Biomedical Engineering and Bioengineering Commons^™

A Chronically Implanted, Continuous Ph Monitoring System For Rats, Ryan B. Budde, Pedro P. Irazoqui

The Summer Undergraduate Research Fellowship (SURF) Symposium

Many body systems operate within a strict pH range, and any deviation can cause harm. pH measurement systems are used in many biomedical research fields. Measurement systems have been able to continuously record pH for a short period of time wirelessly, or over a long period of time with wires, but no system is currently capable of long term, wireless, continuous pH recording. This paper proposes a new pH measurement system that is capable of such measurement. The system is composed of inexpensive, micro-scale, and easy to manufacture pH sensitive and reference electrodes and a data acquisition and transmission module …

Localized Blood Occlusion Generation In An In-Vitro Circulatory Catheter System, Ryan D. Harris, Qi Yang, Hyowon Lee

The Summer Undergraduate Research Fellowship (SURF) Symposium

Hydrocephalus is a debilitating neurological disorder that involves the accumulation of cerebrospinal fluid in a ventricle of the brain. The implantation of a catheter commonly treats hydrocephalus with drainage. These catheters have a short lifespan due to obstruction from biological materials. Shunt systems have an extremely high failure rate of more than 40% failed within 1 year and up to 85% failed within 10 years. Previously, polymer-based flexible implantable magnetic micro-actuators were developed to clean up the catheter by mechanical vibration. We have demonstrated clearing of bacteria attachment and are proceeding to examine clearing effects on larger clotting materials, such …

Low Power, Low Noise Circuit For Biological Signal Recording, Rachael A. Swenson, Daniel J. Pederson, Pedro Irazoqui

The Summer Undergraduate Research Fellowship (SURF) Symposium

Implantable devices are ideal for recording biological signals in animal models as they have minimal effect on the animal’s normal behavior during observation. The creation of the circuitry for an implantable device has several restrictions including size, power consumption, and noise reduction. These factors compete against each other, making it necessary to carefully optimize circuit components for a given application. This study evaluates the design of a four-channel analog front end circuit board to record cardiac, neural, and respiratory biological signals. Through a critical analysis of component specifications for the circuit’s components and an evaluation of the circuits’ power and …

Co-Modulation Masking Release Begins In The Auditory Periphery, Kareem R. Hussein, Agudemu Borjigan, Mark Sayles

The Summer Undergraduate Research Fellowship (SURF) Symposium

Understanding speech in noisy environments can be difficult, especially for people with hearing loss. The background noise can cover up the sounds of interest. Normally, the auditory system works to alleviate this problem by tagging and then cancelling the noise. Our experiments are aimed at understanding the mechanism of this noise cancellation process. We hypothesize that non-linear signal processing in the mammalian cochlea (the most peripheral part of the auditory system) is the basis of noise cancellation. To test this hypothesis, we measured the responses of auditory-nerve fibers (ANFs) to sounds embedded in background noise with different statistical properties. ANFs …

Pathogenic Dna Detection Using Dna Hairpins: A Non-Linear Hybridization Chain Reaction Platform, Lance Novak, Tamara L. Kinzer-Ursem

The Summer Undergraduate Research Fellowship (SURF) Symposium

Currently, 3.2 billion people are at risk of being infected with malaria, with 1.2 billion of those being at high risk (>1 in 1000 chance of getting malaria in a year). Thus, there is a need for a biosensor that is highly sensitive, cost effective, and simple to use for point-of-care diagnosis. The biosensing platform, PathVis, has achieved this by measuring changes in fluid properties after a loop-mediated isothermal amplification (LAMP). LAMP is a DNA amplification system that requires enzymes and a temperature of 65degrees C. LAMP currently limits PathVis by being costly, requiring refrigeration, and difficult to design. …

Gui For Mri-Compatible Neural Stimulator And Recorder, Soo Han Soon, Nishant Babaria, Ranajay Mandal, Zhongming Liu

The Summer Undergraduate Research Fellowship (SURF) Symposium

Functional magnetic resonance imaging (fMRI) and electroencephalography (EEG) are useful tools to analyze brain activities given active stimulation. However, the electromagnetic noise from the MRI distorts the brain signal recording and damages the subject with excessive heat generated on the electrodes attached to the skin. MRI-compatible recording and stimulation systems previously developed at LIBI lab were capable of removing the electromagnetic noise during the imaging process. Previously, the hardware systems had required the integrative software that could control both circuits simultaneously and enable users to easily change recording and stimulation parameters. Graphical user interface (GUI) programmed with computer language informed …

A Deterministic Model Of The Effect Of Electric Field On Chemotherapeutics Delivery Into A Tumor, Maryam Moarefian, Luke Achenie

Biology and Medicine Through Mathematics Conference

No abstract provided.

An Electrochemical Analysis Of Fretting Corrosion In Metal-On-Metal Hip Implants Subjected To High Impaction Loads, Joe Morin, Timothy L. Norman, Thomas K. Fehring

The Research and Scholarship Symposium (2013-2019)

The metal-on-metal total hip arthroplasty, a procedure where the hip joint is replaced by a femoral prosthesis with a metal femoral head and a metal socket, has been a popular option for patients requiring a hip joint replacement. Metal on metal hip implants have been a successful implant design until recently where there has been an increased number of failures of this type of implant due to fretting corrosion, believed to be caused from the use of large femoral heads. Fretting corrosion in hip implants results from cyclic micromotion at the taper-trunnion interface; this interface motion removes the protective oxidation …

A Novel Hybrid Imaging System To Aid In Surgical Decision Making, Lawrence Yip, Madeleine Van De Kleut, Ivan Kosik, Astrid Chamson-Reig, Jeffrey Jl Carson

Western Research Forum

Background:

Breast cancer accounts for 25% of all cancer cases among women. In breast-conserving surgery, a common treatment, the tumour is excised with a healthy tissue margin. However, detection of the margin can be difficult. Current techniques to guide excision are often insufficient, and re-excision can occur up to 25% of the time.

Methods:

Photoacoustic imaging is a hybrid imaging modality that combines the advantages of optical imaging and ultrasound while using safe non-ionizing light. This project involves the development of a novel imaging system with a new scanner design to overcome common limitations and provide images to aid in …

Redesign Of Computer Keyboards For Hospital And Consumer Use, Kent Williams, Brian Jensen, Anton Bowden

Biomedical Engineering Western Regional Conference

Application of carbon nanotube coatings to computer keyboards in order to reduce the spread of bacteria in hospitals and homes.

Keywords: carbon nanotube, bacteria, antimicrobial, keyboard, design, MRSA, biofilm

A Nanocomposite Sensor Neck Sleeve For Tracking In Vivo Spine Kinematics In The Alpaca, Colton Porter Graham, Anton Bowden

Biomedical Engineering Western Regional Conference

Chronic low back pain in the US is often attributed to intervertebral disc degeneration. Camelids, particularly alpacas, pose a potential model for spinal treatment due to similarity of the spinal structure and vertical loading. Alpacas also exhibit a high rate of natural disc degeneration. To gain more understanding about how disc degeneration is caused in alpacas it is necessary to understand the loading and motion of the alpaca cervical spine. The goal of the present work was to incorporate nanocomposite sensors into a custom-designed neck sleeve to track the daily in-vivo neck motion of an alpaca in its natural environment.

Structural Mrsa Resistance Through Carbon-Infiltrated Carbon Nanotube Coating Of External Fixator Pins, Jaclyn Larsen, Stephanie Morco, Brian Jensen, Anton Bowden

Biomedical Engineering Western Regional Conference

No abstract provided.

Resorption Rate Of Bioresorbable Materials For Possible Use In Self-Expanding Stents, Jared R. Park, Jason Porter, Anton Bowden

Biomedical Engineering Western Regional Conference

This study investigates the mechanical behavior of various polymers after a period of degradation from exposure to a Saline Solution. The study found that PLA and PDLLA do not have significant degradation over a period of 2 months, while PLA has a sharp decrease in strength after 7 days.

Design And Evaluation Of 3d Printed Features To Improve Stability Of Plasma-Cell Pack Interface In Bacteria Separating Hollow Spinning Disk, Colin G. Bledsoe, Ryan L. Wood, Daneil S. Mcclellan, Dr. William G. Pitt

Biomedical Engineering Western Regional Conference

PDF submission of abstract.

Towards A Bioselective Surface For Treatment Of Sepsis In A Hemoperfusion Device, Karl F. Schilke, Ramya Raman, Bonan Yu, Erik Hahn, Jonathan Su

Biomedical Engineering Western Regional Conference

Sepsis is a dysregulated immune response to circulating bacteria/endotoxin. Hemoperfusion is a promising treatment, but is not universally effective and can unacceptable blood damage. We are developing protein-repellent hydrogel nanofilms that can be grown on a variety of surfaces, and functionalized with “click-ready” pathogen-binding proteins expressed by Genetic Code Expansion (GCE). The extremely rapid, bioorthogonal “click” immobilization chemistry eliminates prior purification, maximizes surface loading, and guarantees spatial orientation of the immobilized proteins. We have demonstrated pathogen binding and blood protein repulsion by these layers, suggesting that they may be part of effective treatments for sepsis and other applications.

The Recovery Glove System- A Sensor Driven Glove With Interactive Games For Fine Motor Skill Disabilities, Brian Lee, Oscar Ledezma, Jonathan Rey, Nicholas Alvarado, Deborah Won

Biomedical Engineering Western Regional Conference

Hand mobility is commonly impaired in stroke victims. Treatment for hand impairment range from therapist-guided physical exercises to robotically controlled exoskeletons. However, A more effective treatment which actually restores hand mobility is by encouraging patients to carry out hand movements themselves.We have designed an Arduino based hand therapy device in which the user interacts with a computer graphic interface (CGI) game controlled by a glove was embedded with a force sensing resistor (FSR) at each of the fingertips except for the thumb. The interactive therapy guides the user through exercises and provides live, quantitative information by which the stroke patient …

3d Printed Microfluidics, Hua Gong, Clayton Ramstedt, Adam T. Woolley, Gregory P. Nordin

Biomedical Engineering Western Regional Conference

3D printing for microfluidic (lab-on-a-chip) devices

Ultrasonic Power Transfer For Medical Implants, Kee S. Moon, Yusuf Ozturk, Sung Q. Lee, Woosub Youm, Guun Hwang, H. W. Park

Biomedical Engineering Western Regional Conference

Wireless power transmission is an attractive alternative to low-power biomedical implants to overcome the power limitation of the primary battery. In this paper, we are presenting an efficient ultrasonic wireless power transmission system for implantable medical devices. It is known that the ultrasonic wireless power transmission has a longer power transmission distance as well as free from electromagnetic interference and absorption in the human body. In this research, an ultrasonic resonance will be applied to improve the power transmission efficiency as well as the distance.

Heart Pump Modelling: Design Of Pulsatile Flow Phantoms, Olivia Coiado, Kevin Jones, Parker Schibel, Nicolas De Almeida

Biomedical Engineering Western Regional Conference

The purpose of this project is to build a model, which mimics physiological conditions of the human cardiovascular system in order to simulate the parameters of the human heart in vivo. For this project, it was developed a flow phantom with vessel mimicking material, as well as blood-mimicking and tissue-mimicking fluid. Phantoms in general are specifically designed objects involving dedicated biomaterials to simulate special realistic circuits of human beings. To develop the flow phantom, low-priced biomaterials for blood mimicking fluid, tissue mimicking, and vessel mimicking material was researched.

Keywords: Cardiovascular system, heart pump, modelling, pulsatile.