INITIAL CHARACTERIZATION OF A NEW MODEL FOR DERMAL IRRITANCY TESTING.
- TR Number: 102
A model of the human epidermis, EpiDerm™, based on neonatal foreskin-derived normal human epidermal keratinocytes (NHEK) has recently been introduced by Mattek Corporation. Cultured using serum free media in easily handled Millicell® CM (Millipore Corp.) cell culture inserts, the model allows application of liquid and solid test materials (potential dermal irritants) directly to the apical surface (“stratum corneum”) of this air-lifted, highly differentiated culture. Initial characterization of this new in vitro model includes: 1) histology using H&E staining and light microscopy, 2) ultrastructure using TEM, 3) identification and localization of epidermis specific proteins using immunohistochemistry, 4) mitotic activity using tritiated thymidine uptake, 5) metabolic activity as evidenced by MTT and neutral red reactions, and 6) release of epidermal cytokines known to be important in dermal irritation. This work provides the theoretical underpinnings for use of EpiDerm as a model to study dermal irritation in vitro.
Reference Application
- Absorption
- Antimicrobial
- Buccal delivery
- Genotoxicity
- Mucosal delivery
- Reproducibility - skin tissue models
- UV protection
- Corneal Drug Delivery
- UV damage
- transporters
- Regulatory Approval
- Review Article
- LOAEL
- Drug delivery
- Infectious disease research
- Buccal drug delivery
- Pharmacotoxicology
- Nasal absorption
- Nanotechnology
- Aging
- Respiratory Disease
- Bacterial infection
- Pollution
- Mildness Testing
- Barrier Disruption
- UVB
- Irritation
- Infection
- Mucosal irritation
- Psoriasis
- Vaginal irritation
- Respiratory immunotoxicity
- Human-on-a-chip
- Atopic Dermatitis
- DNA Damage
- Colitis
- Drug ADME
- Hair Growth
- scalp health
- Permeation
- Infections
- Cosmetics
- Metabolism
- Mucous
- Respiratory infection
- Viral Infection
- Melanogenesis
- Antiviral
- Gastrointestinal Disease
- Hazard assessment
- Biomedical Devices
- artificial saliva
- Skin irritation
- Toxicity
- Cytokine analysis
- Immulogical research
- Nanoparticle toxicology/penetration
- Respiratory toxicology
- MMPs
- Intestinal Permeation
- Bacterial colonization
- Translational toxicology
- Dry skin
- drug skin compatibility
- bacterial adherence
- Allergenicity
- Antioxidants
- Drug absorption
- Immunologicaal research
- Toxicology
- Skin cancer
- Photoaging
- Electrolyzed Water
- Transbuccal drug delivery
- XtraMild skin mildness testing
- Skin moisturization
- Protein Expression
- PBPK Modeling
- Immunological Research
- Apoptosis
- Intestinal toxicity
- Microbicides
- Nanotoxicology
- Skin corrosion
- Skin Sensitization
- Fibrosis
- Oral Pathology
- bacterial vaginosis
- ADME
- Gastrointestinal Inflammation
- anti-wrinkling
- Immunogenicity
- Basic dermal research
- Respiratory research
- Immunotoxicity
- Ocular irritation
- Penetration
- Medical Devices
- Pulmonary Fibrosis
- Oral infection
- vaginal microbiome
- Microphysiological system
- Gastrointestinal Irritation
- Nicotine pouch products
- Inflammation
- Asthma
- Skin corrosion Absorption
- Mucosal
- Oral candidiasis
- Skin lightening
- Organ-on-a-Chip
- Oxidative Stress
- Oral inflammation
- Collagen Remodeling
- Hyperpigmentation
- Barrier Function
- intranasal drug delivery
- Microbial infection
- COPD
- Smoking
- Respiratory toxicity
- Oral irritation
- Skin
- Oral Disease Research
- Skin Damage
- Ocular toxicology
- Drug Screening
- Skin de-pigmentation
- Gastrointestinal Toxicity
- permeation enhancement
- Wound healing
- Smoke
- Tobacco
- Inhalation Toxicology
- Oral mucositis
- Smoker
- Space Research
- Skin Barrier
- Validation
- Nephrotoxicity
- Cancer Research
- Skin Brightening
- excipients
- Phototoxicity
- Research
- Drug development
- Nanoparticles
- Skin pigmentation
- Gingivitis
- Dry Eye
- Drug Metabolism
- Biofilm
- Hepatotoxicity
- Personalized Medicine
- Food Additives
- Sub-categorization
- UV radiation
- Basic cutaneous research
- Epithelial restitution
- Microbial
- Pigmentation
- Transbuccal permeation/penetration
- Micronucleus Assay
- Skin aging
- Intestinal barrier
- Liver Toxicity
- Consumer products
- Biocompatibility
- Anti-aging
- Basic DC research
- Eye irritation
- Microbicide
- Pigmentation studies
- Oral mucosa
- microbiome
- Skin disease
- SARS-CoV-2
- Skin Toxicity
- Cytotoxicity
- reproducibility
- Skin hydration
- UV
- Genetic toxicology
- Microbicide testing
- Radiation
- Tumor invasion
- Probiotic
- Intestinal infection
- Skin re-epithelization
- Crohn's Disease
- Inflammatory response
- respiratory irritation
- UV toxicity
- Basic respiratory research
- Genomics
- STD infection
- Reproducibility - eye (ocular) tissue model
- UV light
- Irritation>Eye Irritation OECD TG 492
- Skin differentiation
- Barrier repair
- Inflamed Bowel Disease
- Visible Light
- pesticides
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