Extended low oxygen transmissibility contact lens use induces alterations in the concentration of proinflammatory cytokines, enzymes and electrolytes in tear fluid.

Prolonged and continuous use of contact lenses for as long as 3 or 4 weeks is common in Mexico due to the low socioeconomic status, poor patient education and self-neglect. Furthermore, wearing contact lenses with low oxygen permeability is common due to their low cost. Thus, patients seek ophthalmologic evaluation due to signs and symptoms of overuse such as red eye, discomfort and tearing. In the present study, the effect of wearing soft contact lenses with a low oxygen permeability on the tear fluid composition after 1 day, 1 week and 1 month without removing them was examined. In this prospective clinical trial, several tear fluid biomarkers were measured in 84 non-adapted contact lens wearers (NACLWs), including the pH, electrolytes, osmolarity, pro-inflammatory molecules [interleukin (IL)-8, IL-1ß and interferon (IFN)-γ], total protein (TP) levels and enzymes [aspartate aminotransferase (AST), alanine aminotransferase (ALT), lactate dehydrogenase (LDH) and alkaline phosphatase (AP)]. The results indicated that the tear pH was significantly decreased after 1 day and 1 week; however, after 1 month of use, the tear pH level returned to the baseline. Tear electrolyte analysis demonstrated a significant decrease in Na+ at 1 day, 1 week and 1 month and Cl- levels at 1 week and 1 month, and a significant increase in Ca2+ at 1 week and 1 month, K+ at 1 day, 1 week and 1 month, IL-8 at 1 week and 1 month, IL-1ß only at 1 week and IFN-γ at 1 week and 1 month. Furthermore, the study observed an elevation of TP, AST, LDH and AP levels, however, there were no significant changes in ALT. In conclusion, the current study revealed that continuous wearing of soft contact lenses with low oxygen permeability increase tear fluid proinflammatory cytokine levels and enzymes reflecting tissue damage.

Co-expression of µ and δ opioid receptors by mouse colonic nociceptors.

BACKGROUND AND PURPOSE: To better understand opioid signalling in visceral nociceptors, we examined the expression and selective activation of µ and δ opioid receptors by dorsal root ganglia (DRG) neurons innervating the mouse colon. EXPERIMENTAL APPROACH: DRG neurons projecting to the colon were identified by retrograde tracing. δ receptor-GFP reporter mice, in situ hybridization, single-cell RT-PCR and µ receptor-specific antibodies were used to characterize expression of µ and δ receptors. Voltage-gated Ca2+ currents and neuronal excitability were recorded in small diameter nociceptive neurons (capacitance <30 pF) by patch clamp and ex vivo single-unit afferent recordings were obtained from the colon. KEY RESULTS: In situ hybridization of oprm1 expression in Fast Blue-labelled DRG neurons was observed in 61% of neurons. µ and δ receptors were expressed by 36-46% of colon DRG neurons, and co-expressed by ~25% of neurons. µ and δ receptor agonists inhibited Ca2+ currents in DRG, effects blocked by opioid antagonists. One or both agonists inhibited action potential firing by colonic afferent endings. Incubation of neurons with supernatants from inflamed colon segments inhibited Ca2+ currents and neuronal excitability. Antagonists of µ, but not δ receptors, inhibited the effects of these supernatant on Ca2+ currents, whereas both antagonists inhibited their actions on neuronal excitability. CONCLUSIONS AND IMPLICATIONS: A significant number of small diameter colonic nociceptors co-express µ and δ receptors and are inhibited by agonists and endogenous opioids in inflamed tissues. Thus, opioids that act at µ or δ receptors, or their heterodimers may be effective in treating visceral pain.