Is this project an undergraduate, graduate, or faculty project?

Undergraduate

Project Type

group

Campus

Daytona Beach

Authors' Class Standing

Seth Eaby, Senior Joe Sauerbrun, Senior Sheridan Perry, Senior

Lead Presenter's Name

Seth Eaby

Lead Presenter's College

DB College of Engineering

Faculty Mentor Name

Dr. Victor Huayamave

Abstract

Developmental Dysplasia of the Hip (DDH) refers to an abnormal hip condition that occurs in infants, which can lead to loss of or limited function of the hip joint as well as arthritis later in life. The effectiveness of treatment is dependent on how early DDH is detected. This research aims to develop a realistic medical trainer utilizing the geometry of the hip joint. The use of infant geometry will create effective trainers and will allow medical students to be more prepared to test for DDH on infants and produce more accurate tests. This research will culminate in the development of a multi-material, 3-D printed prototype. Silicon molding will be used to encase the prototype, and provide the necessary tension to retain the femoral head in the acetabulum. This prototype will be tested for realism against the current DDH Medical Trainer, the Hippy Baby, by pediatric resident students. Fatigue testing will also be implemented to ensure a durable prototype. Additional prototypes representing various stages of the pathology may be developed in the future.

Did this research project receive funding support (Spark, SURF, Research Abroad, Student Internal Grants, Collaborative, Climbing, or Ignite Grants) from the Office of Undergraduate Research?

Yes, Ignite Grant

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Developmental Dysplasia of the Hip Medical Trainer

Developmental Dysplasia of the Hip (DDH) refers to an abnormal hip condition that occurs in infants, which can lead to loss of or limited function of the hip joint as well as arthritis later in life. The effectiveness of treatment is dependent on how early DDH is detected. This research aims to develop a realistic medical trainer utilizing the geometry of the hip joint. The use of infant geometry will create effective trainers and will allow medical students to be more prepared to test for DDH on infants and produce more accurate tests. This research will culminate in the development of a multi-material, 3-D printed prototype. Silicon molding will be used to encase the prototype, and provide the necessary tension to retain the femoral head in the acetabulum. This prototype will be tested for realism against the current DDH Medical Trainer, the Hippy Baby, by pediatric resident students. Fatigue testing will also be implemented to ensure a durable prototype. Additional prototypes representing various stages of the pathology may be developed in the future.

 

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