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Phantom Simulation of Liver Motion During Breathing

Published bySérgio Miranda Morais Modified over 6 years ago

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Presentation on theme: "Phantom Simulation of Liver Motion During Breathing"— Presentation transcript:

1 Phantom Simulation of Liver Motion During Breathing
Group Members: Ian Dallmeyer Tuta Guerra Ian Henderlong Advisor: Dr. Bob Galloway

2 Background Over 17,550 people in the U.S. diagnosed with primary liver cancer in ,420 will die of liver cancer in 2005. Cancers often spread throughout the liver. Traditional surgery difficult/not possible.

3 Image Guided Liver Surgery
Imaging Techniques CT, MRI, Ultrasound, X-ray angiography Use data to create 3-D registration of liver Surgical Therapy Radio Frequency Ablation (RFA) Chemoembolization Chemotherapy Embolization RFA make large-volume tissue ablation effective for local control of some cancer. Microwave, cryotherapy, and high intensity focused ultrasound devices as well as concentrated radio frequencies to kill localized tumor. Physicians insert a catheter through the patient's arteries to the liver and inject a high-dose of chemotherapy into the cancerous tissue. Next, the catheter releases an embolizing material that closes the blood vessels that feed the tumor. The result: the chemotherapy is trapped inside the tumor, and the tumor dies.

4 Success Rates of IGLS

5 Problem Need an anatomically correct model which accurately simulates liver motion due to breathing to test IGLS techniques.

6 Advantages of Phantom Model
Porcine Liver Approx. $1,000 – $2,000 per liver Not anatomically correct Not reusable Phantom model Anatomically correct Reusable Time and space-saving Silicon Art Department

7 Market Potential Current methods too invasive Low survival rate
Long recovery periods Estimated market for IGLS 10x current IGNS market ($3.0-$7.5 billion) Global Market Liver Cancer is 10X more common in developing countries Disadvantages with Competing Technologies – HFJV Duration of 45 min. Cardiovascular Complications Patient Response Expensive

8 Phantom Liver System Design
Ground power source w/ switch 2N2222 NPN Transistor Muscle Wire (All encased in PVC housing)

9 Shape Memory Alloy Shape memory alloys deform upon heating
Martensite – low T, soft, deformable Austenite – higher T, hard, non-deformable Other SMA’s - CuZnAl, and CuAlNi

10 Muscle Wire Specs Alloy: nitinol R 50 /m Activation T 70oC
Diameter = 150mm Act. Current = 400 mA Vact =~ 10V Cooling time = 2 s

11 Design Specs 1-D Linear motion (cranial- caudal) 10.8 + 2.5 mm (ATLM)
Breath Frequency ~= .11 Hz. (1 breath/9 sec) Active optical position sensor (Optotrak 3020)

12 Current Work Circuit Design Power Source Construction
Rebuild Base and Track System

13 Future Work Construction of PVC housing
Research for final paper/poster Total model assembly

14 References Herline AJ, Stefansic JD, Debelak JP, Hartmann SL, Wright Pinson C, Galloway RL, Chapman WC. Image Guided Surgery: Preliminary; Feasibility Studies of Frameless Stereotactic Liver Surgery. June 1999 Archives of Surgery 134: Tarczy-Hornoch P, Jones D, Zerom B, Woodrum D, and Berk R. Mechanical Ventilators. [Online] Available WEB/vents.html, 1998.

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