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11	High Performance Liquid Chromatography Assay Method for Simultaneous Quantitation of Formoterol and Budesonide in Symbicort Turbuhaler Assi, Khaled H., Chrystyn, Henry, Tarsin, W. January 2006 (has links) No / A sensitive and rapid high performance liquid chromatography method has been developed and used for the simultaneous determination of formoterol and budesonide in Symbicort Turbuhaler when assessing the aerodynamic characteristics of the emitted dose using Pharmacopoeial methods. This capability results in both time and cost saving. The mobile phase composition was acetonitrile-5 mM sodium dihydrogen orthophosphate, pH 3 (60: 40% v/v), and was passed at 1.5 ml min-1 through a C18 column with a UV detection (wavelength 214 nm). The method was shown to give good analytical performance in terms of linearity, precision (using phenylpropanolamine as an internal standard), sensitivity and solution stability. The intra-day precision for both formoterol and budesonide were 0.75% and 1.11%, respectively (n = 10). The limit of quantitation for formoterol was 10 ¿g L-1 and for budesonide was 120 ¿g L-1, and the limit of detection were 3 and 30 ¿g L-1, for both formoterol and budesonide, respectively. The method has been applied to determine the content of the emitted dose and the fine particle dose of Symbicort Turbuhaler. Simultaneous measurement HPLC chromatography Corticosteroid ß-Adrenergic receptor agonist ß2-Adrenergic receptor Agonist Antiinflammatory agent Bronchodilator Antiasthma agent Budesonide Formoterol
12	Use of nanoemulsion liquid chromatography (NELC) for the analysis of inhaled drugs : investigation into the application of oil-in-water nanoemulsion as mobile phase for determination of inhaled drugs in dosage forms and in clinical samples Althanyan, Mohammed Saad January 2011 (has links) There has been very little research into the bioanalytical application of Microemulsion High Performance Liquid Chromatography (MELC), a recently established technique for separating an active pharmaceutical ingredient from its related substances and for determining the quantity of active drug in a dose. Also, the technique is not good at separating hydrophilic drugs of very similar chemical structures. Different phase diagrams of oil (octane or ethyl acetate), co-surfactant (butanol), surfactant (sodium dodecyl sulphate (SDS) or Brij-35) and buffer (Phosphate pH 3) were developed and several nanoemulsion mobile phases identified. Nanoemulsion mobile phase that is, prepared with SDS, octane, butanol and a phosphate buffer, failed to separate hydrophilic compounds with a very close chemical structure, such as terbutaline and salbutamol. A nanoemulsion mobile phase containing a non-ionic surfactant (Brij-35) with ethyl acetate, butanol and a phosphate buffer, was, however, successful in achieving a base line separation, and the method was validated for simultaneous determination of terbutaline and salbutamol in aqueous and urine samples. An oil-in-water (O/W) NELC method was developed and validated for the determination of formoterol in an Oxis® Turbuhaler® using pre-column fluorescence derivatisation. Although the same mobile phase was extended for separation of formoterol in urine, the formoterol peak's overlap with endogenous peaks meant that fluorescence detection could not determine formoterol in urine samples. Solid phase extraction, concentrating the final analyte 40 times, enabled determination of a low concentration of formoterol in urine samples by UV detection. The method was validated and an acceptable assay precision %CV <4.89 inter-day and %CV <2.33 intra-day was achieved. Then after the application of O/W nanoemulsion mobile phase for HPLC was extended for the separation of lipophilic drugs. The nanoemulsion liquid chromatography (NELC) method was optimised for the determination of salmeterol and fluticasone propionate in good validation data was achieved. This thesis shows that, in general, the performance of O/W NELC is superior to that of conventional High Performance Liquid Chromatography (HPLC) for the analysis of both hydrophilic and lipophilic drugs in inhaled dosage formulations and urine samples. It has been shown that NELC uses cheaper solvents and that analysis time is faster for aqueous and urine samples. This considerable saving in both cost and time will potentially improve efficiency within quality control. 615.19
13	Use of nanoemulsion liquid chromatography (NELC) for the analysis of inhaled drugs. Investigation into the application of oil-in-water nanoemulsion as mobile phase for determination of inhaled drugs in dosage forms and in clinical samples. Althanyan, Mohammed S. January 2011 (has links) There has been very little research into the bioanalytical application of Microemulsion High Performance Liquid Chromatography (MELC), a recently established technique for separating an active pharmaceutical ingredient from its related substances and for determining the quantity of active drug in a dose. Also, the technique is not good at separating hydrophilic drugs of very similar chemical structures. Different phase diagrams of oil (octane or ethyl acetate), co-surfactant (butanol), surfactant (sodium dodecyl sulphate (SDS) or Brij-35) and buffer (Phosphate pH 3) were developed and several nanoemulsion mobile phases identified. Nanoemulsion mobile phase that is, prepared with SDS, octane, butanol and a phosphate buffer, failed to separate hydrophilic compounds with a very close chemical structure, such as terbutaline and salbutamol. A nanoemulsion mobile phase containing a non-ionic surfactant (Brij-35) with ethyl acetate, butanol and a phosphate buffer, was, however, successful in achieving a base line separation, and the method was validated for simultaneous determination of terbutaline and salbutamol in aqueous and urine samples. An oil-in-water (O/W) NELC method was developed and validated for the determination of formoterol in an Oxis® Turbuhaler® using pre-column fluorescence derivatisation. Although the same mobile phase was extended for separation of formoterol in urine, the formoterol peak¿s overlap with endogenous peaks meant that fluorescence detection could not determine formoterol in urine samples. Solid phase extraction, concentrating the final analyte 40 times, enabled determination of a low concentration of formoterol in urine samples by UV detection. The method was validated and an acceptable assay precision %CV <4.89 inter-day and %CV <2.33 intra-day was achieved. Then after the application of O/W nanoemulsion mobile phase for HPLC was extended for the separation of lipophilic drugs. The nanoemulsion liquid chromatography (NELC) method was optimised for the determination of salmeterol and fluticasone propionate in good validation data was achieved. This thesis shows that, in general, the performance of O/W NELC is superior to that of conventional High Performance Liquid Chromatography (HPLC) for the analysis of both hydrophilic and lipophilic drugs in inhaled dosage formulations and urine samples. It has been shown that NELC uses cheaper solvents and that analysis time is faster for aqueous and urine samples. This considerable saving in both cost and time will potentially improve efficiency within quality control. Phase diagram Dose emission Nanoemulsion HPLC NELC Dry powder inhalers (DPIs) Photon spectroscopy correlation (PSC) Salbutamol Terbutaline Formoterol Salmeterol Inhaled drugs
14	Validation of high-performance liquid chromatography assay for quantification of formoterol in urine samples after inhalation using UV detection technique. Nadarassan, D.K., Chrystyn, Henry, Clark, Brian J., Assi, Khaled H. January 2007 (has links) No / A novel high-performance liquid chromatography (HPLC) assay for the estimation of formoterol in urine samples was developed and validated. A solid phase extraction (SPE) using Oasis HLB was optimised to isolate formoterol from a urine matrix followed by HPLC with UV detection. This extraction procedure concentrated the final analyte forty times so that UV detection can be used to determine even a low concentration of formoterol in urine samples. The urinary assay was performed in accordance with FDA and ICH regulations for the validation of bioanalytical samples. The samples were injected onto a C18 Spherisorb® (250 mm x 4.6 mm x 5 ¿m) analytical column maintained at 30 °C. The mobile phase consisted of 5 mM of potassium dihydrogen orthophosphate buffer (adjusted to pH 3 with ortho phosphoric acid):acetonitrile (ACN) (70:30, v/v), and the formoterol peak was detected at wavelength 214 nm. The extraction recovery of formoterol from the urine sample was >95%. The calibration curve was linear (r2=0.99) over formoterol concentrations ranging from 1.5 to 25 ng/mL (n=6). The method had an accuracy of >92% and intra and inter-day precision CV% of <3.9% and <2.2%, respectively, at three different concentrations low, medium and high (10, 15, 20 ng/mL). The limit of quantification (LOQ) for formoterol was found to be 1.50 ng/mL. The accuracy and precision at the LOQ level were 95% and %CV <3.7% (n = 10), respectively. The method reported is simple, reliable, precise, and accurate and has the capacity to be used for determination of formoterol in urine samples. ß-Adrenergic receptor agonist ß2-Adrenergic receptor Agonist Bronchodilator Antiasthma agent Ultraviolet detector Inhalation Urine Formoterol Quantitative analysis HPLC chromatography Validation
15	Performance of two different types of inhalers : influence of flow and spacer on emitted dose and aerodynamic characterisation Almeziny, Mohammed Abdullah N. January 2009 (has links) This thesis is based around examination of three mainstream inhaled drugs Formoterol, Budesonide and Beclomethasone for treatment of asthma and COPD. The areas investigated are these which have been raised in reports and studies, where there are concern, for drug use and assessment of their use. In reporting this work the literature study sets out a brief summary of the background and anatomy and physiology of the respiratory system and then discuses the mechanism of drug deposition in the lung, as well as the methods of studying deposition and pulmonary delivery devices. This section includes the basis of asthma and COPD and its treatment. In addition, a short section is presented on the role of the pharmacist in improving asthma and COPD patient's care. Therefore the thesis is divided into 3 parts based around formoterol, budesonide and beclomethasone. In the first case the research determines the in-vitro performance of formoterol and budesonide in combination therapy. In the initial stage a new rapid, robust and sensitive HPLC method was developed and validated for the simultaneous assay of formoterol and the two epimers of budesonide which are pharmacologically active. In the second section, the purpose was to evaluate the aerodynamic characteristics for a combination of formoterol and the two epimers of budesonide at inhalation flow rates of 28.3 and 60 L/min. The aerodynamic characteristics of the emitted dose were measured by an Anderson cascade impactor (ACI) and the next generation cascade impactor (NGI). In all aerodynamic characterisations, the differences between flow rates 28.3 and 60 were statistically significant in formoterol, budesonide R and budesonide S, while the differences between ACI and NGI at 60 were not statistically significant. Spacers are commonly used especially for paediatric and elderly patients. However, there is considerable discussion about their use and operation. In addition, the introduction of the HFAs propellants has led to many changes in the drug formulation characteristics. The purpose of the last section is to examine t h e performance of different types of spacers with different beclomethasone pMDIs. Also, it was to examine the hypothesis of whether the result of a specific spacer with a given drug/ brand name can be extrapolated to other pMDIs or brand names for the same drug. The results show that there are different effects on aerodynamic characterisation and there are significant differences in the amount of drug available for inhalation when different spacers are used as inhalation aids. Thus, the study shows that the result from experiments with a combination of a spacer and a device cannot be extrapolated to other combination. 615.19
16	Improved inhalation therapies of brittle powders Carvalho, Simone Raffa 03 March 2015 (has links) Advancements in pulmonary drug delivery technologies have improved the use of dry powder inhalation therapy to treat respiratory and systemic diseases. Despite remarkable improvements in the development of dry powder inhaler devices (DPIs) and formulations in the last few years, an optimized DPI system has yet to be developed. In this work, we hypothesize that Thin Film Freezing (TFF) is a suitable technology to improve inhalation therapies to treat lung and systemic malignancies due to its ability to produce brittle powder with optimal aerodynamic properties. Also, we developed a performance verification test (PVT) for the Next Generation Cascade Impactor (NGI), which is one of the most important in vitro characterization methods to test inhalation. In the first study, we used TFF technology to produce amorphous and brittle particles of rapamycin, and compared the in vivo behavior by the pharmacokinetic profiles, to its crystalline counterpart when delivered to the lungs of rats via inhalation. It was found that TFF rapamycin presented higher in vivo systemic bioavailability than the crystalline formulation. Subsequently, we investigated the use of TFF technology to produce triple fixed dose therapy using formoterol fumarate, tiotropium bromide and budesonide as therapeutic drugs. We investigated applications of this technology to powder properties and in vitro aerosol performance with respect to single and combination therapy. As a result, the brittle TFF powders presented superior properties than the physical mixture of micronized crystalline powders, such as excellent particle distribution homogeneity after in vitro aerosolization. Lastly, we developed a PVT for the NGI that may be applicable to other cascade impactors, by investigating the use of a standardized pressurized metered dose inhaler (pMDI) with the NGI. Two standardized formulations were developed. Formulations were analyzed for repeatability and robustness, and found not to demonstrate significant differences in plate deposition using a single NGI apparatus. Variable conditions were introduced to the NGI to mimic operator and equipment failure. Introduction of the variable conditions to the NGI was found to significantly adjust the deposition patterns of the standardized formulations, suggesting that their use as a PVT could be useful and that further investigation is warranted. / text Pulmonary delivery Inhalation Particle engineering Dry powder formulation Rapamycin Budesonide Triotropium bromide Formoterol fumarate Pharmacokinetics Fixed-dose combination Triple combo formulation Performance verification test Cascade impactor Calibration Dry powder inhaler Thin film freezing Lyophilization Brittle powder
17	Mécanismes moléculaires du contrôle de la masse musculaire sous l'action du β2-agoniste formotérol / Molecular mechanisms controlling muscle mass under β2-agonist formoterol stimulations Joassard, Olivier 15 July 2013 (has links) Les β2-agonistes sont couramment utilisés pour prévenir et réduire les symptômes de l'asthme et de la bronchoconstriction induite par l'exercice. Mais, pris en quantités supérieures aux doses thérapeutiques, les β2-agonistes ont un effet anabolisant qui a été clairement démontré in vivo. Un certain nombre d’acteurs sont mis en jeu dans la réponse biologique du tissu musculaire aux β2-agonistes. L’un de ces acteurs est la voie de signalisation PI3K/Akt/mTOR, voie d’initiation de la traduction, ayant un rôle majeur dans la synthèse protéique. Dans ce contexte, notre première étude avait pour objectif de déterminer la cinétique des événements moléculaires responsables de l’hypertrophie du muscle squelettique de rat après administration de formotérol pendant 1 jour (J1), 3 jours (J3) et 10 jours (J10). Nous avons montré que l’administration de formotérol induisait une hypertrophie musculaire à J3 et J10 associée à l’activation transitoire de la voie de signalisation PI3K/Akt/mTOR (J1 et J3), et à une diminution de l’expression de l’E3 ubiquitine ligase MAFbx/Atrogin-1 (J3). La voie autophagie lysosome ne semblait pas être affectée. Ainsi, l’ensemble de ces résultats suggère que l’activation de la voie PI3K/Akt/mTOR est associée à la voie ubiquitine-protéasome mais pas à la voie autophagie-lysosome. La régulation transitoire de la voie PI3K/Akt/mTOR suggère que d’autres voies de signalisation sont impliquées dans l’hypertrophie musculaire induite par le formotérol. Le 007-AM, analogue de l’AMPc, a été décrit comme pouvant stimuler la voie de signalisation PI3K/Akt/mTOR via l’activation de la protéine Epac, suggérant que le 007-AM puisse constituer une molécule de substitution à l’utilisation des β2-agonistes. Notre seconde étude avait pour but de déterminer si le 007-AM avait une action anabolisante sur le tissu musculaire, mais également de déterminer si la 007-AM était une molécule stable permettant d’envisager son usage dans un cadre pharmacologique. L’administration de 007-AM pendant 7 jours chez des souris n’engendrait pas d’hypertrophie musculaire. En revanche, in vitro sur cellules C2C12, le 007-AM activait la voie de signalisation PI3K/Akt/mTOR comme en témoignait l’augmentation de la phosphorylation des protéines rpS6 et 4E-BP1. Nos résultats montraient également que le 007-AM était instable dans le plasma alors que son produit de dégradation, le 007 était plus stable. Pris ensembles, ces résultats suggèrent qu’un traitement de 7 jours au 007-AM n’est pas suffisant pour induire une hypertrophie musculaire et que l’absence d’hypertrophie musculaire pourrait provenir de l’instabilité du 007-AM dans le plasma. Toutefois, des études supplémentaires seront nécessaires pour confirmer ces résultats / Β2-agonists are traditionally used to prevent and reduce asthma symptoms and bronchoconstriction induced by exercise. Nevertheless, when administrated in vivo, at relatively high, far away from therapeutic doses, β2-agonists induce anabolic effects. Numerous actors are involved in biological response of the skeletal muscle, induced by β2-agonists. PI3K/Akt/mTOR signaling pathway, which initiates translation, is one of these actors. In this context, our first study aimed at determined the kinetic of molecular events responsible for skeletal muscle hypertrophy after 1 day (D1), 3 days (D3) and 10 days (D10) of formoterol administration. We have shown that formoterol administration induced skeletal muscle hypertrophy at D3 and D10 associated with a transient activation of PI3K/Akt/mTOR signaling pathway (D1 and D3), and, with a decrease in E3 ubiquitin ligase MAFbx/atrogin-1 expression (D3). The autophagy-lysosome pathway seems not to be regulated by formoterol administration. Taken together, these results suggest that PI3K/Akt/mTOR activation is temporally associated with the regulation of ubiquitin-proteasome but not the autophagy-lysosome pathway. The transient nature of the regulation of PI3K/Akt/mTOR signaling pathway also indicates that other unidentified pathways are probably activated to sustain the increase in skeletal muscle mass. Recently, 007-AM synthetic molecule has been described to stimulate PI3K/Akt/mTOR signaling pathway through Epac protein activation, suggesting that 007-AM could be an alternative to the use of β2-agonists. The purpose of our second study was to determine whether 007-AM had an anabolic action on skeletal muscle and if 007-AM was stable allowing considering its use in pharmacology. 007-AM administration for 7 days to mice does not lead to muscle hypertrophy. Nonetheless, in vitro on C2C12 cells, 007-AM activated PI3K/Akt/mTOR signaling pathway by increasing phosphorylation of rpS6 and 4E-BP1. Our results showed that contrary to 007, 007-AM was instable in plasma. Altogether, these results suggest that a 7-day 007-AM treatment is not sufficient to induce skeletal muscle hypertrophy. This lack of hypertrophy could be due to 007-AM instability in plasma. However, supplemental studies are needed to confirm these results B2-agonistes Formotérol Muscle squelettique Hypertrophie Voie de signalisation PI3K/Akt/mTOR Ubiquitine-protéasome Autophagie-lysosome Epac Β2-agonists Formoterol Skeletal muscle Hypertrophy PI3K/Akt/mTOR signaling pathway Ubiquitin-proteasome Autophagy-lysosome Epac
18	Performance of two different types of inhalers. Influence of flow and spacer on emitted dose and aerodynamic characterisation. Almeziny, Mohammed A.N. January 2009 (has links) This thesis is based around examination of three mainstream inhaled drugs Formoterol, Budesonide and Beclomethasone for treatment of asthma and COPD. The areas investigated are these which have been raised in reports and studies, where there are concern, for drug use and assessment of their use. In reporting this work the literature study sets out a brief summary of the background and anatomy and physiology of the respiratory system and then discuses the mechanism of drug deposition in the lung, as well as the methods of studying deposition and pulmonary delivery devices. This section includes the basis of asthma and COPD and its treatment. In addition, a short section is presented on the role of the pharmacist in improving asthma and COPD patient¿s care. Therefore the thesis is divided into 3 parts based around formoterol, budesonide and beclomethasone. In the first case the research determines the in-vitro performance of formoterol and budesonide in combination therapy. In the initial stage a new rapid, robust and sensitive HPLC method was developed and validated for the simultaneous assay of formoterol and the two epimers of budesonide which are pharmacologically active. In the second section, the purpose was to evaluate the aerodynamic characteristics for a combination of formoterol and the two epimers of budesonide at inhalation flow rates of 28.3 and 60 L/min. The aerodynamic characteristics of the emitted dose were measured by an Anderson cascade impactor (ACI) and the next generation cascade impactor (NGI). In all aerodynamic characterisations, the differences between flow rates 28.3 and 60 were statistically significant in formoterol, budesonide R and budesonide S, while the differences between ACI and NGI at 60 were not statistically significant. Spacers are commonly used especially for paediatric and elderly patients. However, there is considerable discussion about their use and operation. In addition, the introduction of the HFAs propellants has led to many changes in the drug formulation characteristics. The purpose of the last section is to examine t h e performance of different types of spacers with different beclomethasone pMDIs. Also, it was to examine the hypothesis of whether the result of a specific spacer with a given drug/ brand name can be extrapolated to other pMDIs or brand names for the same drug. The results show that there are different effects on aerodynamic characterisation and there are significant differences in the amount of drug available for inhalation when different spacers are used as inhalation aids. Thus, the study shows that the result from experiments with a combination of a spacer and a device cannot be extrapolated to other combination. Dry powder inhalers (DPIs) Turbuhaler® Breath-operated devices Hydrofluoroalkane (HFA Formoterol Chlorofluorocarbon (CFC), Budesonide R Budesonide S, Beclomethasone Dose emission Aerodynamic analysis Valved holding chambers Metering performance Spacers Next generation cascade impactor (NGI)

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