Pages that link to "Q35107870"

The following pages link to Corneal nerves: structure, contents and function (Q35107870):

Displaying 50 items.

• Mapping the entire human corneal nerve architecture (Q24609136) (← links)
• Lacritin, a novel human tear glycoprotein, promotes sustained basal tearing and is well tolerated. (Q24635929) (← links)
• In Vitro Cell Models for Ophthalmic Drug Development Applications (Q26751148) (← links)
• Nerve Growth Factor: A Focus on Neuroscience and Therapy (Q26786398) (← links)
• Corneal nerves in health and disease (Q27002347) (← links)
• Diabetes and contact lens wear (Q27009365) (← links)
• The role of corneal afferent neurons in regulating tears under normal and dry eye conditions (Q27014011) (← links)
• Diagnosis and management of neurotrophic keratitis. (Q27026580) (← links)
• A Central Role for Sympathetic Nerves in Herpes Stromal Keratitis in Mice (Q27334672) (← links)
• Critical appraisal of ex vivo expansion of human limbal epithelial stem cells. (Q27690874) (← links)
• In vivo corneal confocal microscopy in diabetes: Where we are and where we can get (Q28069208) (← links)
• Neural regulation of lacrimal gland secretory processes: relevance in dry eye diseases (Q28241769) (← links)
• Autonomic control of the eye. (Q30380886) (← links)
• Corneal subbasal nerve density: a comparison of two confocal microscopes (Q30853455) (← links)
• Corneal nerve alterations in acute Acanthamoeba and fungal keratitis: an in vivo confocal microscopy study (Q31040909) (← links)
• Corneal sensation after laser epithelial keratomileusis for the correction of myopia (Q31106517) (← links)
• Neurotrophic keratitis (Q33208873) (← links)
• Corneal sensation after myopic and hyperopic LASIK: clinical and confocal microscopic study (Q33214092) (← links)
• In vivo three-dimensional confocal laser scanning microscopy of the epithelial nerve structure in the human cornea (Q33255767) (← links)
• Comparative in vivo high-resolution confocal microscopy of corneal epithelium, sub-basal nerves and stromal cells in mice with and without dry eye after photorefractive keratectomy (Q33296061) (← links)
• Corneal nerve regeneration in neurotrophic keratopathy following autologous plasma therapy (Q33517417) (← links)
• Femtosecond laser in laser in situ keratomileusis (Q33584786) (← links)
• Hypoxia-induced changes in Ca(2+) mobilization and protein phosphorylation implicated in impaired wound healing (Q33626483) (← links)
• Morphometric features of corneal epithelial basal cells, and their relationship with corneal nerve pathology and clinical factors in patients with type 2 diabetes (Q33628194) (← links)
• Post-LASIK tear dysfunction and dysesthesia (Q33659714) (← links)
• Distinct central representations for sensory fibers innervating either the conjunctiva or cornea of the rat. (Q33665338) (← links)
• The role of O-GlcNAc signaling in the pathogenesis of diabetic retinopathy (Q33683197) (← links)
• Image-guided evaluation and monitoring of treatment response in patients with dry eye disease (Q33686417) (← links)
• Loss of corneal sensory nerve fibers in SIV-infected macaques: an alternate approach to investigate HIV-induced PNS damage (Q33708704) (← links)
• Synthetic neurotensin analogues are nontoxic analgesics for the rabbit cornea (Q33739118) (← links)
• Subbasal nerve density and corneal sensitivity after laser in situ keratomileusis: femtosecond laser vs mechanical microkeratome. (Q33741336) (← links)
• Significance of lipid mediators in corneal injury and repair (Q33784586) (← links)
• Omega-3 fatty acids in dry eye and corneal nerve regeneration after refractive surgery (Q33798707) (← links)
• Wounding the cornea to learn how it heals (Q33811160) (← links)
• A novel TRPM8 agonist relieves dry eye discomfort (Q33837188) (← links)
• Prospective, randomized, contralateral eye comparison of tetracaine and proparacaine for pain control in laser in situ keratomileusis and photorefractive keratectomy (Q33838148) (← links)
• Neuroprotectin D1 synthesis and corneal nerve regeneration after experimental surgery and treatment with PEDF plus DHA (Q33845339) (← links)
• Developmental corneal innervation: interactions between nerves and specialized apical corneal epithelial cells (Q33845428) (← links)
• Validity and Reliability of a Novel Ocular Pain Assessment Survey (OPAS) in Quantifying and Monitoring Corneal and Ocular Surface Pain. (Q33909046) (← links)
• Ocular surface evaluation in eyes with chronic glaucoma on long term topical antiglaucoma therapy (Q33914619) (← links)
• Cold-sensitive corneal afferents respond to a variety of ocular stimuli central to tear production: implications for dry eye disease (Q34022554) (← links)
• Docosahexaenoic acid signalolipidomics in nutrition: significance in aging, neuroinflammation, macular degeneration, Alzheimer's, and other neurodegenerative diseases (Q34027672) (← links)
• Prolonged analgesic response of cornea to topical resiniferatoxin, a potent TRPV1 agonist (Q34032544) (← links)
• Evaluation of analgesic efficacy of bromfenac sodium ophthalmic solution 0.09% versus ketorolac tromethamine ophthalmic solution 0.5% following LASEK or Epi-LASIK. (Q34060531) (← links)
• Proteomic analysis of potential keratan sulfate, chondroitin sulfate A, and hyaluronic acid molecular interactions (Q34135482) (← links)
• Residual substance P levels after capsaicin treatment correlate with tendon repair. (Q34140772) (← links)
• Distinct roles for neuropilin1 and neuropilin2 during mouse corneal innervation (Q34277817) (← links)
• The effect of hinge location on corneal sensation and dry eye after LASIK: a systematic review and meta-analysis (Q34323579) (← links)
• Communication between corneal epithelial cells and trigeminal neurons is facilitated by purinergic (P2) and glutamatergic receptors (Q34412540) (← links)
• New insights in wound response and repair of epithelium (Q34467965) (← links)