1. Group 3 : Fibular Hemimelia Alina Bodea – Co Presenter & Writer Farley Bouguillon - Writer Ravneet Singh - PowerPoint William “Tim” Wells - Presenter Yunes Ahmed – PowerPoint Chasity Lorenzo – Research Julia Lee – Research

2. What is Fibular Hemimelia? Fibular hemimelia is a birth defect where part or all the fibular bone is absent. Most often is unilateral. Diagnosis and Causes Can be observed at scans during pregnancy. Shortened leg, ankle or knee instability due to absence of fibula bone. Most cases of fibular hemimelia are thought to occur for no reason.

3. Patient History A seven year old female patient was scheduled at Columbia Presbyterian Children Hospital for a follow up appointment. At birth, she was diagnosed with fibular hemimelia of her right lower extremity. She undergone a right tibial lengthening at the age of one.

4. Fibular Hemimelia Types Type 1: Short or partial proximal absence unilaterally 1A: Stable ankle joint ± ball & socket joint with mostly medial tilt. 1B: Unstable ankle joint with proximal fibula is absent 30-50% of its length. The patient was diagnosed with Fibular hemimelia type 1A.

5. Fibular Hemimelia Types Type 2: Complete absence Can be unilateral or bilateral. Tibia be extremely small and bowed with proximal femoral focal and upper limb deficiency.

6. Fibular Hemimelia Distal FemurAP Tibia ViewTibia Lengthening

7. Treatment will depend on the severity and condition of the limb. Choices consist of either amputation of lower leg or tibia lengthening or tibia lengthening. Tibial lengthening treatment method was used in this case. Treatment

8. Views Ordered and Obtained AP, oblique, and lateral views of the right ankle. AP and lateral views of the right tibia and fibula. 3 joint right lower extremity exam.

9. Anatomy and Physiology of Ankle The ankle is made up of two joints: The ankle joint and the subtalar joint. The ankle joint includes two bones (the tibia and the fibula) that form a joint that allows the foot to bend up and down. Two bones of the foot (the talus and the calcaneus) connect to make the subtalar joint that allows the foot to move side to side.

10. Anatomy and Physiology of Lower Leg The tibia, also known as the shinbone, is a long bone of the lower leg, found between the patella and the ankle. The fibula is a long and thin bone running parallel to the tibia. Like the femur, the tibia bears much of the body’s weight and plays an essential role in movement and locomotion. The fibula, along with the tibia and the tarsals, forms the ankle.

11. Positioning and Techniques For the ankle examination, the patient was supine with leg extended. The AP and obiluqe views with foot dorsiflexed foot 90°, the central ray is perpendicular to the ankle joint at a point midway between the malleoli. The oblique is obtained by medially rotating the foot 15- 20 degrees. For the lateral view, the patient must turn toward the affected side, until the leg is laterally along the table, placing the patella perpendicular to the IR, dorsiflex the foot and direct the central ray perpendicular to the ankle joint, entering the medial malleolus. The technique utilized for the ankle exams was 55 Kvp and 4 mAs at an SID of 40 inches.

12. Positioning and Techniques Continue… The lower leg projections required the patient to remain in the supine position for the AP view, adjusting the femoral condyles so that they will be parallel to the IR with the foot dorsiflexed. The central ray is perpendicular to the mid shaft of the lower leg. The lateral projection is obtained by turning the patient onto the affected side with the femoral condyles perpendicular to the IR. The technique necessary for the lower extremity views was 55 Kvp at 4 mAs.

13. Positioning and Techniques Continue… For the 3 joint lower extremity projection, the patient is standing erect in the AP position, feet shoulder width apart and collimation is open to the level of the iliac crest down to the ankle joints. The technique used for the 3 joint lower extremity view was 60 Kvp and 5 mAs. Proper shielding was utilized during all examinations. No contrast medium is necessary for these projections, as the anatomy of interest is bone. Proper shielding was used with Philips digital imaging system.

14. Radiographic Findings A solitary bone of the right lower leg. Left femur is approximately 11 millimeter longer than the right femur. Left tibia arises 2 centimeter higher than the right tibia. Distal right tibia epiphysis is absent or dysplastic. Wire hardware seen in the right proximal tibia.

15. Conclusion A young girl who at birth presented with the condition of fibular hemimelia. Surgery was performed at the age of one year in order to install the external fixator device so as to gradually lengthen the tibia. There will be an indeterminate number of follow up surgeries along with radiographic exams to both monitor and visualize the progress, until the expected outcome is achieved.

16. References: Merrill’s Atlas of Radiographic Positioning S.Viquet, Carrin P.Garnero,P.D.Delmas- The role of collagen in bone strength Peter G. Bullough –Fibular Hemimelia Wikipedia Medicinenet.com Springer.com- Clinical Orthopedics and related research ethanfgodschild.blogspot.com- God's Warrior~ Fighting Fibular Hemimelia sportsmedicine.about.com - Ankle Anatomy and Physiology wikiradiography.com boundless.com-Tibia and Fibula (Leg)