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Development of Liposaccharide Peptide Conjugates for Peptide Drug Delivery. We aim to adapt the Solid Phase Oligosaccharide Synthesis technology patented by Alchemia to develop methodologies that will allow the assembly of sugar, lipid and peptide units on a single solid phase resin. This synthetic technology will then be used to generate a library of liposaccharide conjugates of two model peptides (LHRH and TRH) to investigate and optimise a broadly applicable peptide drug delivery system whic ....Development of Liposaccharide Peptide Conjugates for Peptide Drug Delivery. We aim to adapt the Solid Phase Oligosaccharide Synthesis technology patented by Alchemia to develop methodologies that will allow the assembly of sugar, lipid and peptide units on a single solid phase resin. This synthetic technology will then be used to generate a library of liposaccharide conjugates of two model peptides (LHRH and TRH) to investigate and optimise a broadly applicable peptide drug delivery system which improves peptides oral absorption, metabolic stability and bioavailability.Read moreRead less
CHARGED LIPOSACCHARIDE BASED DRUG DELIVERY SYSTEM. Complexation of a drug with lipid and/or sugar units represents one of the most important of the strategies being investigated in this burgeoning field. Increasing the lipid solubility of a hydrophilic compound has been established as an important factor in improving its absorption as it is necessary for passive transport across intestinal mucosal membranes. The role of sugar unit is very important: (i) it modifies the physico-chemical propertie ....CHARGED LIPOSACCHARIDE BASED DRUG DELIVERY SYSTEM. Complexation of a drug with lipid and/or sugar units represents one of the most important of the strategies being investigated in this burgeoning field. Increasing the lipid solubility of a hydrophilic compound has been established as an important factor in improving its absorption as it is necessary for passive transport across intestinal mucosal membranes. The role of sugar unit is very important: (i) it modifies the physico-chemical properties (solubility), (ii) utilizes active transport systems (e.g. Glucose transport) and (iii) target the compound - "MAGIC BULET" (Lewis X analogues - damaged cells). There is no limit to the areas of medicine and public health that would benefit from revolutionary new technology in these areas.Read moreRead less
Oral Insulin Delivery facilitated by Enteric Coating using Dense Gas Technologies. Insulin dependant diabetes is a rapidly growing disease. The current method for insulin delivery to the patient is by injection, which is inconvenient. Oral delivery of insulin is a more acceptable method. It is proposed to develop a dense gas technique to coat insulin with a pH sensitive polymer to protect it from the acidic environment of the stomach. Insulin can then be released at the high pH of the intestin ....Oral Insulin Delivery facilitated by Enteric Coating using Dense Gas Technologies. Insulin dependant diabetes is a rapidly growing disease. The current method for insulin delivery to the patient is by injection, which is inconvenient. Oral delivery of insulin is a more acceptable method. It is proposed to develop a dense gas technique to coat insulin with a pH sensitive polymer to protect it from the acidic environment of the stomach. Insulin can then be released at the high pH of the intestine when the polymer is dissolved. Particle size control is feasible by dense gas processes by manipulating operating parameters. Advantages include low residual solvent and manufacture at ambient temperatures.Read moreRead less
Enhanced drug delivery using nanoparticulate dendrimer vectors. Many drug candidates fail during development because of low and variable absorption after oral administration. This project seeks to investigate the utility of specialised nanometer-sized macromolecules (dendrimers), to facilitate the improved delivery of drug molecules where low aqueous solubility is the principle limitation to drug absorption and will also be explored as vectors to specifically target drugs to intestinal lymphoid ....Enhanced drug delivery using nanoparticulate dendrimer vectors. Many drug candidates fail during development because of low and variable absorption after oral administration. This project seeks to investigate the utility of specialised nanometer-sized macromolecules (dendrimers), to facilitate the improved delivery of drug molecules where low aqueous solubility is the principle limitation to drug absorption and will also be explored as vectors to specifically target drugs to intestinal lymphoid (immune) tissue. This project will link the drug delivery expertise of Monash University with the experience in dendrimer design of the Australian biotechnology company Starpharma to provide concrete delivery solutions for the rapidly expanding biotechnology industry in Australia.Read moreRead less
Rational Design of Pegylated Dendrimer Nanostructures for Site Specific Drug Delivery. This project will provide technological advances with significant benefits in terms of improved drug treatment, and therefore health outcomes for Australia. The project builds on areas of research strength in Australia (nanotechnology and biotechnology/biomaterials) and will add considerably to the expanding Australian expertise-base in dendrimer technology (in which it is a world leader). The interdisciplinar ....Rational Design of Pegylated Dendrimer Nanostructures for Site Specific Drug Delivery. This project will provide technological advances with significant benefits in terms of improved drug treatment, and therefore health outcomes for Australia. The project builds on areas of research strength in Australia (nanotechnology and biotechnology/biomaterials) and will add considerably to the expanding Australian expertise-base in dendrimer technology (in which it is a world leader). The interdisciplinary nature of this project will also result in a unique training program for the researchers included in this grant. Such experience is in great demand, particularly in Australia where the burgeoning start-up discovery industry is critically short of personnel with skills in drug delivery.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0668493
Funder
Australian Research Council
Funding Amount
$230,000.00
Summary
Characterising particulate laden flow in the lung airways: from drug delivery to primary anthropogenic sources. Facilities will provide infrastructure at Monash University and University of Sydney to continue the collaboration enhancing excellence in an exciting application of fluidics research, supporting the highest level of graduate training, providing innovative tools for industry and promoting industrial collaborations. The infrastructure is unique and will create international funding and ....Characterising particulate laden flow in the lung airways: from drug delivery to primary anthropogenic sources. Facilities will provide infrastructure at Monash University and University of Sydney to continue the collaboration enhancing excellence in an exciting application of fluidics research, supporting the highest level of graduate training, providing innovative tools for industry and promoting industrial collaborations. The infrastructure is unique and will create international funding and collaborative opportunities to support research and postgraduate training. The equipment will add value to existing infrastructure to enhance understanding of particulate flow with the paradoxical outcomes of improving drug deposition in respiratory delivery and of minimising anthropogenic particular deposition for better therapeutic and health outcomes.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0560661
Funder
Australian Research Council
Funding Amount
$245,300.00
Summary
Particulate Characterisation for Pharmaceutical and Engineering Applications. The aim of this proposal is to establish joint facilities between the University of Sydney, Monash University and UNSW for the characterization of surface properties and particle sizes of pharmaceutical aerosols and industrial powders. Such knowledge is important for controlling aerosol production and delivery of drug particles to the lungs. This will have a significant benefit to the pharmaceutical industry and patien ....Particulate Characterisation for Pharmaceutical and Engineering Applications. The aim of this proposal is to establish joint facilities between the University of Sydney, Monash University and UNSW for the characterization of surface properties and particle sizes of pharmaceutical aerosols and industrial powders. Such knowledge is important for controlling aerosol production and delivery of drug particles to the lungs. This will have a significant benefit to the pharmaceutical industry and patients requiring aerosol treatment. Further, the proposed facilities will enhance research in complex particulate processes and modelling, functional nanomaterials, and soft sensor development, thus keeping Australia at the forefront of powder research into various high value adding particulate areas.Read moreRead less
Systematic evaluation of whether in vitro methods can predict in vivo opioid analgesic efficacy, safety and tolerability. It is estimated that chronic pain affects one in five individuals in the general community in Australia and worldwide, with prevalence rates correlated directly with advancing age. Chronic pain not only adversely affects the quality of life of individuals but it also places a large economic burden on our healthcare system. Development and validation of an in vitro method to ....Systematic evaluation of whether in vitro methods can predict in vivo opioid analgesic efficacy, safety and tolerability. It is estimated that chronic pain affects one in five individuals in the general community in Australia and worldwide, with prevalence rates correlated directly with advancing age. Chronic pain not only adversely affects the quality of life of individuals but it also places a large economic burden on our healthcare system. Development and validation of an in vitro method to successfully identify novel morphine-like strong analgesics with a reduced propensity for producing respiratory depression or constipation, has the potential to not only improve pain management for individuals and to reduce the economic burden of chronic pain on the Australian healthcare system, but it is also likely to produce direct economic benefits to our nation. Read moreRead less
Physico-chemical and Biopharmaceutical Investigations of Novel Drug Delivery Systems for Oral Administration of Lipophilic Drugs. The new platform technology for carrying lipophilic molecules will be applicable to many molecules currently under development by Australian Industry and will inspire novel encapsulation approaches to new and existing drugs as well as functional foods and nutraceuticals. Improved oral bioavailability of anticancer drugs will improve the quality of life of patients, re ....Physico-chemical and Biopharmaceutical Investigations of Novel Drug Delivery Systems for Oral Administration of Lipophilic Drugs. The new platform technology for carrying lipophilic molecules will be applicable to many molecules currently under development by Australian Industry and will inspire novel encapsulation approaches to new and existing drugs as well as functional foods and nutraceuticals. Improved oral bioavailability of anticancer drugs will improve the quality of life of patients, reduce health care costs and provide broader benefits to the community. The Australian biotechnology/pharmaceutical industries can share in a greater proportion of the US$50 billion market for specialised drug delivery, which is increasing by 20% annually. Australia's scientific competitiveness will be strengthened in the fields of nano-encapsulation and colloidal delivery.Read moreRead less
Synthetic derivatives of capsaicin and gingerols as analgesics acting at the vanilloid receptor. This project aims to prepare alpha-hydroxyketones and gingerol derivatives acting at vanilloid (VR1) receptor with potential analgesic activity. These compounds will be tested for their ability to activate the VR1 receptor, desensitize the receptor and release neuropeptides associated with pain pathways. The development of these novel compounds will contribute towards understanding the mechanisms of ....Synthetic derivatives of capsaicin and gingerols as analgesics acting at the vanilloid receptor. This project aims to prepare alpha-hydroxyketones and gingerol derivatives acting at vanilloid (VR1) receptor with potential analgesic activity. These compounds will be tested for their ability to activate the VR1 receptor, desensitize the receptor and release neuropeptides associated with pain pathways. The development of these novel compounds will contribute towards understanding the mechanisms of VR1 receptor activation and provide information on how the VR1 receptor is regulated. We will determine and compare neurotoxicity of these compounds to capsaicin which is known to possess neurotoxic activity. The outcome of this project may result in effective agents for better pain management.
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