Macroporous hydrogels as vascularizable soft tissue-implant interfaces : materials characterization, in vitro evaluation, computer simulations, and applications in implantable drug delivery devices /

Dziubla, Thomas D. Lowman, Anthony M.

January 2002

Thesis (Ph. D.)--Drexel University, 2002. / Includes abstract and vita. Includes bibliographical references.

A dynamic distributed-parameter modeling approach for performance monitoring of oral drug delivery systems

Eyries, Pascal.

January 2003

Thesis (M.S.)--Worcester Polytechnic Institute. / Keywords: mass balance approach; bioavailability; drug delivery; dynamic modeling; partial differential equations; sensitivity analysis; dynamic simulations. Includes bibliographical references (p. 62-67).

Formation and evaluation of electrospun bicomponent fibrous scaffolds for tissue engineering and drug delivery applications

Kang, Jiachen., 康家晨.

January 2010

published_or_final_version / Mechanical Engineering / Master / Master of Philosophy

Electrospinning.

Fibres.

Tissue engineering.

Drug delivery systems.

A systematic review of factors improving medication safety of oral medication via enteral feeding tubes in institutions

Kam, Kin-wai, 甘健威

January 2014

Objective: Medication safety is always having great concern in healthcare. Giving oral medication through enteral feeding tubes is not uncommon and is a well-known area that prone to error happening. These errors may lead to inadequate treatment or adverse drug reaction resulting in unnecessary health care cost and wastage of public health resources. This systematic review aims to identify contributing factors on medication errors associated with administration of oral medication via enteral feeding tubes. With better understanding of the factors, improvement measures applicable to Hong Kong situations will be suggested. Methods: Pubmed, Medline and Embase databases were searched up to February 2014 by using relevant keywords. Prospective studies with researcher analyzing the drug administration process to observe the occurrence of errors and evaluate the contributing factors and case reports on medical error with review of the place of errors and their potential root causes were considered to be potential relevant literature. Studies meeting the inclusion criteria were included and evaluated in this review. Studies were excluded based on the exclusion criteria. Results and Discussion: An initial search of medical literature by searching engines identified 682 references. After appraisal for inclusion, 11 of them were included in this systematic review. For the findings, lack of knowledge, lack of the presence or the awareness of protocol, environmental factors, inter-disciplinary communication among healthcare professionals and the ability of inadvertent connection of both IV catheter and enteral feeding system had been identified to be key contributing factors to drug administration error. Taken account with the findings, measures to improve the existing local practice through educational reinforcement, establishing guideline and inter-disciplinary communication were suggested. Conclusion: With consideration of the local situation in Hong Kong and the findings identified in this review, suggestions of improvement measures on different aspects have been made in this review. Involvement of government policy, institutional management and the collaboration of multi-disciplinary healthcare professional are essential for the success of these improvement measures. Besides, this review also revealed the lack of research on medication safety issue concerning feeding tube, further research in this area is required. / published_or_final_version / Public Health / Master / Master of Public Health

Drug delivery devices

Oral medication

Enteral feeding

Molecular design of advanced oral protein delivery systems using complexation hydrogels

Wood, Kristy Marie

28 August 2008

Not available / text

Drug delivery systems

Colloids in medicine

Insulin

Nanoimprint lithography based fabrication of size and shape-specific, enzymatically-triggered nanoparticles for drug delivery applications

Glangchai, Luz Cristal Sanchez, 1977-

29 August 2008

Our ability to precisely manipulate size, shape, and composition of nanoscale carriers is essential for controlling their in-vivo transport, biodistribution, and drug release mechanism. Shape-specific, "smart" nanoparticles that deliver drugs or imaging agents to target tissues primarily in response to disease-specific or physiological signals could significantly improve therapeutic care of complex diseases. Current methods in nanoparticle synthesis do not allow such simultaneous control over particle size, shape, and environmentally-triggered drug release, especially at the sub-100 nm range. In this dissertation, we discuss the development of high-throughput nanofabrication techniques using synthetic and biological macromers (peptides) to produce highly monodisperse nanoparticles, as well as enzymatically-triggered nanoparticles, of precise sizes and shapes. We evaluated thermal nanoimprint lithography (ThNIL) and step and flash imprint lithography (SFIL) as two possible fabrication techniques. We successfully employed ThNIL and SFIL for fabricating nanoparticles and have extensively characterized the SFIL fabrication process, as well as the properties of the imprinted biopolymers. Particles as small as 50 nm were fabricated on silicon wafers and harvested directly into aqueous buffer using a biocompatible, one-step release technique. These methods provide a novel way to fabricate biocompatible nanoparticles with precise size and geometry. Furthermore, we developed an enzyme-degradable material system and demonstrated successful encapsulation and enzyme-triggered release of antibodies and nucleic acids from these imprinted nanoparticles; thus providing a potential means for disease-controlled delivery of biomolecules. Finally, we evaluated the bioactivity of the encapsulated therapeutics in-vitro. The development of the SFIL method for fabrication of biocompatible nanocarriers has great potential in the drug delivery field for its ability to create monodisperse particles of pre-designed geometry and size, and to incorporate stimulus-responsive release mechanisms. This research provides the potential to broaden the study of how particle size and shape affect the biodistribution of drugs within the body. / text

Nanotechnology

Nanoparticles

Microlithography

Drug delivery systems

Peptides

Influence of drug-polymer interactions on the processing and functionality of anionic polymeric targeted drug delivery systems

Bruce, Lisa Diane

17 May 2011

Not available / text

Addition polymerization

Polymers in medicine

Drug delivery systems

Cellular and molecular evaluation of oral delivery systems for chemotherapeutic agents

Blanchette, James Otto, 1976-

02 August 2011

Not available / text

Cancer--Chemotherapy

Oral medication

Drug delivery systems

The effect of particle size and shape on margination and adhesion propensity

Jurney, Patrick Levi

05 October 2011

This thesis presents an experimental study of the effect that particle size and shape have on nanoparticle magination and adhesion propensity in micro-capillaries. With the use of half elliptical cross-section microfluidic channels that were fabricated using photolithography as well as wet and dry etching techniques and geometrically mimetic of human microcirculation, particles ranging from 93 to 970 nm were flown and imaged individually adhering to the channel walls. The results show a significant increase in particle adhesion below 200 nm as well as the emergence of a critical particle diameter above which no particle adherence was observed. The volume delivery efficiency was also shown to increase below 200 nm, providing insight for the rational design of nanocarriers for targeted cancer therapeutics. / text

Margination

Drug delivery

Nanoparticle adhesion

Nanocarrier

STRUCTURAL CHARACTERIZATION OF GEMINI-BASED NANOPARTICLES FOR DELIVERY OF DNA

2014 May 1900

Cationic gemini surfactants have been used for delivery of DNA into cells. These cationic surfactants are known to strongly bind to DNA to form a complex. In the dilute regimen, when the gemini-DNA complexes are mixed with helper neutral lipids, they undergo spontaneous assembly to form particles that are able to transfect DNA into the cells. In this study, the structure of several gemini surfactants, gemini-DNA complexes and gemini-DNA-neutral lipids complexes were systematically examined by small angle x-ray scattering (SAXS). The gemini surfactants were found to form micelles of varying shapes and arrangements modulated by the nature of spacer region and tail lengths. This includes ellipsoidal and worm-like micelles (as in the case of the 12- s-12 series) and disk-shaped hexagonally packed micelles (as in the case of 16-3-16). In addition to the study of the gemini surfactants, the effect of varying the DNA: gemini charge ratio on the DNA-gemini assembly was studied. The scattering pattern has shown that in the presence of excess gemini surfactants, free unbound surfactants exist in the solution. Upon the addition of neutral lipids, DNA-gemini-neutral lipid complexes are formed. The scattering patterns of the latter showed evidence of a strong interaction of the neutral lipids with the free gemini surfactants and the overcharged DNA-gemini complexes. Effectively, overcharging DNA-gemini complexes seem to aid in its incorporation into the neutral lipid matrix. These findings shed the light on the structure of DNA-gemini-neutral lipid systems and provide insights into the factors that influence the spontaneity of the self-assembly process. More importantly, the presented work provides a general strategy that can be applied to the study of similar systems using small angle x-ray scattering. A helium and vacuum chambers were made to enable testing the feasibility of the technique at the Canadian Light Source. Further, a pipeline was written to automate the reduction and analysis of SAXS data.

gemini surfactants

drug delivery

nanoparticles

SAXS