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- 2-aminoethyl methacrylate dental pulp stem cells hyaluronic acid hydrogels tissue engineering UV polymerization (1)
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- Ion implanted; collagen type 1; helium ion (He+); nitrogen ion (N+); nanofibrous scaffold; humidity – fiber diameter correlation; Polychromatic ion beam; crosslinking; Stopping and Range of Ions in Matter (SRIM); degree of crosslinking (1)
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Articles 1 - 7 of 7
Full-Text Articles in Other Medical Sciences
Functional Impact Of Ethyl-Β-D-Glucuronide On Mycobacterium Tuberculosis Stimulated Lung Macrophages, Charles Inaku
Functional Impact Of Ethyl-Β-D-Glucuronide On Mycobacterium Tuberculosis Stimulated Lung Macrophages, Charles Inaku
Biotechnology Theses
Chronic alcohol abuse has been shown to alter immune defense mechanisms in humans and mice which makes the host susceptible to infections, including Mycobacterium tuberculosis (Mtb) infection. However, limited information is available on the mechanisms involved in alcohol-mediated host immune system dysfunction.
In this study, we determined the effects of ethyl-β-d-glucuronide (EtG), an alcohol-derived metabolite, on immune response of mice lung macrophages. We measured cytokine and chemokine production by gamma-irradiated mtb (γ-mtb) stimulated mice lung macrophages in the presence or absence of EtG. We also determined the effect of EtG on the metabolic state of γ-mtb stimulated mice lung macrophages. …
Nanoparticles For Biomedical Applications, Joseph Kim
Nanoparticles For Biomedical Applications, Joseph Kim
Dissertations & Theses (Open Access)
This thesis presents development and evaluation of the potential of three new nanoparticles for biomedical applications. With the rapid growth of the field of nanoscience, researchers have explored developing nanoparticles for various biomedical applications, including imaging, therapy, and drug delivery. This thesis demonstrates the development of two C60 fullerene based nanoparticles and one boron based nanoparticle to answer key questions related to their biological potential.
In the first part of the thesis, we describe synthesis and characterization of a pure boron nanoparticle containing asolectin phospholipid-based liposome construct prepared using a water-in-oil emulsion method, as a novel alternative agent for …
Near-Field Electrospinning And Characterization Of Biodegradable Small Diameter Vascular Grafts, William E. King Iii
Near-Field Electrospinning And Characterization Of Biodegradable Small Diameter Vascular Grafts, William E. King Iii
Theses and Dissertations (ETD)
The ideal “off the shelf” tissue engineering, small-diameter (< 6 mm inner diameter (ID)) vascular graft hinges on designing a template that facilitates transmural ingrowth of capillaries to regenerate an endothelized neointimal surface. Previous traditionally electrospun (TES) approaches to create bioresorbable vascular grafts lack the pore sizes required to facilitate transmural capillary ingrowth required for successful in situ neovascular regeneration. Therefore, the ability to create scaffolds with program-specific architectures independent of fiber diameter via the relatively recent sub-technique of near-field electrospinning (NFES) represents a promising solution to create tissue engineering vascular grafts. These programmed large pore sizes are anticipated to promote in situ regeneration and improve the outcomes as well as the quality of life of patients with arterial disease.
In this dissertation, we manufactured via NFES as well as characterized biodegradable polydioxanone (PDO) small-diameter vascular grafts. Chapter 1 introduces the need for off-the-shelf, small-diameter vascular grafts to facilitate in situ regeneration, the process and pore size limitations of TES vascular grafts, and the promising use of NFES to develop precisely tailored PDO vascular grafts. Chapter 2 describes the process of NFES and details the current progress in NFES of biomedical polymers as well as the major limitations that exist in the field. Chapters 3, 4, and 5 contain primary research …
Electrospun Collagen Nanofibers For Tissue Engineering, Nisha Sharma
Electrospun Collagen Nanofibers For Tissue Engineering, Nisha Sharma
Electronic Thesis and Dissertation Repository
Design and fabrication of the scaffold is an important part of the tissue engineering process. Nanofibrous scaffolds based on proteins are gaining increasing acceptance due to its structural similarity to the extracellular matrix. Making use of the electrospinning technique, rat tail collagen type I nanofibers were produced using a collagen in hexafluoroisopropanol (HFIP) solution. In addition to optimizing the electrospinning process parameters, the effect of humidity on fiber morphology and diameter was investigated for fiber size control for particular tissue engineering applications. A generalized humidity effect on polymer fiber diameter of the polymer solution electrospinning process was developed. The as …
Synthesis And Characterization Of Methacrylated Hyaluronan-Based Hydrogels For Tissue Engineering, Keegan Bradley Compton
Synthesis And Characterization Of Methacrylated Hyaluronan-Based Hydrogels For Tissue Engineering, Keegan Bradley Compton
Theses and Dissertations (ETD)
Polymers have revolutionized the field of tissue engineering due to the countless possibilities of scaffolds that can be constructed from such a material. Through conjugation of other functional groups onto a polymer backbone, the mechanical properties of polymers can be controlled and has the ability to span a wide range of strengths, allowing for application in multiple tissue environments. One such polymer, hyaluronic acid (HA), is a natural polysaccharide found most abundantly in the extracellular matrix (ECM) of connective tissues with structural, lubricating, and wound healing functions in the human body; for this reason, HA has great potential for utilization …
Feasibility Study Of Trans-Cranial Direct Current Stimulation In Presence Of Brain Tumor, Abhilash Nair
Feasibility Study Of Trans-Cranial Direct Current Stimulation In Presence Of Brain Tumor, Abhilash Nair
Dissertations and Theses
Trans-cranial Direct Current Stimulation has been shown to modulate cortical neuronal activity. Weak constant current is applied to the scalp using electrodes, leading to sub-threshold changes in neuronal membrane potential. Before actual clinical stimulation is performed, such systems are validated by simulating the stimulation and the resulting current flow patterns using finite element solvers. However, the reliability of such models depends upon the accuracy with which the underlying anatomy has been modeled [1]. In earlier studies it has been shown that the current flow patterns within the brain are altered due to the presence of lesioned brain tissues[2]. Here we …
A Virtual Model Of The Human Cervical Spine For Physics-Based Simulation And Applications, Hyung Soo Ahn
A Virtual Model Of The Human Cervical Spine For Physics-Based Simulation And Applications, Hyung Soo Ahn
Theses and Dissertations (ETD)
Utilizing recent advances in computer technology, Our Biomechanics Laboratory have made an effort to integrate computer animation and engineering analysis software into biomedical research, specifically towards simulation and animation of in vitro experimentation of the human cervical spine in the virtual world. The objectives of this study were to develop a virtual model of the human cervical spine for physics-based simulation and to apply the virtual model to studies of different surgical procedures and instrumentation.
A process for creating an accurate virtual model of the human cervical spine was developed. The model consisted of seven vertebrae (C2-T1) connected with soft …