Prof. Mamoun Kremli AlMaarefa College Principles of Fractures & Fracture Management.

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Presentation on theme: "Prof. Mamoun Kremli AlMaarefa College Principles of Fractures & Fracture Management."— Presentation transcript:

1 Prof. Mamoun Kremli AlMaarefa College Principles of Fractures & Fracture Management

2 Trauma History Mechanism of injury Date, time, type, method of impact, … Consciousness Function of injured part Open wound / bleeding Other injuries Anti-Tetanus status (if skin breached)

3 Type of injury Mechanism of injury helps expect the Extent and type of bone injury Extent of soft tissue injury Suggests treatment and reduction technique Expected prognosis

4 Type of injury Fall: height, point of impact, twist

5 Type of injury Fall: height, point of impact, twist Sport: type, direction of force

6 Type of injury Fall: height, point of impact, twist Sport: type, direction of force Road traffic accident (RTA)): Car (MVA), motorcycle, pedestrian

7 Type of injury Fall: height, point of impact, twist Sport: type, direction of force Road traffic accident (RTA)): Car (MVA), motorcycle, pedestrian Heavy object fall: TV, wall, metal, earthquake

8 Type of injury Fall: height, point of impact, twist Sport: type, direction of force Road traffic accident (RTA)): Car (MVA), motorcycle, pedestrian Heavy object fall: TV, wall, metal, earthquake Assault & firearms / blast http://simple.wikipedia.org/wiki/Blast_injury

9 Mechanism of Injury Low velocity High velocity Direction of force Blunt / Sharp Open / Closed

10 Mechanism of Injury Low velocity High velocity Direction of force Blunt / Sharp Open / Closed http://eorif.com/

11 Kinetic Energy = ½ MV 2 If a Simple fall = 1 Skiing injury = 3-5 High-velocity gunshot = 20 Car bumper (25 km/hr) = 100 Energy dissipated during injury

12 What is a fracture? A fracture is a break in the structural continuity of bone Always associated with some soft tissue injury A fracture is a soft tissue injury in which bone is broken!

13 Fracture Classification According to site of Fracture: Diapyhseal Metaphyseal Articular Epiphyseal (in children) Epiphysis Metaphysis Diaphysis (Shaft) Physis Articular Surface

14 Fracture Classification According to fracture line: Complete (usual) Cortex fractured on both sides

15 Fracture Classification According to fracture line: Complete (usual) Cortex fractured on both sides Incomplete (green stick) (Torus) One cortex fractured, the other intact In children

16 Fracture Classification According to fracture pattern: Simple Wedge comminuted Complex comminuted multifragmented A Simple B Wedge C Complex

17 Fracture Classification According to type of injury (force): Ordinary fracture Expected from force of injury Stress fracture Repetitive stress Pathological fracture Force too weak to cause fracture Bone is pathologically weak Avulsion fracture Resisted muscle action, where ligaments and tendons pull a bone fragment off

18 Stress Fractures Bone reacts to repeated loading, may become fatigued & a crack develops Fatigue fractures Abnormal stress or torque on a bone that has normal elastic resistance Examples: military recruits, athletes, ballet dancers Insufficiency fractures Normal muscular activity stresses a bone that is deficient in mineral or elastic resistance

19 Stress Fractures Fatigue fractures 2 nd metatarsal Tibia Fibula Insufficiency fractures In osteopenia, osteomalacia Neck of femur Ribs Neck of humerus Scapula www.sanluispodiatrygroup.com www.imaging.birjournals.org www.studyblue.com

20 Pathological fractures Fractures may occur even with normal stresses if the bone has been weakened by a change in its structure. Seen in: Local bone disease Osteomyelitis Benign tumors and Bone cysts Malignant tumors and matastasis Generalized disease Metabolic: osteoporosis, rikets Congenital: osteogenesis imperfecta Others: Paget’s disease

21 Avulsion fractures Part of bone separated by forceful sudden resisted muscle action Caused by ligament or tendon pull on bone Part of bone avulsed – bone weaker than tendon/ligament

22 Type of injury Direct Simple contusion or severe comminution Soft tissue more injured Indirect Pattern of fracture depends on force direction Less soft tissue injury Penetrating Missiles Low velocity < 300 m/s - damage along the tract Comminution High velocity: >300m/s - sever comminution Comminution with wide soft tissue damage

23 Force & fracture pattern Fracture pattern suggests mechanism of force Spiral: (twisting) Short oblique: (compression) Wedge: (compression + bending) Transverse: (angulation) (avulsion)

24 Force & fracture pattern

25 AO/OTA fracture classification A comprehensive universal classification system that describes the injury, guides treatment, and suggests prognosis Based on a five-part code: —. Bone Segment Type Group Subgroup

26 AO/OTA fracture classification A comprehensive universal classification system that describes the injury, guides treatment, and suggests prognosis Based on a five-part code: Bone Location: part of bone Type:: simple or multi-fragmentary Group: The geometry of the fracture. e.g. transverse, oblique, spiral, or segmental Subgroup: other features of the fracture are described in terms of displacement, angulation and shortening.

27 AO/OTA fracture classification Bone: —. Bone Segment Type Group Subgroup 1 2 3 4

28 AO/OTA fracture classification Location: 123123 123123 —. Bone Segment Type Group Subgroup

29 AO/OTA fracture classification Type: A Simple B Wedge C Complex —. Bone Segment Type Group Subgroup

30 AO/OTA fracture classification Group:

31 —. Bone Segment Type Group Subgroup 12A 2 AO/OTA fracture classification Humerus Diaphysis Simple Oblique Bone Segment Type Group 1 2 A 2 Subgroup Middle 2 2

32 Displacement Described as: Distal in relation to proximal Un-displaced Shift Sideways Shortening Distraction Angulation In all planes Rotation SHIFT ANGULATION /TILT TWIST/ROTATION Sideways Overlap Impaction


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