Keywords: مهندسی ذرات; continuous manufacturing; direct compression; crystal engineering; particle engineering; formulation design; Quality-by-Design; compression; flow;
مقالات ISI مهندسی ذرات (ترجمه نشده)
مقالات زیر هنوز به فارسی ترجمه نشده اند.
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: مهندسی ذرات; API; Active pharmaceutical ingredient; AUC; Area under the curve; BCS; Biopharmaceutical classification system; GRAS; Generally recognized as safe; MRI; Magnetic resonance imaging; NSAID; Non steroidal anti-inflammatory drug; Nasal drug delivery; Nose-to-
Keywords: مهندسی ذرات; DPI; Dry powder inhaler; CF; cystic fibrosis; COPD; chronic obstructive pulmonary disease; pMDIs; pressurized metered dose inhalers; TB; tuberculosis; VdW; Van der Waals; FPF; fine particle fraction; MMAD; mass median aerodynamic diameter; LPPs; large por
Keywords: مهندسی ذرات; Tobramycin; Sodium stearate; Particle engineering; RS01 inhaler; Dry powder inhaler; High doses; In vivo inhalation; CF; cystic fibrosis; ED; emitted dose; FPD; fine particle dose; FPF; fine particle fraction; MMAD; mass median aerodynamic diameter; PA; P
Keywords: مهندسی ذرات; Particle engineering; Roller compaction; Image analysis; Flowability; Partial least squares modelling; API; Active pharmaceutical ingredient; BET; Braunauer-Emmett-Teller; FFC; Flow function coefficient; PLS; Partial least squares; RPM; Revolutions per mi
Keywords: مهندسی ذرات; TB; tuberculosis; HIV; human immunodeficiency virus; DPI; dry powder inhaler; AIDS; acquired immunodeficiency syndrome; WHO; world health organization; Mtb; Mycobacterium tuberculosis; AM; alveolar macrophage; PTB; pulmonary TB; EPTB; extra pulmonary TB;
Keywords: مهندسی ذرات; Hyaluronic acid; Hyaluronan; Inhalation toxicology; Dry powder inhaler; Particle engineering;
Keywords: مهندسی ذرات; Particle engineering; Direct compaction; Composite particles; Co-processing; Functional properties; Tablet;
Keywords: مهندسی ذرات; content uniformity; tableting; particle engineering; formulation; manufacturability; Neusilin;
Keywords: مهندسی ذرات; Particle engineering; Drug delivery; Cohesion forces; Crystal size; Atomic force microscope; Monodisperse and monomorph microparticles;
Keywords: مهندسی ذرات; Tuberculosis; Pulmonary formulations; Antibiotics; Vaccines; Particle engineering; Dry powder inhaler; Inhaled risks;
Keywords: مهندسی ذرات; Ant-tubercular; Immunomodulation; Vitamin; Targeted drug delivery; Particle engineering; Inhalation; Adjunctive therapy; Pre-clinical testing;
Keywords: مهندسی ذرات; Ultrasonic precipitation; Particle engineering; Reactor design; Scale-up;
Keywords: مهندسی ذرات; Pharmaceutical cocrystals; Spray congealing; Green technology; Particle engineering;
Keywords: مهندسی ذرات; FT4; Bulk density; Interactive mixture; Paracetamol; Polyvinylpyrrolidone; l-Leucine; Particle engineering; Surface coverage; X-ray photoelectron spectroscopy; Shear cell;
Keywords: مهندسی ذرات; Mannitol; Spray drying; Particle engineering; Shape factors; Particle analyses
Keywords: مهندسی ذرات; Ultrasound precipitation; Ultrasound shaping; Particle engineering; Sonochemistry; Process intensification
Keywords: مهندسی ذرات; Mannitol; Porosity; Orally disintegrating tablet; Spray drying; Plasticity; Hardness; Particle engineering;
Keywords: مهندسی ذرات; Polyelectrolyte-drug complexes; Pulmonary route; Non-steroidal antiinflammatory drug; Spray drying; Polylysine; Particle engineering;
Keywords: مهندسی ذرات; Alveolar macrophages; Phagocytosis; Particulate carriers; Inhalation; Macrophage uptake; Particle engineering
Keywords: مهندسی ذرات; Inhaled antibiotics; Pharmaceutical aerosol; Nebulisation; Dry powder inhaler; Particle engineering; Nanoparticles; Liposomes; Polymeric particles;
Keywords: مهندسی ذرات; Pulmonary drug delivery; Inhalation devices; Particle engineering; Dry powder inhalation; High dose delivery; Antibiotic inhalation; Lung delivery;
Keywords: مهندسی ذرات; crystal engineering; particle engineering; salt selection; compaction; tablet formulation; 5-fluorocytosine; physical stability; water sorption; dissolution;
Keywords: مهندسی ذرات; Pharmaceuticals; Crystallization; Seeding; Static mixer; Process intensification; Particle engineering;
Keywords: مهندسی ذرات; formulation; oral drug delivery; excipients; mechanical properties; compaction; granulation; powder technology; tableting; powder flow; particle engineering;
Keywords: مهندسی ذرات; Inhalation; Rapamycin; Dry powder; Thin film freezing; Pharmacokinetics; Particle engineering; Formulation delivery
Keywords: مهندسی ذرات; Particle engineering; Particle formation; Structured microparticles; Shell thickness
Keywords: مهندسی ذرات; Inhalation therapy; Pulmonary drug delivery; Nebuliser; Pressurised metered dose inhaler; Dry powder inhaler; Computational modelling; Particle engineering; Patient adherence;
Keywords: مهندسی ذرات; API; active pharmaceutical ingredient; AUC; area under the curve; BSA; bovine serum albumin; Cmax; peak concentration; COPD; chronic obstructive pulmonary disease; DPI; dry powder inhaler; DPPC; dipalmitoylphosphatidylcholine; ED; emitted dose; EMA; Europ
Keywords: مهندسی ذرات; Dry powder inhalers; Spray-drying; Pulmonary delivery; Aerosolisation; Particle engineering; Molecular self-assembly;
A mesoporous silica based platform to enable tablet formulations of low dose drugs by direct compression
Keywords: مهندسی ذرات; Particle engineering; Neusilin®; Aeroperl®; Stability; Amorphous;
Performance indicators for carrier-based DPIs: Carrier surface properties for capsule filling and API properties for in vitro aerosolisation
Keywords: مهندسی ذرات; AE; aeration energy; AIF; angle of internal friction; API; active pharmaceutical ingredient; APSD; aerodynamic particle-size distribution; BD; bulk density; BFE; basic flow energy; CI; Carr's index; COPD; chronical obstructive pulmonary disease; CPH; ca
Effect of pH and leucine concentration on aerosolization properties of carrier-free formulations of levofloxacin
Keywords: مهندسی ذرات; Dry powder inhaler; Spray drying; Levofloxacine; Leucine; pH modification; Particle engineering;
Preparation of slab-shaped lactose carrier particles for dry powder inhalers by air jet milling
Keywords: مهندسی ذرات; Particle engineering; Shape modification; Lactose; Dry powder inhaler;
How does secondary processing affect the physicochemical properties of inhalable salbutamol sulphate particles? A temporal investigation
Keywords: مهندسی ذرات; Dry powder inhaler (DPI); Salbutamol sulphate; Particle engineering; Crystalline; Amorphous; Physicochemical properties; Inter-particle distance; Adhesive mixtures;
Optimization of Acetalated Dextran-Based Nanocomposite Microparticles for Deep Lung Delivery of Therapeutics via Spray-Drying
Keywords: مهندسی ذرات; nanocomposite microparticles; pulmonary delivery; design of experiment; spray-drying; particle engineering; Ac-Dex; acetalated dextran; CUR; curcumin; CAC; cyclic acetal coverage; DOE; design of experiment; DSC; differential scanning calorimetry; DMSO; di
Impact of jet-milling and wet-polishing size reduction technologies on inhalation API particle properties
Keywords: مهندسی ذرات; Jet-milling; Wet-polishing; Particle engineering; Particle physicochemical properties; Pulmonary drug deliveryAPI, Active pharmaceutical ingredient; BD, bulk density; BET, Brunauer-Emmett-Teller; DVS, dynamic vapour sorption; FP, fluticasone propionate; G
Improvement of the dispersibility of spray-dried budesonide powders using leucine in an ethanol–water cosolvent system
Keywords: مهندسی ذرات; Spray-drying; Cosolvent; Particle engineering; Respiratory drug delivery; Leucine; Dry powder inhaler
Mechanistic models facilitate efficient development of leucine containing microparticles for pulmonary drug delivery
Keywords: مهندسی ذرات; Particle engineering; Spray drying; Respiratory drug delivery; Dispersibility; Powder density; Crystallinity
Preparation of microspheres containing low solubility drug compound by electrohydrodynamic spraying
Keywords: مهندسی ذرات; Microsphere; Electrospraying; Low solubility; Celecoxib; PLGA; Particle engineering
Transforming Powder Mechanical Properties by Core/Shell Structure: Compressible Sand
Keywords: مهندسی ذرات; core/shell particles; tabletability; percolation; silica; PVP; particle engineering;
Hydrophilic and hydrophobic amino acid copolymers for nano-comminution of poorly soluble drugs
Keywords: مهندسی ذرات; Nanoparticles; Nanocrystals; Particle size; Poorly water-soluble drug; Dispersion; Particle engineering
Effect of carrier morphology and surface characteristics on the development of respirable PLGA microcapsules for sustained-release pulmonary delivery of insulin
Keywords: مهندسی ذرات; Dry powder inhalation; Carrier; Mannitol; Sorbitol; Insulin; Particle engineering; PLGA
Particle engineering: A strategy for establishing drug substance physical property specifications during small molecule development
Keywords: مهندسی ذرات; particle engineering; strategy; bioavailability; content uniformity; dissolution; GastroPlus; drug product manufacturability; drug substance physical property characterization methods;
Advantages of celecoxib nanosuspension formulation and transformation into tablets
Keywords: مهندسی ذرات; Celecoxib; Nanoparticles; Emulsion-diffusion method; Cyclooxygenase 2 inhibitor; Dissolution; Particle engineering; Tablet; Spray drying; Oral administration
Particle engineering using sonocrystallization: Salbutamol sulphate for pulmonary delivery
Keywords: مهندسی ذرات; Sonocrystallization; Dry powder inhaler; Particle engineering; Salbutamol sulphate
Solubility behaviors of ibuprofen and naproxen drugs in liquid “CO2–organic solvent” mixtures
Keywords: مهندسی ذرات; CO2–expanded solvents; Ibuprofen; Naproxen; Solubility; Particle engineering; Micro-particles; DELOS
Solid dispersions of itraconazole and enteric polymers made by ultra-rapid freezing
Keywords: مهندسی ذرات; Particle engineering; Amorphous; Supersaturation; Nanoparticle; Enteric polymer; Dissolution model
Particle formation in spray drying
Keywords: مهندسی ذرات; Particle engineering; Structured microparticles; Droplet evaporation; Drying kinetics
Dry powder aerosol drug delivery—Opportunities for colloid and surface scientists
Keywords: مهندسی ذرات; Dry powder inhaler (DPI); Powder formulation; Particle engineering; Surfaces; Colloids