Hong Kong programme of screening, treating and monitoring in retinopathy of prematurity (ROP)

Tam, Tak-yau., 譚德祐.

January 2011

published_or_final_version / Public Health / Master / Master of Public Health

Retrolental fibroplasia.

Medical screening.

VEGF-A, VEGF-B and PIGF in mouse oxygen induced retinopathy /

Shi, Shuning.

January 2002

Thesis (M.Med.Sc.) - University of Queensland, 2003. / Includes bibliography.

Some metabolic effects of high oxygen concentrations in relation to retrolental fibroplasia

Swartz, Jean Gibson

15 November 2013

Newborn rats and young guinea pigs have been exposed to high oxygen concentrations with subsequent analyses of ascorbic acid in liver and brain tissue. Newborn vats show a depletion of liver ascorbic acid only after exposure to 100% oxygen. Extending the exposure period in 70% oxygen did not result in any depletion. Brain ascorbic acid levels in newborn rats were depleted by exposure to both 100% and 70% oxygen until the 14th day of life. After that age, exposure failed to cause depletion. Guinea pigs identically exposed showed ascorbic acid depletion in both brain and liver tissue with the more marked depletion occurring in liver tissue. Abnormalities in the eyes of the experimental guinea pigs were demonstrated. Results of the tissue Vitamin A analyses are incomplete and inconclusive at this time. / Master of Science

LD5655.V855 1957.S927

Retrolental fibroplasia

Effect of aldose reductase in an animal model of oxygen-induced retinopathy

Fu, Zhongjie., 傅中捷.

January 2012

 Retinopathy of prematurity (ROP) commonly occurs in premature babies, with the first phase of vessel cessation followed by a second phase of vessel proliferation. In addition to vascular changes, neuronal abnormalities have also been observed. However, evidence for morphological changes of retinal neurons at the cellular level is lacking. Oxidative stress has been highly indicated in the pathogenesis of ROP. Increased oxidative stress level was demonstrated in preterm babies expecially in those with ROP. The activity of aldose reductase (AR), the first enzyme in the polyol pathway, has been found to contribute to oxidative stress. Therefore, the role of AR in ROP was examined using a mouse model of oxygen-induced retinopathy (OIR), which was a well-established model to mimic human ROP. Studies in examining the effects of AR on retinal vasculature showed that genetic deletion or pharmacological inhibition of AR reduced vaso-obliteration and neovascularization, possibly through regulating VEGF-induced pathway. In addition, morphological changes of various retinal neurons at different time points in the mouse model of OIR were also demonstrated. The degree of effects from hyperoxic and hypoxic exposure appeared to depend on the different stages of maturation of various retinal neurons. AR deficiency showed protective effects on retinal neurons including horizontal cells, rod bipolar cells and amacrine cells, possibly through attenuating the damage on blood vessels as well as facilitating blood vessel re-growth in the avascular area which provide more nutrients and supply to the retinal neurons. To elucidate the protective role of AR deficiency in ROP, the changes in oxidative stress and oxygen-dependent gene expression including HIF-1α and iNOS were investigated. AR deficiency attenuated oxidative stress induction to protect the neonatal retina. In addition, AR deficiency also showed attenuated HIF-1α expression and enhanced iNOS expression. This served to strictly control the HIF-1α level which in turn can tightly regulate VEGF induction in the mouse retinae after OIR. In order to further elucidate the role of AR in the pathogenesis of ROP, effects of AR deficiency on glial cells and microglia were investigated. AR deficiency reduced retinal astrocytic activation in hyperoxia and induced early M?ller cell gliosis in hypoxia. In addition, AR deficiency enhanced the specific function of microglia in different areas with facilitation of revascularization in avascular area and promotion of tufts regression in neovascular area. Moreover, AR deficiency also reduced the activation of a key inflammatory mediator NF-κB, which was considered to contribute to neovascularization. Therefore, AR deficiency demonstrated regulatory roles in reponses of glial cells, microglia and inflammation, contributing to the protective effects on neonatal retina in the mouse model of OIR. Taken together, AR deficiency reduced the vascular and neuronal changes possibly through attenuating oxidative stress and glial responses as well as modulating inflammatory responses, indicating a beneficial role of AR inhibition in OIR. These findings highly suggest the therapeutic potential of AR inhibition in the treatment of ROP. / published_or_final_version / Anatomy / Doctoral / Doctor of Philosophy

Aldose reductase.

Retrolental fibroplasia - Animal models.

Oxidative stress.

The expression of the VEGF gene in a mouse model of oxygen-induced retinopathy /

Kong, Lingkun.

January 2000

Thesis (Ph.D.) - University of Queensland, 2003. / Includes bibliography.

Neuropsychological Sequelae of Adult Subjects with Retinopathy of Prematurity Compared to Other Blind Populations

O'Brien, Eugene Patrick

08 1900

The blind have generally been considered to be a homogeneous population whose deficits arise from an interaction of loss of vision, age of onset and socialization. Sequelae are posited to exist merely due to the limiting effects of blindness on experience. This is believed to affect all blind persons equally regardless of cause of blindness provided that independent secondary disabilities do not exist. This study investigated the possibility that different causes of blindness are related to specific neuropsychological deficits which cannot be explained by the mere presence of blindness. It was found that neuropsychological differences existed among specific sub-populations of blind persons. These results suggested that the cause of blindness may be a marker for specific Central Nervous System involvement.

neuropsychological sequelae

adults

retinopathy of prematurity

Blind.

Neuropsychology.

Blindness.

Retrolental fibroplasia.

Retinopathy of prematurity in British Columbia, 1952-1983

Gibson, Donna Lee

January 1987

In recent years, concern about a new epidemic of retinopathy of prematurity (ROP) has focused attention on the increasing incidence of the disease and the factors responsible for its most severe consequences. Two studies designed to address these issues were done using data from three sources: the B.C. Health Surveillance Registry (Registry), Physicians's Notices of Livebirth (PNOB), and the Vancouver General Hospital (VGH). In the first study, Registry and PNOB records were used to determine crude annual birth weight-specific incidence rates for ROP in infants liveborn in the Province of British Columbia (B.C.) in the period 1952-1983. These rates showed that, in B.C., the original epidemic of the disease ended in 1954. Linear regression lines fitted for each of four birth weight categories showed that, in the 29 year period after 1954, there was a significant increase in the incidence of ROP-induced blindness in infants weighing less than 1000 grams at birth. To refine this observation, the data were sub-divided: the 29 year period, to two smaller periods, 1955-1964 and 1965-1983; the less than 1000 gram birth weight category to two sub-categories, 500-749 and 750-999 grams. Since the inter-period incidence should have been similar if the birth weight-specific incidence had not changed since the end of the original epidemic, the crude weight-specific rates for ROP-induced blindness in the early period were used to calculate the expected number of cases in the later period. When weight-standardized incidence ratios (SIR's) and 95% confidence limits were calculated, the results showed that, in the 750-999 gram sub-category, the SIR was significantly increased. Infants born in the period 1965-1983 were 3.07 times more likely to be ROP: blind than their equal weight counterparts in the earlier period. In infants weighing 500-749 and 1000 grams or more, there was no evidence to suggest an increase in incidence after 1954. The second study was done to determine the cofactors that differentiate infants who are blinded by ROP from those who are not. Infants were included if (i) they were born in B.C. between 1955 and 1983, (ii) they were known to the Registry as being ROP: blind (cases) or not blind (controls), and (iii) they were born in or admitted to the VGH within 28 days of birth. When the data from all three data sources were dichotomized and analyzed using univariate techniques, two variables, respiratory distress syndrome (RDS) and neonatal weight loss, showed a significantly protective effect. The effect of RDS disappeared when the data were stratified by birth interval indicating that the observed association was confounded by time. When the variables were reanalyzed in continuous form, none were significantly associated with visual outcome. However, since the power of the cofactor study was extremely low, none of the variables that were included can be eliminated as potential cofactors for the induction of blindness in infants with ROP. / Medicine, Faculty of / Population and Public Health (SPPH), School of / Graduate

Retrolental fibroplasia

Retinopathy of Prematurity

Blind children -- British Columbia

Blindness -- British Columbia

The molecular mechanism of action of the antiangiogenic natural product, cremastranone

Basavarajappa, Halesha Dhurvigere

16 May 2016

Indiana University-Purdue University Indianapolis (IUPUI) / Prevention of pathological angiogenesis is a key strategy for treatment of common blinding ocular diseases such as retinopathy of prematurity, proliferative diabetic retinopathy, and wet age-related macular degeneration. The current treatment strategies are associated with partial vision loss and are ineffective in a significant patient population. Hence novel drugs as well as new ways to target ocular angiogenesis are needed for treating these diseases. I pursued a natural antiangiogenic compound, cremastranone, to develop novel drug leads and to find new targets. The objective of my doctoral thesis project was to elucidate cremastranone’s molecular mechanism of action and optimize its structureactivity relationship (SAR). In order to achieve this goal, with the help of chemistry collaborators cremastranone was synthesized for the first time. I showed that cremastranone has 50-fold more potency against endothelial cells as compared to nonendothelial cells, and also tested a novel active isomer, SH-11052. By SAR studies I identified a potent molecule, SH-11037, that has 10-fold more selectivity against retinal endothelial cells as compared to macrovascular endothelial cells. I then elucidated cremastranone’s molecular mechanism using a chemical proteomic approach. I identified ferrochelatase (FECH) as a specific interacting protein partner of cremastranone using photoaffinity chromatography. Hence, I hypothesized that cremastranone exerts its antiangiogenic activities through modulation of the functions of FECH. Cremastranone inhibited the enzymatic activity FECH in endothelial cells. Therefore, I investigated the role of FECH in ocular angiogenesis. Partial loss of FECH, using a siRNA-based knock down approach, decreased retinal angiogenesis both in vitro and in vivo in mouse models. Knock down of FECH decreased the expression levels of key proangiogenic proteins HIF-1α, eNOS, and VEGFR2. This work suggests that ferrochelatase plays an important, previously undocumented role in angiogenesis and that targeting of this enzyme by cremastranone might be exploited to inhibit pathological angiogenesis in ocular diseases.

Cremastranone

Ferrochelatase

Griseofulvin

Ocular angiogenesis

Photoaffinity Pulldown

SH-11037

Neovascularization

Retina -- Diseases

Retrolental fibroplasia -- Treatment

Diabetic retinopathy -- Treatment

Retinal degeneration -- Treatment

Retinal degeneration -- Age factors

Organic compounds

Chemicals

Enzymes