Notes

Spectroscopic examination associated with coenzyme presenting for you to betaine aldehyde dehydrogenase dependent on blood potassium.
Retinitis pigmentosa (PR) is manifested by decreased vision, night blindness and narrowing of the visual field. In RP, the level of docosahexaenoic acid (DHA) in blood plasma and red blood cells is significantly reduced. The largest amount of DHA is contained in the retina (30-40% of phospholipids). DHA increases membrane permeability, accelerates the release of vital proteins and retinal enzymes, provides differentiation of photoreceptors, and slows down apoptosis. The introduction of DHA in isolation or in combination with other fatty acids into the body increases its concentration and can be used for metabolism. While there is a known correlation between the level of DHA in the blood and certain retinal functions (visual acuity, light sensitivity, the value of bioelectric potential), many years of multicenter studies have not produced reliable data on the direct effect of isolated or combined use of DHA in maintaining retinal functions in PR. Despite inconsistent outcomes, the clinical trials should continue.Postsurgical macular edema, known as Irvine-Gass syndrome, is one of the possible causes of reduced visual acuity in ophthalmic surgery. read more The article reviews and summarizes data on the main approaches to the treatment of this pathology, discusses the main groups of drugs used to manage postoperative macular edema.Retinal pigment epithelium detachment (PED) is a pathological condition in which retinal pigment epithelium is separated from the underlying Bruch's membrane due to the formation of a fibrovascular membrane, drusenoid material, accumulation of fluid and/or blood. Six types of RPE detachments have been determined pseudovitelliform, detachments associated with drainage drusen, serous, vascular and hemorrhagic, as well as PED associated with vascular retinal anomaly. The drusenoid PED is always avascular, the drusenoid material is contained between the RPE and Bruch's membrane. It was first described by Casswell in 1985. Ophthalmoscopy of the fundus shows a yellow-white cellular structure in the subretinal space, sometimes containing a patch of pigment, with an uneven surface, clear boundaries and a wavy edge. Serous PED is larger in area and prominence than drusenoid, characterized by the presence of a hyporeflective area under the detached RPE, over the area of more than 50% of the total area of detachment. Ophthalmoscopy shows a transparent yellow lesion in the subretinal space, sometimes brown-tinted, with clear boundaries and dome-shaped prominence. True serous PED is avascular (combination of choroidal neovascularization and serous PED will be discussed in the article about vascularized PED).Paracentral acute middle maculopathy (PAMM) is a rare disease affecting middle layers of the central retina that is seen as a focal hyperreflective band-like lesion on optical coherence tomography. Paracentral acute middle maculopathy is associated mainly with vascular diseases. Optical coherence tomography angiography (OCTA) findings confirm the ischemic nature of paracentral acute middle maculopathy.Diabetic retinopathy (DR) is an important, socially significant complication of diabetes mellitus that leads to irreversible loss of vision. This article reviews the studies of peripheral changes in DR, different methods used in its diagnostics, monitoring and assessment of therapeutic effects. The article contains detailed examination of the modern widefield imaging methods that allow studying the middle and extreme periphery of the retina and help obtain a wide range of DR biomarkers. Of greatest interest in this matter is optical coherence tomography angiography due to possibility of detailed non-invasive assessment of the condition of retinal microvasculature, precise determination of the area and visualization of the sites of neovascularization and non-perfused regions of the retina. Quantitative characteristics of these changes serve as important diagnostic and prognostic visual biomarkers of DR.Coronavirus infection is currently en extremely relevant scientific topic due to the emergence of a new serotype that causes a condition identified as Severe Acute Respiratory Syndrome (SARS)-COV-2. Chloroquine and hydroxychloroquine have a long history of use against other infectious diseases, they are available and inexpensive, so the possibility of using them in vivo and in vitro to suppress the infectious agent was examined. Despite the noted therapeutic potential of these drugs, it was necessary to take into account the toxicological aspects that dictate the importance of rational use of 4-aminoquinoline derivatives. This review analyzes literature on the development patterns of hydroxychloroquine retinopathy, basic principles of diagnosis and differentiation of this condition from other types of retinal pathology.Endophthalmitis is characterized by inflammation of intraocular fluids and tissues, which can lead to irreversible loss of vision if the disease is not treated timely and properly. Endophthalmitis can be classified as exogenous or endogenous depending on the route of infectious agent transmission. Exogenous endophthalmitis occurs when pathogens enter the eye through direct inoculation, while endogenous endophthalmitis develops when pathogens get into the eye through the hematogenous route from a distant infection focus. Classification of endophthalmitis helps determine the etiology and probable causative organisms of the disease. Diagnosis of endophthalmitis is based on clinical data. Early diagnosis and treatment are keys to preserving the eye. Best results are achieved by rapid initiation of an empirical broad-spectrum antimicrobial therapy.The review addresses the current state of atomic force microscopy (AFM) usage in ophthalmology. Briefly presented here are the history of the development of AFM, principles and modes of operation, its advantages, disadvantages, as well as a comparison with other types of microscopy. The review describes the capabilities of AFM in visualization of various structures of the eye. A significant part of the review is devoted to the study of the retina, which arouses great interest among researchers. In particular, the possibilities of AFM for visualization at the submicron level of various structures in the retina, such as the internal limiting membrane, membrane cells, Müller cells, retinal pigment epithelium in their normal state and in the presence of a pathology (age-related macular degeneration, diabetes mellitus) were reviewed. In addition, several study papers were analyzed, providing a base for the judgement of the mechanical properties of said structures. An AFM study of the visual pigment rhodopsin helped identify its dimeric structure.
Here's my website: https://www.selleckchem.com/products/rmc-9805.html