Screening for vascular complications in children and adolescents with type 1 diabetes mellitus

Type 1 diabetes mellitus poses a significant health burden, particularly as a result of its microvascular complications. Clinically evident diabetes-related microvascular complications are extremely rare in childhood and adolescence. However, early functional and structural abnormalities may be present a few years after the onset of the disease. Therefore, regular screening for diabetic microvascular disease, particularly retinopathy and nephropathy, are of foremost importance in paediatric diabetes care. Early detection of diabetic microangiopathy and timely treatment of early signs of these complications have a pivotal role in prevention of blindness and end-stage renal failure in children and adolescents with diabetes.     

The relationship between the IGF-I system and its binding proteins and microvascular reactivity in Type 1 diabetes mellitus

The system of IGF-I and its binding proteins may be involved in the pathogenesis of vascular damage in Type 1 diabetes. The aim of this study was to analyze the relationship between this system and the microvascular reactivity in Type 1 diabetes as measured by laser-Doppler flowmetry. Twenty-two Type 1 diabetic patients (13 women and 9 men) with microangiopathy and fifteen healthy subjects (8 women and 7 men) were examined clinically, underwent laser-Doppler flowmetry and intima-media thickness measurements. Fasting serum levels of IGF-I, free IGF-I, IGFBPs and lipids were examined. The microvascular reactivity was impaired in Type 1 diabetic patients. Maximal perfusion during post-occlusive reactive hyperemia (PORHmax) and during thermal hyperemia (THmax) was significantly decreased in Type 1 diabetes (p<0.01). Percentage perfusion increase in both tests (PORH and TH) was lower in Type 1 diabetes mellitus (p<0.01) and the reaction after heating was slower in diabetic patients (THmax) (p<0.01). We did not find any significant dependence of microvascular reactivity on the parameters of IGF-I or its binding proteins. We conclude that the microvascular reactivity is impaired in Type 1 diabetes mellitus, but this impairment is not clearly dependent on the activity of the IGF-I system. It is probably only a complementary pathogenic factor.     

Proteinuria: value as predictor of cardiovascular mortality in insulin dependent diabetes mellitus.

The relation between diabetic microangiopathy and macroangiopathy was studied by analysing the relative mortality from cardiovascular disease in patients with insulin dependent diabetes mellitus with and without persistent proteinuria. The study group comprised 2890 diabetics diagnosed between 1933 and 1972 before the age of 31, and the study was conducted by using the linear logistic discrete failure time model. In patients with proteinuria the relative mortality from cardiovascular disease was 37 times that in the general population; in patients without proteinuria it was 4.2 times that in the general population. In both groups women had a relative mortality twice to 2.6 times that of men. In neither group was relative mortality correlated with duration of diabetes, suggesting that the association between diabetes and cardiovascular disease may be conferred by factors other than hyperglycaemia and hyperinsulinaemia. The high relative mortality from cardiovascular disease in diabetics with proteinuria indicates a strong association between diabetic microangiopathy and macroangiopathy, suggesting a common (pathogenetic?) mechanism for these two late diabetic complications.     

硫辛酸在糖尿病微血管病变治疗中的作用

糖尿病是危害人群健康的一种慢性疾病。糖尿病微血管病变是糖尿病的特异性病变,其并发症主要包括肾脏病变,视网膜病变及神经病变。而其发生受多种因素影响,其发生机制研究已形成多种学说,主要有非酶糖基化、多元醇通路、氧化应激及己糖胺通路学说等。近年来硫辛酸对糖尿病微血管并发症的治疗作用是国内外研究的热点,硫辛酸是高效抗氧化剂,清除自由基和活性氧,再生体内谷胱甘肽等其他抗氧化剂,减弱氧化应激,从而硫辛酸可减弱多种糖尿病微血管并发症的诱发因素,并干预多元醇通路与己糖胺通路,对糖尿病微血管并发症中的相应靶器官有保护作用,本文就硫辛酸在糖尿病微血管病变中的应用做一简要综述。     

Plasma inactive renin in patients with diabetes mellitus: effects of standing and the relation to serum protease inhibitor

In order to investigate the mechanisms of increased plasma inactive renin in diabetics with microvascular complications, changes in active and inactive renin with the progress of diabetes mellitus were studied, and effects of standing on inactive renin release and the relationship between plasma inactive renin and serum trypsin or protease inhibitors wee also studied. Inactive renin increased with the aggravation of diabetes mellitus, but active renin didn't show significant changes with the aggravation of diabetes mellitus. Active renin was significantly increased both in the healthy subjects and in the diabetic patients when they were in an upright position, but no significant change was observed in inactive renin. Serum trypsin in diabetics with retinopathy and nephropathy was lower than that in those with no clinical sign of microangiopathy, but the correlation between plasma inactive renin and serum trypsin was not significant. There was a significant correlation between plasma inactive renin and serum alpha 2-globulin (r = 0.52, p less than 0.01). Although plasma inactive renin was not significantly correlated with serum alpha 1-antitrypsin, there was a significant correlation between plasma inactive renin and serum alpha 2-macroglobulin (r = 0.61, p less than 0.01). These results show that the increased levels of plasma inactive renin observed with the development of diabetic microangiopathy are probably related to the altered plasma protein metabolism observed in patients with diabetes mellitus. However, it is not clear whether this altered protein metabolism is related to the conversion from inactive to active renin.     

The retina: oxidative stress and diabetes

A prominent and early feature of the retinopathy of diabetes mellitus is a diffuse increase in vascular permeability. As the disease develops, the development of frank macular oedema may result in vision loss. That reactive oxygen species production is likely to be elevated in the retina, and that certain regions of the retina are enriched in substrates for lipid peroxidation, may create an environment susceptible to oxidative damage. This may be more so in the diabetic retina, where hyperglycaemia may lead to elevated oxidant production by a number of mechanisms, including the production of oxidants by vascular endothelium and leukocytes. There is substantial evidence from animal and clinical studies for both impaired antioxidant defences and increased oxidative damage in the retinae of diabetic subjects that have been, in the case of animal studies, reversible with antioxidant supplementation. Whether oxidative damage has a causative role in the pathology of diabetic retinopathy, and thus whether antioxidants can prevent or correct any retinal damage, has not been established, nor has the specific nature of any damaging species been characterised.     

Changes in oxidant-antioxidant status in young diabetic patients from clinical onset onwards

Oxidative stress has been implicated as a mechanism underlying hyperglycaemia-associated cellular damage and could play a role in the development of diabetes-related complications. This study aimed to evaluate the significance of changes in oxidant-antioxidant status in 176 child and adolescent diabetic patients at clinical onset, during disease progression and when early microvascular complications appeared. Indicative lipid and protein oxidation markers and antioxidant defence activity were measured in plasma and correlated with clinical data, diabetes duration, long-term glycometabolic control and serum lipids. Compared with their respective age-matched controls, diabetic patients had greater oxidative damage to lipids and proteins, demonstrated through the analysis of hydroperoxides, lipoperoxides and oxidation protein products, all of which were significantly raised at onset, decreased during the first 1.5 years of evolution and rose progressively thereafter. Plasma levels of oxidizable lipids were significantly associated with lipid and protein oxidation products. Overall, plasma antioxidant capacity was significantly and consistently lower from clinical onset onwards. These results suggest that insulin therapy in the first year improved metabolic and oxidant homeostasis and consequently hyperglycaemia-derived biomolecular oxidative damage. Diabetes-associated hyperlipidaemia is related to lipid and protein oxidation processes, which supports the concept of glucose toxicity and lipotoxicity being interrelated. The greatest increase in lipid and protein oxidative damage biomarkers in young diabetic patients with premature microangiopathy points to oxidative stress as a possible contributing mechanism of microvascular dysfunction. Consequently, tight lipid and glycometabolic control may have therapeutic potential by diminishing oxidative tissue-damaging effects of hyperglycaemia.     

At last the organ grinder...

Abstract

A prominent and early feature of the retinopathy of diabetes mellitus is a diffuse increase in vascular permeability. As the disease develops, the development of frank macular oedema may result in vision loss. That reactive oxygen species production is likely to be elevated in the retina, and that certain regions of the retina are enriched in substrates for lipid peroxidation, may create an environment susceptible to oxidative damage. This may be more so in the diabetic retina, where hyperglycaemia may lead to elevated oxidant production by a number of mechanisms, including the production of oxidants by vascular endothelium and leukocytes. There is substantial evidence from animal and clinical studies for both impaired antioxidant defences and increased oxidative damage in the retinae of diabetic subjects that have been, in the case of animal studies, reversible with antioxidant supplementation. Whether oxidative damage has a causative role in the pathology of diabetic retinopathy, and thus whether antioxidants can prevent or correct any retinal damage, has not been established, nor has the specific nature of any damaging species been characterised.     

Microvascular abnormalities in capillaroscopy correlate with higher serum IL-18 and sE-selectin levels in patients with type 1 diabetes complicated by microangiopathy

Microvascular abnormalities are one of the most important causes of persistent diabetic complications. The aim of this study was to compare microvascular changes examined by nailfold capillaroscopy with serum concentrations of soluble E-selectin (sE-selectin) and IL-18 in type 1 diabetic patients with and without microangiopathy. Serum levels of sE-selectin and IL-18 were determined by an enzyme-linked immunosorbent assay in 106 patients with type 1 diabetes and in 40 healthy controls. All diabetic patients were evaluated by extensive clinical, laboratory and capillaroscopic studies. Morphological changes were observed by nailfold capillaroscopy in 86 out of 106 (81%) diabetic patients. Severe capillaroscopic changes were seen in 32 out of 54 (59%) patients with microangiopathy, but in only seven out of 52 (13%) patients without microangiopathy. Higher serum levels of sE-selectin (p < 0.001) and IL-18 (p < 0.05) were demonstrated in diabetic patients compared to controls. Significant differences of sE-selectin (p , 0.001) and IL-18 (p < 0.01) serum concentrations were observed between diabetic patients with microangiopathy and controls. Moreover, comparison between patients with and without microangiopathic complications showed a significantly higher capillaroscopic score and sE-selectin serum concentration in the group with microangiopathy (p < 0.001). Furthermore, diabetic patients with severe microvascular changes in capillaroscopy showed significantly higher IL-18 (p < 0.001) and sE-selectin (p < 0.05) serum levels than subgroups without changes or with mild abnormalities. Our findings suggest that abnormalities in nailfold capillaroscopy may reflect the extent of microvascular involvement and are associated with higher sE-selectin and IL-18 serum levels, as well as with microangiopathic complications in diabetic patients.     

Effects of C-peptide on Microvascular Blood Flow and Blood Hemorheology

Beside functional and structural changes in vascular biology, alterations in the rheologic properties of blood cells mainly determines to an impaired microvascular blood flow in patients suffering from diabetes mellitus. Recent investigations provide increasing evidence that impaired C-peptide secretion in type 1 diabetic patients might contribute to the development of microvascular complications. C-peptide has been shown to stimulate endothelial NO secretion by activation of the Ca²⁺ calmodolin regulated enzyme eNOS. NO himself has the potency to increase cGMP levels in smooth muscle cells and to activate Na⁺ K⁺ ATPase activity and therefore evolves numerous effects in microvascular regulation. In type 1 diabetic patients, supplementation of C-peptide was shown to improve endothelium dependent vasodilatation in an NO-dependent pathway in different vascular compartments. In addition, it could be shown that C-peptide administration in type 1 diabetic patients, results in a redistribution of skin blood flow by increasing nutritive capillary blood flow in favour to subpapillary blood flow. Impaired Na⁺ K⁺ ATPase in another feature of diabetes mellitus in many cell types and is believed to be a pivotal regulator of various cell functions. C-peptide supplementation has been shown to restore Na⁺ K⁺ATPase activity in different cell types during in vitro and in vivo investigations. In type 1 diabetic patients, C-peptide supplementation was shown to increase erythrocyte Na⁺ K⁺ATPase activity by about 100%. There was found a linear relationship between plasma C-peptide levels and erythrocyte Na⁺ K⁺ATPase activity. In small capillaries, microvascular blood flow is increasingly determined by the rheologic properties of erythrocytes. Using laser-diffractoscopie a huge improvement in erythrocyte deformability could be observed after C-peptide administration in erythrocytes of type 1 diabetic patients. Inhibition of the Na⁺ K⁺ATPase by Obain completely abolished the effect of C-peptide on erythrocyte deformability. In conclusion, C-peptide improves microvascular function and blood flow in type 1 diabetic patients by interfering with vascular and rheological components of microvascular blood flow.     

Immunologic autoagression in patients with diabetic retinopathy under type I diabetes mellitus

Presence of IgG autoantibodies to broad spectrum of tissues' antigens in patients with diabetic retinopathy under type I diabetes mellitus was studied. Increased levels of antibodies to different antigens were observed in 56% of patients. Increased levels of antibodies to hypophysis, denaturated DNA, and myelin basic protein were detected most frequently. Correlation in presence of autoantibodies of different specificity with diabetes length as well as with frequency of respiratory infections was established. There was relation between level of antibodies to DNA and increased permeability of microvascular network of retina as well as between presence of autoantibodies to myelin basic protein and encephalopathy in patients with type I diabetes mellitus.     

Microvascular permeability is increased in both types of diabetes and correlates differentially with serum levels of insulin-like growth factor I (IGF-I) and vascular endothelial growth factor (VEGF).

Vascular endothelial growth factor (VEGF) and insulin-like growth factor-I (IGF-I) both play a pivotal role in diabetic microangiopathy. This study assessed the relationship between capillary permeability as a marker of endothelial dysfunction and serum VEGF and IGF-I levels in normotensive diabetics. Subjects were 10 Type 1 (6/4, male/female, age: 30 [mean] +/- 5 [SD] years, HbA1c: 7.5 +/- 1.1 %), 13 Type 2 diabetics (9/4, m/f; 63 +/- 7 years, 8.3 +/- 1.8 %), and 24 age- and sex-matched control subjects. We determined nailfold capillary permeability by intravital fluorescence videomicroscopy after intravenous injection of sodium-fluorescein. Serum VEGF, free and total IGF-I, IGF binding protein (IGFBP)-1, IGFBP-3, and insulin levels were measured by specific immunoassays. Capillary permeability was increased in both types of diabetes patients compared to age- and sex-matched controls. In Type 1 diabetics, fluorescence light intensities increased over time, reaching significance 30 minutes after dye injection. Type 2 diabetics already revealed an early onset of elevated fluorescence light intensities after one minute. Capillary permeability showed a significant positive correlation with VEGF levels in Type 1 diabetics, (r = 0.76, p < 0.05; 20 min after dye injection) but with free IGF-I levels in type 2 diabetics (r = 0.65, p < 0.05; 5 min after dye injection). IGFBP-3 correlated negatively with capillary permeability in both diabetes types, whereas IGFBP-1 levels correlated positively in Type 2 patients. In conclusion, capillary permeability is increased in both types of diabetes mellitus. However, VEGF and IGF-I may differentially affect microvascular permeability depending on the diabetes type.     

WITHDRAWN: Expression of p53, p63, and p73 isoforms in squamous cell carcinoma and adenocarcinoma of esophagus☆,☆☆

Diabetic microangiopathy is often observed in diabetic patients, but there is little evidence regarding the relationship between post-prandial glycemia or insulinemia and the incidence of diabetic microangiopathy. In this study, to elucidate the relationship between post-prandial glycemia (or insulinemia) and diabetic microangiopathy, we performed a cross-sectional study of 232 subjects with type 2 diabetes mellitus who were not being treated with insulin injections. A multiple regression analysis showed that post-prandial hyperglycemia independently correlated with the incidence of diabetic retinopathy and neuropathy. Post-prandial hyperglycemia also correlated, although not independently, with the incidence of diabetic nephropathy. In addition, interestingly, post-prandial hypoinsulinemia independently correlated with the incidence of diabetic retinopathy, although not correlated with diabetic neuropathy or nephropathy. In conclusion, post-prandial hyperglycemia, rather than fasting glycemia or hemoglobin A1c levels, is an important predictor of the incidence of diabetic microangiopathy in Japanese type 2 diabetic patients.     

Small artery remodelling in diabetes

The aim of this article is to briefly review available data regarding changes in the structure of microvessels observed in patients with diabetes mellitus, and possible correction by effective treatment. The development of structural changes in the systemic vasculature is the end result of established hypertension. In essential hypertension, small arteries of smooth muscle cells are restructured around a smaller lumen and there is no net growth of the vascular wall, although in some secondary forms of hypertension, a hypertrophic remodelling may be detected. Moreover, in non-insulin-dependent diabetes mellitus a hypertrophic remodelling of subcutaneous small arteries is present. Indices of small resistance artery structure, such as the tunica media to internal lumen ratio, may have a strong prognostic significance in hypertensive and diabetic patients, over and above all other known cardiovascular risk factors. Therefore, regression of vascular alterations is an appealing goal of antihypertensive treatment. Different antihypertensive drugs seem to have different effect on vascular structure. In diabetic hypertensive patients, a significant regression of structural alterations of small resistance arteries with drugs blocking the renin–angiotensin system (angiotensin-converting enzyme inhibitors, angiotensin II receptor blockers) was demonstrated. Alterations in the microcirculation represent a common pathological finding, and microangiopathy is one of the most important mechanisms involved in the development of organ damage as well as of clinical events in patients with diabetes mellitus. Renin–angiotensin system blockade seems to be effective in preventing/regressing alterations in microvascular structure.     

Losartan attenuates microvascular permeability in mechanical ventilator-induced lung injury in diabetic mice

Mechanical ventilation can cause direct injury to the lungs, a type of injury known as ventilator-induced lung injury (VILI). VILI is associated with up-regulates angiotensinogen and AT1 receptor expression of in the lung. This work explored effects of losartan on VILI in diabetic mice. Ninty-six C57Bl/6 mice were randomly divided into six groups, control group (C group), diabetes group (D group), diabetes mechanical ventilation group (DV group), losartan control group (L + C group), losartan treatment group in diabetic mice (L + D group) and losartan treatment group in mechanical ventilation diabetic mice (L + DV group). Lung W/D, myeloperoxidase (MPO) activity, microvascular permeability, blood–gas analysis, Ang II concentrations and AT-1R protein expression were measured. Compared with D group, DV group increased Ang II concentrations, AT-1R protein expression, W/D ratio, MPO activity, and microvascular permeability. PaO₂ were significantly lower in the DV group than D group or control group. Compared with DV group, L + DV group attenuates ventilator-induced lung injury in diabetic mice and prevented the increase Ang II concentrations, AT-1R protein expression and microvascular permeability caused by ventilation in diabetic mice. This study provides in vivo evidence that losartan attenuates microvascular permeability via down-regulates Ang II and AT-1R expression in mechanical ventilator-induced lung injury in diabetic mice.     

Parameters of systemic hemodynamics in conscious rats with acute streptozotocin diabetes]

The effect of acute streptozotocin-induced diabetes mellitus on the systemic hemodynamic parameters was studied in conscious rats by thermodilution technique. Male Wistar rats were made diabetic with a single intravenous injection of streptozotocin (STZ, 50 mg/kg). The most important finding of this work was the elucidation of the systemic vasodilation and increased cardiac index one day after STZ injection. Such alteration in hemodynamic parameters could result in the increased blood flow and capillary hypertension in some vascular beds and, therefore, be considered as a pathogenic factor in the development of diabetic microangiopathy.     

AMPK in microvascular complications of diabetes and the beneficial effects of AMPK activators from plants

BackgroundDiabetes mellitus is a multifactorial disorder with the risk of micro- and macro-vascular complications. High glucose-induced derangements in metabolic pathways are primarily associated with the initiation and progression of secondary complications namely, diabetic nephropathy, neuropathy, and retinopathy. Adenosine monophosphate-activated protein kinase (AMPK) has emerged as an attractive therapeutic target to treat various metabolic disorders including diabetes mellitus. It is a master metabolic regulator that helps in maintaining cellular energy homeostasis by promoting ATP-generating catabolic pathways and inhibiting ATP-consuming anabolic pathways. Numerous pharmacological and plant-derived bioactive compounds that increase AMP-activated protein kinase activation has shown beneficial effects by mitigating secondary complications namely retinopathy, nephropathy, and neuropathy.PurposeThe purpose of this review is to highlight current knowledge on the role of AMPK and its activators from plant origin in diabetic microvascular complications.MethodsSearch engines such as Google Scholar, PubMed, Science Direct and Web of Science are used to extract papers using relevant key words. Papers mainly focusing on the role of AMPK and AMPK activators from plant origin in diabetic nephropathy, retinopathy, and neuropathy was chosen to be highlighted.ResultsAccording to results, decrease in AMPK activation during diabetes play a causative role in the pathogenesis of diabetic microvascular complications. Some of the plant-derived bioactive compounds were beneficial in restoring AMPK activity and ameliorating diabetic microvascular complications.ConclusionAMPK activators from plant origin are beneficial in mitigating diabetic microvascular complications. These pieces of evidence will be helpful in the development of AMPK-centric therapies to mitigate diabetic microvascular complications.     

糖尿病肾病发病分子机制

糖尿病肾病(DN)是高血糖所导致的一种主要的微血管并发症。在全世界糖尿病病人中,糖尿病肾病都有着非常高的发病率和致死率。并且在中国,糖尿病肾病已经成为一种常见的导致末期肾衰竭的因素。由于糖尿病肾病患者不断增多,传统的单纯通过控制血糖来控制糖尿病肾病并没有取得理想的效果,因此临床上迫切需要一些新的治疗方法来控制糖尿病肾病的发生和发展。最近的研究表明肾素-血管紧张素-醛固酮系统(RAAS)、蛋白激酶-C(PKC)、还原型烟酰胺腺嘌呤二核苷酸磷酸(NADPH)氧化酶、转化生长因子-β(TGF-β)等都单独的或共同的参与了DN的发生和发展过程。这些通路彼此交叉,十分复杂,因此需要对糖尿病肾病发病分子机制进行全面的综合的理解。这篇文章旨在讨论已发现的与糖尿病肾病密切相关的分子机制以及下调通路。     

Diabetes induces metabolic adaptations in rat liver mitochondria: role of coenzyme Q and cardiolipin contents

Several studies have been carried out to evaluate the alterations in mitochondrial functions of diabetic rats. However, results are sometimes controversial, since experimental conditions diverge, including age and strain of used animals. The purpose of this study was to evaluate the metabolic modifications in liver mitochondria, both in the presence of severe (STZ-treated rats) and mild hyperglycaemia [Goto-Kakizaki (GK) rats], when compared with control animals of similar age. Moreover, metabolic alterations were evaluated also at initial and advanced stages of the disease. We observed that both models of diabetes (type 1 and type 2) presented a decreased susceptibility of liver mitochondria to the induction of permeability transition (MPT). Apparently, there is a positive correlation between the severity of diabetes mellitus (and duration of the disease) and the decline in the susceptibility to MPT induction. We also found that liver mitochondria isolated from diabetic rats presented some metabolic adaptations, such as an increase in coenzyme Q and cardiolipin contents, that can be responsible for the observed decrease in the susceptibility to multiprotein pore (MPTP) opening.     

Retinal blood flow in diabetic retinopathy.

OBJECTIVES--(a) To report on the basic parameters of retinal blood flow in a population of diabetic patients with and without retinopathy and non-diabetic controls; (b) to formulate a haemodynamic model for the pathogenesis of diabetic retinopathy from this and other studies. DESIGN--Laser-Doppler velocimetry and computerised image analysis to determine retinal blood flow in a large cross sectional study. SETTING--Diabetic retinopathy outpatient clinic. SUBJECTS--24 non-diabetic controls and 76 diabetic subjects were studied (63 patients with insulin dependent diabetes, 13 with non-insulin dependent diabetes). Of the diabetic subjects, 12 had no diabetic retinopathy, 27 had background retinopathy, 13 had pre-proliferative retinopathy, 12 had proliferative retinopathy, and 12 had had pan-retinal photocoagulation for proliferative retinopathy. MAIN OUTCOME MEASURES--Retinal blood flow (microliters/min) and conductance (rate of flow per unit of perfusion pressure). RESULTS--In comparison with non-diabetic controls (9.52 microliters/min) and diabetic patients with no diabetic retinopathy (9.12 microliters/min) retinal blood flow was significantly increased in all grades of untreated diabetic retinopathy (background 12.13 microliters/min, pre-proliferative 15.27 microliters/min, proliferative 13.88 microliters/min). There was a significant decrease in flow after pan-retinal photocoagulation in comparison with all the other groups studied (4.48 microliters/min). Conductance of the retinal circulation was higher in the untreated diabetic retinopathy groups. These results were independent of age, sex, type of diabetes, duration of diabetes, glycated haemoglobin concentration, blood glucose concentration, blood pressure, and intraocular pressure. CONCLUSIONS--Retinal blood flow is significantly increased in diabetic retinopathy in comparison with non-diabetic controls and diabetic subjects with no retinopathy. This has implications for controlling hypertension and hyperglycaemia as a strategy in reducing morbidity from diabetic retinopathy.