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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

A Battle Against the Opioid Crisis: Deciphering the Molecular Control of Opioid Receptors in an Effort to Design Safer Analgesics

Mohamud, Abdulhamid 13 December 2019 (has links)
Opioid receptors are central to the development of tools that can be used to manage and fight against the opioid crisis that is prevalent in North America. They are part of a large protein family called G-protein-Coupled Receptors (GPCRs), which are the most therapeutically targeted receptors within the human body. Once activated, the receptors lead to the activation of multiple different signaling pathways such the -arrestin and G-protein signaling pathways. The -Arrestin pathway is usually associated with the side effects of opioid analgesics. An allosteric site that binds to sodium was identified within the delta-opioid receptor (DOR). Previous studies have found that the sodium cavity can regulate the activation of different signaling pathways and thus act at the functional selectivity level. Our lab has identified a subset of small molecules targeting this cavity. This finding supports the druggability of this site and thus opens the door for the development of a novel pharmacological entity to control opioid receptor activities. This thesis focuses on the characterization of the sodium cavity by performing structure activity relationship (SAR) studies on the delta opioid receptor with three allosteric modulators: MIA, HMA and zoniporide. We report that, through site-directed mutagenesis and functional studies, mutations in the allosteric sodium site has an impact on the receptor functionalities including ligand recognition, efficacy and also allosterism by small molecules; however, the mutations do not prevent the binding of the allosteric modulators to the receptor. We also report the development of a novel biomedical tool that can be used to study the recruitment of the G-protein subtypes as well as the arrestin subtypes. Our data suggest it is possible to design drugs that will target the sodium pocket and this site has a major role within DOR and could be used to design novel modulators with unique pharmacological properties. My work will serve as a platform to study other members of the opioid receptor family and for the future rational design of novel modulators.
2

Intracellular pH Regulation by Sodium-Hydrogen Exchanger Isoforms in Preimplantation Mouse Embryos

Siyanov, Violetta January 2015 (has links)
Intracellular pH (pHi) impacts many cellular mechanisms including cellular metabolism, gene expression, cell volume regulation, cell survival and proliferation. Most cells use two general pHi regulatory mechanisms: HCO3-/Cl- antiporters (AE, Slc4a family) to reduce internal alkaline load, and Na+/H+ exchangers (NHE, Slc9a family) that protect cells from acidosis. Previous studies with preimplantation (PI) embryos have shown robust activity of HCO3-/Cl- exchanger in all stages of development. It was also determined that inhibition of this exchange with the stilbene AE inhibitor 4,4’-diisothiocyanostilbene-2,2’-disulfonic acid (DIDS) was detrimental to embryo development from the 2‐cell stage to blastocyst when cultured at high external pH. In this study I investigated which of the five known plasma membrane NHE isoforms was present and active within mouse PI embryos and their role as pHi regulators throughout preimplantation embryo development. In mouse oocytes and preimplantation embryos, mRNAs were detected encoding NHE1 (SLC9A1), NHE3 (SLC9A3), and NHE4 (SLC9A4), with higher mRNA levels for each in fully-grown oocytes through one-cell stage embryos and then generally lower levels after the two-cell stage. No transcripts for NHE2 (SLC9A2) or NHE5 (SLC9A5) were detected. Measurements of intracellular pH during recovery from acidosis, induced by transient ammonium pulse, suggested that recovery occurred and was mediated by NHE activity at all preimplantation stages assessed (one-cell, two-cell, eight-cell and morula). This recovery was inhibited by 1 mM amiloride, a general NHE inhibitor. The observed residual recovery was attributed to passive passage of protons across the membrane, rather than the activity of NHE4 (an amiloride-resistant isoform), since no further decrease in recovery rates from acidosis was observed upon amiloride increase to 5 mM. Furthermore, recovery from acidosis at each stage was entirely inhibited by cariporide, which is very highly selective for NHE1. In contrast, the moderately NHE3-selective inhibitor S3226 did not preferentially block recovery, nor did adding S3226 increase inhibition over that achieved with cariporide alone, indicating that NHE3 did not play a functional role in pHi regulation at any stage assessed. Another regulator of intracellular pH against acidosis, previously reported to be active in oocytes and 1-cell embryos, the sodium-dependent bicarbonate/chloride exchanger (NDBCE; SLC4A8), had low or absent activity in two-cell embryos. This indicated that NHE1 is likely the only significant regulator of pHi in preimplantation mouse embryos, at least after the 1-cell stage. Culturing embryos from the one-cell or two-cell stages in acidotic medium inhibited their development, as assessed by development to the blastocyst stage and cell lineage allocation. However, inhibition of NHE1 with cariporide, NDBCE with DIDS, or both together did not further decrease embryo development to the blastocyst stage more extensively under conditions of chronic acidosis than at normal pH. This suggests that mouse PI embryos have a restricted ability to counteract chronic acidosis by means of pHi regulatory mechanisms, despite clearly being able to recover from acute acidosis via NHE1 activity.
3

Voies de la glycosylation et carcinome hépatocellulaire

Borentain, Patrick 07 December 2012 (has links)
La glycosylation est un processus enzymatique permettant l'ajout de sucres à des composés (sucres, lipides ou protides), modifiant ainsi leurs propriétés. La glycosylation est impliquée dans la détoxification des xénobiotiques et des variations d'activité des enzymes responsables ont été identifiées comme facteur de risque de cancer en particulier dans les organes exposés aux xénobiotiques. Dans la première partie de notre travail nous étudions l'impact des polymorphismes génétiques de certaines enzymes responsables de la détoxification (UGT1A7, GST et XRCC1) sur le risque de carcinome hépatocellulaire. Nous montrons que la combinaison de certains polymorphismes génétiques peut entraîner une augmentation du risque de CHC. Des modifications d'expression des glycoprotéines de surface ont été observées dans les cellules cancéreuses jouant un rôle dans leurs interactions avec le microenvironnement. Dans la seconde partie, nous étudions l'effet de l'inhibition des interactions des cellules de CHC/cellules endothéliales par le blocage du couple sialyl Lewis x/E-sélectine sur la croissance tumorale. Ce blocage est obtenu, d'une part par transfert du gène de la Fucosyl-transferase I, inhibant l'expression de sLex à la surface des cellules de CHC, et d'autre part, par utilisation de cimétidine ou d'amiloride permettant une inhibition de l'expression de la E-sélectine par les cellules endothéliales. Nous obtenons une inhibition de la croissance tumorale in vivo par blocage de la néoangiogénèse. Ces travaux permettent donc d'identifier des facteurs de risque génétiques de CHC et d'envisager une autre voie de traitement du CHC. / Glycosylation is an enzymatic process that consists of the addition of glycosyl groups to compounds (sugars, lipids or proteins), thus modifying their properties. Glycosylation is involved in the detoxification of xenobiotics and variations in activity of enzymes responsible have been identified as a potential risk factor for cancer in particular in organs in contact with the external environment. In the first part of our work we study the impact of polymorphisms of detoxification enzyme (UGT1A7, GST and XRCC1) on the risk of hepatocellular carcinoma. We show that the combination of genetic polymorphisms of such enzymes may increase the risk of HCC. Modifications in the expression of surface glycoproteins have been observed in cancer cells and play a role in their interactions with the tumoral microenvironment. In the second part, we study the effect of inhibition of interactions of HCC cells / endothelial cells on tumor growth by blocking the interaction between sialyl Lewis x and E-selectin. First, we achieved the inhibition of the expression of sLex on the surface of HCC cells by introducing fucosyl transferase- I gene in HCC cells. In a second part of our work we used cimetidine and amiloride to inhibit the expression of E-selectin by endothelial cells. This approach resulted in inhibition of HCC cells / endothelial cells interaction and thereby tumor growth inhibition in vivo. This effect is mediated by an inhibition of tumor neoangiogenesis. This work therefore identifies genetic risk factors for HCC and allows considering another way of treatment of HCC.
4

Axonal degeneration and protection during early remyelination in multiple sclerosis and an animal model

Schultz, Verena 22 January 2015 (has links)
No description available.
5

O papel da aldosterona no desenvolvimento das lesões tubulointersticiais em ratos hipertensos 2R-1C / The role of aldosterone in the development of tubulointerstitial damage in hypertensive rats 2K-1C

Singulani, Junya de Lacorte 06 August 2012 (has links)
A aldosterona participa da progressão das doenças renais em modelos experimentais e ensaios clínicos. Considerando que o modelo de hipertensão renovascular 2 rins-1 clipe (2R-1C) é caracterizado pela atividade elevada do sistema renina-angiotensina-aldosterona, o objetivo desse trabalho foi avaliar o papel da aldosterona na lesão renal presente nesse modelo através do bloqueio do receptor mineralocorticóide (RM) com espironolactona. Ratos Wistar foram submetidos ao procedimento cirúrgico para colocação de um clipe de prata na artéria renal esquerda e após 2 semanas do desenvolvimento da hipertensão renovascular 2R-1C, foram divididos em 3 grupos sendo que para o primeiro grupo nenhuma droga foi administrada (n=8), para o segundo grupo foi administrado por via oral 20 mg/Kg/dia de espironolactona (n=10) e para o terceiro, 7 mg/Kg/dia de amilorida (n=12). O peso e a pressão sistólica foram monitorados semanalmente. Coletas de urina (durante 24 h) e sangue foram realizadas em 3 períodos distintos: antes do procedimento cirúrgico; na 2° semana após a cirurgia (antes do início do tratamento) e na 6° semana após a cirurgia (após o término do tratamento). As amostras foram utilizadas para análise de creatinina, osmolalidade, sódio, potássio e albuminúria. Ao final do experimento, os rins foram perfundidos e pesados. Análise histológica para avaliar a extensão das alterações tubulointersticiais foi realizada. Além disso, marcadores de inflamação (ED-1 e p-JNK), de produção de matriz extracelular (fibronectina), de miofibroblastos (-actina de músculo liso) e de transdiferenciação tubular (vimentina) na região tubulointersticial cortical e de lesão nos podócitos (desmina) foram avaliados. O tratamento com espironolactona foi capaz de atenuar o aumento na excreção de albumina, o aumento na concentração plasmática de creatinina e a redução na depuração de creatinina. No rim clipado dos ratos 2R-1C, as lesões tubulointersticias e podocitárias, demonstradas pelos marcadores estudados, foram discretas e a terapia com espironolactona ou amilorida não foi capaz de minimizá-las. Por outro lado, no rim não clipado, a administração de espironolactona atenuou o aumento de matriz extracelular e a lesão nos podócitos. Os efeitos benéficos da espironolactona ocorreram independentes da redução na pressão sanguínea e podem ser em parte, dependentes do bloqueio do canal epitelial de sódio (ENaC). Tais efeitos trazem perspectiva para espironolactona como uma ferramenta terapêutica a ser explorada em pacientes com estenose de artéria renal. / Aldosterone is involved in the progression of renal disease in experimental models and clinical trials. Considering that the model of renovascular hypertension 2 kidney-1 clip (2K-1C) is characterized by a high activity of the renin-angiotensin-aldosterone system, the objective of this study was to assess the role of aldosterone in renal injury in this model by blocking the mineralocorticoid receptor (MR) with spironolactone. Male Wistar rats were submitted to surgery to place a silver clip on the left renal artery and after two weeks of the development of 2K-1C renovascular hypertension they were divided into three groups. The first group was administered no drug (n=8), in the second group spironolactone 20 mg/kg/day was given orally (n=10) and the third group received amiloride 7 mg/kg/day (n=12). Body weight and systolic blood pressure were monitored weekly. Samples of urine (collected for 24 h) and blood were performed in 3 distinct periods: before surgery; 2 weeks after surgery (before treatment) and 6 weeks after surgery (after treatment). The samples were used to analyze creatinine, osmolality, sodium, potassium and albuminuria. At the end of the experiment, the kidneys were perfused and weighed. Histological analysis to assess the extent of tubulointerstitial changes was performed. Additionally, markers of inflammation (ED-1 and p-JNK), production of extracellular matrix (fibronectin), myofibroblasts (-smooth muscle actin) and tubular transdifferentiation (vimentin) in the area of tubulointerstitial cortical and injury in podocytes (desmin) were evaluated. Treatment with spironolactone was able to attenuate the increase in albumin excretion, the increase in plasma concentration of creatinine and the reduction in creatinine clearance. In the clipped kidney, tubulointerstitial and podocytes injuries, demonstrated by markers studied, were discrete and therapy with spironolactone or amiloride was not able to minimize them. However, in the non-clipped kidney, administration of spironolactone attenuated the increase of extracellular matrix and podocyte injury. The beneficial effects of spironolactone occurred independent of the reduction blood pressure and can be partly dependent of epithelial sodium channel (ENaC) blockade. These effects bring perspective to espironolactone as a therapeutic tool to be explored in patients with renal artery stenosis.
6

Anger and anxiety in patients with primary aldosteronism treated with amiloride hydrochloride or spironolactone or adrenalectomy

Armstrong, Robin Sherill January 2007 (has links)
In Primary Aldosteronism (PAL) excessive amounts of aldosterone cause sodium and water retention and, in many individuals, this leads to moderate to severely high blood pressure. Although the chemistry and physiology are increasingly well understood, including the outcomes of treatment on physical health, there has been no systematic study of the psychological dimension of PAL. Anecdotally, patients exhibit symptoms such as angry outbursts, irritability, anxiety and defensiveness, and partners of these patients sometimes mention poor anger control and brittle or unpredictable moods. This thesis reports a systematic study of anger and anxiety among patients undergoing treatment for PAL. Eighty-three patients were recruited over an 11-month period to a prospective, pre-post design study to determine if treatment was associated with change in psychological state. Participants completed the State-Trait Anger Expression Inventory (STAXI-2), State-Trait Anxiety Inventory (STAI) and Psychosocial Adjustment to Illness Scale (PAIS) questionnaires. Adrenal Vein Sampling confirmed overproduction of aldosterone in one or both adrenal glands. Patients with Aldosterone Producing Adenoma (APA) were offered adrenalectomy. As per usual treatment protocols, patients with Bilateral Adrenal Hyperplasia (BAH) were prescribed spironolactone or amiloride depending predominantly on severity of blood pressure and potassium levels. Post-test questionnaires were completed after 6-8 months. Analysis was by mixed design (between-within subjects) ANOVA. Participant numbers in the adrenalectomy group fell far short of expectations. Fourteen past patients who had undergone unilateral adrenalectomy completed a retrospective semi-structured questionnaire. This qualitative data was analysed to identify themes similar to quantitative data. At baseline, 'non-completers' (ie those who did not complete the post-test; n=19), were significantly more angry than 'completers' (n=50) in State Anger (p< .01), Trait Anger (p< .05) and Anger Expression Index (p< .001). Trait Anxiety was also higher (p< .05), as was Psychological Distress (p< .05). Among those who participated at both interviews, there was small but statistically significant adverse treatment effect with higher scores for State Anger (p< .05), and Feeling Angry (p< .05). However for Trait Anger (p< .01), and 2 of its 3 sub-scales Angry Temperament (p< .05) and Angry Reaction (p< .01) there was a slight to moderate decrease in negative affect with treatment. Psychological Distress scores also improved (p< .05). Across all ANOVAs, there were no significant interaction effects, suggesting that any treatment effect was equivalent for the two drugs. Qualitatively collected data elucidated participants' changes in approach to life and relationships since adrenalectomy. Themes that emerged in the data included improved ability to cope with external stress, better control of emotions, more relaxed relationships and attitude to work, and a greater vitality and quality of life. Generally the comments were consistent with the drug treatments; there was noticeable benefit, including perceived better anger control and less anxiety. Positive psychological effects of treatment observed in the two drug groups were triangulated with data from a qualitative study. The combined evidence suggests that when excess circulating aldosterone is reduced (adrenalectomy), or blocked (spironolactone), or aldosterone's salt and water retaining effects are minimised (amiloride), then nervous irritability and its subsequent psycho-behavioural manifestations are reduced. The effect however is slight and the conclusions are weakened by an apparent attrition bias, and the absence of a control group. Implications for further research are discussed.
7

A phase II randomised controlled trial of amiloride as a neuroprotective treatment in optic neuritis : studying in vivo neurodegeneration, neuroprotection and cortical plasticity after an inflammatory insult to the visual system

McKee, Justin January 2017 (has links)
Basic science and early clinical trial evidence suggest the safe diuretic drug amiloride, may exert a neuroprotective effect in multiple sclerosis (MS) through blockade of the acid sensing ion channel. Neuroprotective treatments are a key unmet need in multiple sclerosis. Optic neuritis (ON) is a discrete CNS inflammatory event leading to neuro-axonal injury in the optic nerve and retina. The optic nerve is part of the visual system, one of the most functionally and structurally eloquent systems in the central nervous system, which affords a number of unique modalities to assess neurodegeneration and neuroprotection. The visual system can be classified into two parts, the anterior and posterior visual systems, which are defined by the lateral geniculate nucleus, where the two components synapse. The extent of neurodegeneration following ON in the anterior visual system can be imaged in vivo through scanning laser polarimetry (GDx) and optical coherence tomography (OCT). The posterior visual system can be imaged by quantitative and functional magnetic resonance imaging (MRI) of the brain, giving insights into white matter structural integrity and cortical plasticity over time. Combining these modalities in a longitudinal study, allows assessment of the impact of neurodegeneration in the anterior visual system on neurodegeneration downstream in the posterior visual system and on changes in functional connectivity over time in the visual cortex. Furthermore, in the clinical trial setting the neuroprotective effect of any intervention both on direct anterior neurodegeneration and downstream processes can be assessed. The functional relevance of changes in all of these biomarkers can be tested through a number of visual measures, including low contrast visual acuity. In MS, the contribution of transsynaptic neurodegeneration to the global neuronal loss experienced by patients is an area of incomplete understanding. In addition, the role of the visual cortex, through neuroplasticity, in aiding visual recovery from optic neuritis, is unclear. To address these issues, this thesis reports the results of the first clinical trial of amiloride in ON, and shows that despite the pre- and early clinical evidence of neuroprotection of amiloride, no neuroprotective benefit was found. It goes on to explore reasons for this lack of effect including the finding of early retinal neurodegeneration in ON, and the need for early recruitment windows in the future. From there, it makes a detailed assessment of the longitudinal changes in retinal OCT for 12 months following ON, including a novel finding of the temporal evolution of inner nuclear layer swelling, previously reported only cross-sectionally. Next, for the first time macular retinal neurodegeneration is shown to influence diffusion tensor MRI derived measures of white matter integrity in the optic radiations, indicating transsynaptic neurodegeneration. Finally, longitudinal changes in resting state functional connectivity following ON are found in the visual system for the first time. The interaction between this cortical functional, retinal neurodegeneration and visual recovery is probed.
8

O papel da aldosterona no desenvolvimento das lesões tubulointersticiais em ratos hipertensos 2R-1C / The role of aldosterone in the development of tubulointerstitial damage in hypertensive rats 2K-1C

Junya de Lacorte Singulani 06 August 2012 (has links)
A aldosterona participa da progressão das doenças renais em modelos experimentais e ensaios clínicos. Considerando que o modelo de hipertensão renovascular 2 rins-1 clipe (2R-1C) é caracterizado pela atividade elevada do sistema renina-angiotensina-aldosterona, o objetivo desse trabalho foi avaliar o papel da aldosterona na lesão renal presente nesse modelo através do bloqueio do receptor mineralocorticóide (RM) com espironolactona. Ratos Wistar foram submetidos ao procedimento cirúrgico para colocação de um clipe de prata na artéria renal esquerda e após 2 semanas do desenvolvimento da hipertensão renovascular 2R-1C, foram divididos em 3 grupos sendo que para o primeiro grupo nenhuma droga foi administrada (n=8), para o segundo grupo foi administrado por via oral 20 mg/Kg/dia de espironolactona (n=10) e para o terceiro, 7 mg/Kg/dia de amilorida (n=12). O peso e a pressão sistólica foram monitorados semanalmente. Coletas de urina (durante 24 h) e sangue foram realizadas em 3 períodos distintos: antes do procedimento cirúrgico; na 2° semana após a cirurgia (antes do início do tratamento) e na 6° semana após a cirurgia (após o término do tratamento). As amostras foram utilizadas para análise de creatinina, osmolalidade, sódio, potássio e albuminúria. Ao final do experimento, os rins foram perfundidos e pesados. Análise histológica para avaliar a extensão das alterações tubulointersticiais foi realizada. Além disso, marcadores de inflamação (ED-1 e p-JNK), de produção de matriz extracelular (fibronectina), de miofibroblastos (-actina de músculo liso) e de transdiferenciação tubular (vimentina) na região tubulointersticial cortical e de lesão nos podócitos (desmina) foram avaliados. O tratamento com espironolactona foi capaz de atenuar o aumento na excreção de albumina, o aumento na concentração plasmática de creatinina e a redução na depuração de creatinina. No rim clipado dos ratos 2R-1C, as lesões tubulointersticias e podocitárias, demonstradas pelos marcadores estudados, foram discretas e a terapia com espironolactona ou amilorida não foi capaz de minimizá-las. Por outro lado, no rim não clipado, a administração de espironolactona atenuou o aumento de matriz extracelular e a lesão nos podócitos. Os efeitos benéficos da espironolactona ocorreram independentes da redução na pressão sanguínea e podem ser em parte, dependentes do bloqueio do canal epitelial de sódio (ENaC). Tais efeitos trazem perspectiva para espironolactona como uma ferramenta terapêutica a ser explorada em pacientes com estenose de artéria renal. / Aldosterone is involved in the progression of renal disease in experimental models and clinical trials. Considering that the model of renovascular hypertension 2 kidney-1 clip (2K-1C) is characterized by a high activity of the renin-angiotensin-aldosterone system, the objective of this study was to assess the role of aldosterone in renal injury in this model by blocking the mineralocorticoid receptor (MR) with spironolactone. Male Wistar rats were submitted to surgery to place a silver clip on the left renal artery and after two weeks of the development of 2K-1C renovascular hypertension they were divided into three groups. The first group was administered no drug (n=8), in the second group spironolactone 20 mg/kg/day was given orally (n=10) and the third group received amiloride 7 mg/kg/day (n=12). Body weight and systolic blood pressure were monitored weekly. Samples of urine (collected for 24 h) and blood were performed in 3 distinct periods: before surgery; 2 weeks after surgery (before treatment) and 6 weeks after surgery (after treatment). The samples were used to analyze creatinine, osmolality, sodium, potassium and albuminuria. At the end of the experiment, the kidneys were perfused and weighed. Histological analysis to assess the extent of tubulointerstitial changes was performed. Additionally, markers of inflammation (ED-1 and p-JNK), production of extracellular matrix (fibronectin), myofibroblasts (-smooth muscle actin) and tubular transdifferentiation (vimentin) in the area of tubulointerstitial cortical and injury in podocytes (desmin) were evaluated. Treatment with spironolactone was able to attenuate the increase in albumin excretion, the increase in plasma concentration of creatinine and the reduction in creatinine clearance. In the clipped kidney, tubulointerstitial and podocytes injuries, demonstrated by markers studied, were discrete and therapy with spironolactone or amiloride was not able to minimize them. However, in the non-clipped kidney, administration of spironolactone attenuated the increase of extracellular matrix and podocyte injury. The beneficial effects of spironolactone occurred independent of the reduction blood pressure and can be partly dependent of epithelial sodium channel (ENaC) blockade. These effects bring perspective to espironolactone as a therapeutic tool to be explored in patients with renal artery stenosis.
9

Development of a Sustained Transdermal Delivery System of Amiloride for Management of Resistant Hypertension

Leshaoda, Oluwatosin Tabitha, Ashana, Puri, Tijani, Akeemat O 25 April 2023 (has links) (PDF)
Resistant hypertension is a condition in which blood pressure remains above the ideal value (120/80mmHg), despite concurrent use of three antihypertensive agents of different classes taken at maximally tolerated doses. Amiloride, a potassium-sparing diuretic agent, when added to the treatment regimen of these drugs has been found suitable for the management of resistant hypertension, especially in diabetic patients and those resistant to a similar diuretic, spironolactone. Currently, it is available as an oral tablet, administered once daily. The oral bioavailability of amiloride is 50%, which gets reduced to 30% when administered with food. In addition, gastrointestinal side effects are also reported. Patient’s adherence to the multi-drug treatment regimen has been found to be low in patients with resistant hypertension and hence, administering amiloride in the oral forms may not solve the problem, in spite of its proven pharmacological efficacy in such situations. Thus, considering the low oral bioavailability, associated side-effects, and prospects of better patient compliance with a skin patch of amiloride, our long term goal is to design a long-acting skin patch for transdermal delivery of amiloride in patients with resistant hypertension. The current study aims to investigate the passive transdermal delivery of amiloride and evaluate the effects of chemical and physical enhancement techniques on its permeation through dermatomed porcine ear skin. High performance liquid chromatography (HPLC) method for amiloride was developed. Absence of skin interference in the assay was confirmed using blank skin extract. Solubility of amiloride was screened in different solvents, some of which included propylene glycol, phosphate buffer saline, oleic acid in propylene glycol, etc. In vitro permeation of amiloride across intact and microneedle-treated (500 µm long stainless needles applied for 2 min) porcine ear skin was evaluated using Franz Diffusion cells over 30 h. The optimized reverse-phase HPLC method involved isocratic elution on Kinetex® 5 µm, 100 Ao, 250 X 4.6 mm C18 column using 100% mobile phase (0.2 M phosphate buffer, pH 4.5) at a flow rate of 0.8 mL/min, column temperature of 40°C, and UV detection at 360 nm. Drug retention time was found to be around 4 min. Amiloride was found to be most soluble in propylene glycol (57.18 ± 2.41 mg/mL) with least solubility in phosphate buffer saline (0.311 ± 0.004 mg/mL). Microneedles were found to significantly enhance the permeation flux of amiloride by 16 folds as compared to the control intact skin (p
10

Effect of Chemical Enhancers on Transdermal Delivery of Amiloride for Management of Resistant Hypertension

Leshaodo, Oluwatosin Tabitha 01 August 2024 (has links) (PDF)
Amiloride, a diuretic used for managing resistant hypertension, is hindered by low oral bioavailability and Gastrointestinal side effects, impacting patient compliance. This study investigates transdermal delivery as an alternative to reduce pill burden and improve adherence. Using dermatomed porcine ear skin, the research examined the passive transdermal delivery of amiloride and the effect of various chemical enhancers, including oleic acid, oleyl alcohol, tocopheryl polyethylene glycol succinate, and N-methyl-2-pyrrolidone, individually or in combination. A validated High-Performance Liquid Chromatography method, adhering to Internal Council for Harmonized guidelines (ICH), was employed for quantitative analysis. In vitro permeation studies, conducted using porcine skin and Franz diffusion cells over 168 hours, revealed that oleyl alcohol (761.86±74.97 µg/cm²) and oleic acid (691.90±78.59 µg/cm²) were the most effective enhancers. These findings suggest that chemical enhancers can significantly facilitate the transdermal delivery of amiloride, offering a promising alternative to enhance patient compliance and achieve better therapeutic outcomes.

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