1. King Suad University College of Engineering Industrial Engineering Department Modeling Of Bone Injuries Treatments By Yaser Abdullah al Jammaz Supervised By Prof. Saeed Darwesh

2. OBJECTIVES
1 - Helping orthopaedics sergeants in evaluating their operations and in estimating the effort allowed to the patients after the operations (especially children)
2-Saving a lot of money which is related to re-operating the orthopaedics patients

3. THE HUMAN SKELETON
The human skeleton keeps the body in shape, protects vital organs such as the brain, heart and lungs, and allows movement. There are about 206 bones in the human body.

4. BONES
The longest bone in our bodies is the femur (thigh bone). The smallest bone is the stirrup bone inside the ear. Each hand has 26 bones in it. Our nose and ears are not made of bone; they are made of cartilage, a flexible substance that is not as hard as bone.

5. TYPES OF BONE FRACTURE
there are several types of fracture

6. TYPES OF BONE FRACTURE

7. FIXTURE
Any bone breaks needs to be fixed. There are three major fixations methods:
1-Simple fixation:
Caused by simple injury of the bone , with a splint or cast while it heals

8. 2- External fixation devices
FIXTURE
2- External fixation devices
Caused by very bad injuries of the bone , It is used when there are extenuating circumstances that preclude the use of internal fixation ,and they maybe the only way to treat fractures with deficient bone stock or infection (external fixation allows easy access to wounds).

9. 3- Internal fixation devices
FIXTURE
3- Internal fixation devices
Caused by bad injury of the bone, there are different types of fixation tools such as:
A- Screws
B- Plates
C-Wires and pins
D-Intermeddler rods and nails

10. INTERNAL FIXATION DEVICES
A- Screws
they are used to provide fixation or in conjunction with other devices.
cannulated screw

11. INTERNAL FIXATION DEVICES
B- Plates
Used to provide stabilization of the broken bone and always used with screws.
dynamic compression plate (DCP) buttress plate blade plate

12. INTERNAL FIXATION DEVICES
C-Wires and pins
Used to pull various fracture fragments together.
"k" wires two cerclage wires tension band wire

13. INTERNAL FIXATION DEVICES
D-Intermeddler rods and nails
They are used for different fracture in the intermeddler area and they some times used with screw (when the fracture is critical and some times it is used without screw.
Ender nails an intermedullary nail Rush rod

14. PRESENTED WORK TREATMENT
The present work will focus on the ender nail fixation of fractured femoral bones (type of material and the size of nails).

15. METHODOLOGY Getting the X-ray from hospital as jpg file.
2. Importing the jpg file as raster image from Auto-Cad.
3. Scaling and getting the actual dimensions and exporting the file As DXF file.
4. Building the solid model using GID program.

16. METHODOLOGY

17. FINITE ELEMENT MODELING
Sold Models
Un bended bended

18. BOUNDARY CONDITIONS
Loading condition
Boundary constrains
500 N
19°

19. MESH GENERATION
Meshing was generated for two models. The table below shows the meshing data for the models.

21. MATERIAL PROPERTIES

22. RESULTS
different crack angle

23. RESULTS
Deformation Results

24. DEFORMATION RESULTS

25. DEFORMATION RESULTS

26. DEFORMATION RESULTS

27. DEFORMATION RESULTS

28. DEFORMATION RESULTS

29. DEFORMATION RESULTS

30. Unbended nails

31. Bended nails .

32. Bended nails Vs Unbended

33. Titanium Vs Ni- chrom

34. Results 2- STRESSES RESULTS
The principal (ρ1, ρ2 and ρ3) stress contours of the FE mesh for bended nails FE models for three materials, cortical and cancllous bone and nails

35. Principle stress si ,sii ,sii for cortical

36. Principle stress si ,sii ,sii for concllous

37. Principle stress si ,sii ,sii for nails

38. Von-Misses Stresses (un bended nails)

39. Von-Misses Stresses (bended nails)

40. Bended nails Vs Unbended

41. Titanium Vs Ni- chrom

42. Allowable stress

43. General Conclusions
Finite element can represent the bone treatment very honestly.
The maximum displacement at the crack area was found to be mm which is safe and within the practical range.
The appropriate material to use is titanium since it is lighter than Ni-chrom and its displacement is almost the same

44. THANKS….
ANY QUESTIONS…