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Graefe's Archive for Clinical and Experimental Ophthalmology
Erschienen in: Graefe's Archive for Clinical and Experimental Ophthalmology 8/2004

01.08.2004 | Review

Anomalous posterior vitreous detachment: a unifying concept in vitreo-retinal disease

verfasst von: J. Sebag

Erschienen in: Graefe's Archive for Clinical and Experimental Ophthalmology | Ausgabe 8/2004

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Abstract

Posterior vitreous detachment (PVD) is the consequence of changes in the macromolecular structure of gel vitreous that result in liquefaction, concurrent with alterations in the extracellular matrix at the vitreo-retinal interface that allow the posterior vitreous cortex to detach from the internal limiting lamina of the retina. Gel liquefaction that exceeds the degree of vitreo-retinal dehiscence results in anomalous PVD (APVD). APVD varies in its clinical manifestations depending upon where in the fundus vitreo-retinal adhesion is strongest. At the periphery, APVD results in retinal tears and detachments. In the macula, APVD causes vitreo-macular traction syndrome, results in vitreoschisis with macular pucker or macular holes, or contributes to some cases of diabetic macular edema. At the optic disc and retina, APVD causes vitreo-papillary traction and promotes retinal and optic disc neovascularization. Unifying the spectrum of vitreo-retinal diseases into the conceptual framework of APVD underscores that to more effectively treat, and ultimately prevent, these disorders it is necessary to replicate the two components of an innocuous PVD, i.e., gel liquefaction and vitreo-retinal dehiscence. Pharmacologic vitreolysis is designed to mitigate against APVD by chemically breaking down vitreous macromolecules and weakening vitreo-retinal adhesion to safely detach the posterior vitreous cortex. This would not only facilitate surgery, but if performed early in the natural history of disease, it should prevent progressive disease.
Literatur
1.
Balazs EA (1961) Molecular morphology of the vitreous body. In: Smelser GK (ed) The structure of the eye. Academic, New York, pp 293–310
2.
Balazs EA, Denlinger JL (1982) Aging changes in the vitreus. Aging and human visual function. Liss, New York, pp 45–57
3.
Bishop PN (1996) The biochemical structure of mammalian vitreous. Eye 10:664–670PubMed
4.
Bishop PN (2000) Structural macromolecules and supramolecular organisation of the vitreous gel. Prog Retin Eye Res 19:323–344CrossRefPubMed
5.
Bishop PN, McLeod D, Reardon A (1999) Effects of hyaluronan lyase, hyaluronidase, and chondroitin ABC lyase on mammalian vitreous gel. Invest Ophthalmol Vis Sci 40:2173–2178PubMed
6.
Chow DR, Williams GA, Trese MT, Margherio RR, Ruby AJ, Ferrone PJ (1999) Successful closure of traumatic macular holes. Retina 19:405–409CrossRefPubMed
7.
Chu T, Lopez PF, Cano MR et al (1996) Posterior vitreoschisis—an echographic finding in proliferative diabetic retinopathy. Ophthalmology 103:315–322PubMed
8.
Comper WD, Laurent TC (1978) Physiological functions of connective tissue polysaccharides. Physiol Rev 58:255PubMed
9.
Foulds WS (1987) Is your vitreous really necessary? The role of the vitreous in the eye with particular reference to retinal attachment, detachment and the mode of action of vitreous substitutes (the 2nd Duke-Elder Lecture). Eye 1:641–664PubMed
10.
Hageman GS, Johnson LV (1984) Lectin-binding glycoproteins in the vertebrate vitreous body and inner limiting membrane—tissue localization and biochemical characterization. J Cell Biol 99:179a
11.
Hageman GS, Russell SR (1994) Chondroitinase-mediated disinsertion of the primate vitreous body. Invest Ophthalmol Vis Sci 35(ARVO):1260
12.
Hesse L, Nebeling B, Schroeder B, Heller G, Kroll P (2000) Induction of posterior vitreous detachment in rabbits by intravitreal injection of tissue plasminogen activator following cryopexy. Exp Eye Res 70:31–39CrossRefPubMed
13.
Hikichi T, Masanori K, Yoshida A (1999) Posterior vitreous detachment induced by injection of plasmin and sulfur hexafluoride in the rabbit vitreous. Retina 19:55–58PubMed
14.
Hikichi T, Masanori K, Yoshida A (2000) Intravitreal injection of hyaluronidase cannot induce posterior vitreous detachment in the rabbit. Retina 20:195–198CrossRefPubMed
15.
Jorge R, Oyamaguchi EK, Cardillo JA, Gobbi A, Laicine EM, Haddad A (2003) Intravitreal injection of dispase causes retinal hemorrhages in rabbit and human eyes. Curr Eye Res 26:107–112CrossRefPubMed
16.
Kakehashi A, Schepens CL, de Sousa-Neto A, Jalkh AE, Trempe CL (1993) Biomicroscopic findings of posterior vitreoschisis. Ophthalmic Surg 24:846–850PubMed
17.
Kobayashi S, Fujikawa S, Ohmae M (2000) Enzymatic synthesis of chondroitin and its derivatives catalyzed by hyaluronidase. J Am Chem Soc 125:14357–14369CrossRef
18.
Maumenee IH (1979) Vitreoretinal degenerations as a sign of generalized connective tissue diseases. Am J Ophthalmol 88:432–449PubMed
19.
Mayne R (2001) The eye. Connective tissue and its heritable disorders. Wiley-Liss, New York, pp 131–141
20.
Mayne R, Brewton RG, Ren Z-H (1997) Vitreous body and zonular apparatus. In: Harding JJ (ed) Biochemistry of the eye. Chapman & Hall, London, pp 135–143
21.
Oliviera LB, Tatebayashi M, Mahmoud TH et al (2001) Dispase facilitates posterior vitreous detachment during vitrectomy in young pigs. Retina 21:324–331CrossRefPubMed
22.
Russell SR, Shepherd JD, Hageman GS (1991) Distribution of glycoconjugates in the human internal limiting membrane. Invest Ophthalmol Vis Sci 32:1986–1995PubMed
23.
Scott JE (1992) The chemical morphology of the vitreous. Eye 6:553–555PubMed
24.
Scott JE, Chen Y, Brass A (1992) Secondary and tertiary structures involving chondroitin and chondroitin sulphate in solution, investigated by rotary shadowing electron microscopy and computer simulation. Eur J Biochem 209:675–680PubMed
25.
26.
Sebag J (1987) Age-related changes in human vitreous structure. Graefes Arch Clin Exp Ophthalmol 225:89PubMed
27.
Sebag J (1989) The vitreous: structure, function and pathobiology. Springer, New York Berlin Heidelberg
28.
Sebag J (1991) Age-related differences in the human vitreo-retinal interface. Arch Ophthalmol 109:966–971PubMed
29.
Sebag J (1992) Anatomy and pathology of the vitreo-retinal interface. Eye 6:541–552PubMed
30.
Sebag J (1993) Abnormalities of human vitreous structure in diabetes. Graefes Arch Clin Exp Ophthalmol 231:257–260PubMed
31.
Sebag J (1996) Diabetic vitreopathy. Ophthalmology 103:205–206PubMed
32.
Sebag J (1997) Guest editorial: classifying posterior vitreous detachment—a new way to look at the invisible. Br J Ophthalmol 81:521–522PubMed
33.
Sebag J (1998) Macromolecular structure of vitreous. Prog Polym Sci 23:415–446CrossRef
34.
35.
Sebag J (1998) Vitreous—from biochemistry to clinical relevance. In: Tasman W, Jaeger EA (eds) Duane’s foundations of clinical ophthalmology, vol 1. Lippincott Williams & Wilkins, Philadelphia (Chapter 16)CrossRef
36.
Sebag J (2002) Is pharmacologic vitreolysis brewing? Retina 22:1–3PubMed
37.
Sebag J (2004) Seeing the invisible—the challenge of imaging vitreous. J Biomed Opt 9:38–46CrossRefPubMed
38.
Sebag J, Balazs EA (1989) Morphology and ultrastructure of human vitreous fibers. Invest Ophthalmol Vis Sci 30:1867–1871PubMed
39.
Sebag J, Hageman GS (2000) Interfaces. Eur J Ophthalmol 10:1–3PubMed
40.
Sebag J, Buckingham B, Charles MA, Reiser K (1992) Biochemical abnormalities in vitreous of humans with proliferative diabetic retinopathy. Arch Ophthalmol 110:1472–1479PubMed
41.
Sebag J, Nie S, Reiser KA, Charles MA, Yu NT (1994) Raman spectroscopy of human vitreous in proliferative diabetic retinopathy. Invest Ophthalmol Vis Sci 35:2976–2980PubMed
42.
Sebag J, Ansari RR, Dunker S, Suh SI (1999) Dynamic light scattering of diabetic vitreopathy. Diabetes Technol Ther 1:169–176CrossRefPubMed
43.
Sheehan JK, Atkins EDT, Nieduszynski IA (1975) X-ray diffraction studies on the connective tissue polysaccharides. Two dimensional packing scheme for threefold hyaluronic chains. J Mol Biol 91:153–163PubMed
44.
Snead MP, Yates JRW (1999) Clinical and molecular genetics of Stickler syndrome. J Med Genet 36:353PubMed
45.
Tezel TH, Del Priore LV, Kaplan HJ (1998) Posterior vitreous detachment with dispase. Retina 18:7–15PubMed
46.
Trese MT, Williams GA, Hartzer MK (2000) A new approach to stage 3 macular holes. Ophthalmology 107:1607–1611CrossRefPubMed
47.
Unal M, Peyman GA (2000) The efficacy of plasminogen–urokinase combination in inducing posterior vitreous detachment. Retina 20:69–75CrossRefPubMed
48.
Valmaggia C, Willekens B, de Smet M (2003) Microplasmin induced vitreolysis in porcine eyes. Invest Ophthalmol Vis Sci 44(ARVO):3050CrossRef
49.
Verstraeten T, Chapman C, Hartzer M, Winkler BS, Trese MT, Williams GA (1993) Pharmacologic induction of PVD in the rabbit. Arch Ophthalmol 111:849PubMed
50.
Williams JG, Trese MT, Williams GA, Hartzer MK (2001) Autologous plasmin enzyme in the surgical management of diabetic retinopathy. Ophthalmology 108:1902–1905CrossRefPubMed
Metadaten
Titel
Anomalous posterior vitreous detachment: a unifying concept in vitreo-retinal disease
verfasst von
J. Sebag
Publikationsdatum
01.08.2004
Erschienen in
Graefe's Archive for Clinical and Experimental Ophthalmology / Ausgabe 8/2004
Print ISSN: 0721-832X
Elektronische ISSN: 1435-702X
DOI
https://doi.org/10.1007/s00417-004-0980-1

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