Vitreous Substitutes
Author: Gholam A. Peyman
Publisher: McGraw-Hill/Appleton & Lange
Published: 1995
Total Pages: 240
ISBN-13:
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Biomaterials and Regenerative Medicine in Ophthalmology
Author: Traian Chirila
Publisher: Elsevier
Published: 2009-12-18
Total Pages: 565
ISBN-13: 184569743X
DOWNLOAD EBOOKWith an increasingly aged population, eye diseases are becoming more widespread. Biomaterials have contributed in recent years to numerous medical devices for the restoration of eyesight, improving many patients’ quality of life. Consequently, biomaterials and regenerative medicine are becoming increasingly important to the advances of ophthalmology and optometry. Biomaterials and regenerative medicine in ophthalmology reviews the present status and future direction of biomaterials and regenerative medicine in this important field.Part one discusses applications in the anterior segment of the eye with chapters on such topics as advances in intraocular lenses (IOLs), synthetic corneal implants, contact lenses, and tissue engineering of the lens. Part two then reviews applications in the posterior segment of the eye with such chapters on designing hydrogels as vitreous substitutes, retinal repair and regeneration and the development of tissue engineered membranes. Chapters in Part three discuss other pertinent topics such as hydrogel sealants for wound repair in ophthalmic surgery, orbital enucleation implants and polymeric materials for orbital reconstruction.With its distinguished editor and international team of contributors, Biomaterials and regenerative medicine in ophthalmology is a standard reference for scientists and clinicians, as well as all those concerned with this ophthalmology. Reviews the increasingly important role of biomaterials and regenerative medicine in the advancement of ophthalmology and optometry Provides an overview of the present status and future direction of biomaterials and regenerative medicine in this important field Discusses applications in both the anterior and prosterior segments of the eye with chapters on such topics as synthetic corneal implants and retinal repair and regeneration
Handbook of Biomaterial Properties
Author: William Murphy
Publisher: Springer
Published: 2016-06-11
Total Pages: 676
ISBN-13: 1493933051
DOWNLOAD EBOOKThis book provides tabular and text data relating to normal and diseased tissue materials and materials used in medical devices. Comprehensive and practical for students, researchers, engineers, and practicing physicians who use implants, this book considers the materials aspects of both implantable materials and natural tissues and fluids. Examples of materials and topics covered include titanium, elastomers, degradable biomaterials, composites, scaffold materials for tissue engineering, dental implants, sterilization effects on material properties, metallic alloys, and much more. Each chapter author considers the intrinsic and interactive properties of biomaterials, as well as their appropriate applications and historical contexts. Now in an updated second edition, this book also contains two new chapters on the cornea and on vocal folds, as well as updated insights, data, and citations for several chapters.
Two-component Hydrogel as Biomimetic Vitreous Substitutes
Author: Sruthi Santhanam
Publisher:
Published: 2017
Total Pages: 169
ISBN-13:
DOWNLOAD EBOOKThe vitreous humor of the eye is a biological hydrogel principally composed of fibrillary collagen interspersed with semi-flexible polyelectrolyte, hyaluronic acid (HA). Certain pathological conditions necessitate its removal and replacement. Current vitreous substitutes, such as silicone oils and perfluorocarbons, are hydrophobic, do not resemble the properties of the vitreous, and have known complications. An ideal vitreous substitute should have properties of the natural vitreous, perform its functions, and be biocompatible in the eye. Inspired by the structure and composition of the natural vitreous, we used bio-mimicry to develop an injectable two-component hydrogel. The hydrogel is composed of a fibrillary gellan, an analogue of collagen, and a semi-flexible polyelectrolyte poly[methacrylamide-co-(methacrylic acid)], an analogue of hyaluronic acid, both endowed with thiol cross-linkers for reversible covalent linkage. The gellan, in the polymeric mixture, undergoes coil-helix transition near physiological temperature, enabling instantaneous in situ physical gelation of the solution. The thiol cross-linkers that later oxidize to disulfides under physiological conditions, make the hydrogel non-absorbable, non-degradable, and reversible, for facile removal if needed.We used response surface methodology to investigate the structure-property relationships of eleven two-component hydrogels, and identified two hydrogel formulations that match the primary properties of the vitreous. We determined how each component of the hydrogel affects their optical, mechanical, sol-gel transition temperature, and osmotic swelling properties. All the hydrogels were transparent to visible light, with density and refractive indexes nearly equivalent to those of the natural vitreous. The shear storage moduli of the hydrogels, at 1Hz, ranged from 3 to 358 Pa, and the sol-gel transition temperatures, from 35.5 to 43 °C. In addition, as expected, all the hydrogels swelled in physiological solutions. Interestingly, we discovered that the relatively large swelling capacity of the semi-flexible ionic copolymer was significantly restricted by the minimally swellable fibrillary gellan network. The tightly swollen gel of two dissimilar networks produced Donnan osmotic swelling pressure in physiological solutions, which is also the driving force for re-attachment of the retina. Insights from the biomimetic nature of the gel, led us to propose that the natural vitreous also exhibits controlled swelling, where ionic HA's swelling capacity is restricted by fibrillary collagen. The Donnan swelling pressure produced by the tightly swollen vitreous gel maintains the delicate internal structure of the eye, and perhaps plays a critical role during the ocular development.We evaluated the biocompatibility of the two optimized formulations of the hydrogels on different cell lines, and in rabbits. Both hydrogels were found to be biocompatible on primary porcine retinal pigment epithelial cells, human retinal pigment epithelial cells, and fibroblast (3T3/NIH) cells, by electric cell-substrate impedance sensing system. Furthermore, the hydrogels did not impair tight junction formation or affect proliferation of the cells. The hydrogels were also non-degradable in enzymatic solutions and in contact with ocular cell line for four weeks. Judged against silicone oil, a clinically-accepted vitreous replacement, both hydrogel formulations were biocompatible in rabbits for 30 days. Both hydrogels maintained optical clarity, physiological intra-ocular pressure, and intact retinal layers that displayed normal electroretinographs. In two cases of the iatrogenic retinal tear, the hydrogels reattached the retina by producing osmotic swelling pressure. The hydrogels also maintained the low oxygen environment, compared to silicone oil, in the rabbit's vitreous cavity for 30 days post-surgery.In conclusion, the two hydrogels reattach the retina via a unique mechanism of osmotic swelling pressure. They overcome the limitations of silicone oil with comparable in-vivo biocompatibility, and merit further evaluations as an artificial vitreous. In addition, the ability to control the mechanical and swelling properties of the two-component hydrogels over a wide range suggests their utility as biomimetic replacements of other soft tissues, such as cornea, nucleus pulposus, and cartilage.
Hydrogels with Antioxidants that Replace the Physical and Chemical Functions of the Vitreous Humor
Author: Nguyen K. Tram
Publisher:
Published: 2020
Total Pages: 105
ISBN-13:
DOWNLOAD EBOOKThe vitreous humor is a fragile, transparent hydrogel between the lens and the retina that liquefies with age, causing complications such as cataract formation, retinal detachment, and macular hole, sometimes necessitating surgical replacement with a substitute. Current clinical and experimental vitreous substitutes are inadequate since they do not address the problem of oxidative damage after the removal and replacement of the natural vitreous. In fact, up to 95% of patients require cataract extraction within 24 months after vitrectomy. There is a clear clinical need for a new generation of biomimetic vitreous substitutes that can replace not only the physical roles but also chemical functions of the natural vitreous humor. The objective of this project was to create an antioxidant releasing hydrogel as a vitreous substitute. This hydrogel must adequately provide the mechanical functions and have similar material properties as the natural human vitreous. Additionally, the hydrogel must have the potential to mitigate the oxidative damage in the eye post-vitrectomy and potentially reestablish the natural oxygen gradient in the vitreous.
Vitreous
Author: J. Sebag
Publisher: Springer
Published: 2014-10-01
Total Pages: 917
ISBN-13: 1493910868
DOWNLOAD EBOOKThe vitreous body long has been the most mysterious of all ocular structures, owing perhaps to its seeming simplicity. There have been few concerted, sustained efforts to unravel the mysteries of how vitreous is composed and what role it plays in normal physiology as well as pathology. Over the years, however, many studies have produced important findings concerning vitreous biochemistry, structure, physiology, and pathobiology. Published on the 25th anniversary of Sebag's first book on Vitreous, this second installment is nearly five times longer than its predecessor, reflecting how much has been learned in the past quarter century. This well-constructed compendium not only addresses the most current scientific knowledge, but also reviews clinical perspectives in a manner that lends richness to the scope of the book. Written by 90 authors, this book has 56 chapters organized into 7 sections: Biochemistry; Anatomy, Development, and Aging; Pathology/Pathobiology; Physiology and Phamacotherapy; Posterior Vitreo-Retinal Surgery; Peripheral Vitreo-Retinal Surgery; and Pharmacologic Vitreolysis. With a foreword by Coleman & Lincoff and an introduction by Wallace Foulds, Sebag's latest tome on vitreous is destined to be the authoritative text for years to come.
The Vitreous
Author: J. Sebag
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 316
ISBN-13: 1461389089
DOWNLOAD EBOOKThe vitreous body long has been the most mysterious of all ocular structures, owing perhaps to its seeming simplicity. There have been few concerted, sustained efforts to unravel the mysteries of how the vitreous is composed and what role it plays in normal physiology. Over the years, however, many studies have produced independent findings concerning vitreous biochemistry, structure, and physiology. The Vitreous organizes these findings into a well-constructed compendium that not only addresses the most current scientific knowledge, but also reviews historical perspec tives in a manner that lends richness to the scope of the book. The first few chapters present an exhaustive, yet readable, review of the body of scientific data that have come from laboratories and researchers throughout the world. Extensive bibliographies direct interested readers further into specific aspects of the basic science of the vitreous. Chapter II: "Embryology" and Chapter IV: "Structure" present a novel organizational approach to assembling and presenting data in an integrated manner. Chapter V: "Functions" and Chapter VI: "Development and Aging" introduce fresh perspectives on the importance of the vitreous as some thing more than a vestigial space filler within the eye.
From Bench to Battlefield
Author: Meoghan E. MacPherson
Publisher:
Published: 2017
Total Pages: 104
ISBN-13:
DOWNLOAD EBOOKCentral to ocular health is the vitreous body, a complex, gelatinous tissue filling the space between the lens and retina. It is a natural polymeric hydrogel whose delicate architecture of collagen and hyaluronic acid loses its mechanical structure under the influence of degeneration or destruction, leaving the retina vulnerable to injury and disease. Since World War II, combat ocular trauma has increased six-fold while the population of aging veterans continues to grow in tandem. Compared to injuries in the civilian sector, injuries in theaters of combat operations are sustained in dirty, dusty, high-stress environments under hostile fire. These penetrating and perforating ocular injuries have predicable consequences, cascading into scarring on or under the retina (known as proliferative vitreoretinopathy or PVR). The growing population of aging veterans also faces a multitude of vitreous-related and vision-threatening pathologies. Current standards of care call for the removal and replacement of the vitreous, but contemporary substitutes are ill suited for long-term use. As such, there is critical need for development of a successful, long-term vitreous substitute. A biomimetic in situ forming hydrogel has been developed that utilizes a reversible disulfide cross-linker, enabling easy injection into the vitreous cavity. Recently, a copolymer has been introduced with this new formulation that possesses a unique comb-like structure whose characteristic bristles inhibit protein adsorption and cellular adherence, perfectly suited for the inhibition of PVR. The objective of this dissertation was to evaluate select formulations of this unique in situ forming hydrogel as potential vitreous substitutes. This was accomplished through rigorous in vivo rabbit modeled testing of long-term biocompatibility and bioperformance utilizing electroretinography, clinical examination, and histopathological assessment. We hypothesized that the in situ forming hydrogels would serve as a substantial improvement over the current gold standard, silicone oil, in terms of biocompatibility and the ability to inhibit PVR.
The Vitreous and Vitreoretinal Interface
Author: Charles L. Schepens
Publisher: Springer Science & Business Media
Published: 2012-12-06
Total Pages: 400
ISBN-13: 1475719019
DOWNLOAD EBOOKOphthalmic researchers and clinicians alike increasingly are recognizing the importance of the vitreous body in the physiology, biochemistry, and pathology of the inner eye. The Vitreous and Vitreoretinal Interface, with contributions by vitreoretinal surgeons and laboratory eye researchers, presents the most up-to-date clinically relevant data. This book provides evidence of the vitreous body's significant role in preserving retinal homeostasis, as well as the close connection between vitreous traction and such conditions as retinal inflammation, retinal vascular occlusions, macular edema, proliferative diabetic retinopathy, and giant retinal tears. The particular vitreal changes that occur in aphakia, myopia, retinitis pigmentosa, and idiopathic giant retinal breaks, as well as recent advances in open-sky vitreous surgery and in the search for useful vitreous substitutes are discussed.
Environmental Toxicants
Author: Morton Lippmann
Publisher: John Wiley & Sons
Published: 2009-03-26
Total Pages: 1189
ISBN-13: 0470442883
DOWNLOAD EBOOKProvides the most current information and research available for performing risk assessments on exposed individuals and populations, giving guidance to public health authorities, primary care physicians, and industrial managers Reviews current knowledge on human exposure to selected chemical agents and physical factors in the ambient environment Updates and revises the previous edition, in light of current scientific literature and its significance to public health concerns Includes new chapters on: airline cabin exposures, arsenic, endocrine disruptors, and nanoparticles
