Your search keyword '"Mihaela Ionescu"' showing total 13 results

1. The Effects of Accelerated Temperature-Controlled Stability Systems on the Release Profile of Primary Bile Acid-Based Delivery Microcapsules

Author

Bozica Kovacevic, Hani Al-Salami, Thomas Foster, Melissa Jones, Louise Carey, Susbin Raj Wagle, Corina Mihaela Ionescu, Momir Mikov, Armin Mooranian, Jacqueline Chester, Edan Johnston, and Daniel Walker

Subjects

Drug, bile acids, Elemental composition, Chromatography, Morphology (linguistics), Bile acid, medicine.drug_class, media_common.quotation_subject, Pharmaceutical Science, Shelf life, Eudragit, Article, RS1-441, chemistry.chemical_compound, Pharmacy and materia medica, chemistry, Chenodeoxycholic acid, diabetes mellitus, medicine, Drug encapsulation, microencapsulation, chenodeoxycholic acid, Wetting, media_common

Abstract

Introduction: Bile acid-based drug encapsulation for oral delivery has been recently explored in our laboratory and has shown to be beneficial in terms of drug-targeted delivery and release profile, but stability at various temperatures has not previously been examined, hence, this is the aim of this study. Methods: Various types of bile acid-based microcapsules containing the drug metformin were produced and tested for accelerated temperature-controlled profiles, as well as morphology, elemental composition, drug content, resilience, floatability, wettability and release profiles at various pH values. Results: Accelerated temperature-controlled analysis showed negligible effects on morphology, size, or shape at very low temperatures (below 0 °C), while higher temperatures (above 25 °C) caused alterations. Drug contents, morphology and elemental composition remained similar, while wettability and the release profiles showed formulation-dependent effects. Discussion and Conclusion: Results suggest that bile acid-based microcapsules containing metformin are affected by temperature, hence, their shelf life is likely to be affected by storage temperature, all of which have a direct impact on drug release and stability profiles.

Published

2021

2. Probucol Pharmacological and Bio-Nanotechnological Effects on Surgically Transplanted Graft Due to Powerful Anti-Inflammatory, Anti-Fibrotic and Potential Bile Acid Modulatory Actions

Author

Marcus D. Atlas, Thomas Foster, Melissa Jones, Bozica Kovacevic, Jacqueline Chester, Armin Mooranian, Daniel Walker, Hani Al-Salami, Momir Mikov, Susbin Raj Wagle, Edan Johnston, and Corina Mihaela Ionescu

Subjects

endocrine system, Necrosis, endocrine system diseases, medicine.drug_class, interleukin-12, Probucol, Pharmaceutical Science, probucol, Pharmacology, Article, interleukin-17, surgery, Pharmacy and materia medica, Fibrosis, Medicine, geography, geography.geographical_feature_category, Bile acid, business.industry, pancreatic beta-cells, Islet, medicine.disease, RS1-441, Transplantation, bile acid profile, surgical procedures, operative, Apoptosis, Interleukin 17, medicine.symptom, business, medicine.drug, transplantation

Abstract

Introduction. A major obstacle in islet transplantation and graft survival pre and post transplantation is islet apoptosis due to mainly inflammatory bio molecules released during islet harvesting and post graft transplantation and hence, subsequent graft fibrosis and failure. This study aimed to investigate if incorporation of the anti-inflammatory anti-hyperlipidaemic drug probucol (PB) would improve islet-graft survival and function, post transplantation in Type 1 diabetes (T1D). Methods. T1D was induced in mice, and biological profiles of the diabetic mice transplanted PB-microencapsulated islets harvested from healthy syngeneic mice were measured. Results and Conclusion. Compared with sham (no PB), the treated group showed significant reduction in serum levels of interleukin-1β, interleukin-6, interleukin-12, interleukin-17, and tumour necrosis factor-α, accompanied by a 3-fold increase in survival duration, which suggests PB islet-protective effects, post transplantation.

Published

2021

3. Polyelectrolytes Formulated with Primary Unconjugated Bile Acid Optimised Pharmacology of Bio-engineered Implant

Author

Goran Stojanovic, Jacqueline Chester, Armin Mooranian, Edan Johnston, Corina Mihaela Ionescu, Daniel Walker, Hani Al-Salami, Melissa Jones, Thomas Foster, Momir Mikov, Bozica Kovacevic, Sanja Kojić, and Susbin Raj Wagle

Subjects

transplants, Lithocholic acid, medicine.drug_class, Pharmaceutical Science, Inflammation, Pharmacology, Article, chemistry.chemical_compound, Pharmacy and materia medica, in vivo studies, Chenodeoxycholic acid, medicine, poly-(4styrene)-sulphonate, primary bile acids, geography, geography.geographical_feature_category, Bile acid, Pancreatic islets, Interleukin, Islet, RS1-441, medicine.anatomical_structure, chemistry, Self-healing hydrogels, poly-(allyl)-amine, chenodeoxycholic acid, medicine.symptom, pharmacology

Abstract

Introduction. Several studies have shown that different biomaterials and hydrogels comprising various bile acids such as chenodeoxycholic acid (CDCA), as well as excipients such as poly-(styrene)-sulphonate (PSS) and poly-(allyl)-amine (PAA), exhibited positive biological effects on encapsulated viable pancreatic β-cells. Hence, this study aimed to investigate whether incorporating CDCA with PSS and PAA will optimise the functions of encapsulated pancreatic islets post-transplantation in Type 1 diabetes (T1D). Methods. Mice were made T1D, divided into two equal groups, and transplanted with encapsulated islets in PSS-PAA (control) or with CDCA-PSS-PAA (treatment) microcapsules. The effects of transplanted microcapsules on blood glucose, inflammation and the bile acid profile were measured post-transplantation. Results and Conclusion. Compared with control, the treatment group showed better survival rate, improved glycaemic control, and lower inflammatory profile, illustrated by ↓ interleukin 1-β, interleukin-6, interleukin-12, and tumour-necrosis factor-α, and ↓ levels of the bile acid, as well as lithocholic acid in the plasma, liver, large intestine and faeces. The results suggest that CDCA incorporation with PSS-PAA microcapsules exerted beneficial effects on encapsulated islets and resulted in enhanced diabetes treatment, post-transplantation, at the local and systemic levels.

Published

2021

4. Pharmacological and Advanced Cell Respiration Effects, Enhanced by Toxic Human-Bile Nano-Pharmaceuticals of Probucol Cell-Targeting Formulations

Author

Sanja Kojić, Bozica Kovacevic, Corina Mihaela Ionescu, Armin Mooranian, Daniel Walker, Hani Al-Salami, Susbin Raj Wagle, Goran Stojanovic, and Melissa Jones

Subjects

Drug, Lithocholic acid, media_common.quotation_subject, Probucol, Pharmaceutical Science, lcsh:RS1-441, probucol, 02 engineering and technology, Absorption (skin), Pharmaceutical formulation, Pharmacology, 030226 pharmacology & pharmacy, digestive system, Article, lcsh:Pharmacy and materia medica, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, formulation sciences, medicine, media_common, bile acids, unconjugated lithocholic acid, 021001 nanoscience & nanotechnology, In vitro, 3. Good health, chemistry, inflammation, diabetes mellitus, 0210 nano-technology, Ex vivo, Drug metabolism, medicine.drug

Abstract

Bile acids have recently been studied for potential applications as formulation excipients and enhancers for drug release, however, some bile acids are not suitable for this application. Unconjugated lithocholic acid (ULCA) has recently shown drug formulation-stabilizing and anti-inflammatory effects. Lipophilic drugs have poor gut absorption after an oral dose, which necessitates the administration of high doses and causes subsequent side effects. Probucol (PB) is a highly lipophilic drug with poor oral absorption that resulted in restrictions on its clinical prescribing. Hence, this study aimed to design new delivery systems for PB using ULCA-based matrices and to test drug formulation, release, temperature, and biological effects. ULCA-based matrices were formulated for PB oral delivery by applying the jet-flow microencapsulation technique using sodium alginate as a polymer. ULCA addition to new PB matrices improved the microcapsule&rsquo, s stability, drug release in vitro (formulation study), and showed a promising effect in ex vivo study (p &lt, 0.05), suggesting that ULCA can optimize the oral delivery of PB and support its potential application in diabetes treatment.

Published

2020

5. Pharmacological and Biological Study of Microencapsulated Probucol-Secondary Bile Acid in a Diseased Mouse Model

Author

Hani Al-Salami, Louise Carey, Ryusuke Takechi, Daniel Walker, Susbin Raj Wagle, Melissa Jones, Momir Mikov, Armin Mooranian, Corina Mihaela Ionescu, and Bozica Kovacevic

Subjects

Antioxidant, Lithocholic acid, oxidation, medicine.drug_class, medicine.medical_treatment, Probucol, Pharmaceutical Science, probucol, 02 engineering and technology, Pharmacology, Pharmaceutical formulation, 030226 pharmacology & pharmacy, Article, 03 medical and health sciences, chemistry.chemical_compound, Pharmacy and materia medica, 0302 clinical medicine, In vivo, medicine, Bile acid, Chemistry, Insulin, 021001 nanoscience & nanotechnology, 3. Good health, Bioavailability, RS1-441, microcapsules, lithocholic acid, inflammation, diabetes mellitus, 0210 nano-technology, medicine.drug

Abstract

Probucol (PB) is a highly lipophilic drug with potential protective effects on pancreatic β-cells from inflammation and oxidation. PB has poor bioavailability and solubility, and despite many attempts, significant improvement in antidiabetic effects or absorption has yet to be discovered. Recently, the role of bile acids has been established in significant drug formulation stabilisation effects and as cell-penetrating agents. Promising results in pharmaceutical formulation studies on drug stability and release patterns when lithocholic acid (LCA) is conjugated with PB and sodium alginate (SA) have been demonstrated. Thus, this study aimed to develop and characterise PB microcapsules incorporating LCA and examine the biological effects of the microcapsules in vitro and in vivo. PB/LCA microcapsules were prepared using an encapsulation method, ionic gelation vibrational jet flow technology. LCA incorporation in PB microcapsules showed positive effects on β-cells with improved insulin release, antioxidant activity, and PB intracellular uptake. Diabetic mice gavaged LCA-PB microcapsules showed a significant reduction in diabetes signs and symptoms, better survival rate, reduced blood glucose levels, and pro-inflammatory cytokines, with an increase PB level in blood and tissues suggesting a potential therapy for treating diabetes mellitus.

Published

2021

6. Enhanced Bilosomal Properties Resulted in Optimum Pharmacological Effects by Increased Acidification Pathways

Author

Elaine Wong, Jacqueline Chester, Corina Mihaela Ionescu, Bozica Kovacevic, Armin Mooranian, Thomas Foster, Momir Mikov, Hani Al-Salami, Susbin Raj Wagle, Marcus D. Atlas, Melissa Jones, Edan Johnston, and Daniel Walker

Subjects

bile acids, 0303 health sciences, Cellular respiration, β-cells, Pharmaceutical Science, High loading, 02 engineering and technology, Metabolism, 021001 nanoscience & nanotechnology, Article, RS1-441, microcapsules, 03 medical and health sciences, chemistry.chemical_compound, Pharmacy and materia medica, Jet flow, chemistry, Chenodeoxycholic acid, diabetes mellitus, Nano, Biophysics, chenodeoxycholic acid, nano gel, 0210 nano-technology, 030304 developmental biology

Abstract

Introduction: Recent studies in our laboratory have shown that some bile acids, such as chenodeoxycholic acid (CDCA), can exert cellular protective effects when encapsulated with viable β-cells via anti-inflammatory and anti-oxidative stress mechanisms. However, to explore their full potential, formulating such bile acids (that are intrinsically lipophilic) can be challenging, particularly if larger doses are required for optimal pharmacological effects. One promising approach is the development of nano gels. Accordingly, this study aimed to examine biological effects of various concentrations of CDCA using various solubilising nano gel systems on encapsulated β-cells. Methods: Using our established cellular encapsulation system, the Ionic Gelation Vibrational Jet Flow technology, a wide range of CDCA β-cell capsules were produced and examined for morphological, biological, and inflammatory profiles. Results and Conclusion: Capsules’ morphology and topographic characteristics remained similar, regardless of CDCA or nano gel concentrations. The best pharmacological, anti-inflammatory, and cellular respiration, metabolism, and energy production effects were observed at high CDCA and nano gel concentrations, suggesting dose-dependent cellular protective and positive effects of CDCA when incorporated with high loading nano gel.

Published

2021

7. A Review on Recent Advancement on Age-Related Hearing Loss: The Applications of Nanotechnology, Drug Pharmacology, and Biotechnology

Author

Momir Mikov, Armin Mooranian, Corina Mihaela Ionescu, Daniel Walker, Melissa Jones, Edan Johnston, Susbin Raj Wagle, Hani Al-Salami, Daniel Brown, Bozica Kovacevic, and Jacqueline Chester

Subjects

0301 basic medicine, Drug, medicine.medical_specialty, antioxidant, Hearing loss, media_common.quotation_subject, Pharmaceutical Science, Presbycusis, Review, Disease, Age-related hearing loss, 03 medical and health sciences, Pharmacy and materia medica, 0302 clinical medicine, medicine, Social isolation, Intensive care medicine, Cochlea, media_common, bile acids, business.industry, medicine.disease, RS1-441, age-related hearing loss, Applications of nanotechnology, 030104 developmental biology, age, biguanides, medicine.symptom, metformin, business, 030217 neurology & neurosurgery

Abstract

Aging is considered a contributing factor to many diseases such as cardiovascular disease, Alzheimer’s disease, and hearing loss. Age-related hearing loss, also termed presbycusis, is one of the most common sensory impairments worldwide, affecting one in five people over 50 years of age, and this prevalence is growing annually. Associations have emerged between presbycusis and detrimental health outcomes, including social isolation and mental health. It remains largely untreatable apart from hearing aids, and with no globally established prevention strategies in the clinical setting. Hence, this review aims to explore the pathophysiology of presbycusis and potential therapies, based on a recent advancement in bile acid-based bio-nanotechnologies. A comprehensive online search was carried out using the following keywords: presbycusis, drugs, hearing loss, bile acids, nanotechnology, and more than 150 publications were considered directly relevant. Evidence of the multifaceted oxidative stress and chronic inflammation involvement in cellular damage and apoptosis that is associated with a loss of hair cells, damaged and inflamed stria vascularis, and neuronal signalling loss and apoptosis continues to emerge. New robust and effective therapies require drug delivery deeper into the various layers of the cochlea. Bile acid-based nanotechnology has gained wide interest in its permeation-enhancing ability and potential for numerous applications in treating presbycusis.

Published

2021

8. The Effects of Accelerated Temperature-Controlled Stability Systems on the Release Profile of Primary Bile Acid-Based Delivery Microcapsules

Author

Armin Mooranian, Louise Carey, Corina Mihaela Ionescu, Daniel Walker, Melissa Jones, Susbin Raj Wagle, Bozica Kovacevic, Thomas Foster, Jacqueline Chester, Edan Johnston, Momir Mikov, and Hani Al-Salami

Subjects

microencapsulation, diabetes mellitus, bile acids, Eudragit, chenodeoxycholic acid, Pharmacy and materia medica, RS1-441

Abstract

Introduction: Bile acid-based drug encapsulation for oral delivery has been recently explored in our laboratory and has shown to be beneficial in terms of drug-targeted delivery and release profile, but stability at various temperatures has not previously been examined; hence, this is the aim of this study. Methods: Various types of bile acid-based microcapsules containing the drug metformin were produced and tested for accelerated temperature-controlled profiles, as well as morphology, elemental composition, drug content, resilience, floatability, wettability and release profiles at various pH values. Results: Accelerated temperature-controlled analysis showed negligible effects on morphology, size, or shape at very low temperatures (below 0 °C), while higher temperatures (above 25 °C) caused alterations. Drug contents, morphology and elemental composition remained similar, while wettability and the release profiles showed formulation-dependent effects. Discussion and Conclusion: Results suggest that bile acid-based microcapsules containing metformin are affected by temperature; hence, their shelf life is likely to be affected by storage temperature, all of which have a direct impact on drug release and stability profiles.

Published

2021

9. Polyelectrolytes Formulated with Primary Unconjugated Bile Acid Optimised Pharmacology of Bio-Engineered Implant

Author

Armin Mooranian, Corina Mihaela Ionescu, Susbin Raj Wagle, Bozica Kovacevic, Daniel Walker, Melissa Jones, Jacqueline Chester, Thomas Foster, Edan Johnston, Sanja Kojic, Goran Stojanovic, Momir Mikov, and Hani Al-Salami

Subjects

poly-(4styrene)-sulphonate, poly-(allyl)-amine, primary bile acids, chenodeoxycholic acid, pharmacology, transplants, Pharmacy and materia medica, RS1-441

Abstract

Introduction. Several studies have shown that different biomaterials and hydrogels comprising various bile acids such as chenodeoxycholic acid (CDCA), as well as excipients such as poly-(styrene)-sulphonate (PSS) and poly-(allyl)-amine (PAA), exhibited positive biological effects on encapsulated viable pancreatic β-cells. Hence, this study aimed to investigate whether incorporating CDCA with PSS and PAA will optimise the functions of encapsulated pancreatic islets post-transplantation in Type 1 diabetes (T1D). Methods. Mice were made T1D, divided into two equal groups, and transplanted with encapsulated islets in PSS-PAA (control) or with CDCA-PSS-PAA (treatment) microcapsules. The effects of transplanted microcapsules on blood glucose, inflammation and the bile acid profile were measured post-transplantation. Results and Conclusion. Compared with control, the treatment group showed better survival rate, improved glycaemic control, and lower inflammatory profile, illustrated by ↓ interleukin 1-β, interleukin-6, interleukin-12, and tumour-necrosis factor-α, and ↓ levels of the bile acid, as well as lithocholic acid in the plasma, liver, large intestine and faeces. The results suggest that CDCA incorporation with PSS-PAA microcapsules exerted beneficial effects on encapsulated islets and resulted in enhanced diabetes treatment, post-transplantation, at the local and systemic levels.

Published

2021

10. Pharmacological and Biological Study of Microencapsulated Probucol-Secondary Bile Acid in a Diseased Mouse Model

Author

Susbin Raj Wagle, Bozica Kovacevic, Corina Mihaela Ionescu, Daniel Walker, Melissa Jones, Louise Carey, Ryusuke Takechi, Momir Mikov, Armin Mooranian, and Hani Al-Salami

Subjects

diabetes mellitus, probucol, lithocholic acid, microcapsules, inflammation, oxidation, Pharmacy and materia medica, RS1-441

Abstract

Probucol (PB) is a highly lipophilic drug with potential protective effects on pancreatic β-cells from inflammation and oxidation. PB has poor bioavailability and solubility, and despite many attempts, significant improvement in antidiabetic effects or absorption has yet to be discovered. Recently, the role of bile acids has been established in significant drug formulation stabilisation effects and as cell-penetrating agents. Promising results in pharmaceutical formulation studies on drug stability and release patterns when lithocholic acid (LCA) is conjugated with PB and sodium alginate (SA) have been demonstrated. Thus, this study aimed to develop and characterise PB microcapsules incorporating LCA and examine the biological effects of the microcapsules in vitro and in vivo. PB/LCA microcapsules were prepared using an encapsulation method, ionic gelation vibrational jet flow technology. LCA incorporation in PB microcapsules showed positive effects on β-cells with improved insulin release, antioxidant activity, and PB intracellular uptake. Diabetic mice gavaged LCA-PB microcapsules showed a significant reduction in diabetes signs and symptoms, better survival rate, reduced blood glucose levels, and pro-inflammatory cytokines, with an increase PB level in blood and tissues suggesting a potential therapy for treating diabetes mellitus.

Published

2021

11. Probucol Pharmacological and Bio-Nanotechnological Effects on Surgically Transplanted Graft Due to Powerful Anti-Inflammatory, Anti-Fibrotic and Potential Bile Acid Modulatory Actions

Author

Armin Mooranian, Corina Mihaela Ionescu, Susbin Raj Wagle, Bozica Kovacevic, Daniel Walker, Melissa Jones, Jacqueline Chester, Thomas Foster, Edan Johnston, Momir Mikov, Marcus D. Atlas, and Hani Al-Salami

Subjects

probucol, transplantation, pancreatic beta-cells, interleukin-17, interleukin-12, surgery, Pharmacy and materia medica, RS1-441

Abstract

Introduction. A major obstacle in islet transplantation and graft survival pre and post transplantation is islet apoptosis due to mainly inflammatory bio molecules released during islet harvesting and post graft transplantation and hence, subsequent graft fibrosis and failure. This study aimed to investigate if incorporation of the anti-inflammatory anti-hyperlipidaemic drug probucol (PB) would improve islet-graft survival and function, post transplantation in Type 1 diabetes (T1D). Methods. T1D was induced in mice, and biological profiles of the diabetic mice transplanted PB-microencapsulated islets harvested from healthy syngeneic mice were measured. Results and Conclusion. Compared with sham (no PB), the treated group showed significant reduction in serum levels of interleukin-1β, interleukin-6, interleukin-12, interleukin-17, and tumour necrosis factor-α, accompanied by a 3-fold increase in survival duration, which suggests PB islet-protective effects, post transplantation.

Published

2021

12. A Review on Recent Advancement on Age-Related Hearing Loss: The Applications of Nanotechnology, Drug Pharmacology, and Biotechnology

Author

Jacqueline Chester, Edan Johnston, Daniel Walker, Melissa Jones, Corina Mihaela Ionescu, Susbin Raj Wagle, Božica Kovacevic, Daniel Brown, Momir Mikov, Armin Mooranian, and Hani Al-Salami

Subjects

antioxidant, age-related hearing loss, age, metformin, biguanides, bile acids, Pharmacy and materia medica, RS1-441

Abstract

Aging is considered a contributing factor to many diseases such as cardiovascular disease, Alzheimer’s disease, and hearing loss. Age-related hearing loss, also termed presbycusis, is one of the most common sensory impairments worldwide, affecting one in five people over 50 years of age, and this prevalence is growing annually. Associations have emerged between presbycusis and detrimental health outcomes, including social isolation and mental health. It remains largely untreatable apart from hearing aids, and with no globally established prevention strategies in the clinical setting. Hence, this review aims to explore the pathophysiology of presbycusis and potential therapies, based on a recent advancement in bile acid-based bio-nanotechnologies. A comprehensive online search was carried out using the following keywords: presbycusis, drugs, hearing loss, bile acids, nanotechnology, and more than 150 publications were considered directly relevant. Evidence of the multifaceted oxidative stress and chronic inflammation involvement in cellular damage and apoptosis that is associated with a loss of hair cells, damaged and inflamed stria vascularis, and neuronal signalling loss and apoptosis continues to emerge. New robust and effective therapies require drug delivery deeper into the various layers of the cochlea. Bile acid-based nanotechnology has gained wide interest in its permeation-enhancing ability and potential for numerous applications in treating presbycusis.

Published

2021

13. Pharmacological and Advanced Cell Respiration Effects, Enhanced by Toxic Human-Bile Nano-Pharmaceuticals of Probucol Cell-Targeting Formulations

Author

Susbin Raj Wagle, Bozica Kovacevic, Daniel Walker, Corina Mihaela Ionescu, Melissa Jones, Goran Stojanovic, Sanja Kojic, Armin Mooranian, and Hani Al-Salami

Subjects

bile acids, diabetes mellitus, formulation sciences, inflammation, probucol, unconjugated lithocholic acid, Pharmacy and materia medica, RS1-441

Abstract

Bile acids have recently been studied for potential applications as formulation excipients and enhancers for drug release; however, some bile acids are not suitable for this application. Unconjugated lithocholic acid (ULCA) has recently shown drug formulation-stabilizing and anti-inflammatory effects. Lipophilic drugs have poor gut absorption after an oral dose, which necessitates the administration of high doses and causes subsequent side effects. Probucol (PB) is a highly lipophilic drug with poor oral absorption that resulted in restrictions on its clinical prescribing. Hence, this study aimed to design new delivery systems for PB using ULCA-based matrices and to test drug formulation, release, temperature, and biological effects. ULCA-based matrices were formulated for PB oral delivery by applying the jet-flow microencapsulation technique using sodium alginate as a polymer. ULCA addition to new PB matrices improved the microcapsule’s stability, drug release in vitro (formulation study), and showed a promising effect in ex vivo study (p < 0.05), suggesting that ULCA can optimize the oral delivery of PB and support its potential application in diabetes treatment.

Published

2020