[Value of non-IOP lowering therapy for glaucoma]. / Stellenwert der "nicht Augendruck senkenden Glaukomtherapie"

It is well established that an IOP reduction improves, on average, the prognosis of all types of glaucoma. It is also known, however, that even an ideal IOP does not stop progression in all patients. The insight into the pathogenesis of glaucomatous damage leads to new therapeutic approaches. Whilst most of these new avenues of treatment are still in the experimental phase, others, such as magnesium, Ginkgo, salt and fludrocortisone are already used by some physicians. Blood pressure dips can be avoided by intake of salt or fludrocortisone. Vascular regulation can be improved either locally by carbonic anhydrase inhibitors or systemically with magnesium or with low doses of calcium channel blockers. A number of other food ingredients such as polyphenolic flavonoids occurring in tea, coffee, dark chocolate or red wine and anthocyanosides found in bilberries have potential antioxidative effects. The oxidative stress at the level of the mitochondria can be reduced by Ginkgo biloba. Experimentally, glaucomatous optic neuropathy can be prevented by inhibition of astrocyte activation, either by blockage of epidermal growth factor receptor or by counteracting endothelin. Glaucomatous optic neuropathy can also be prevented by nitric oxide-2 synthase inhibition. Inhibition of matrix metalloproteinase-9 inhibits apoptosis of retinal ganglion cells and tissue remodelling. Up-regulation of heat shock proteins protects the retinal ganglion cells and the optic nerve head.

[Traumatic proptosis]. / Traumatische Proptosis.

The emergency consultation of a female patient revealed a left-sided prolapse of the eyeball with visual loss. The patient had fallen against an object hitting the left eye 40 min prior to the consultation. Motility of the eye was severely restricted and retinoscopy was impossible due to a corneal edema. The pupil was moderately dilated and non-reactive. The ocular pressure was 50 mmHg. Spontaneous repositioning was unsuccessful and an immediate lateral canthotomy was performed. The follow-up control showed that the patient had recovered good visual acuity with a reduction of intraocular pressure and pain. The latest findings were uneventful.

Ginkgo biloba: an adjuvant therapy for progressive normal and high tension glaucoma.

Gingko biloba has been used for hundreds of years to treat various disorders such as asthma, vertigo, fatigue and, tinnitus or circulatory problems. Two of the main extracts are EGb761 and LI 1370. Most pharmacological, toxicological and clinical studies have focused on the neuroprotective value of these two main extracts. Neuroprotection is a rapidly expanding area of research. This area is of particular interest due to the fact that it represents a new avenue of therapy for a frustrating disease that may progress despite optimal treatment. One such disease is glaucoma.Glaucoma leads to the loss of retinal ganglion cells and their axons but also to tissue remodelling which involves both the optic nerve head and the retina. In the retina the astrocytes get activated. In addition, the optic nerve gets thinner and the cells of the lateral geniculate ganglion disappear partially. On average, ocular blood flow (OBF) is reduced in glaucoma patients in various tissues of the eye. Increased intraocular pressure (IOP) is a major risk factor for glaucomatous damage. Nevertheless, there is little doubt that other risk factors besides IOP are involved. One such risk factor is a primary vascular dysregulation (PVD) occurring in patients with a disturbed autoregulation, another risk factor is oxidative stress.