Biomedical Engineering and Bioengineering Commons^™

Minimally Invasive 3d Printed Microneedles For Glucose Monitoring, Eduardo Quintero, Justin Wong

Bioengineering Senior Theses

Continuous glucose monitoring (CGM) provides an instantaneous real-time display of glucose level, rate of change of glucose, alerts, and alarms for actual or impending hypo- and hyperglycemia. Continuous glucose monitors are able to stay implanted on the patient anywhere from 7-14 days, giving patients and doctors valuable information to help improve patient care for diabetics, and providing them with a way to continuously monitor their blood glucose level concentration throughout the day.

Conventional methods of glucose detection such as blood glucose meters require the patient to gather frequent blood samples to generate instantaneous results that are only accurate as of …

Towards Targeted Delivery To Cns Neurons By Conquering The Bbb, David G.A. Bengford

Bioengineering Master's Theses

Brain cancer treatments have long been restricted by the blood-brain barrier (BBB). Semi-permeable in the most selective way, this barrier may be crossed by one of three methods: membrane integrity disruption, passive transport, or active transport. The third option offers the opportunity for many medically relevant cargoes, such as proteins and nucleic acids, to be shuttled into the brain. The concept of a therapeutic “Trojan horse” builds on this capability by employing engineered nanovesicles—in this work, engineered exosomes—whose surfaces are studded with ligands functioning as the keys to crossing the BBB. Exosomes are a powerful methodology for this approach because …

Staphylococcus Aureus Sortase A Protein Applications And Methods: (1) Drug Discovery In Anti-Infectious Agents; (2) A Biotechnique Analysis For Indication Sortase A Protein Purification Methods; (3) In Vivo Protein Ligation For Discovery Of Novel Protein Engineering Methods:, Melina Huang Xia

Bioengineering Master's Theses

It has been understood that during Gram-positive bacterial infection, the bacterial cells interact with host mammalian cells via the virulence factors whose anchorage onto the bacterial surface are mainly catalysed by Sortase A[2]. Emergence of antibiotic-resistant bacterial strains, especially the Gram-positive bacteria, has rendered the rise of many antibiotic resistant bacteria, resulting in rise of infection cases that bypass traditional first-line antibiotics treatments. It is crucial for the public health that scientists and researchers discover an alternative treatment for the bacterial infection that targets the underlying pathogenic mechanism that are responsible for the increased virulence of such bacteria without contributing …

Immuno-Anti-Infective Drug Design Using Bioai, Cathy Chen, Vivian Zhang

Bioengineering Senior Theses

According to the World Health Organization, antibiotic resistance is one of the biggest threats to global health, food security, and development today. A growing number of infections, like Methicillin-resistant Staphylococcus aureus, are becoming harder to treat as the antibiotics used to treat them become less effective. As a result, the primary concern for infections in the hospital setting is due to the S. aureus’s growing resistance to antibiotics. Therefore, in response to this global health threat, our project focuses on furthering the research in developing a drug that S. aureus will not develop resistance to. In this paper, we assess …

Poly(Adr-Ribose) Polymerase 14-Specific Inhibitor For Hepatocellular Carcinoma, Clarissa Silvers, Colin Sim

Bioengineering Senior Theses

Poly (ADP-ribose) polymerases, PARPs, are comprised of a family of 17 human enzymes that share a conserved catalytic domain that transfers ADP-ribose from nicotinamide adenine dinucleotide (NAD+) to target proteins. While significant proteomic-based efforts in the field have uncovered a host of potential targets for each of the various active PARP enzymes, an outstanding question remains as to what extent proximal versus distal interactions with the protein substrates govern target selection. In this work, we describe the use of tandem mass spectrometry to identify specific residues that are auto-modified in both PARP14 and PARP15 as well as their preferred modification …

Wearable Health Sensor, George Kouretas, Kelley Mccarroll

Bioengineering Senior Theses

The COVID-19 pandemic has significantly impacted several populations, partially due to the lack of access to basic health care amenities, and emphasized the need for continuous telehealth monitoring of relevant biometric vitals. This need is further emphasized through research that has suggested that simple biometric vitals, including heart rate (HR), blood oxygen saturation rate (SpO2), and temperature, are relevant biomarkers for early disease diagnosis. The project aims to address this need through the design wearable health platform that uses novel, non-invasive techniques to monitor biometrics with the eventual goal to provide user insights into current health status and identify early …

Shear Detection Of Microencapsulated Cells For Monoclonal Antibody Production Scaleup, Kendall Defelippi, Dwight Johnson

Bioengineering Senior Theses

Scale the reported hydrodynamic shear values in industrial bioreactors for monoclonal antibody production to the shear stress measured in our custom microneedle prototype by extruding microencapsulated CHO cells. A correlation between the number of extrusion loops to reduction in cell viability enables a scalable screening method for bioprocessing efficiency.

Engineering Hydrogels For Delivery Of Therapeutic Proteins, Francesca Briggs, Daryn Browne

Bioengineering Senior Theses

In this project, we investigate how innate hydrogel properties can be leveraged for controlled protein drug release platforms. Therapeutic proteins have many valuable applications within the medical field, however, professionals often face many obstacles with obtaining controlled drug release. This paper analyzes how the manipulation of hydrogel properties can improve protein drug release rates. We started these investigations by varying hydrogel concentrations since we saw that this affects the release of small molecules. Additionally, we wanted to see what the addition of a second hydrogel network would do to protein release rates. These experiments concluded that raising polymer concentrations and …

Bioai For Anti-Infective Drug Discovery, Maria Esquivel, Johann Fernando, Anna Fisher, Cameron Leong, Adam Weaver

Interdisciplinary Design Senior Theses

Modern antibacterial drugs are quickly becoming insufficient for medical, agricultural and veterinary use, and the drug design techniques used to supplement the supply are not able to adequately and quickly produce enough effective candidates. We took a multi-pronged approach to remedying this problem, including shifting the target mechanism from antibiotic drugs in favor of anti-infective drugs, developing an AI which aimed to predict the interactions of small molecule fragments with the target protein, and refining wet lab testing protocols in order to make the drug design process holistically more efficient and effective. We have shown that there is potential in …

Skin Phantom For Wearable Device Benchtop Testing, Laura Apolloni, Vindhya Mullapudi, Takumi Simon

Bioengineering Senior Theses

The biowerables constitute one of the fastests growing sectors of the medical device industry. Novel approaches for rapid prototyping have increased design and development speeds. However, in vivo testing that is currently used for many medical devices makes testing time-consuming, costly, and presents ethical issues. As an alternative, benchtop testing tools promise to alleviate these concerns. Artificial tissue phantoms that are capable of mimicking the characteristics of human tissues are required for demonstrating a medical device’s safety and efficacy in benchtop tests. While there are many hydrogels that are able to mimic these relevant properties of human tissue, creating a …

Neurogen: Eeg And Near-Infrared Light Stimulation Control System, Karina Sanchez, Sruthi Sakthivel, Michael Bose, Evan Jennings

Interdisciplinary Design Senior Theses

Neurodegenerative diseases, such as Alzheimer’s disease and Parkinson’s disease are widespread, affecting millions of people worldwide. These diseases occur when neurons in the brain or peripheral nervous system progressively lose function and deteriorate. Current pharmacological treatments manage some of the neurological symptoms, but there is no cure yet. Interventions that mitigate or restore loss of function can fill the void until that goal is met. Light stimulation, or transcranial photobiomodulation (tPBM) therapy, can help treat people with neurodegenerative diseases, as it has been shown to improve sleep, attention, memory, and cognitive function.

The objective of this project is to develop …

Identification Of Messenger Molecule For Immuno-Antibacterial Infection Drug Discovery With The Usage Of Bio-Ai, Minqiao (Lisa) Jin

Bioengineering Master's Theses

Facing the danger of Gram-positive bacterial infection, mammalian cells have their defense line. A functional proteomics study aided with Deep Learning indicates the direct interaction between collagen V from mammalian cell membrane and Sortase A which catalyzes the display of virulence factors on the gram positive bacteria. And CHO cell proteomes conducted with the use artificial intelligence via Tensorflow and found that the identified anti collagen V binds to Sortase A of S. aureus and regulates its monomer-homodimer equilibrium, which is responsible for the bacterial cell wall sorting activity. Our results suggest that the collagen V plays an instrumental role …