Flow of wet powder in a conical centrifugal filter-an analytical model

A one-dimensional analytical model is developed for the steady state, axisymmetric, slender flow of saturated powder in a rotating perforated cone. Both the powder and the fluid spin with the cone with negligible slip in the hoop direction. They migrate up the wall of the cone along a generator under centrifugal force, which also forces the fluid out of the cone through the powder layer and the porous wall. The flow thus evolves from an over-saturated paste at inlet into a nearly dry powder at outlet. The powder is treated as a Mohr-Coulomb granular solid of constant void fraction and permeability. The shear traction at the wall is assumed to be velocity and pressure dependent. The fluid is treated as Newtonian viscous. The model provides the position of the colour line (the transition from over- to under-saturation) and the flow velocity and thickness profiles over the cone. Surface tension effects are assumed negligible compared to the centrifugal acceleration. Two alternative conditions are considered for the flow structure at inlet: fully settled powder at inlet, and progressive settling of an initially homogeneous slurry. The position of the colour line is found to be similar for these two cases over a wide range of operating conditions. Dominant dimensionless groups are identified which control the position of the colour line in a continuous conical centrifuge. Experimental observations of centrifuges used in the sugar industry provide preliminary validation of the model. © 2011 Elsevier Ltd.

The effect of spirulina (fresh and dry) on some biological factors in Penaeus semisulcatus larvae

Spirulina is a filamentous cyanobacteria with many applications in food and drug industries, as a food in human, aquaculture, vet and poultry industries… . Semi and mass culture of Spirulina carries out in different countries. This study was carried out in five phases in order to produce this microalga in Iran. The first phase, Spirulina pure stock was imported from Indonesia. After identification of species, it was cultured in laboratory until we took 20 liters of biomass. The semi-mass culture was carried out in green house. Cell concentration and size of Spirulina were recorded during culture daily and their growth rates were calculated. After two weeks, when the size of Spirulina was suitable, biomass of Spirulina was harvested then accumulated Spirulina weighted and dried in 24 hours in laboratory. In order to microbiological study, the samples of Spirulina (dry and fresh) were cultured on blood agar medium and coliforms were counted. The chemical composition of produced Spirulina was measured by standard methods. Fatty acid and amino acid profiles were acquired by GC and HPLC instruments, respectively. The amount of chlorophyll in Spirulina was determined by spectroscopy method. Also astaxanthin pigment as an important carotenoid was measured by HPLC in Spirulina and Penaeus semisulcatus larvae fed on Spirulina. At final phase of this project, larva fed on produced Spirulina (biomass and dry powder) was compared to Z plus, microencapsulated Spirulina (M.C.F) and Chaetoceros algae as control. This experiment was carried from zoa to early post larvae stage then survival and growth rate of larvae were recorded. The growth rate of larvae was evaluated with ANOVA test and survival rate of treatments was assessed by Log Rank (Mantel –Cox) test. Also during larvae stage, two parameters of water such as nitrate and nitrite were measured in zoa, mysis and post larvae stages. The results of this study were shown that colifom counts were 1.85×106 and 92.3×105 coliform per ml in fresh and dry spirulina, respectively. Protein percent of dry spirulina was 50.93 % (dry weight) and the amount of astaxanthin in spirulina and larvae fed on spirulina were 0.21 and 0.01 mg/kg, respectively. The most survival rate of larvae were observed in zoa III (88.8%) with Z plus supplement treatment, in mysis III (76.5%) combination of Z plus and dry spirulina in comparative between treatments. Larvae growth (4.5mm) of control in early post larvae was the best.

Insecticidal Activity of the Granulosis Virus in Combination with Neem Products and Talc Powder Against the Potato Tuberworm Phthorimaea operculella (Zeller) (Lepidoptera: Gelechiidae)

The potato tuberworm Phthorimaea operculella (Zeller) is an important agricultural pest that causes significant economic losses to potato growers worldwide. The addition of an effective method of biological control for the potato tuberworm is greatly needed, and is currently unavailable in Brazil. The granulosis virus (Baculoviridae) is a promising biological control agent to protect post-harvest potatoes and in storage from the potato tuberworm. However, the control measure must be economically feasible. Liquid suspensions of a granulosis virus applied alone or in mixture with two commercial neem oil-based products (DalNeem (TM) and NeemAzal (TM)), and a dry powder formulation of viral granules were evaluated for control of potato tuberworm larvae by treating potato tubers under laboratory conditions. High larval mortality (86.7%) was achieved when DalNeem and virus were applied together at 4 mg of azadirachtin/L and 10(4) occlusion bodies (OBs)/mL, respectively. This combination resulted in a parts per thousand yen50% efficacy in relation to their counterparts alone. Conversely, NeemAzal did not enhance virus effectiveness against larvae of the potato tuberworm. The talc-based virus formulation was used for dusting seed tubers at different concentrations and resulted in 100% larval mortality at 5 x 10(8) OBs/g. Formulated and unformulated virus provided 50% mortality at 166 OBs/g and at 5.0 x 10(5) OBs/mL, respectively. As a result, talc-based virus formulation had a better control efficiency on potato tuberworm than the aqueous virus suspension. The granulosis virus combined with DalNeem at low rates or formulated with talc powder is a viable option to control the potato tuberworm under storage conditions.

Neue Aspekte zur effektiven bronchialen Applikation inhalativer Medikamente im Kindesalter

Zur bronchialen Deposition von Arzneimitteln stehen im Wesentlichen drei Inhalationssysteme zur Verfügung: (1) Dosier-Aerosole (pressurized Metered Dose Inhaler, pMDI), (2) Trockenpulver-Inhalatoren (Dry Powder Inhaler, DPI) und (3) Druckluftvernebler zur Feuchtinhalation. Der Erfolg einer Inhalationstherapie hängt neben anderen Faktoren (s.u.) wesentlich vom Depositionsverhalten des als Aerosol inhalierten Medikamentes ab. Wie viel wirksame Substanz lagert sich an welchen Stellen der Atemwege ab und welche Dosis erreicht letztlich die kleinen Atemwege? Einflussfaktoren sind hier vor allem die Partikelgröße und die Inhalationstechnik. So verlangen beispielsweise DPI’s einen respiratorischen Spitzenfluss (PIF) von mindestens 30 l/min, wohingegen bei der Verwendung von pMDI’s ein gleich bleibender PIF von 40 bis 90 l/min erwünscht ist. Die für das jeweilige Inhalationssystem optimale Atemtechnik muss also vom Patienten erlernt werden. Mit den eigenen Arbeiten soll das Verständnis inhalativer Vorgänge sowie die bronchiale Deposition von inhalativen Medikamenten bei pädiatrischen Patienten verbessert werden. Aus der Vielzahl der Inhalatoren wählten wir für unsere Versuche fünf Systeme aus, deren unterschied-liche Anforderungen an den Patienten repräsentativ überprüft wurden: (1) DPI mit mittlerem Widerstand: Diskus®, (2) DPI mit hohem Widerstand: Turbohaler®, (3) pMDI: Autohaler®, (4) pMDI für Säuglinge: Budiair® mit verschiedenen Vorsatzkammern (Babyhaler®, AeroChamber® Plus small und medium) und (5) nachfüllbarer DPI mit niedrigem Widerstand: MAGhaler®. Für unsere Studien unverzichtbar war außerdem ein Testsystem, mit dem die Fähigkeit der Patienten überprüft und verbessert werden kann, einen bestimmten Inhalator effektiv zu benutzen, d.h. das gewünschte Atemmanöver durchzuführen und damit eine optimale Medikamenten-Deposition zu erreichen. Erste Untersuchungen ergaben, dass die kommerziell auf dem Markt verfügbaren Testsysteme suboptimal sind, weil sie sich nur auf die Messung des PIF’s konzentrieren und andere für die Deposition wichtige Parameter (Beschleunigung, Inhaltionsdauer etc.) außer Acht lassen. Wir entwickelten daher den Inhalation-Manager, der die Dokumentation des gesamten Atemmanövers ermöglicht. Es handelt sich dabei um ein computerbasiertes Mess- und Kontrollsystem, das unmittelbar nach der Inhalation ein optisches feedback des gesamten Manövers inklusive des generierten Partikelspektrums liefert. Die daraus weiterentwickelte Schulungssoftware ermöglicht die individuelle Schulung verschiedener Inhalationsmanöver auch mit neuen Inhalatoren. Patient und Arzt erhalten eine optische Rückmeldung, die den Erfolg oder Misserfolg der Inhalation erkennen lässt. Erste Schulungen mit dem neuen System von pädiatrischen Patienten mit Asthma bronchiale verliefen positiv: der Anteil der optimalen Inhalationsmanöver und damit auch der Therapieerfolg stiegen an. Allerdings zeigte sich auch, dass verschiedene Systeme nicht gleichzeitig geschult werden sollten. Generelle Schwierigkeiten bereitet die Inhalationstherapie von Kindern bis etwa zum 4. Geburtstag, da diese meist gar kein Inhalationsmanöver erlernen können. Die Medikamente müssen somit durch den Ruheatemfluss ins Bronchialsystem transportiert werden, wobei Dosieraerosole mit Vorsatzkammern (Spacer) oder Vernebler mit Masken zum Einsatz kommen sollten. Bei der Inhalation mit Spacer war bislang unklar, wie viel Prozent der Nominaldosis letztlich in die Lunge gelangen und therapeutisch wirksam werden. Unsere in-vitro Studien mit einem Dosieraerosol und verschiedenen Spacern zeigten, dass nach fünf Atemzügen maximal 20% der Nominaldosis das Gerät bzw. den Spacer verlassen. Nach nur einem Atemzug und bei Verwendung bestimmter Spacer (großes Totraumvolumen) beträgt dieser Wert sogar nur 5%. Dieses Ergebnis belegt, dass man vom Säuglings- bis zum Erwachsenenalter nahezu die gleiche Nominaldosis verabreichen kann, da durch unterschiedliche Inhalationsmanöver und –systeme die wirksame Dosis extrakorporal auf die altersentsprechende Dosis reduziert wird. Ein besonderes Problem ergibt sich schließlich bei der Feuchtinhalation mit Druckluftverneblern. Hier darf die Kompatibilität von unterschiedlichen Inhalationslösungen nicht außer Acht gelassen werden. So gaben in unserer Mukoviszidose-Ambulanz viele Betroffene an, aus Zeitgründen unterschiedliche Inhalationslösungen bei der Feuchtinhalation zu mischen. Physikalisch-chemische Inkompatibilitäten können dann die Wirksamkeit der Therapie beeinträchtigen und auch zu unerwünschten Nebenwirkungen führen. In einer interdisziplinären Arbeitsgruppe mit Chemikern und Pharmazeuten untersuchten wir daher die Mischbarkeit von häufig genutzten Inhalationslösungen (Salbutamol, Ipratropium, Cromoglicinsäure, Budenosid, Tobramycin und Dornase Alpha) und stellten die Ergebnisse (mögliche Inhaltionskombinationen) tabellarisch zusammen.

Generierung leicht dispergierbarer Inhalationspulver mittels Sprühtrocknung

Das Ziel dieser Arbeit besteht darin, die Möglichkeiten der Sprühtrocknung für die Generierung von Inhalationspulvern zur Therapie von Lungenkrankheiten zu nutzen. Die Erzeugung von physikalisch stabilen und leicht dispergierbaren Partikeln steht hierbei im Vordergrund. Aufgrund von physiko-chemischen Untersuchungen (Glasübergangstemperatur, Fragilität, Relaxationsverhalten, Hygroskopizität) unterschiedlicher amorpher Hilfsstoffe (Lactose, Raffinose, Dextrane, Cyclodextrine) ist für Hydroxypropyl-β-Cyclodextrin das größte Potential für die Stabilisierung eines Wirkstoffes innerhalb einer amorphen Matrix erkennbar. Sprühgetrocknete Partikel weisen im Vergleich zu strahlgemahlenen Partikeln günstigere Dispergier- und Depositionseigenschaften auf. Dies ist vorrangig auf größere Berührungsflächen zwischen strahlgemahlenen Partikeln zurückzuführen. Kugelförmige sprühgetrocknete Partikel besitzen dagegen aufgrund einer punktförmigen Berührung geringere Haftkräfte. Versuche mit unterschiedlich stark gefalteten Partikeloberflächen weisen auf geringere Haftkräfte hin, wenn sich die Partikel an Stellen geringerer Krümmungsradien berühren. Dispergierversuche in einer definierten Rohrströmung (Deagglomerator) lassen auf einen kaskadenartigen Agglomeratzerfall schließen. Durch Sprüheinbettung unterschiedlicher Modellwirkstoffe (Salbutamolsulfat, Ipratropiumbromid, Budesonid) in Hydroxypropyl-β-Cyclodextrin konnten sowohl Einzelformulierungen als auch eine Kombinationsformulierung mit allen drei Wirkstoffen erzeugt werden. Diese weisen bei einem Wirkstoffgehalt bis max. 14% selbst nach vierwöchiger Offenlagerung bei 40°C und 75% r.F. keine bzw. nur geringfügige Veränderungen in der „Fine Particle Dose“ (FPD) auf. Die „Fine Particle Fraction“ (FPF) liegt bei diesen Formulierungen im Bereich von 40% bis 75%. In Verbindung mit einem geeigneten Pack- bzw. Trockenmittel, ist hierbei mit einer physikalischen Stabilität zu rechnen, die eine sinnvolle Produktlaufzeit eines Inhalationspulvers ermöglicht. Formulierungen mit höheren Wirkstoffkonzentrationen zeigen dagegen stärkere Veränderungen nach Stresslagerung. Als Beispiel einer kristallinen Sprühtrocknungsformulierung konnte ein Pulver bestehend aus Mannitol und Budesonid erzeugt werden.

Konzept eines aktiven Pulverinhalators

In dieser Arbeit wird das Konzept eines aktiven Pulverinhalators entwickelt. Im Gegensatz zu einem passiven Pulverinhalator ist bei solch einem Gerät die Abgabe und Dispergierung der Arzneistoffformulierung nicht von einem Inhalationsmanöver abhängig, welches von Patient zu Patient variiert. Solch ein System würde folglich die Zuverlässigkeit und Effizienz der inhalativen Therapie verbessern. Mögliche Anwendungen für einen aktiven Pulverinhalator wären vor allem Indikationen, die die Abgabe hoher Dosen erfordern, wie z.B. in der Therapie mit Antibiotika.rnIn einem Designprozess, der alle aus Kundenwünschen ermittelten Konstruktionsanforderungen sammelt und verschiedene Lösungsansätze vergleicht, wird ein mit Treibgas betriebener atemzugsausgelöster, Mehrfach-Dosis Pulverinhalator als aussichtsreichstes Konzept ermittelt. Dieses Konzept wird in Form von eigens konstruierten Labor-Test-Rigs entwickelt und vor allem hinsichtlich Höhe der Dosierung, Dosiergenauigkeit, und Flussratenabhängigkeit evaluiert. In der Spitze können über 16 mg lungengängiger Dosis erreicht werden, bei im Vergleich zu dem eingesetzten passiven Inhalator mindestens nur halb so großer Streuung. Bei niedrigen Flussraten können immer noch bis zu 80 % der erzielten inhalierbaren Dosis von hohen Flussraten erreicht werden und damit die Ergebnisse des passiven Inhalators deutlich übertreffen.rnTeil der Aufgabe war es, dieses treibgasbetriebene Labor-Test-Rig so zu entwickeln, dass es implementierbar in einen atemzugsausgelösten Mehrfachdosis-Pulverinhalator ist. Dieser treibgasbetriebene, atemzugsausgelöste Mehrfachdosis-Pulverinhalator würde die Kundenwünsche und Konstruktionsanforderungen in sehr hohen Maße erfüllen, so dass hier die Möglichkeit besteht einen Inhalator mit sehr hohem Grad an Patienten-Compliance zu verwirklichen. Durch die Verwendung und Neukombination bereits etablierter Technologien und einen akzeptablen Stückkostenpreis besteht die Möglichkeit den Inhalator tatsächlich zu realisieren und zu vermarkten.

Modified release of beclometasone dipropionate from chitosan-basedd spray-dried respirable powders

Dry powders for inhalation were prepared by spray drying a 30% v/v aqueous ethanol formulation containing beclometasone dipropionate (BDP), lactose, leucine and chitosan (low, medium or high molecular weight (MW), or combinations thereof). Following physical characterisation of the powders, the aerosolisation and dissolution properties of the powders were investigated using Multi-Stage Liquid Impinger and USP II dissolution apparatus, respectively. The powders were highly dispersible, with emitted doses in excess of 90% of loaded powder aerosolised from a Spinhaler dry powder inhaler. The fine particle fraction (FPF) was observed to decrease, whereas the time for 100% drug release increased, with increasing chitosan MW. For example, the low MW formulation exhibited an FPF of 64% and a 100% dissolution time of 2 h, whereas the high MW formulation demonstrated an FPF of 54% and a dissolution time of 12 h. These powders would be anticipated to deposit predominately in the lower regions of the lung following inhalation, and then undergo delayed rather than instantaneous drug release, offering the potential to reduce dosing frequency and improve patient compliance. (c) 2008 Elsevier B.V. All rights reserved.

Improved treatment of nicotine addiction and emerging pulmonary drug delivery

Nicotine addiction remains the leading cause of death and disease in developed and developing nations and a major cause of mortality around the world. Currently, nicotine replacement therapies (NRTs), bupropion, and varenicline are approved by the regulatory agencies as first-line treatments for nicotine addiction. Emerging evidence indicates that varenicline and bupropion have some therapeutic limitations for treating nicotine addiction with oral route of administration. Thus, continued investigation of innovative drug delivery for nicotine addiction remains a critical priority. This review will discuss some novel strategies and future directions for pulmonary drug delivery, an emerging route of administration for smoking cessation. It is anticipated that the advancement of knowledge on pulmonary drug delivery will provide better management for nicotine addiction and other addictive disorders.

Colloidal drug probe : method development and validation for adhesion force measurement using atomic force microscopy

This study demonstrates a novel technique of preparing drug colloid probes to determine the adhesion force between the drug salbutamol sulphate (SS) and the surfaces of polymer microparticles to be used as carriers for the dispersion of drug particles from a dry powder inhaler (DPI) formulation. Initially model silica probes of approximately 4 μm size, similar to a drug particle used in DPI formulations, were coated with a saturated SS solution with the aid of capillary forces acting between the silica probe and the drug solution. The developed method of ensuring a smooth and uniform layer of SS on the silica probe was validated using X-Ray Photoelectron Spectroscopy (XPS) and Scanning Electron Microscopy (SEM). Using the same technique, silica microspheres preattached on the AFM cantilever were coated with SS. The adhesion forces between the silica probe and drug coated silica (drug probe) and polymer surfaces (hydrophilic and hydrophobic) were determined. Our experimental results showed that the technique for preparing the drug probe was robust and can be used to determine the adhesion force between hydrophilic/hydrophobic drug probe and carrier surfaces to gain a better understanding on drug carrier adhesion forces in DPI formulations.

Clinical utility of exhaled nitric oxide

Lower airway inflammation is generally classified as eosinophilic or neutrophilic. In conditions where eosinophilic inflammation predominates such as asthma in children, corticosteroids are usually beneficial. Traditionally, lower airway eosinophilia is measured using cellular count (through bronchoalveolar lavage or induced sputum). Both methods have limited applicability in children. When instruments to measure fractional exhaled nitric oxide (FeNO) became available, it presented an attractive option as it provided a non-invasive method of measuring eosinophilic inflammation suitable for children and adult. Not surprisingly, proposals have been made that FeNO measurement can be clinically used in many scenarios including monitoring the response to anti-inflammatory medications, to verify the adherence to treatment, and to predict upcoming asthma exacerbations. This thesis addresses the utility of FeNO levels in various scenarios, specifically in relation to asthma control and cough, a contentious aspect of the diagnosis of asthma. The thesis consists of a series of systematic reviews (related to the main question) and original studies in children. The over-arching aim of the thesis is to determine if FeNO is a clinically useful tool in the management of asthma and common asthma symptoms. The specific aims of the thesis were, to: 1. Determine if children with asthma have more severe acute respiratory symptoms at presentation with an asthma exacerbation and at days 7, 10 and 14 using validated scales. We also examined if children with asthma were more likely to have a persistent cough on day 14 than children with protracted bronchitis and/or controls. 2. Evaluate the efficacy of tailoring asthma interventions based on sputum analysis in comparison to clinical symptoms (with or without spirometry/peak flow) for asthma related outcomes in children and adults. 3. Evaluate the efficacy of tailoring asthma interventions based on exhaled nitric oxide in comparison to clinical symptoms (with or without spirometry/peak flow) for asthma related outcomes in children and adults. 4. Determine if adjustment of asthma medications based on FeNO levels (compared to management based on clinical symptoms) reduces severe exacerbations in children with asthma. 5. Examine the relationship between FeNO and exercise induced broncho-constriction and cough in children The aims above are addressed in respective chapters and all but one has been published/submitted. A synopsis of the findings are: In study-1 (Aim 1), we found that children with protracted bronchitis had the most severe acute respiratory infection symptoms and higher percentage of respiratory morbidity at day 14 in comparison to children with asthma and healthy controls. The systematic review of study-2 (Aim 2) included 246 randomised adult participants (no children) with 221 completing the trials. In the meta-analysis, a significant reduction in number of participants who had one or more asthma exacerbations occurred when treatment was based on sputum eosinophils in comparison to clinical symptoms. In the systematic review of study-3 (Aim 3), we found no significant difference between the intervention group (treatment adjusted based on FeNO) and control group (treatment adjusted based on clinical symptoms) for the primary outcome of asthma exacerbations or for the other outcomes (clinical symptoms, FeNO level and spirometry). In post-hoc analysis, a significant reduction in mean final daily dose ICS per adult was found in the group where treatment was based on FeNO in comparison to clinical symptoms. In contrast, in the paediatric studies, there was a significant increase in ICS dose in the FeNO strategy arm. Thus, controversy remains of the benefit or otherwise of utilising exhaled nitric oxide (FeNO) in routine clinical practice. FeNO levels are dependent on atopy and none of the 7 published trials have considered atopic status in FeNO levels when medications were adjusted. In study-4 (Aim 4), 64 children with asthma were recruited. Their asthma medications were adjusted according to either FeNO levels or usual clinical care utilising a management hierarchy taking into account atopy. It was concluded that tailoring of asthma medications in accordance to FeNO levels (compared to usual management), taking into account atopy status, reduced the number of children with severe exacerbations. However, a FeNO-based strategy resulted in higher daily ICS doses and had no benefit on asthma control. In study-5 (Aim 5), 33 children with cough and 17 controls were recruited. They were randomised to undertake an exercise challenge on day 1, or dry powder mannitol challenge on day 1 (with alternative challenge being done on day 2). In addition, a 24 hour cough meter, skin prick test, capsaicin cough sensitivity test and cough diary were undertaken. The change in cough frequency post exercise was significantly increased in the children with cough. FeNO decreases post exercise regardless of whether EIB is present or not. Limitations in the studies were addressed in the respective chapters. In summary, the studies from this thesis have provided new information on: • The severity of respiratory symptoms was increased in the early phase of the asthma exacerbation but not in the later recovery phase when compared with controls. • The utility of FeNO in the management of children with asthma. • The relationship of FeNO, cough and EIB in children. • Systematic reviews on the efficacy of tailoring asthma interventions based on eosinophilic inflammatory markers (sputum analysis and FeNO) in comparison to clinical symptoms.

Colloidal drug probe : Method development and validation for adhesion force measurement using Atomic Force Microscopy

This study demonstrates a novel technique of preparing drug colloid probes to determine the adhesion force between a model drug salbutamol sulphate (SS) and the surfaces of polymer microparticles to be used as carriers for the dispersion of drug particles from dry powder inhaler (DPI) formulations. Model silica probes of approximately 4 lm size, similar to a drug particle used in DPI formulations, were coated with a saturated SS solution with the aid of capillary forces acting between the silica probe and the drug solution. The developed method of ensuring a smooth and uniform layer of SS on the silica probe was validated using X-ray Photoelectron Spectroscopy (XPS) and Scanning Electron Microscopy (SEM). Using the same technique, silica microspheres pre-attached on the AFM cantilever were coated with SS. The adhesion forces between the silica probe and drug coated silica (drug probe) and polymer surfaces (hydrophilic and hydrophobic) were determined. Our experimental results showed that the technique for preparing the drug probe was robust and can be used to determine the adhesion force between hydrophilic/ hydrophobic drug probe and carrier surfaces to gain a better understanding on drug carrier adhesion forces in DPI formulations.

Ultrasound-assisted surface engineering of pharmaceutical powders

Effective processing of powdered particles can facilitate powder handling and result in better drug product performance, which is of great importance in the pharmaceutical industry where the majority of active pharmaceutical ingredients (APIs) are delivered as solid dosage forms. The purpose of this work was to develop a new ultrasound-assisted method for particle surface modification and thin-coating of pharmaceutical powders. The ultrasound was used to produce an aqueous mist with or without a coating agent. By using the proposed technique, it was possible to decrease the interparticular interactions and improve rheological properties of poorly-flowing water-soluble powders by aqueous smoothing of the rough surfaces of irregular particles. In turn, hydrophilic polymer thin-coating of a hydrophobic substance diminished the triboelectrostatic charge transfer and improved the flowability of highly cohesive powder. To determine the coating efficiency of the technique, the bioactive molecule β-galactosidase was layered onto the surface of powdered lactose particles. Enzyme-treated materials were analysed by assaying the quantity of the reaction product generated during enzymatic cleavage of the milk sugar. A near-linear increase in the thickness of the drug layer was obtained during progressive treatment. Using the enzyme coating procedure, it was confirmed that the ultrasound-assisted technique is suitable for processing labile protein materials. In addition, this pre-treatment of milk sugar could be used to improve utilization of lactose-containing formulations for populations suffering from severe lactose intolerance. Furthermore, the applicability of the thin-coating technique for improving homogeneity of low-dose solid dosage forms was shown. The carrier particles coated with API gave rise to uniform distribution of the drug within the powder. The mixture remained homogeneous during further tabletting, whereas the reference physical powder mixture was subject to segregation. In conclusion, ultrasound-assisted surface engineering of pharmaceutical powders can be effective technology for improving formulation and performance of solid dosage forms such as dry powder inhalers (DPI) and direct compression products.

Solubility of ibuprofen in aqueous ethanol at low ethanol contents

The solubility of ibuprofen was measured in water (W) - ethanol (E) mixtures from 0 to 50% w/w ethanol at 10, 25 and 40 °C by the dissolution method using UV spectrophotometry to determine the ibuprofen concentrations. The UV calibration for ibuprofen in different water - ethanol mixtures showed Beer - Lambert linearity, however the slopes differed, which indicated the structure of the drug is influenced by the solvent system i.e. the water - ethanol ratio. The ibuprofen solubility in water (zero ethanol) is low (~ 50 ppm) but increases near exponentially with increasing ethanol content. At 40 °C, there is phase separation between 34% and 63% w/w E/(E+W). The solubility data will be used to select precipitation crystallizer conditions to directly produce free flowing ibuprofen particles (<5 m) for developing a dry powder inhaler (DPI) formulation for lung delivery.

The plant Banjauri (Vicoa indica) exhibits antifertility activity in adult female bonnet monkeys (Macaca radiata)

The antifertility activity of the plant Vicoa indica was tested in proven fertile bonnet monkeys. The dry powder of the whole plant was fed to the cycling monkeys on day 1 to 14 of menstrual cycle or day 9 to 14 of cycle or on day 2 to 5 after delivery and the fertility was evaluated in the following cycle in cycle fed monkey or after weaning the young one in the post-partum fed monkeys. Results indicated that while feeding in the post-partum monkeys did not confer any protection against pregnancy feeding during day 1 to 14 of cycle, protected from pregnancy. The monkeys did not become pregnant even after exposure to the proven fertile male monkeys for 13 ovulatory cycles while all the vehicle fed monkeys became pregnant within 3 cycles.