Lecture 13: Aqueous Humor PDF

Summary

This lecture describes the functions, components, and flow of aqueous humor. It details the selective transport of substances, the role of ciliary epithelium, and explains the process of aqueous humor secretion and outflow.

Full Transcript

‭Learning Objectives:‬
‭Quiz 1:‬
‭‬ ‭List the functions of the aqueous humor‬
‭○‬ ‭Serves as nutritive fluid (blood substitue) for avascular cornea, lens, and TM; supplies‬
‭nutrients and oxygen through diffusion‬
‭○‬ ‭Removes metabolic wastes of avascular tissues through continuous formation; travels‬
‭through ocular chambers and drainage from eye to venous blood‬
‭○‬ ‭Establishes and maintains hydrostatic pressure (IOP) → inflates eye to maintain proper‬
‭alignment of optical structures‬
‭○‬ ‭Transports antioxidants into anterior segment‬
‭○‬ ‭Transports immunoglobulins to defend against invading pathogens‬

‭‬ ‭List the components of the aqueous humor‬
‭○‬ ‭Water‬
‭○‬ ‭Selective transport of solutes from blood plasma → ions, low MW molecules, high MW‬
‭molecules‬
‭‬ ‭Ions → maintain AH as isotonic solution (Na+, K+, Cl-, H+, HCO3-, Ca2+, Mg2+)‬
‭‬ ‭Low MW molecules‬
‭‬ ‭Initial AH‬
‭○‬ ‭Nutrients → glucose (energy), citrate (energy), amino acids‬
‭(protein synthesis)‬
‭○‬ ‭Antioxidants → ascorbate, glutathione‬
‭‬ ‭Waste products → lactic acid/lactate (fermentation), urea (protein‬
‭metabolism)‬
‭‬ ‭High MW molecules‬
‭‬ ‭Proteins‬
‭○‬ ‭LOW conc of protiens in AH compared to blood plasma‬
‭○‬ ‭Albumin (carrier for hormones, aa, long-chain fatty acids)‬
‭○‬ ‭Growth factors‬
‭○‬ ‭Enzymes (carbonic anhydrase → catalyzes formation of carbonic‬
‭acid; lysozyme)‬
‭○‬ ‭Signaling molecules → signal transduction (prostaglandins,‬
‭cAMP, catecholamines, steroid hormones)‬
‭○‬ ‭Hyaluronic acid (glycosaminoglycan)‬
‭○‬ ‭Molecules added to/removed from AH as it travels through ant chamber‬

‭‬ ‭Outline the flow of aqueous humor from production to outflow‬
‭○‬ ‭AH produced by ciliary epithelium as selective filtrate from capillaries of CB & secreted‬
‭into posterior chamber‬
‭○‬ ‭Flows between lens and iris into anterior chamber‬
‭○‬ ‭AH drainage‬
 ‭ ‬ T‭ rabecular meshwork into Schlemm’s canal and into aqueous vein‬

‭‬ ‭Uveoscleral route, through extraceullular spaces within CM and through‬
‭suprachoroidal space and into aqueous vein‬

‭‬ ‭Describe and sketch the characteristics of the ciliary epithelial cells‬
‭○‬ ‭Nonpigmented epithelial cells (NPE) and pigmented epithelial cells (PE)‬
‭‬ ‭Interact at apical surfaces‬
‭‬ ‭Apical surface membranes = extensive inforldings‬
‭‬ ‭Connect to basal lamina through hemidesmosomes‬
‭‬ ‭Connected by desmosomes and gap junctions‬
‭‬ ‭Contain numerous mitochondria and high levels of carbonic anhydrase → high‬
‭metabolic rates‬
‭○‬ ‭NPE = tight junctions → form blood-aqueous barrier‬
 ‭‬ ‭Describe the process aqueous humor secretion including:‬
‭○‬ ‭Production of ultrafiltrate from the ciliary capillaries‬
‭‬ ‭Fenestrated capillary‬
‭‬ ‭H2O + solutes → passing through/across semipermeable membrane‬
‭‬ ‭Only some substances are able to pass through → RBC is unable to pass‬
‭through/exit‬
‭○‬ ‭Ion transport from the stroma through the ciliary epithelial cells and into the posterior‬
‭chamber‬
‭‬ ‭Ions ONLY transported across membranes through specific transport proteins‬
‭○‬ ‭Transport of water‬
‭‬ ‭Production of carbon dioxide reacts with water → forms carbonic acid →‬
‭dissociates into H+ and bicarbonate ions‬
‭‬ ‭Spontaneous reaction‬
‭‬ ‭TIGHT JUNCTIONS btwn nonpigmented cells prevents paracellular movement of‬
‭water and solutes‬
‭‬ ‭Originate from blood and pass into stroma through fenestrations in capillaries‬
‭‬ ‭Follows movement of ions‬
‭‬ ‭Na+/K+ pump =‬‭driving force‬
‭○‬ ‭Transport of ascorbate, amino acids, glucose, and proteins‬
‭‬ ‭Ascorbate, amino acids, glucose‬
‭‬ ‭Active transport from stroma‬
‭‬ ‭Proteins‬
‭‬ ‭Active transport from stroma‬
‭‬ ‭Synthesized and secreted by ciliary epithelial cells‬
‭‬ ‭Derived from cells of lens, cornea, iris, trabecular meshwork‬

‭‬ ‭Describe the regulation of aqueous humor secretion‬
‭○‬ ‭Under adrengergic control‬
‭‬ ‭High rate of turnover → entire AH replaced every 90-100 min‬

‭‬ ‭Describe the mechanisms of drugs used to decrease aqueous humor secretion‬
‭○‬ ‭Beta-blockers block effect of epinephrine → decreases AH production‬
‭○‬ ‭Norepinephrine stimulation of alpha receptors → decreases AH production‬
‭○‬ ‭Alpha agonists stimulate alpha receptors → decreases AH production‬
‭○‬ ‭Carbonic anhydrase inhibitors (CAI) → decreases AH production (reduces intracellular‬
‭concentration of H+ and HCO3-)‬

‭Quiz 2:‬
‭‬ ‭Identify the parts of the trabecular meshwork, and describe the composition of each element‬
‭○‬ ‭Uveal meshwork‬
 ‭‬ C ‭ omprised of endothelial cell-coated collagen beams + large spaced filled‬
‭loosely with extracellular matrix (ECM)‬
‭○‬ ‭Corneoscleral meshwork‬
‭‬ ‭Comprised of endothelial cell-coated collagen beams + large spaced filled‬
‭loosely with extracellular matrix (ECM)‬
‭‬ ‭Transitions to JCT → intertabecular spaces decrease in size and lamella become‬
‭flatter‬
‭ ‬ ‭Juxtacanaclicular tissue (JCT)‬
○
‭‬ ‭Comprised of loosely arranged ECM → sparse number of juxtacanaclicular cells‬
‭are embedded‬
‭‬ ‭ECM regulated by MMPs‬
‭‬ ‭Cells connect through long processes → attach to SC‬

‭‬ ‭Describe the role of matrix metalloproteinases in adaptation to increased intraocular pressure‬
‭○‬ ‭Increased IOP = mechanical distortions → upregulation of secretion of MMPs = degrade‬
‭ECM‬

‭‬ ‭Describe the process of aqueous humor outflow through the Schlemm’s canal endothelium‬
‭○‬ ‭Flows from anterior chamber through the TM into SC → passes into collector channels‬
‭along SC external wal → discharges into episcleral and conjunctival veins on scleral‬
‭surface‬

‭‬ ‭Describe the mechanism of drugs used to increase trabecular outflow‬
‭○‬ ‭Muscarinic agonists‬
‭‬ ‭Activate muscarinic acetylchpline receptors in CM = contraction of muscle,‬
‭displacement of SS, widening of spaces in ™‬

‭‬ ‭Outline the process of the uveoscleral outflow pathway‬
‭○‬ ‭Chamber angle → uveal layer of trabecular meshwork → CT spaces between muscle‬
‭bundles of CB → to suprachoroid space → into sclera or perivascular spaces → into‬
‭episcleral tissue → into venous circulation‬

‭‬ ‭Describe the mechanism of drugs used to increase uveoscleral outflow‬
‭○‬ ‭Prostaglandins‬
‭‬ ‭Bind and activate receptors on CM cells → stimulate increased biosynthesis of‬
‭MMPs‬
⇒
‭‬ ‭Initiate alteration of collagens in CM increase spaces between CM‬
‭fibers → reduce hydraulic resistance in uveoscleral outflow‬