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Novel Drug Delivery Systems (Part 2).
- Format:
- Book
- Author/Creator:
- Mundada, Atish S.
- Language:
- English
- Physical Description:
- 1 online resource (254 pages)
- Edition:
- 1st ed.
- Place of Publication:
- Sharjah : Bentham Science Publishers, 2024.
- Summary:
- Novel Drug Delivery Systems (Part 2) covers the advanced techniques and innovations transforming pharmaceutical sciences, with a focus on enhancing drug efficacy and patient outcomes. This comprehensive guide explores a wide array of delivery methods, including nasopulmonary, transdermal, ocular, nanotechnology-based, implantable, and controlled-release injectables. Each chapter provides an in-depth analysis of these unique delivery routes, presenting both foundational knowledge and the latest technological advancements in the field. Designed for students, researchers, and professionals in pharmaceuticals and medicine, this book bridges basic concepts with cutting-edge practices, emphasizing the science and impact of controlled drug delivery. Key Features:- Detailed exploration of nasopulmonary, transdermal, ocular, and implantable delivery systems- Insight into nanotechnology's role in drug delivery- Comprehensive coverage of controlled-release injectables Readership:Ideal for students, researchers, and industry professionals seeking to deepen their understanding of advanced drug delivery methods.
- Contents:
- Intro
- Title
- Copyright
- End User License Agreement
- Contents
- Foreword
- Preface
- Dedication
- List of Contributors
- Nasopulmonary Route of Drug Delivery
- Bhushan R. Rane1,*, Akash J. Amkar1 and Ashish S. Jain1
- INTRODUCTION
- PULMONARY DRUG DELIVERY
- Pulmonary Environment
- MECHANISM AND PATHWAY OF DRUG ABSORPTION THROUGH PULMONARY ROUTE
- Impaction
- Sedimentation
- Diffusion
- RATIONALE FOR SELECTION OF DRUG FOR THE NASOPULMONARY DELIVERY
- Ideal Characters for Selection of Drug for Nasal Delivery
- Ideal Characteristics for Selection of Drug for Pulmonary Delivery
- FACTORS INFLUENCING DRUG ABSORPTION
- Factors Affecting Absorption of Drug through Nasal Route
- Drug Physicochemical Considerations
- Nasal Effect
- Delivery Effect
- Factors Exert Influence on Absorption through the Pulmonary Route
- Mechanical Barrier
- Chemical and Immunological Barrier
- Behavioural Barrier
- STRATEGIES TO IMPROVE ABSORPTION
- Strategies or Techniques to Improve Nasal Absorption
- Nasal Enzyme Inhibitors
- Permeation Enhancers
- Prodrug
- Particulate Drug Delivery System
- Bio-adhesive Polymer for Delivery from Nose to Brain
- Strategies to Improve Pulmonary Absorption
- Molecular Modification
- Polymeric Conjugation
- Formulation Technologies
- HOW TO DETERMINE DOSE FOR INTRANASAL DELIVERY AND PULMONARY DELIVERY
- DOSAGE FORMS AND DEVICES FOR NASOPULMONARY SYSTEMS
- Liquid Nasal Formulation
- Instillation and Rhinyle Catheter
- Compressed Air Nebulizer
- Squeeze Bottle
- Metered Dose Pump Spray
- Powder Dosage Forms
- Insufflators
- Dry Powder Inhaler (DPIs)
- Pressurized MDIs
- Nasal Gels
- NANOPARTICULATE SYSTEMS FOR NASOPULMONARY DELIVERY
- Liposomes
- Polymer Micelles
- Dendrimers
- Inorganic Nanoparticles
- Nanocrystals and Nanosuspension
- Quantum Dots (QDs).
- Protein and Polysaccharides Nanoparticles
- RECENT PATENTS ON THE NASOPULMONARY SYSTEM
- COVID-19 IMPACT ON THE PULMONARY SYSTEM AND DEVELOPMENT OF INTRANASAL VACCINE
- FUTURE PERSPECTIVES
- CONCLUSION
- REFERENCES
- Transdermal Route of Drug Delivery
- Lokesh P. Kothari1, Atish S. Mundada1,* and Swaroop R. Lahoti2
- Advantages
- Limitations
- SKIN AS THE PORT OF DRUG ADMINISTRATION
- Skin Anatomy
- Outermost Layer-The Epidermis
- The Dermis
- The Hypodermis
- Skin Appendages
- Biochemistry of the Skin
- The Skin Circulatory System
- ROUTES OF PENETRATION
- PHYSICOCHEMICAL PARAMETERS OF THE DRUG AFFECTING PERCUTANEOUS ABSORPTION
- Solubility in the Stratum Corneum
- Permeation Across Stratum Corneum
- Partitioning
- Diffusion Through the Viable Tissue [33]
- FACTORS INFLUENCING PERCUTANEOUS ABSORPTION
- Condition of the Skin
- Thermodynamic Properties of the Medicament
- Effect of Moisture
- Effect of Vehicles
- Effect of Surfactants
- Effect of Concentration of Medicament
- Effect of pH
- SCIENTIFIC REPRESENTATIONS OF SKIN ABSORPTION
- COMPONENTS OF TDDS
- Backing Substrate
- Drug Reservoir Component
- Control Membrane
- Pressure Sensitive Adhesives
- Release Liner
- Packing Substrate
- SYSTEM DESIGNS FOR TRANSDERMAL PATCHES
- Matrix-type Transdermal Patch
- Reservoir-type Transdermal Patch
- TECHNIQUES AND INSTRUMENTS USED FOR MAKING TRANSDERMAL PATCHES
- Lab Scale Techniques
- Coating/Spraying Technique
- Hand-casting Technique
- Hot Melt Extrusion
- Large Scale Techniques
- Rotary Die-Cutting
- Lamination Technique
- Solvent Casting/Coating
- Instruments for Large Scale
- Rotary Die-Cutting Machine
- Hot Melt Extrusion Machine
- Coating Machine
- Lamination Equipment
- EVALUATION OF TRANSDERMAL SYSTEMS
- Concerns Related to Skin Permeation Studies.
- Tissue Culture-derived Skin Equivalents used for Percutaneous Absorption Studies
- VARIETY OF PERMEATION STUDY CELLS USED IN LABORATORIES
- Franz Diffusion Cell (Vertical)
- Horizontal Diffusion Cell
- A Flow-thru Cell or In-Line Cell
- PERMEABILITY DATA ANALYSIS
- CHARACTERIZATION OF TDDS
- Dissolution Testing
- Thickness
- Weight Uniformity
- Determining the Drug Content
- Content of Moisture
- Moisture Absorption
- Flatness
- Folding Endurance
- Tensile Strength
- Tack Properties
- Thumb Tack Test
- The Rolling Ball Test
- Peel-and-stick (Quick Stick) Test
- Probe Tack Test
- Water Vapor Transmission Rate (WVTR)
- Swellability
- In vitro Drug Release Studies
- In vivo Studies
- CHALLENGES IN DEVELOPING TDDS
- Emerging Technologies Enhancing Drugs Skin Permeation
- Passive Approaches
- Active Methodologies
- Mechanical Methods to Enhance Skin Permeation
- NANOTECHNOLOGY IN TRANSDERMAL DRUG DELIVERY
- Advantages and Disadvantages of Nanosystems application in TDDS
- REGULATORY CONSIDERATION OF TRANSDERMAL FORMULATIONS
- Ocular Drug Delivery Systems
- Harshilkumar S. Jani1, Yashkumar R. Patel1, Anilkumar K. Prajapati1 and Ketan M. Ranch1,*
- Classification of Ocular Dosage Forms
- ROUTES OF ADMINISTRATION CONVENTIONAL VS NOVEL ROUTES
- CHALLENGES FOR OPHTHALMIC DRUG DELIVERY SYSTEMS
- IDEAL CHARACTERISTICS AND IMPORTANT FACTORS AFFECTING OCULAR DRUG DELIVERY
- Ideal Requirement for Drug Delivery Systems
- Physicochemical Properties of a Drug Candidate
- Factors Associated with Formulation
- Solution Viscosity
- Optimal Partition Coefficient
- Particle Size and Shape
- Surface Charge of Molecules
- Melanin Binding
- CONVENTIONAL DOSAGE FORMS
- Eye Drops Solution
- Suspensions
- Emulsions
- Eye Ointments.
- NOVEL STRATEGIES TO DELIVERY TARGETED OCULAR DRUG DELIVERY
- Lipid-based Nano Systems
- Solid Lipid Nanoparticles
- Nanostructured Lipid Carriers
- Polymer-based Nanoparticles
- Hydrogel
- Metal Nanoparticles
- Gold Nanoparticles
- Silver Nanoparticles
- Contact Lenses
- Implants
- Microneedles
- NANOTECHNOLOGY BASED FDA APPROVED THERAPY
- NANOTECHNOLOGY BASED THERAPIES UNDER CLINICAL TRIALS
- CHALLENGES AND FUTURE PERSPECTIVES
- Nanotechnology as a Novel Approach to Drug Delivery Systems
- Vishal C. Gurumukhi1,*, Shailesh S. Chalikwar2 and Ganesh G. Tapadiya3
- Rational for Nanotech Delivery System
- Features of Nanotechnology in a Delivery System
- NANOTECHNOLOGY-BASED DRUG DELIVERY PLATFORM
- Polymeric Nanoparticles
- Lipid-based Nanoformulations
- SLNs and NLCs
- Hybrid Nanocarriers
- CHARACTERIZATIONS OF THE NANOTECH-BASED DELIVERY SYSTEM
- Particle Size (PS) and Particle Size Distribution
- Polydispersity Index (PDI)
- Surface Charge or Zeta Potential (ZP)
- Entrapment Efficiency (EE)
- Drug Loading
- Polymorphism and Crystallinity
- Morphology
- Fourier Transform Infrared Spectrophotometry Analysis
- THERAPEUTIC APPLICATIONS
- Oral Delivery
- Dermal Application
- Ocular Applications
- Parenteral Delivery
- Transdermal Delivery
- Specific Therapeutic Applications
- Therapeutic Applications of Nanotechnology in Cancer
- Therapeutic Applications of Nanotechnology in Wound Healing
- Therapeutic Applications of Nanotechnology in Alzheimer's Disease
- Implantable Drug Delivery
- Jagruti L. Desai1,*, Pal B. Patel1, Ashwini D. Patel2, Richa R. Dave1, Swayamprakash Patel1 and Pranav Shah3
- Glimpse into Implantable DDS
- Advancements in IDDS.
- Ideal Properties of Implantable Devices
- Benefits of the IDDSs
- Disadvantages of IDDSs
- Recently Updated FDA-approved Implants
- CLASSIFICATION
- Non-degradable Implants
- The Release Mechanism of Drug from Non-degradable Polymeric Matrices
- Reservoir-type Non-degradable Systems
- Matrix-type Non-degradable Systems
- Non-degradable Implantable Beads
- Non-degradable Magnetically Controlled Release Systems
- Advantages of Non-degradable IDDSs
- Disadvantages of Non-biodegradable Implantable Drug Delivery Systems
- Non-Biodegradable Polymers
- Biodegradable Implants
- Dynamic Pumps
- Microelectronics
- Osmotic Pumps
- Propellent Driven Pump
- Electromechanical Systems
- Microelectromechanical Systems (MEMs)
- Nanoelectromechanical Systems
- IMPLANTABLE MEDICAL DEVICES
- Pacemakers
- Implantable Cardioverter-defibrillator
- Neurostimulators
- Chip Rx (Small Pill Implants)
- APPLICATIONS
- Women's Health
- Chronic Diseases
- Cardiovascular Disease
- Cancer
- Diabetes
- Ocular Therapy
- Pain Management
- Infectious Diseases (Tuberculosis)
- Neurology and Central Nervous System Health
- CURRENT CHALLENGES
- Controlled-Release Injectables
- Alok Kapadia1,* and Atish S. Mundada2
- Proteins and Peptides
- Vaccines
- Gene Therapeutics
- INJECTABLE EMULSIONS
- Types of Emulsions
- Nanoemulsions
- Multiple Emulsions
- Microemulsions
- Preparation of Emulsions
- Emulsions for Injectables for Controlled Delivery
- Emulsion Stability
- INJECTABLE LIPOSOMES
- Types of Liposomes
- Preparation of Liposomes
- Liposome Formation
- Sizing of Liposomes
- Encapsulation of Drug
- Purification
- Liposomes for Injectables for Controlled Delivery
- INJECTABLE NANOSUSPENSIONS.
- Types of Nanoparticles.
- Notes:
- Description based on publisher supplied metadata and other sources.
- Other Format:
- Print version: Mundada, Atish S. Novel Drug Delivery Systems (Part 2)
- ISBN:
- 9789815313567
- OCLC:
- 1481988459
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