Inhibition of lipid peroxidation with the lazaroid U74500A attenuates ischemia-reperfusion injury in a canine orthotopic heart transplantation model

BACKGROUND: The lazaroid U74500A is a 21-aminosteroid that inhibits lipid peroxidation and attenuates ischemia-reperfusion injury. We examined the effect of U74500A on heart preservation with the use of a clinically relevant canine orthotopic heart transplantation model. METHODS AND RESULTS: Six donor dogs (group L) were pretreated intravenously with U74500A (10 mg/kg), and the dogs without pretreatment served as a control (group C, n = 6). The donor heart was preserved in cold University of Wisconsin solution for 24 hours. The heart was then transplanted orthotopically. Myocardial biopsy was performed to measure the adenosine triphosphate level at the end of ischemia. Before reperfusion, recipients in group L received another dose of U74500A (10 mg/kg) intravenously. After 3 hours of reperfusion, left ventricular function was evaluated by left ventricular pressure-volume relations with the use of a Millar catheter and conductance catheter, thereby deriving the slope of the end-systolic pressure-volume relation, the slope of the stroke work-- end-diastolic volume relation, and the slope of the maximum dP/dt--end-diastolic volume relation. At the same time, serum creatine kinase MB isoenzyme and lipid peroxide levels were measured. The slopes of the end-systolic pressure-volume relation, the stroke work--end-diastolic volume relation, and the maximum dP/dt--end-diastolic volume relation for group L were significantly higher than those for group C. The adenosine triphosphate levels for group L were significantly higher than those for group C. Serum creatine kinase MB isoenzyme and lipid peroxide levels for group L were significantly lower than those for group C. CONCLUSIONS: Inhibition of lipid peroxidation by the administration of U74500A was effective for 24-hour canine cardiac preservation. These results indicate that U74500A is a promising agent for heart allograft preservation.     

Relations between tocopherol depletion and coenzyme Q during lipid peroxidation in rat liver mitochondria

In order to evaluate different mitochondrial antioxidant systems, the depletion of alpha-tocopherol and the levels of the reduced and oxidized forms of CoQ were measured in rat liver mitochondria during Fe++/ascorbate and NADPH/ADP/Fe++ induced lipid peroxidation. During the induction phase of malondialdehyde formation, alpha-tocopherol declined moderately to about 80% of initial contents, whereas the total CoQ pool remained nearly unchanged, but reduced CoQ9 continuously declined. At the start of massive malondialdehyde formation, CoQ9 reaches its fully oxidized state. At the same time alpha-tocopherol starts to decline steeply, but never becomes fully exhausted in both experimental systems. Evidently the oxidation of the CoQ9 pool constitutes a prerequisite for the onset of massive lipid peroxidation in mitochondria and for the subsequent depletion of alpha-tocopherol. Trapping of the GSH by addition of dinitrochlorbenzene (a substrate of the GSH transferase), results in a moderate acceleration of lipid peroxidation, but alpha-tocopherol and ubiquinol levels remained unchanged when compared with the controls. Addition of succinate to GSH depleted mitochondria effectively suppressed MDA formation as well as alpha-tocopherol and ubiquinol depletion. The data support the assumption that the protective effect of respiratory substrates against lipid peroxidation in the absence of mitochondrial GSH is mediated by the regeneration of the lipid soluble antioxidants CoQ and alpha-tocopherol.     

Attenuation of ischemic liver injury by prostaglandin E1 analogue, misoprostol, and prostaglandin I2 analogue, OP-41483

Workplace AIDS training is a recent addition to many corporations' occupational health agenda. However, little is known about the objectives, content, and practices of AIDS training programs. A survey of 126 workplace AIDS trainers was conducted to determine the impact of the trainer's organizational affiliation (in-house, consultant, union, etc.) and personal motives on training program objectives, content, and practices. Results indicate that the organizational affiliation of trainers is significantly related to training objectives, topics, and practices, whereas strong personal motives for becoming an AIDS trainer is significantly associated with an emphasis on more controversial content areas and training practices. Findings are discussed in terms of applicability to other values-oriented training topics, applications to practice, and future research needs.     

Role of endothelins and nitric oxide in hepatic reperfusion injury in the rat

In epithelial cells, alpha-, beta-, and gamma-catenin are involved in linking the peripheral microfilament belt to the transmembrane protein E-cadherin. alpha-Catenin exhibits sequence homologies over three regions to vinculin, another adherens junction protein. While vinculin is found in cell-matrix and cell-cell contacts, alpha-catenin is restricted to the latter. To elucidate, whether vinculin is part of the cell-cell junctional complex, we investigated complex formation and intracellular targeting of vinculin and alpha-catenin. We show that alpha-catenin colocalizes at cell-cell contacts with endogenous vinculin and also with the transfected vinculin head domain forming immunoprecipitable complexes. In vitro, the vinculin NH2-terminal head binds to alpha-catenin, as seen by immunoprecipitation, dot overlay, cosedimentation, and surface plasmon resonance measurements. The Kd of the complex was determined to 2-4 x 10(-7) M. As seen by overlays and affinity mass spectrometry, the COOH-terminal region of alpha-catenin is involved in this interaction. Complex formation of vinculin and alpha-catenin was challenged in transfected cells. In PtK2 cells, intact alpha-catenin and alpha-catenin1-670, harboring the beta-catenin- binding site, were directed to cell-cell contacts. In contrast, alpha-catenin697-906 fragments were recruited to cell-cell contacts, focal adhesions, and stress fibers. Our results imply that in vivo alpha-catenin, like vinculin, is tightly regulated in its ligand binding activity.     

Beneficial effect of raxofelast, an hydrophilic vitamin E analogue, in the rat heart after ischemia and reperfusion injury

Several studies report that among the antioxidant agents used to reduce injury after myocardial ischemia/reperfusion, analogues of vitamin E (VE) seem to have a significant efficacy. Raxofelast is a potent antioxidant agent under investigation, structurally related to VE, having an excellent bioavailability and favourable physicochemical properties. We assessed raxofelast in a rat model of myocardial damage induced by 1 h of left coronary artery occlusion followed by 6 h of reperfusion. Myocardial ischemia/reperfusion produced: wide tissue necrosis (50.3+/-10.3%); membrane peroxidation, evaluated by assessing cardiac malondialdehyde (MAL) (87.8+/-15.8 nmol/g tissuev 9.53+/-2.4 nmol/g tissue) and plasma conjugated dienes (CD) (8.73+/-1.86 DeltaABS/mlv 1.61+/-0.45 DeltaABS/ml); endogenous antioxidant wasting [cardiac VE=23.5+/-10.2 nmol/g tissuev 61.4+/-13.4 nmol/g tissue, cardiac reduced glutatione (GSH)=2.15+/-1.23 micromol/g proteinv 7.34+/-0.92 micromol/g protein and cardiac superoxide dismutase (SOD)=8.9+/-4.1 U/mg proteinv 17. 5+/-4.2 U/mg protein]; depressed mean arterial blood pressure (MAP) (61.4+/-5.8 mmHgv 85.3+/-6.2 mmHg); heart rate (HR) (275+/-35 beats/minv 368+/-34 beats/min) and left-ventricular derivative developed force (LV dP/dtmax) (1050+/-187 mmHg/sv 2520+/-194 mmHg/s); and cardiac neutrophil accumulation, evaluated by assessing cardiac myeloperoxidase (MPO) (9.23+/-2.1 U/g tissuev 0.92+/-0.12 U/g tissue). Administration of raxofelast (25, 50 and 100 mg/kg i.p. 5 min after occlusion) limited myocardial necrosis (22.3+/-14.8%P<0. 005, following the highest dose), reduced lipid peroxidation (MAL=43. 5+/-14.7 nmol/g tissueP<0.001 and CD=4.01+/-2.21 DeltaABS/mlP<0.001, following the highest dose), restored the endogenous antioxidants VE (52.8+/-14.2 nmol/g tissueP<0.001, following the highest dose), SOD (14.2+/-2.7 U/mg proteinP<0.001, following the highest dose) and GSH (4.92+/-1.33 micromol/g proteinP<0.005, following the highest dose), improved hemodynamic parameters (MAP=68.1+/-5.3 mmHgP<0.05, HR=317+/-27 beats/minP<0.05, LV dP/dtmax=1427+/-143 mmHg/sP<0.05, following the highest dose) and reduced myocardial neutrophil infiltration (MPO=5.1+/-1.5 U/g tissueP<0.001, following the highest dose). These data suggest that raxofelast could be considered a useful drug to reduce myocardial infarction.     

Involvement of lipid peroxidation in free fatty acid-induced isolated rat pancreatic acinar cell injury

Ophthalmologists play a relatively peripheral role in medical student and resident education. A review of the evolution, funding, and administration of medical education in the United States lends insight into why this is so. The author reviews the current status of education in ophthalmology for medical students and residents; the development of an ophthalmology curriculum; alternatives to the traditional medical school curriculum and how these have been incorporated into ophthalmic education; and the effect of new trends in medical education and pressures created by health care reform on the education of medical students and residents. The role of ophthalmologists in the general practice of medicine and in teaching doctors about the eye is discussed. Finally, the opportunity that the current climate presents for ophthalmologists to define their role in health care through education is considered.     

A fish oil diet minimizes hepatic reperfusion injury in the low-flow, reflow liver perfusion model

In this study, the effects of fish oil treatment on hepatic reperfusion injury in a low-flow, reflow perfusion model were investigated. Rats were fed powdered diets containing either 5% corn or 5% encapsulated fish oil for 13 to 15 days. Average daily food intake in both control and fish oil groups was about 20 g per rat, and weight gain averaged 9 g/rat/d. Livers were perfused at flow rates around 1 muL/g/min for 75 minutes, which caused cells in pericentral regions to become anoxic because of insufficient delivery of oxygen. When normal flow rates (about 4 mL/g/min) were restored for 40 minutes, reperfusion injury occurred. Upon reflow, lactate dehydrogenase (LDH) release increased from basal levels around 1 to 50 IU/g/h in livers from control rats, whereas fish oil treatment minimized values to 16 IU/g/h Rates of bile production reached 23 muL/g/h during reperfusion in livers from controls and 38 muL/g/h in the fish oil-treated group. Oxygen uptake was about 110 mumol/g/h during the reperfusion period in livers from both groups. Malondialdehyde (MDA), an end product of lipid peroxidation, was released into the effluent perfusate at rates around 80 nmol/g/h during reperfusion in controls, and values were not affected by fish oil treatment, Portal pressure, an indicator of hepatic microcirculation, increased from basal levels of 3 to 10.5 cm H2O during reperfusion in controls, but was only elevated to 8.3 cm H2O in the fish oil-treated group. In addition, Trypan Blue distribution time, another indicator of hepatic microcirculation, was reduced significantly by 44% by fish oil treatment.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of diabetes, insulin, and glucose load on lipid peroxidation in the rat

Lipid peroxidative activity in rats made diabetic with streptozocin and rats made acutely hyperglycemic by intraperitoneal dextrose administration was determined by measurement of exhaled ethane during exposure in vivo to ethane-free air (EFA). Diabetic rats demonstrated increased ethane in the expired breath while breathing EFA (5.82 +/- 0.56 pmol/min/100 g) compared with control rats (4.02 +/- 0.23 pmol/min/100 g). Insulin treatment of diabetic rats attenuated the ethane produced (4.88 +/- 0.23 pmol/min/100 g). Acute hyperglycemia increased exhaled ethane to levels higher than those seen in diabetic rats (9.87 +/- 0.98 pmol/min/100 g). Saline injected intraperitoneally to control rats produced ethane levels similar to those of untreated nondiabetic controls (4.11 +/- 0.52 pmol/min/100 g). Chronic uncontrolled hyperglycemia and acute hyperglycemia are associated with increased in vivo ethane production.     

Studies on hepatic injury and antioxidant enzyme activities in rat subcellular organelles following in vivo ischemia and reperfusion

The activities of rat hepatic subcellular antioxidant enzymes were studied during hepatic ischemia/reperfusion. Ischemia was induced for 30 min (reversible ischemia) or 60 min (irreversible ischemia). Ischemia was followed by 2 or 24 h of reperfusion. Hepatocyte peroxisomal catalase enzyme activity decreased during 60 min of ischemia and declined further during reperfusion. Peroxisomes of normal density (d = 1.225 gram/ml) were observed in control tissues. However, 60 min of ischemia also produced a second peak of catalase specific activity in subcellular fractions corresponding to newly formed low density immature peroxisomes (d = 1.12 gram/ml). The second peak was also detectable after 30 min of ischemia followed by reperfusion for 2 or 24 h. Mitochondrial and microsomal fractions responded differently. MnSOD activity in mitochondria and microsomal fractions increased significantly (p < 0.05) after 30 min of ischemia, but decreased below control values following 60 min of ischemia and remained lower during reperfusion at 2 and 24 h in both organelle fractions. Conversely, mitochondrial and microsomal glutathione peroxidase (GPx) activity increased significantly (p < 0.001) after 60 min of ischemia and was sustained during 24 h of reperfusion. In the cytosolic fraction, a significant increase in CuZnSOD activity was noted following reperfusion in animals subjected to 30 min of ischemia, but 60 min of ischemia and 24 h of reperfusion resulted in decreased CuZnSOD activity. These studies suggest that the antioxidant enzymes of various subcellular compartments respond to ischemia/reperfusion in an organelle or compartment specific manner and that the regulation of antioxidant enzyme activity in peroxisomes may differ from that in mitochondria and microsomes. The compartmentalized changes in hepatic antioxidant enzyme activity may be crucial determinant of cell survival and function during ischemia/reperfusion. Finally, a progressive decline in the level of hepatic reduced glutathione (GSH) and concomitant increase in serum glutamate pyruvate transaminase (SGPT) activity also suggest that greater tissue damage and impairment of intracellular antioxidant activity occur with longer ischemia periods, and during reperfusion.     

Spontaneous chemiluminescence production, lipid peroxidation, and covalent binding in rat hepatocytes exposed to acetaminophen

Spontaneous chemiluminescence associated with the cell injury was observed in the isolated rat hepatocyte suspension during acetaminophen (APAP) metabolism, indicating the occurrence of oxidative stress. APAP apparently affected the hepatocytes in various manners. APAP, at low concentrations (1-2 mM), damaged the hepatocytes due to lipid peroxidation provoked during APAP metabolism, while at high concentrations (5-50 mM), APAP protected the hepatocytes due to a chemical antioxidant effect of the unmetabolized APAP that remained in the medium because of the saturation of APAP metabolism. The covalent binding of APAP to the hepatocytes increased with APAP concentration up to 50 mM without loss of cell viability. When an overdose of APAP was administered to rats, the APAP plasma concentration was around 1-3 mM, which corresponded to the concentration range where lipid peroxidation occurred in the isolated hepatocytes. Thus, it seems likely that lipid peroxidation contributes to the APAP-induced hepatotoxicity in the early stage of the toxic process.     

31P nuclear magnetic resonance study of phospholipids in ischemia/reperfusion injury in a rat fatty liver model

Obese Zucker rats are susceptible to increased hepatic ischemia/reperfusion (I/RP) injury. Increased lipid peroxidation occurs in this model with warm ischemia. We hypothesized that a severe depletion of phospholipids (PL) occurs with warm I/RP in fatty livers. Obese (Ob) and lean (Ln) Zucker rats were subjected to 90 min of in vivo partial hepatic warm I followed by RP. Total lipids extracted from one gm of liver (median lobe) taken at the end of 1, 2 and 6 hr of RP and sham (Sh) surgery (n=5 Ln & Ob) were analyzed by 202.3 MHz 31P NMR, which provided good resolution of individual PL. Obese (Sh) rats contained 22% more PL than Ln (P= < 0.01). Ischemia caused similar decreases in PL in both Ob (to 67% Sh) and Ln rats (62%). Following 2 hr RP, PL in Ob rats decreased further (46% Sh) and recovered only marginally at 6 hr (53%), in marked contrast to the rapid recovery in Ln to preischemic levels (110% Sh at both 2 and 6 hr; P=<0.001). Mole percents of individual PL did not change significantly except for lysophosphatidylcholine, which increased from 0.43 to 1.3% (Sh vs. 6 hr RP) in the Ob, but decreased from 0.98 to 0.52% in Ln animals (P = <0.001). Fatty livers thus are more vulnerable to phospholipid depletion in response to warm ischemia/reperfusion than normal livers.     

Effects of carbontetrachloride and chenodeoxycholic acid on hepatic monooxygenase system, lipid peroxidation and some immunologic parameters in rats

BACKGROUND: Nutritional characteristics of the mediterranean diet, with a high intake of complex carbohydrates, fibre, monounsatured fatty acids and vegetables, are related to a lower prevalence of some nutritional associated diseases. The aim of our study was to perform a longitudinal analysis of the evolution of food intake in a mediterranean population in order to observe its influence on the energy and nutritional intake and their balance. The latter could have some effects on health status. METHODS: Dietary intake was evaluated using the 24 hours recall method in a representative sample (n = 941, age range = 10-69) of a Reus population. This longitudinal study consisted of 70% of the samples studied in 1983 using identical methodology. RESULTS: During this decade (1983-1993), energy intake decreased significantly 180 kcal/day for men and 158 kcal/day for women, carbohydrates being the main cause for this drop (132 and 84 kcal/day less for men and women, respectively). Protein intake decreased significantly in both sexes, 5.6% for men and 8.0% for women. However, the evolution of fat intake was different for men (no changes) and for women (a significant decrease of 5.7%). Saturated and monounsatured fatty acids did not show significant changes in this decade. Cholesterol intake decreased significantly in both sexes. Energy percents obtained from lipids, saturated and monounsaturated fatty acids significantly increased. However, in absolute values very little changes in fat intake in both sexes were observed. CONCLUSIONS: The dietary pattern evolved to a lower energy intake with an increment of the percentage of dietary lipids, but this feature was did not reflect a greater fat intake in absolute values. Moreover, the main characteristics of the typical mediterranean diet (which is basically different to the usual diet of other non mediterranean european countries mainly due to its richness in monounsaturated fatty acids) did not change in the period analyzed.     

Pattern of injury and the role of neutrophils in reperfusion injury of rat lung

Using a rat lung model, we sought to characterize the time course for ischemia-reperfusion injury and the role of neutrophils in the development of injury. Adult male Long-Evans rats underwent left thoracotomy with dissection and clamping of the left pulmonary artery, bronchus, and vein for 90 min, resulting in complete left lung ischemia. The lungs were then ventilated and reperfused for up to 4 hr. Time-matched sham animals underwent the identical thoracotomy and hilar dissection, but the lungs were not rendered ischemic. Using vascular permeability of 125I-labeled bovine serum albumin as a measure of reperfusion injury, a bimodal pattern of injury was observed. Compared to sham controls, animals undergoing ischemia-reperfusion demonstrated a significant early phase of lung injury at 30 min of reperfusion (P < 0.0001), followed by partial recovery. A second peak of lung injury was noted after 4 hr of reperfusion (P < 0.001). Myeloperoxidase activity in reperfused lung tissue, a measure of neutrophil sequestration, increased during the reperfusion time course. To determine the role of neutrophils in the development of lung reperfusion injury, additional animals undergoing the identical ischemia-reperfusion protocol received either rabbit anti-rat neutrophil serum or preimmune serum the day prior to operation. Profound neutropenia (< 75/mm3 blood) was confirmed by differential leukocyte counts. Neutropenia had no protective effect against microvascular permeability at 30 min of reperfusion, but there was a significant reduction in lung injury at 4 hr (P < 0.005). We conclude that, during lung ischemia-reperfusion, there is a bimodal pattern of injury, consisting of both neutrophil-independent and neutrophil-mediated events.     

Beneficial effect of a stable PGI2 analogue (ONO-1301) on prostanoid release after reperfusion in canine left single lung allotransplantation model

Recently much interests have focused on the imbalance between the release of thromboxane A2 (TXA2) and prostaglandin I2 (PGI2), which may contribute to the development of pulmonary vascular injury. TXB2 has potents of platelet aggregation and vasoconstriction, while PGI2 has against in its activities. We investigated the effect of new PGI2 analogue (ONO-1301), which is a novel prostacyclin mimetic with inhibitory activity against thromboxane synthetase, on the early graft function in canine left single lung allotransplantation model. 19 donor dogs were divided into three groups. Seven dogs were comprised control group and received heparin administration (400 Unit/kg) before pulmonary arterial flushing with 50 ml/kg of 4 degrees C low potassium dextran glucose (LPDG) solution. Each six dogs were comprised I2-10 and I2-50 groups respectively, with receiving a 10-minute infusion of ONO-1301 (10 micrograms/kg/min) before flushing. The pulmonary cold preservation was performed with LPDG solution at 4 degrees C for 18 hours. After left single lung transplantation, in control group, saline solution was administered to the recipient for 10 minutes encompassing the reperfusion process (starting from 5 minutes prior to reperfusion). In I2-10 group, the ONO-1301 (10 micrograms/kg/min) was administered in the same manner. In I2-50 group, the ONO-1301 was administered from the same timing as I2-10 group, but for 50 minutes. The recipient dogs were observed for 6 hours after ligation of the right pulmonary artery and bronchus. We measured the transplanted lung function, including arterial blood gas and pulmonary hemodynamics, and plasma 6-keto-PGF1 alpha, TXB2 and lipid peroxide levels of left atrial blood. Pulmonary histological investigation was performed after preservation and sacrifice the recipient dog. All recipient dogs were survived for observation period. I2 groups provided significantly better gas exchange and pulmonary hemodynamics than control group. The 6-keto-PGF alpha levels in control group peaked after an early rise in TXB2 levels, and reached maximum at one hour after contra-lateral ligations. These prostanoid release levels rose again at 6 hours. While in I2 groups, the levels of them were significantly lower compared with control group. Histological examination of the transplanted lung after assessment, revealed disruption of alveoli forced by pulmonary edema in control group. In contrast, there was minimal fluid extravasation without alveolar disruption in both I2-10 and I2-50 groups. There were no significant differences between I2-10 and I2-50 groups. Although it dose not protect the implanted lung completely from developing edema, the ONO-1301 administration (10 micrograms/kg/min) to the donor and the recipient resulted in prevention of TXA2 and PGI2 release and improvement of the respiratory function and pulmonary hemodynamics after reperfusion. We conclude that it seems beneficial to administer the ONO-1301 to the donor and the recipient in order to regulate the prostanoid release and maintain the early graft function.     

Ischemic and reperfusion injury of cyanotic myocardium in chronic hypoxic rat model: changes in cyanotic myocardial antioxidant system

OBJECTIVE: The objective was to evaluate the effect of left ventricular function on cyanotic myocardium after ischemia-reperfusion and to determine the effect of cyanosis on the myocardial antioxidant system. METHODS: Cyanotic hearts (cyanotic group) were obtained from rats housed in a hypoxic chamber (10% oxygen) for 2 weeks and control hearts (control group) from rats maintained in ambient air. Isolated, crystalloid perfused working hearts were subjected to 15 minutes of global normothermic ischemia and 20 minutes of reperfusion, and functional recovery was evaluated in the two groups. Myocardial superoxide dismutase, glutathione peroxidase, glutathione reductase activity, and reduced glutathione content were measured separately in the cytoplasm and mitochondria at the end of the preischemic, ischemic, and reperfusion periods. RESULTS: Mean cardiac output/left ventricular weight was not significantly different between the two groups. Percent recovery of cardiac output was significantly lower in the cyanotic group than in the control group (56.1% +/- 5.7% vs 73.0% +/- 3.1%, p = 0.001). Mitochondrial superoxide dismutase, mitochondrial and cytosolic glutathione reductase activity, and cytosolic reduced glutathione were significantly lower in the cyanotic group than in the control group at end-ischemia (superoxide dismutase, 3.7 +/- 1.3 vs 5.9 +/- 1.5 units/mg protein, p = 0.012; mitochondrial glutathione reductase, 43.7 +/- 14.0 vs 71.0 +/- 30.3 munits/mg protein, p = 0.039; cytosolic glutathione reductase, 13.7 +/- 2.0 vs 23.2 +/- 4.2 munits/mg protein, p < 0.001; and reduced glutathione, 0.69 +/- 0.10 vs 0.91 +/- 0.24 microgram/mg protein, p = 0.037). CONCLUSIONS: Cyanosis impairs postischemic functional recovery and depresses myocardial antioxidant reserve during ischemia. Reduced antioxidant reserve at end-ischemia may result in impaired postischemic functional recovery of cyanotic myocardium.     

Poly(alkyl cyanoacrylate) nanocapsules as a delivery system in the rat for octreotide, a long-acting somatostatin analogue

Poly(alkyl cyanoacrylate) nanocapsules have been used as biodegradable polymeric drug carriers for subcutaneous and peroral delivery of octreotide, a long-acting somatostatin analogue; their ability to reduce insulin secretion or prolactin secretion in response to oestrogens has been studied in adult male rats. The nanocapsules, prepared by interfacial emulsion polymerization of isobutyl cyanoacrylate, were 260 nm in diameter and incorporated 60% of octreotide. Administered subcutaneously, the octreotide-loaded (20 micrograms kg-1) nanocapsules suppressed the insulinaemia peak induced by intravenous glucose overload and depressed insulin secretion over 48 h, preventing the secretory rebound; however, glycaemia was unaffected. In parallel, the plasma octreotide concentration increased 2.7 times. Administered perorally to oestrogen-treated rats, octreotide-loaded nanocapsules (200 and 1000 micrograms kg-1) significantly improved the reduction of prolactin secretion (by 72 and 88%, respectively, compared with 32 and 54% with free octreotide) and slightly increased plasma octreotide level. Thus nanocapsules could be of interest as a biodegradable drug carrier for the administration of octreotide.