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Virginia Commonwealth UniversityVCU Scholars Compass
Capstone Design Expo Posters College of Engineering
2016
3D Printed Microwave Hyperthermia ApplicatorUmar HasniVirginia Commonwealth University
Christopher DeloglosVirginia Commonwealth University
Patricia MosehVirginia Commonwealth University
Follow this and additional works at: https://scholarscompass.vcu.edu/capstone
Part of the Engineering Commons
© The Author(s)
This Poster is brought to you for free and open access by the College of Engineering at VCU Scholars Compass. It has been accepted for inclusion inCapstone Design Expo Posters by an authorized administrator of VCU Scholars Compass. For more information, please contact [email protected].
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3D Printed Microwave Hyperthermia Applicator
Team Members:
Umar Hasni,
Christopher Deloglos,
Patricia Moseh
Faculty Advisers:
Dr. Afroditi V. Filippas,
Dr. Erdem Topsakal
The Problem Goal Research & Design
According to the CDC, every
year approximately two million
people were diagnosed with
some type of cancer in the
United States alone.
Chemotherapy coupled with Hyperthermia
Radiation-therapy coupled with Hyperthermia
Bio-mimicking gels were developed and characterized using a Keysight
network analyzer. Microwave antenna response of the breast tissues was
characterized.
Develop a cost-effective, efficient hyperthermia applicator that can be
tailored to specific patient needs and can offer targeted cancer treatment.
Common Cancer Treatments
• Surgery
• Chemotherapy
• Radiation Therapy
• Targeted Therapy
• Immunotherapy
Other Procedures & Techniques
• Stem Cell Therapy
• Hyperthermia Our Focus
• Photodynamic Therapy
• Blood Product Donation &
Transfusion
• Lasers in Cancer Treatment
Antenna – 3D Printed Applicator – 3D Printed
Additive Manufacturing
New Material Development
Microwave Hyperthermia Applicator
Low Cost
Tailored to Patient
Organ Specific
Improved Efficiency
Streamlined
Goal
Approach & Innovation Conclusion – The Product
Current Hyperthermia ApplicatorsExpensive
Bulky
Complex System
Heats Entire Body
Low-Efficiency
Non-Conformal
3D Conductive Filament Study
3D Filament Development
HFSS – Antenna Design &
Simulation
Matlab –Antenna Pattern
Study Fabrication & Testing with Bio-mimicking Gels
Spherical HFSS
Model
Fat, 𝜖𝑟 = 4.5
Skin, 𝜖𝑟= 38.6 Fibro glandular 𝜖𝑟 = 52.1
Planer Geometry Simulation
Rotational Translation -
Matlab
Antenna Pattern Study
E/M Field Simulation & Antenna
Placement
Conductive Filament
Development of a cost-effective
Product for including Microwave
Hyperthermia as part of regular
Breast Cancer diagnostics and care.
Development of a microwave
hyperthermia protocol that can be
modified for various types of cancers