Authors: Jean-Marie Botto Ph. Discovery of microRNAs -. The concept of RNA interference -. Introduction on skin -. MicroRNAs and cutaneous biology -. Epidermal renewal and skin barrier -. MiR is a master regulator of epidermal differentiation -. Other microRNAs important in epidermal renewal -. MicroRNAs and the hypodermal adipocytes -. Hair follicle morphogenesis -. MicroRNAs and cellular senescence -.
Tissue-engineering and microRNA studies -. Author: Rebecca James Gadberry -. Chromatin remodeling and histone modification -. Matteo Zanotti Russo. Rosen - Authors: Dr. The Skin - 2. Irritation and Sensitization of the Skin - 3. Nutrition and Hormonal Control of the Skin - 4. Skin Creams - 5. Astringents and Skin Tonics - 6. Protective Creams and Hand Cleansers - 7. Bath Preparations - 8. Skin Products for Babies - 9. Skin Products for Young People - Harry's Cosmeticology 8th Edition Harry's Cosmeticology, one of the most popular cosmetic technical books of all time, has been updated by Dr.
Harry's Cosmeticology, one of the most popular cosmetic technical books of all time, has been updated by Dr. The 8th Edition of this book, regarded as an essential reference for cosmetic Brand: Chemical Publishing. Rieger and Martin M. Wilkinson, R. Harry's cosmeticology , Chemical Pub. Cosmeticology First published in Subjects Cosmetics. Edition Notes Includes bibliographical references and index. Other Titles Cosmeticology. H32 The Physical Object Pagination xvi, p.
Community Reviews 0 Feedback? Lists containing this Book. Cosmetic Manufacturing - Packaging. Labels: aging , anti-aging , antiaging , Biology , cosmetics , epidermal , formulation , fragrances , hair , Harry's 9th Edition , In-Cosmetics , in-cosmetics north america , Javits Center , Pharmaceutical Rx.
Monday, September 18, Bozena Michniak Kohn, Plant stem cells in cosmetics: current trends and future directions. Plant stem cells in cosmetics: current trends and future directions. Plant regeneration at the cellular and tissue level is a unique process. Similar to animals, the stem cells in plants have properties that help stimulate and regenerate plants after injury. This special report focuses on the current evidence-based trends in plant stem cell-based cosmetics and sheds light on the challenges that we need to overcome in order to see meaningful changes in human skin using topical cosmetics derived from plant stem cells.
Lay abstract A new wave of cosmetic ingredients containing plant stem cells and their extracts has made its way into the industry. What role do these ingredients play in affecting the aging skin? Several ancient practices such as Ayurveda have used plants as a mainstay of treatment for thousands of years. Sensory testing and substantiating instrumental methods 2.
Microscope, video microscopy for skin surface topography 3. Mechanical behavior of skin 5. Bioengineering methods to measure water flux and water content of skin b. Surfactant-lipid interactions 1. Differential scanning calorimetry DSC 2. Vibrational spectroscopy FT-IR 3. Quartz crystal microbalance QCM c. Skin-protein interactions 1.
BSA denaturation test 2. Zein solubility assay 3. McMullen, Ph. Polarized Light Photography b. Imaging Techniques with Skin Replicas c. Pore Measurements e. Skin Thermography f. Ultraviolet UV Reflectance Photography g.
Fluorescence Reflectance Photography h. Photographic Analysis of Lips j. Hyperpigmentation Measurements of Skin k. Imaging of Cellulite Reflectance Confocal Microscopy b. Ultrasonography Reflected Light Microscopy Epi-illumination b. Measuring Pigmentation of Histological Skin Sections b. Quantitative assessment of skin topography b. Replica-based methods c. Fringe Projection Method Quantitative assessment of skin elasticity b. Tensile Testing c. Torsion Technique d.
Impact Technique e. Table of Contents: Treatment schedules 1. Thermal Exposure 2. UV Exposure 3. Color wash-fastness techniques 4.
Mechanical and thermal-mechanical damage Physical-Chemical 1. Differential Scanning Calorimetry 2. Streaming Potential 5. Spectroscopic 1. Infrared Imaging IR imaging 2. Spectrofluorimetry c.
Microscopy 1. Optical Microscopy 2. Microfluorimetry 3. Mechanical properties 1. Tensile testing 2. Impact Loading 3. Flexabrasion 4. Fatigue analysis 5. Torsional Strain 6. Texture analysis 7. Image analysis f.
Infrared Thermography IRT Color wash-fastness of oxidative hair color from shampoo stripping 1. Colorimetry 2. Image analysis of digital photographs b. Protein Hydrolyzates b. Cuticle Decementation and its Repair c. Repair of Split Ends d. Repair of the Surface Lipid Layer e. Strategies for Permanent Mending of Hair Panel testing b.
Fiber fragmentation techniques c. Mechanical combing d. General b. Environmental Chamber Skicon b. Novameter c. Corneometer d. Sorption-Desorption Test e. Moisture Accumulation Test Evaporimeter b. Dermalab Laser Doppler Flowmetry b. Colorimetry c. Reflectance Spectrophotometry Digital Photography 1.
Face Photography 2. Polarized Light Photography 3. Fluorescence Photography 4. Ultraviolet Light Photography b. Ultrasound c. Videomicroscopy d. Confocal Microscopy e. Replica of Skin b. Phase Shift Fringe Projection Device c.
Calculation of Roughness Values d. Surface Area Calculation Suction Device b. Ballistometry c. Torsional Ballistometry Desquammation Measurement b. Cyanoacrylate Surface Biopsy c. Sebum Collection Assay Inorganic Particles b. Nanomaterial Legislation in Cosmetics d. Nanomaterials Characterization 1. Particle Size, Distribution, and Shape 1. Electron Spectroscopy b. Auger electron spectroscopy AES c. X-ray photo electron spectroscopy XPS d. Surface Mass Spectrometry 1. BET Surface Area b. Porosity c.
Sample Preparation Phase Identification using XRD b. Phase Composition using XRD c. Crystallite size using XRD X-ray Fluorescencebulk and trace metals analysis b. Jefferson Ave. DNA Methylation: Methyltransferases b. Post-Translational Histone Modification Assays b. Histone-Modifying Enzyme Assays c.
The concept of open innovation OI b. Open innovation and sustainability are synergistic c. Transparency d. Collaboration Six key traits of sustainable companies b. Few companies explicitly recognize and exploit open innovation as a tool to help them on this sustainability pathway c. Companies practice open innovation for sustainability adopt a more complete model of open innovation d.
Practical lessons can be learned from companies that have recognized the synergies between sustainability and OI References Part Author: Michael J. Accurate identification of botanicals 2. Understanding why the plant is used in the product, and what part or form will give the best result to the consumer 3. Truthful representation of the local uses of the plant in marketing efforts 4. Making sure the environment is not degraded as a result of harvesting botanicals 5.
Ensuring that local communities are not negatively impacted by the harvest of the plant 6. Under the spirit and intent of the United Nationssponsored Convention on Biodiversity, compensation to groups and source countries where the materials and ideas were obtained An area of reflection, a scientific and natural approach b.
An area of protection, a long-term commitment to the protection of plant resources Name and identification b. Wild plants c. Cultivated plants d. Good agricultural practices Mass selection b.
Cross-breeding Conventional farming sustainable farming b. Organic farming The fresh plant b. Dry plants c. Storage Conclusion Part The traditional extractions b. The separation steps c. The concentration steps d. The eco-responsible steps around extraction e. After extraction and concentration: Drying f. Control steps Oily phase 1. Oils 2. Vegetable oil and vegetable 3. Oil esters 4. Antioxidants b. Water phase Part The principle b. Ecological advantages The project's origins b.
Resources implemented c. The return of animal biodiversity c. A sensory environment, conducive to awareness Part 13 Cosmetic Manufacturing Part Rosen Part Buell Este Lauder Companies, Inc. Doug J. Melenkevitz Este Lauder Companies, Inc. Bruce L. Victor Este Lauder Companies, Inc. David P.
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