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Articles 61 - 90 of 395
Full-Text Articles in Biomedical Engineering and Bioengineering
Microwave-Assisted And One-Step Synthesis Of Peg Passivated Fluorescent Carbon Dots From Gelatin As An Efficient Nanocarrier For Methotrexate Delivery, Nasser Arsalani, Parinaz Nezhad-Mokhtari, Esmaiel Jabbari
Microwave-Assisted And One-Step Synthesis Of Peg Passivated Fluorescent Carbon Dots From Gelatin As An Efficient Nanocarrier For Methotrexate Delivery, Nasser Arsalani, Parinaz Nezhad-Mokhtari, Esmaiel Jabbari
Faculty Publications
A green and simple process for preparing the polyethylene glycol passivated fluorescent carbon dots (CDs-PEG) have been studied by a microwave pyrolysis method, using gelatin and PEG as starting materials. This method is very effective for development of carbon-based quantum dots from gelatin with high quantum yield (QY). The synthesized CDs-PEG were found to emit blue photoluminescence (PL) with a maximum QY of 34%. At the following research, we investigated the effect of the presence of PEG on PL intensity, and the result showed that CDs-PEG becomes stronger PL properties than pure CDs from gelatin. The synthesized CDs-PEG were characterized …
Development Of Medical Devices For Osteoarthritis Diagnosis, Antimicrobial, Wound Closure, And Wound Ph Milieu Monitoring, Shuxin Li
Bioengineering Dissertations
Nanotechnology has been widely used in the field of biomedical engineering. For example, nanoparticles have been employed for targeted drug delivery due to their retention effect, increased permeability, site-specific targeting, and avoiding phagocytosis as foreign materials. Moreover, nanotools, such as liposomes, Q-dots, dendrimers, micelles, and carbon nanotubes, have been developed for disease diagnosis and treatment. Generally, the application of nanotechnology can be categorized as follows: nanomedicine, tissue regeneration, biomarker/biosensors, nanorobots, and gene therapy. In the past four years, I have been focusing on developing nanotechnology for diagnosis and treatment of many diseases such as osteoarthritis, open wound, and infection. Based …
Novel Analysis Of Wavelet Coherence And Phase-Amplitude Coupling To Investigate The Human Brain At Four Vigilance States, Seyedeh Parisa Rabbani
Novel Analysis Of Wavelet Coherence And Phase-Amplitude Coupling To Investigate The Human Brain At Four Vigilance States, Seyedeh Parisa Rabbani
Bioengineering Dissertations
Despite breakthroughs in the field of neuroimaging, there remain many unanswered questions about brain functions and activities and their underlying physiological processes. In my dissertation research, I examined brain functions while human subjects experienced four vigilance states: (1) resting state with eyes open, (2) resting awake state with eyes closed, (3) sleep stage 1 and (4) sleep stage 2. Simultaneous dual modality measurements using electroencephalography (EEG) and functional near infrared spectroscopy (fNIRS) were acquired during the aforementioned vigilance states. Specifically, I examined brain processes from two different perspectives: brain hemodynamics (blood flow) and electrophysiology (brain waves). My dissertation had three …
Development Of Medical Devices For Diagnosing Cartilage Injury And Metastatic Cancers, Yi Hui Huang
Development Of Medical Devices For Diagnosing Cartilage Injury And Metastatic Cancers, Yi Hui Huang
Bioengineering Dissertations
My research focused on applying biomedical engineering techniques to diagnose different diseases and conditions. The results of these work led to one published paper and two submitted manuscripts which are summarized in Chapters 2, 3 &4. Briefly, in Chapter 2, my work laid emphasis on developing a method for early detection of cartilage injury. An apoptotic cell-detecting probe was fabricated by the conjugation of the apoptotic cell-binding peptide (CQRPPR) and a sulfo-cyanine7 N-hydroxysuccinimide ester (Cy7 dye). Both in vitro and ex vivo examination showed an excellent relationship between the number of apoptotic chondrocytes and probe binding affinity. Finally, using a …
Design, Development, And Validation Of A Novel Optical Imaging Device For Biomedical Applications, Ashley Christine Dacy
Design, Development, And Validation Of A Novel Optical Imaging Device For Biomedical Applications, Ashley Christine Dacy
Bioengineering Dissertations
Fluorescence and luminescence imaging are two promising optical techniques for diagnosing a variety of critical pathologies in vivo, including wound healing, inflammation, and vascular diseases. Despite this, there is a lack of imaging devices in research and commercially available that are capable of these imaging modalities in large animal applications. This work describes the progressive development of several optical imaging devices to fill this void, culminating in a final design with robust fluorescence and luminescence functionality designed for large animal and human applications. These devices are used to gather new data about various physical parameters in small and large animal …
Ultrasound Switchable Fluorescence Imaging Based On A Time Gated Iccd Camera, Shuai Yu
Ultrasound Switchable Fluorescence Imaging Based On A Time Gated Iccd Camera, Shuai Yu
Bioengineering Dissertations
Ultrasound switchable fluorescence (USF) imaging has been proposed as a novel imaging modality which provides microscopic fluorescence imaging in centimeter-deep tissue. USF is possible to reveal many interesting phenomena such as microcirculation, tumor angiogenesis, and cancer metastasis and diagnose early-stage cancer. USF adopts a focused ultrasound (FU) to repetitively switch “on” fluorescent agents in tissue, and the USF photons scatter out and are captured by a detector. A USF image provides acoustic resolution and optical sensitivity. In USF, there are two key components: 1) an excellent USF contrast agent; and 2) a sensitive USF imaging system. The major challenge of …
Application Of Tissue Engineering Techniques For Treating Cartilage Injury And Diagnosing Cancer Metastasis, Amirhossein Hakamivala
Application Of Tissue Engineering Techniques For Treating Cartilage Injury And Diagnosing Cancer Metastasis, Amirhossein Hakamivala
Bioengineering Dissertations
This study focuses on the application of tissue engineering techniques for the diagnosis of cancer metastasis, cartilage regeneration, and modeling of lymph node metastasis. Chapter 1 is an overview of tissue engineering strategies, and it describes how each chapter relates to the central theme. Chapter 2 describes the development of 3D lymph node (LN) mimetic for studying prostate cancer metastasis. The overall objective of this chapter was to develop a biosystem with the ability to mimic metastatic LN condition. Studies were first designed to uncover the critical cells types and chemokines responsible for cancer metastasis to the LNs. An LN …
Development Of An In Vitro Tbi Models And Validation Of Nanodelivery For Restoration Of Disrupted Brain Endothelium, Edidiong I. Inyang
Development Of An In Vitro Tbi Models And Validation Of Nanodelivery For Restoration Of Disrupted Brain Endothelium, Edidiong I. Inyang
Bioengineering Dissertations
Blast-induced traumatic brain injury (bTBI) is a serious concern among military personnel and their families. Although the mechanisms responsible for disruption to the brain are not well understood, the development of reliable diagnosis along with effective therapeutic treatment is urgently warranted. Recent findings suggest that shockwaves produced by a blast can generate micron-size bubbles that subsequently collapse in the brain tissue. The collapse of microbubbles (referred to as microcavitation) may compromise the integrity of the blood-brain barrier (BBB). Moreover, addiction to the psycho-stimulant drugs (PSDs), e.g. cocaine and alcohol which are known to cause toxicity due to oxidative stress, can …
Development And Investigation Of Fluorescence Imaging Probes, Bahar Saremi
Development And Investigation Of Fluorescence Imaging Probes, Bahar Saremi
Bioengineering Dissertations
Fluorescence imaging has attracted much attention due to high sensitivity, spatial and temporal resolution, and fast acquisition time, for imaging biomolecular processes and for diagnosis of diseases such as cancer in early stages. Fluorescence imaging in centimeter-deep tissue suffers from low spatial resolution because of the strong scattering of light. On the other hand ultrasound imaging benefits from 1000 times less scattering in the tissue and deep penetration. Ultrasound switchable fluorescence imaging is a relatively new imaging modality that combines the sensitivity of optical imaging with the depth of penetration of ultrasound imaging while preserving the resolution by only eliciting …
Lung Cancer Targeted Chemotherapy Via Herceptin Based Chimeric Antigen Receptor (Car) Engineered T Cell Membrane Coated Synthetic Nanoparticles, Serkan Yaman
Bioengineering Dissertations
Cell membrane-derived nanoparticles recently caught attention due to their desirable features in drug delivery such as mimicking properties of native tissue and cells, avoiding systemic clearance, and alleviating foreign body responses. Besides nanoparticle technology, adoptive immunotherapy has emerged for its promising treatment modalities, including cancer specificity. Our long-term goal for this research is to develop a biomimetic drug carrier based on chimeric antigen receptor (CAR) transduced T cell membranes. In the study, anti-cancer drug afatinib loaded poly(D,L-lactide-co-glycolide) (PLGA) nanoparticles (NPs) co-extruded with anti her-2 based chimeric antigen receptor (CAR) Jurkat T cell membranes. Anti her-2 CAR-T cells were produced by …
Static Accuracy Analysis Of Vicon T40s Motion Capture Cameras Arranged Externally For Motion Capture In Constrained Aquatic Environments, Shreyas L. Raghu, Chang-Kwon Kang, Paul Whitehead, Akifumi Takeyama, Ryan Conners
Static Accuracy Analysis Of Vicon T40s Motion Capture Cameras Arranged Externally For Motion Capture In Constrained Aquatic Environments, Shreyas L. Raghu, Chang-Kwon Kang, Paul Whitehead, Akifumi Takeyama, Ryan Conners
PRC-Affiliated Research
While the capabilities of land-based motion capture systems in biomechanical applications have been previously reported, the possibility of using motion tracking systems externally to reconstruct markers submerged inside an aquatic environment has been under explored. This study assesses the ability of a motion capture system (Vicon T40s) arranged externally to track a retro-reflective marker inside a glass tank filled with water and without water. The reflective tape used for marker creation in this study was of Safety of Life at Sea (SOLAS) grade as the conventional marker loses its reflective properties when submerged. The overall trueness calculated based on the …
Static Accuracy Analysis Of Vicon T40s Motion Capture Cameras Arranged Externally For Motion Capture In Constrained Aquatic Environments, Shreyas L. Raghu, Chang-Kwon Kang, Paul Whitehead, Akifumi Takeyama, Ryan Conners
Static Accuracy Analysis Of Vicon T40s Motion Capture Cameras Arranged Externally For Motion Capture In Constrained Aquatic Environments, Shreyas L. Raghu, Chang-Kwon Kang, Paul Whitehead, Akifumi Takeyama, Ryan Conners
PRC-Affiliated Research
While the capabilities of land-based motion capture systems in biomechanical applications have been previously reported, the possibility of using motion tracking systems externally to reconstruct markers submerged inside an aquatic environment has been under explored. This study assesses the ability of a motion capture system (Vicon T40s) arranged externally to track a retro-reflective marker inside a glass tank filled with water and without water. The reflective tape used for marker creation in this study was of Safety of Life at Sea (SOLAS) grade as the conventional marker loses its reflective properties when submerged. The overall trueness calculated based on the …
Static Accuracy Analysis Of Vicon T40s Motion Capture Cameras Arranged Externally For Motion Capture In Constrained Aquatic Environments, Shreyas L. Raghu, Chang-Kwon Kang, Paul Whitehead, Akifumi Takeyama, Ryan Conners
Static Accuracy Analysis Of Vicon T40s Motion Capture Cameras Arranged Externally For Motion Capture In Constrained Aquatic Environments, Shreyas L. Raghu, Chang-Kwon Kang, Paul Whitehead, Akifumi Takeyama, Ryan Conners
PRC-Affiliated Research
While the capabilities of land-based motion capture systems in biomechanical applications have been previously reported, the possibility of using motion tracking systems externally to reconstruct markers submerged inside an aquatic environment has been under explored. This study assesses the ability of a motion capture system (Vicon T40s) arranged externally to track a retro-reflective marker inside a glass tank filled with water and without water. The reflective tape used for marker creation in this study was of Safety of Life at Sea (SOLAS) grade as the conventional marker loses its reflective properties when submerged. The overall trueness calculated based on the …
Mathematical Modeling Of Blood Pressure And Cerebral Blood Flow Using Photoplethysmography Signal, Armin Soltan Zadi
Mathematical Modeling Of Blood Pressure And Cerebral Blood Flow Using Photoplethysmography Signal, Armin Soltan Zadi
Bioengineering Dissertations
Continuous and non-invasive monitoring of blood pressure (BP) and cerebral blood flow (CBF) has numerous clinical and health maintenance applications. Of particular interest is monitoring of BP and CBF during events that stress the cardiovascular system such as cessation of breathing during sleep apnea. Current means and methods of continuous measurement of these signals are either invasive or require expensive equipment. Therefore, investigation of new methods of continuous estimation of the BP and CBF are of high interest. One attractive alternative is to use photoplethysmography (PPG) technique to estimate BP and CBF, as PPG is shown to be able to …
The Hip-Spine Effect: How Pathological Femoro-Pelvic Interactions Contribute To Abnormal Lumbar Spine Loading, Anthony Nicholas Khoury
The Hip-Spine Effect: How Pathological Femoro-Pelvic Interactions Contribute To Abnormal Lumbar Spine Loading, Anthony Nicholas Khoury
Bioengineering Dissertations
ABSTRACT THE HIP-SPINE EFFECT: HOW PATHOLOGICAL FEMORO-PELVIC INTERACTIONS CONTRIBUTE TO ABNORMAL LUMBAR SPINE LOADING Anthony Nicholas Khoury, Ph.D. The University of Texas at Arlington, 2019 Supervising Professor: Hal David Martin Cheng-Jen Chuong Lumbar pathology has been shown to explain hip pain, as hip pathology is involved in the development of lumbar pain by the disruption of normal lumbopelvic kinematics. Hip pathologies that contribute to lumbar pain include flexion deformities, osteoarthritis, congenital hip dislocation, and limited hip range of motion. To date there is a paucity of research that actively looks to investigate the symbiotic relationship between the hip and the …
Understanding Scalp Eeg In Response To Newsvendor Decision-Making And Feedback, Mobasshir Hossain Akash
Understanding Scalp Eeg In Response To Newsvendor Decision-Making And Feedback, Mobasshir Hossain Akash
Bioengineering Theses
Neuroeconomics is an emerging field integrating economic theories with neuroscience to enhance the understanding on how humans make decisions under different cost-effective conditions. Understanding the brain network associated with different cognitive tasks, to investigate the basic neural processes that underlie complex higher-order cognitive operations, has become an important research topic in behavioral neuroscience. Newsvendor problem plays a vital role among all prevalent concepts. This study is designed based on Newsvendor problem incorporating 40 trials for each subject at a randomly chosen low-profit or high-profit margin treatments to investigate how electrophysiological signals in the human brain are differentiated under the two …
Cold Plasma Poration And Corrugation Of Pumpkin Seed Coats, Alexander G. Volkov, Jewel S. Hairston, Darayas Patel, Ryan P. Gott, Kunning G. Xu
Cold Plasma Poration And Corrugation Of Pumpkin Seed Coats, Alexander G. Volkov, Jewel S. Hairston, Darayas Patel, Ryan P. Gott, Kunning G. Xu
PRC-Affiliated Research
The treatment of seeds and plants by electrically generated cold atmospheric pressure plasma can accelerate seed germination and radicle growing rates. The plasma generated reactive oxygen and nitrogen species, UV photons, and high frequency electromagnetic fields can penetrate into seed coats and modify their surface properties. Atomic force microscope data shows that cold helium or argon plasma induces strong corrugation of pumpkin seed coats, produces pores and surface defects. These structural deformations and poration enhance water uptake by seeds during the imbibing process, accelerate seeds germination, and increase seed growth. The cold atmospheric pressure plasmas treatment of pumpkin seeds also …
Cold Plasma Poration And Corrugation Of Pumpkin Seed Coats, Alexander G. Volkov, Jewel S. Hairston, Darayas Patel, Ryan P. Gott, Kunning G. Xu
Cold Plasma Poration And Corrugation Of Pumpkin Seed Coats, Alexander G. Volkov, Jewel S. Hairston, Darayas Patel, Ryan P. Gott, Kunning G. Xu
PRC-Affiliated Research
The treatment of seeds and plants by electrically generated cold atmospheric pressure plasma can accelerate seed germination and radicle growing rates. The plasma generated reactive oxygen and nitrogen species, UV photons, and high frequency electromagnetic fields can penetrate into seed coats and modify their surface properties. Atomic force microscope data shows that cold helium or argon plasma induces strong corrugation of pumpkin seed coats, produces pores and surface defects. These structural deformations and poration enhance water uptake by seeds during the imbibing process, accelerate seeds germination, and increase seed growth. The cold atmospheric pressure plasmas treatment of pumpkin seeds also …
Cold Plasma Poration And Corrugation Of Pumpkin Seed Coats, Alexander G. Volkov, Jewel S. Hairston, Darayas Patel, Ryan P. Gott, Kunning G. Xu
Cold Plasma Poration And Corrugation Of Pumpkin Seed Coats, Alexander G. Volkov, Jewel S. Hairston, Darayas Patel, Ryan P. Gott, Kunning G. Xu
PRC-Affiliated Research
The treatment of seeds and plants by electrically generated cold atmospheric pressure plasma can accelerate seed germination and radicle growing rates. The plasma generated reactive oxygen and nitrogen species, UV photons, and high frequency electromagnetic fields can penetrate into seed coats and modify their surface properties. Atomic force microscope data shows that cold helium or argon plasma induces strong corrugation of pumpkin seed coats, produces pores and surface defects. These structural deformations and poration enhance water uptake by seeds during the imbibing process, accelerate seeds germination, and increase seed growth. The cold atmospheric pressure plasmas treatment of pumpkin seeds also …
Kinematics During Knee Extension, Lunge, And Chair Rise, Center For Orthopaedic Biomechanics, Kevin Shelburne, Phd, Michael D. Harris, Phd, Vasiliki Kefala, Donald R. Hume, Bradley S. Davidson, A. J. Cyr, R. H. Kim, A. A. Ali, E. M. Mannen
Kinematics During Knee Extension, Lunge, And Chair Rise, Center For Orthopaedic Biomechanics, Kevin Shelburne, Phd, Michael D. Harris, Phd, Vasiliki Kefala, Donald R. Hume, Bradley S. Davidson, A. J. Cyr, R. H. Kim, A. A. Ali, E. M. Mannen
Living Kinematics of the Knee
No abstract provided.
A Numerical Analysis Of The Effects Of Wing Kinematics On Flapping Wing Aeroacoustics, Kabilan Nedunchezian, Chang-Kwon Kang, Hikaru Aono
A Numerical Analysis Of The Effects Of Wing Kinematics On Flapping Wing Aeroacoustics, Kabilan Nedunchezian, Chang-Kwon Kang, Hikaru Aono
PRC-Affiliated Research
Despite the recent interest in flapping wing aerodynamics, the aerodynamic sound generation mechanism of a flapping wing is inadequately understood. In this paper, the interplay between the wing motion, resulting unsteady aerodynamics, and aeroacoustics of a flapping wing flyer is investigated. The wing motion is varied in terms of the flapping amplitude, pitching amplitude, and the phase difference between flap and pitch. The unsteady flow around the flapping wing is numerically calculated using a well-validated Navier-Stokes equation solver. Acoustic pressures are computed using the Ffowcs-Williams-Hawkings equation in a three-dimensional space at varying distances from the wing. Two main sound generation …
A Numerical Analysis Of The Effects Of Wing Kinematics On Flapping Wing Aeroacoustics, Kabilan Nedunchezian, Chang-Kwon Kang, Hikaru Aono
A Numerical Analysis Of The Effects Of Wing Kinematics On Flapping Wing Aeroacoustics, Kabilan Nedunchezian, Chang-Kwon Kang, Hikaru Aono
PRC-Affiliated Research
Despite the recent interest in flapping wing aerodynamics, the aerodynamic sound generation mechanism of a flapping wing is inadequately understood. In this paper, the interplay between the wing motion, resulting unsteady aerodynamics, and aeroacoustics of a flapping wing flyer is investigated. The wing motion is varied in terms of the flapping amplitude, pitching amplitude, and the phase difference between flap and pitch. The unsteady flow around the flapping wing is numerically calculated using a well-validated Navier-Stokes equation solver. Acoustic pressures are computed using the Ffowcs-Williams-Hawkings equation in a three-dimensional space at varying distances from the wing. Two main sound generation …
A Numerical Analysis Of The Effects Of Wing Kinematics On Flapping Wing Aeroacoustics, Kabilan Nedunchezian, Chang-Kwon Kang, Hikaru Aono
A Numerical Analysis Of The Effects Of Wing Kinematics On Flapping Wing Aeroacoustics, Kabilan Nedunchezian, Chang-Kwon Kang, Hikaru Aono
PRC-Affiliated Research
Despite the recent interest in flapping wing aerodynamics, the aerodynamic sound generation mechanism of a flapping wing is inadequately understood. In this paper, the interplay between the wing motion, resulting unsteady aerodynamics, and aeroacoustics of a flapping wing flyer is investigated. The wing motion is varied in terms of the flapping amplitude, pitching amplitude, and the phase difference between flap and pitch. The unsteady flow around the flapping wing is numerically calculated using a well-validated Navier-Stokes equation solver. Acoustic pressures are computed using the Ffowcs-Williams-Hawkings equation in a three-dimensional space at varying distances from the wing. Two main sound generation …
Easy Adjustable Protective Helmet, Ryan Balash
Easy Adjustable Protective Helmet, Ryan Balash
Williams Honors College, Honors Research Projects
Akron Children’s Hospital and The University of Akron’s Biomedical Engineering Design Team Engineering Forward have paired together to improve medical adapted helmets for post-operative and disabled patients. An issue is the helmets are only produced in a couple of sizes. Also, it is a tedious process to constantly adjust the pressure on the patient’s cranium within a trial-and-error process. Engineering Forward plans to improve the effectiveness of this helmet by creating an adjustable helmet that can read the pressure on a patient’s head. The caregiver can then make the necessary adjustments to the helmet to accommodate the patient. Documents of …
Rational Design And Synthesis Of Biodegradable Polyurethane Based Biomaterials, Cancan Xu
Rational Design And Synthesis Of Biodegradable Polyurethane Based Biomaterials, Cancan Xu
Bioengineering Dissertations
Biodegradable polyurethanes have been applied in biomedical field since 1960s. In recent years, biodegradable polyurethanes have been widely investigated for tissue repair and regeneration because of their good mechanical properties, elasticity, biodegradability, biocompatibility and processability. Compared with some commonly used biodegradable polymers, such as poly(glycolide) (PGA), poly(lactide) (PLA), poly(ε-caprolactone) (PCL) and polyhydroxyalkanoates (PHA), the favorable aspects of biodegradable polyurethane are its mechanical, physicochemical and biological properties can be tailored by varying the three blocks in polyurethane backbone, diisocyanate, diol and chain extender. In this thesis, we focus on the development of different functional biodegradable polyurethanes to study their structure-property relationships …
Development Of Particle Platforms For Delivery Of Angiogenic Reagents To Treat Peripheral Arterial Diseases, Duong Quang Le
Development Of Particle Platforms For Delivery Of Angiogenic Reagents To Treat Peripheral Arterial Diseases, Duong Quang Le
Bioengineering Dissertations
Peripheral arterial disease (PAD) is a disease that one or several peripheral arteries are narrowed or blocked. PAD is an emerging disease that cost annually 10-20 billions of US dollars for health care in America. PAD patients suffer high risk of limb loss, amputations and mortalities. At 5 years, the amputation rate for PAD is 40%-70% while the 5-year survival rate is less than 30%. For PAD patients undergoing acute and critical limb ischemia, surgery bypass and endovascular balloon/stenting are applied as standard treatments. However, surgical bypass is subject to patients’ readiness of autologous veins and the depth of arteries …
Stimuli-Responsive Nanoparticles For Treatment Of Lung Cancer, Roshni Iyer
Stimuli-Responsive Nanoparticles For Treatment Of Lung Cancer, Roshni Iyer
Bioengineering Dissertations
Despite extensive research and progress in anti-cancer therapeutics, an effective treatment for non-small cell lung cancer (NSCLC) remains elusive, resulting in poor 5-year patient survival rate. Towards this end, we have explored a therapeutic regimen to improve the effects of local concurrent chemo-radiation-therapy (CRT), by utilizing multifunctional stimuli-responsive nanoparticles (NPs) as drug carriers. We have also utilized lung cancer targeting strategies for site-specific drug delivery, mainly antibodies against the Ephrin-transmembrane receptor kinase (EphA2), that is over-expressed mainly on lung cancer cells, to promote the targeted delivery of drugs to only cancer cells, and eventually reduce the toxicity to healthy tissues. …
Preparation Of Dual Fluorescence Agents-Loaded Nanoparticle And Its In Vitro And In Vivo Application, Hong-Hao Thi Vu
Preparation Of Dual Fluorescence Agents-Loaded Nanoparticle And Its In Vitro And In Vivo Application, Hong-Hao Thi Vu
Bioengineering Theses
There’re many existing imaging tools that composed of different imaging moieties to improve both resolution and sensitivity, however there’s not yet any imaging method that could be effectively utilized in both in vitro and in vivo study. To fill the gap, dual dyes-labeling fluorescent imaging nanoprobes was synthesized to simultaneous carry both visible fluorescent isothiocyanate (FITC) dye and near infra red (NIR) dye, 1,1′,3,3,3′,3′- hexamethylindotricarbocyanine iodide dye agent (HITC). For that, nanoparticles (NPs) was synthesized from 2-Hydroxyethyl methacrylate, styrene, acrylic acid and fluorescein-o-acrylate which contains visible FITC dye. The NPs were then labeled with HITC dye via physical entrapment to …
Nanoparticles For Gene Therapy And Protein Delivery To Induce Angiogenesis As An Alternative Treatment For Peripheral Arterial Disease, Linda Christellia Noukeu
Nanoparticles For Gene Therapy And Protein Delivery To Induce Angiogenesis As An Alternative Treatment For Peripheral Arterial Disease, Linda Christellia Noukeu
Bioengineering Dissertations
Peripheral arterial disease (PAD) is defined as a slow, progressive disorder of the lower extremity arterial vessels characterized by chronic narrowing that often results in occlusion and is associated with loss of functional capacity. Although the PAD occurrence rate is increasing in the elderly population, outcomes with current treatment strategies are suboptimal. Hence, there is an urgent need to develop new technologies that overcome limitations of traditional modalities for PAD detection and therapy. In this research, nanoparticles have been developed and used as carriers for various therapeutic agents to treat PAD. In particular, via protein/gene delivery, we developed and formulated …
Fabrication And In Vitro Characterization Of An Implant For The Detection Of Metastatic Cancer Cells, Carlos Martin Cantu
Fabrication And In Vitro Characterization Of An Implant For The Detection Of Metastatic Cancer Cells, Carlos Martin Cantu
Bioengineering Theses
Greater than 90% of cancer related deaths are due to metastasis (Hayes & Wicha, 2011). Since current conventional techniques detect the disease by the time that it has become systemic, our lab has developed a hydrogel based cancer trap that can attract metastatic cancer cells via cytokine release. However, for continual monitoring and accessibility to the gel, an implant is needed for delivery, retention, and retrieval of the gel. The research undergone in this thesis seeks to develop such a method. Namely, the objective was to develop a polylactide (PLA) based implant that is capable of delivering and retaining a …