scholarly article | Q13442814 |
P356 | DOI | 10.1039/C7LC00112F |
P698 | PubMed publication ID | 28401229 |
P50 | author | Jungkyu Kim | Q87813399 |
P2093 | author name string | Devasier Bennet | |
Zachary Estlack | |||
Ted Reid | |||
P2860 | cites work | Solvent/Detergent Virally Inactivated Serum Eye Drops Restore Healthy Ocular Epithelium in a Rabbit Model of Dry-Eye Syndrome | Q24282614 |
Extension of life-span by introduction of telomerase into normal human cells | Q24336088 | ||
Biological role of lactoferrin | Q24678066 | ||
In Vitro Cell Models for Ophthalmic Drug Development Applications | Q26751148 | ||
Massively parallel measurements of molecular interaction kinetics on a microfluidic platform | Q27938491 | ||
Organs-on-chips at the frontiers of drug discovery | Q28083671 | ||
Stromal thickness in the normal cornea: three-dimensional display with artemis very high-frequency digital ultrasound | Q30486482 | ||
Topical use of chitosan in ophthalmology: tolerance assessment and evaluation of precorneal retention | Q30715870 | ||
Reconstruction of an in vitro cornea and its use for drug permeation studies from different formulations containing pilocarpine hydrochloride | Q32066070 | ||
Counting low-copy number proteins in a single cell | Q33268264 | ||
Tear film dynamics with evaporation, wetting, and time-dependent flux boundary condition on an eye-shaped domain | Q33655642 | ||
Validating and troubleshooting ocular in vitro toxicology tests | Q33770858 | ||
Membrane-tethered mucins have multiple functions on the ocular surface. | Q33944507 | ||
Na,K-ATPase inhibition alters tight junction structure and permeability in human retinal pigment epithelial cells | Q44304821 | ||
Multilayer Primary Epithelial Cell Culture from Bovine Conjunctiva as a Model for in vitro Toxicity Tests | Q44414773 | ||
Ophthalmic drug delivery through contact lenses | Q44956640 | ||
Active chloride transport in the pigmented rabbit conjunctiva | Q46105048 | ||
Dynamic single cell culture array | Q46462633 | ||
The development of a serum-free derived bioengineered conjunctival epithelial equivalent using an ultrathin poly(epsilon-caprolactone) membrane substrate | Q46872536 | ||
Zero-order therapeutic release from imprinted hydrogel contact lenses within in vitro physiological ocular tear flow | Q46928303 | ||
Retinal Ganglion Cell and Inner Plexiform Layer Loss Correlate with Visual Acuity Loss in LHON: A Longitudinal, Segmentation OCT Analysis. | Q50604033 | ||
Analysis of blink rate patterns in normal subjects. | Q50919063 | ||
A practical guide to microfluidic perfusion culture of adherent mammalian cells. | Q50991797 | ||
Development of a three-dimensional organ culture model for corneal wound healing and corneal transplantation. | Q51173588 | ||
A mathematical model for ocular tear and solute balance. | Q51330174 | ||
Tear film dynamics on an eye-shaped domain I: pressure boundary conditions. | Q51729944 | ||
A model for wetting and evaporation of a post-blink precorneal tear film. | Q51779845 | ||
Schirmer's test. A closer look. | Q51851985 | ||
An overset grid method for the study of reflex tearing. | Q51873044 | ||
Single-equation models for the tear film in a blink cycle: realistic lid motion. | Q51902761 | ||
Dynamics of tear film deposition and draining. | Q51969299 | ||
Modelling drainage of the precorneal tear film after a blink. | Q52009259 | ||
Beta adrenergic antagonist permeation across cultured rabbit corneal epithelial cells grown on permeable supports. | Q54143420 | ||
Precise thickness measurements of Bowman's layer, epithelium, and tear film | Q34226207 | ||
Versatile, fully automated, microfluidic cell culture system | Q34704987 | ||
Corneal nerves: structure, contents and function | Q35107870 | ||
Transporters/receptors in the anterior chamber: pathways to explore ocular drug delivery strategies | Q35116134 | ||
Development of a curved, stratified, in vitro model to assess ocular biocompatibility | Q35170366 | ||
Pharmacological treatment effects on eye movement control | Q35173870 | ||
Adult white New Zealand rabbit as suitable model for corneal endothelial engineering | Q35554637 | ||
Distribution of mucins at the ocular surface | Q35755130 | ||
A Novel Dynamic Neonatal Blood-Brain Barrier on a Chip | Q35837260 | ||
Lifting gate polydimethylsiloxane microvalves and pumps for microfluidic control | Q35891813 | ||
Laboratory findings in tear fluid analysis | Q36413771 | ||
Retina-on-a-chip: a microfluidic platform for point access signaling studies | Q36447867 | ||
Zebrafish: a model system for the study of eye genetics | Q36503151 | ||
A clinical microchip for evaluation of single immune cells reveals high functional heterogeneity in phenotypically similar T cells. | Q36926465 | ||
Microfluidic heart on a chip for higher throughput pharmacological studies | Q37205939 | ||
Nanomedicines for ocular NSAIDs: safety on drug delivery | Q37430580 | ||
Immunogenicity of protein aggregates--concerns and realities | Q38006563 | ||
Undefined role of mucus as a barrier in ocular drug delivery | Q38377599 | ||
A human breathing lung-on-a-chip | Q38399505 | ||
Universal microfluidic automaton for autonomous sample processing: application to the Mars Organic Analyzer | Q38454281 | ||
In vitro and ex vivo corneal penetration and absorption models. | Q38695101 | ||
Zebrafish Models of Retinal Disease | Q38770492 | ||
In Vitro Modeling of Emulsification of Silicone Oil as Intraocular Tamponade Using Microengineered Eye-on-a-Chip | Q38869640 | ||
Predictive Modeling of Ocular Pharmacokinetics and Adverse Effects. | Q39350113 | ||
Characterization of a microfluidic in vitro model of the blood-brain barrier (μBBB). | Q39378837 | ||
A PDMS-based biochip with integrated sub-micrometre position control for TIRF microscopy of the apical cell membrane | Q39495520 | ||
Evaluating the Functionality of Conjunctiva Using a Rabbit Dry Eye Model. | Q39816145 | ||
Coupling confocal fluorescence detection and recirculating microfluidic control for single particle analysis in discrete nanoliter volumes. | Q40099728 | ||
Subconjunctival nano- and microparticles sustain retinal delivery of budesonide, a corticosteroid capable of inhibiting VEGF expression | Q40668704 | ||
Organs-on-Chips: How Microsystems Technology Can Transform the Drug Development Process | Q40754846 | ||
Meeting future challenges in topical ocular drug delivery: development of an air-interfaced primary culture of rabbit conjunctival epithelial cells on a permeable support for drug transport studies | Q40775670 | ||
Functional human corneal equivalents constructed from cell lines. | Q40786864 | ||
Conjunctiva | Q41000249 | ||
Eye Irritation Test (EIT) for Hazard Identification of Eye Irritating Chemicals using Reconstructed Human Cornea-like Epithelial (RhCE) Tissue Model. | Q41831439 | ||
Human corneal equivalent as cell culture model for in vitro drug permeation studies | Q41850634 | ||
Recreating blood-brain barrier physiology and structure on chip: A novel neurovascular microfluidic bioreactor | Q41960885 | ||
A rabbit dry eye model induced by topical medication of a preservative benzalkonium chloride | Q42435289 | ||
Targeted cornea limbal stem/progenitor cell transfection in an organ culture model | Q42435373 | ||
Integration and application of vitrified collagen in multilayered microfluidic devices for corneal microtissue culture | Q42462058 | ||
Basement membrane assembly and differentiation of cultured corneal cells: importance of culture environment and endothelial cell interaction. | Q42476481 | ||
A mass and solute balance model for tear volume and osmolarity in the normal and the dry eye. | Q43234291 | ||
The use of a porcine organotypic cornea construct for permeation studies from formulations containing befunolol hydrochloride | Q44247760 | ||
P433 | issue | 9 | |
P921 | main subject | biomimetics | Q1145644 |
P304 | page(s) | 1539-1551 | |
P577 | publication date | 2017-05-01 | |
P1433 | published in | Lab on a Chip | Q3214277 |
P1476 | title | Microengineered biomimetic ocular models for ophthalmological drug development | |
P478 | volume | 17 |
Q57175318 | Conceptual Design of Micro-Bioreactors and Organ-on-Chips for Studies of Cell Cultures | cites work | P2860 |
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