Hypertension artérielle et oeil

Résumé L'hypertension artérielle systémique est répandue dans la population et représente un facteur de risque cardiovasculaire majeur de morbidité et de mortalité. La rétinopathie hypertensive est l'atteinte la plus fréquente. Les signes au fond d'oeil sont la vasoconstriction et des signes indirects d'ischémie localisée de la rétine comme les hémorragies rétiniennes, les exsudats mous et durs. Elle peut contribuer à l'aggravation de la rétinopathie diabétique. Les complications oculaires fréquentes sont les hémorragies sous-conjonctivales et les occlusions veineuses. Plus rares mais plus graves sont les neuropathies optiques ischémiques et les occlusions artérielles rétiniennes ou choroïdiennes. Un dépistage est conseillé en cas d'hypertension mal contrôlée ou aiguë, de diabète, ou de toutes autres plaintes visuelles récentes. Abstract Systemic hypertension is widely spread in the general population. It is recognised as a major risk factor for cardiovascular morbidity and mortality. Hypertensive retinopathy is the most common manifestation. Initial changes are retinal arteriolar vasoconstriction and findings such as flame or blot hemorrhages, cotton wool spots and hard exsudates resulting from localised retinal ischemia. Ocular complications of high blood pressure (HBP) are subconjunctival hemorrhages and retinal vein occlusions. Hypertensive retinopathy contributes to worsening of diabetic retinopathy. Less common but more threatening are ischemic optic neuropathy and retinal arterial occlusions. Screening is recommended in case of severe systemic hypertension, diabetes, or any complain of recent visual disturbances.

Biological Characterization of Gene Response to Insulin-Induced Hypoglycemia in Mouse Retina.

Glucose is the most important metabolic substrate of the retina and maintenance of normoglycemia is an essential challenge for diabetic patients. Chronic, exaggerated, glycemic excursions could lead to cardiovascular diseases, nephropathy, neuropathy and retinopathy. We recently showed that hypoglycemia induced retinal cell death in mouse via caspase 3 activation and glutathione (GSH) decrease. Ex vivo experiments in 661W photoreceptor cells confirmed the low-glucose induction of death via superoxide production and activation of caspase 3, which was concomitant with a decrease of GSH content. We evaluate herein retinal gene expression 4 h and 48 h after insulin-induced hypoglycemia. Microarray analysis demonstrated clusters of genes whose expression was modified by hypoglycemia and we discuss the potential implication of those genes in retinal cell death. In addition, we identify by gene set enrichment analysis, three important pathways, including lysosomal function, GSH metabolism and apoptotic pathways. Then we tested the effect of recurrent hypoglycemia (three successive 4h periods of hypoglycemia spaced by 48 h recovery) on retinal cell death. Interestingly, exposure to multiple hypoglycemic events prevented GSH decrease and retinal cell death, or adapted the retina to external stress by restoring GSH level comparable to control situation. We hypothesize that scavenger GSH is a key compound in this apoptotic process, and maintaining "normal" GSH level, as well as a strict glycemic control, represents a therapeutic challenge in order to avoid side effects of diabetes, especially diabetic retinopathy.