Recombinant DNA derived monomeric insulin analogue: comparison with soluble human insulin in normal subjects.

OBJECTIVE--To compare the rate of absorption from subcutaneous tissue and the resulting hypoglycaemic effect of iodine-125 labelled soluble human insulin and a monomeric insulin analogue derived by recombinant DNA technology. DESIGN--Single blind randomised comparison of equimolar doses of 125I labelled soluble human insulin and insulin analogue. SETTING--Study in normal people at a diabetes research unit and a university department of medical physics. SUBJECTS--Seven healthy male volunteers aged 20-39 not receiving any other drugs. INTERVENTIONS--After an overnight fast and a basal period of one hour two doses (0.05 and 0.1 U/kg) of 125I labelled soluble human insulin and insulin analogue were injected subcutaneously into the anterior abdominal wall on four separate days. END POINT--To find a fast acting insulin for meal related requirements in insulin dependent diabetics. MEASUREMENTS and main results--Residual radioactivity at the injection site was measured continuously for the first two hours after injection of the 125I labelled preparations and thereafter for five minutes simultaneously with blood sampling. Frequent venous blood samples were obtained over six hours for determination of plasma immunoreactive insulin, insulin analogue, glucose, and glucagon values. Time to 50% of initial radioactivity at the injection site for the insulin analogue compared with soluble insulin was 61 v 135 minutes (p less than 0.05) with 0.05 U/kg and 67 v 145 minutes (p less than 0.001) with 0.1 U/kg. Concentrations in plasma increased faster after the insulin analogue compared with soluble insulin, resulting in higher plasma concentrations between 10 and 150 minutes (0.001 less than p less than 0.05) after 0.05 U/kg and between 40 and 360 minutes (0.001 less than p less than 0.05) after 0.1 U/kg. The hypoglycaemic response to insulin analogue was a plasma glucose nadir at 60 minutes with both doses compared with 90 and 120 minutes with soluble insulin at 0.5 and 0.1 U/kg respectively. The response of glucagon substantiated the earlier and more dramatic hypoglycaemic effect with the insulin analogue. CONCLUSIONS--The much faster absorption from subcutaneous tissue of the disubstituted monomeric insulin analogue compared with soluble insulin suggests that the analogue may be a potential candidate for rapid insulin delivery after subcutaneous bolus injection.     

Administration of semisynthetic human insulin by a spray injector

The use of Jet injection in insulin administration pointed out the question whether this route could affect insulin absorption and plasma insulin profiles. To compare plasma insulin profiles following an administration of an identical insulin dose by jet injection or by conventional subcutaneous route (syringe with needle) 8 healthy subjects (age 24-28 yrs., non obese) were given at 09.00 h of two different days 200 mU/kg/BW of human semisynthetic regular insulin (Novo Actarapid) alternatively subcutaneously by a syringe with needle or transcutaneously by jet injection (DG 77 - Sicim - Gorizia). Before insulin administration and then 15, 30, 60, 90, 120 and 180 minutes after, blood samples were drawn for plasma insulin and C-peptide determination. Higher plasma insulin levels after administration by jet were found at 15' and 30' minutes (62,58 +/- 6,31 v.s. 36,94 +/- 3,31 microunits/ml at 15' and 76,51 +/- 9,60 v.s. 51,65 +/- 9,95 at 30', p less than 0,01 and p less than 0,005, paired Student t test). No difference could be observed for the other times. C-peptide was found to fall to undetectable values, confirming the nearly total suppression of endogenous insulin production. It is concluded that total regular insulin absorption does not differ after transcutaneous jet injection or administration by syringe with needle, but in the first case it is faster. This last finding should be considered in planning insulin treatment schedules.     

NovoSol Basal: pharmacokinetics of a novel soluble long acting insulin analogue.

OBJECTIVE--To determine the courses of absorption and the interindividual and intraindividual variations in absorption of iodine-125 labelled Ultratard HM and NovoSol Basal injected subcutaneously. DESIGN--Open randomised crossover study. Each patient was tested during two study periods of five days each, during which he or she received a subcutaneous injection of either 125I-NovoSol Basal or 125I-Ultratard HM on four consecutive days. The aim was to detect a reduction in intraindividual standard deviation by a factor of two with a probability 0.95, taking 0.05 as the level of significance. This required 24 degrees of freedom and led to the choice of four courses in each of eight patients. SETTING--Referrals to the diabetes research centre in Hvidøre, Copenhagen. PATIENTS--Eight insulin dependent (type I) diabetics with low or undetectable C peptide concentrations who were receiving a multiple insulin injection regimen. One patient withdrew immediately after recruitment. INTERVENTIONS--After an overnight fast patients received 96 nmol (16 IU insulin) of either 125I-NovoSol Basal or 125I-Ultratard HM injected subcutaneously into the thigh. To ensure that the insulin entered the subcutaneous fat at the same depth, ultrasonography was performed on each patient before the first injection. A different injection site on the thigh was used each day for four days in order to facilitate monitoring of the disappearance of four different depots in each patient. MAIN OUTCOME MEASURE--Residual activity at the injection site was measured roughly every two hours throughout the day. No radioactivity measurements were performed overnight (10 pm till 8 am). The residual radioactivity after the injection on the first day (upper right thigh) was recorded for five days, that after the injection on the second day (upper left thigh) for four days, after the injection on the third day (lower right thigh) for three days, and after the last injection (lower left thigh) for two days. RESULTS--NovoSol Basal was absorbed according to first order kinetics with a mean t50% of 35.3 (SEM 1.4) hours; Ultratard HM was absorbed after a lag phase and the corresponding t50% was 25.5 (2.5) hours. The intraindividual variations in t50% were significantly smaller with NovoSol Basal than with Ultratard HM (18.4% v 44.5%; p less than 0.001). Interindividual variations, however, were not significantly different (25.2% v 36.9%; p = 0.38). The total variation in t50% was substantially smaller with NovoSol Basal than with Ultratard HM (20.3% v 42.8%). CONCLUSIONS--NovoSol Basal seems to be an appreciable advance over Ultratard HM as a soluble insulin preparation for obtaining reproducible 24 hour insulin concentrations in the blood     

Glycaemic control in diabetic nephropathy.

To investigate the quality of glycaemic control that is achievable in diabetic patients with persistent proteinuria and asymptomatic but declining renal function three matched groups of patients were studied. The first comprised diabetics with proteinuria receiving continuous subcutaneous insulin infusion; the second, diabetics without proteinuria receiving continuous subcutaneous insulin infusion; and the third, diabetics with proteinuria receiving conventional insulin treatment. Glycaemic control in patients receiving continuous subcutaneous insulin infusion was shown to be appreciably worse during the daytime in diabetics with proteinuria than in diabetics without proteinuria, although greatly superior to that in diabetics with proteinuria receiving conventional insulin treatment. The loss of glycaemic control in patients with proteinuria receiving continuous subcutaneous insulin infusion probably occurred as a response to daytime hypoglycaemia and a consequent reduction in the proportion of the total insulin dose given prandially. Difficulty in controlling blood glucose concentrations may be a factor in the failure of intensified insulin regimens to influence the progression of diabetic renal disease.     

Dose comparison of ultrasonic transdermal insulin delivery to subcutaneous insulin injection

Prior studies have demonstrated the effectiveness of noninvasive transdermal insulin delivery using a cymbal transducer array. In this study the physiologic response to ultrasound mediated transdermal insulin delivery is compared to that of subcutaneously administered insulin. Anesthetized rats (350-550 g) were divided into four groups of four animals; one group representing ultrasound mediated insulin delivery and three representing subcutaneously administered insulin (0.15, 0.20, and 0.25 U/kg). The cymbal array was operated for 60 minutes at 20 kHz with 100 mW/cm2 spatial-peak temporal-peak intensity and a 20% duty cycle. The blood glucose level was determined at the beginning of the experiment and, following insulin administration, every 15 minutes for 90 minutes for both the ultrasound and injection groups. The change in blood glucose from baseline was compared between groups. When administered by subcutaneous injection at insulin doses of 0.15 and 0.20 U/kg, there was little change in the blood glucose levels over the 90 minute experiment. Following subcutaneous administration of insulin at a dose of 0.25 U/kg, blood glucose decreased by 190 +/- 96 mg/dl (mean +/- SD) at 90 minutes. The change in blood glucose following ultrasound mediated insulin delivery was -262 +/- 40 mg/dl at 90 minutes. As expected, the magnitude of change in blood glucose between the three injection groups was dependant on the dose of insulin administered. The change in blood glucose in the ultrasound group was greater than that observed in the injection groups suggesting that a higher effective dose of insulin was delivered.     

Biological activity of nasally administered insulin in normal subjects

Nasally administered (IN) insulin has been advocated as a potentially useful alternative to subcutaneously administered regular insulin because of its more rapid onset and time to peak action and its shorter duration of action. This study further defines the pharmacodynamics of IN insulin by using a euglycemic clamp technique to determine the bioavailability of IN insulin as compared with intravenous (IV) insulin, and to ascertain whether multiple sequentially administered doses of IN insulin alter pharmacodynamics. Eight normal volunteers received 2 control doses of IV insulin (0.05 U/kg), and 3 high doses (0.7 U/kg) and 3 low doses (0.35 U/kg) of IN insulin with an absorption enhancer (tauro-24,25 dihydrofusidate) given sequentially over a 2 day period. A euglycemic clamp was performed with a Biostator (Ames) that infused dextrose to keep the subject's blood glucose at his fasting level. Analysis of dextrose infusion curves for the low and high doses of IN insulin revealed an onset of action of 9.4 +/- 0.4 and 10.5 +/- 0.3 minutes, time to peak action of 20.6 +/- 5.6 and 23.7 +/- 4.4 minutes and duration of action of 82.1 +/- 5.2 and 95 +/- 5.7 minutes respectively. Both the onset of action and time to peak action were slightly longer (P less than .05) for the high as compared with the low dose IN insulin, although this should not represent a clinically significant difference. The total dextrose requirement was 21.9 +/- 2.3 g for the low dose IN insulin and 34.1 +/- 3.3 g for the high dose IN insulin, the latter value being significantly greater (P less than .01) than the former.(ABSTRACT TRUNCATED AT 250 WORDS)     

Timing of pre-breakfast insulin injection and postprandial metabolic control in diabetic children

A peak period of hyperglycaemia in insulin-dependent diabetics occurs after breakfast. A randomised crossover study was performed on nine diabetic children at home to study the effect of varying the time of their morning mixed injection of Monotard and Actrapid insulin on this hyperglycaemic peak. Performing the study at home minimised the children''s stress.After diabetic control had been improved children injected their insulin 30 minutes (early injection) or five minutes (late injection) before breakfast on two consecutive Saturday mornings. Blood samples were taken at 30-minute intervals over 3½ hours and analysed for concentrations of glucose, insulin, C-peptide, pyruvate, lactate, alanine, and ketones. Diet, insulin dose, and exercise were kept the same on both test days.The mean blood glucose concentration at breakfast (0 minutes) was 11 mmol/l after the early injection and 10 mmol/l after the late injection. Subsequent concentrations were consistently lower with the early injection regimen than the late regimen. The greatest difference between values in the two groups was 3·7 mmol/l at 150 minutes. Mean plasma insulin concentrations were lower in the children on the early regimen than in those on the late regimen at 30 minutes before breakfast but higher at 0 minutes and thereafter. There were no significant differences in mean concentration of intermediary metabolites between the two injection regimens. These were mainly within the normal range for healthy young adults except for the ketone concentrations, which were raised with both injection regimens until 180 minutes after breakfast.These results suggest that the timing of the morning injection of insulin is important in the control of postprandial hyperglycaemia in diabetic children.     

Effect of optimal glycaemic control with continuous subcutaneous insulin infusion on energy expenditure in type I diabetes mellitus.

To assess the role of insulin in the control of body weight energy expenditure was measured by indirect calorimetry in eight patients of normal weight with type I diabetes initially while poorly controlled during conventional insulin treatment and later during optimal glycaemic control achieved by using the continuous subcutaneous insulin infusion pump. Their response to seven days of fat supplementation was also assessed and the results compared with those in eight non-diabetic subjects. After a mean of 5.3 months of continuous subcutaneous insulin infusion the diabetic subjects had gained on average 3.5 kg. In the poorly controlled diabetic state the resting metabolic rate was raised but decreased by a mean of 374 kJ (90 kcal) per 24 hours with optimal glycaemic control. The thermic response to infused noradrenaline was reduced by 59% in the diabetic subjects, was not improved by continuous subcutaneous insulin infusion, but was improved when three of the subjects were given metformin in addition. The diabetic subjects had no abnormality in the thermic response to a meal while taking their usual diabetic diet. During fat supplementation, however, this thermic response was reduced when glycaemic control was poor but not when control was precise. Fat supplementation did not alter the resting metabolic rate or the reduced noradrenergic thermic response in the diabetic subjects. These findings suggest that precise glycaemic control could produce weight gain if energy intake remained unaltered, for diabetic subjects do not compensate for the decrease in metabolic rate by an increase in noradrenergic and dietary thermic responses. Also precise glycaemic control using continuous subcutaneous insulin infusion does not correct all the metabolic abnormalities of diabetes mellitus.     

Intraperitoneal insulin in uraemic diabetics undergoing continuous ambulatory peritoneal dialysis.

The kinetics of absorption of intraperitoneally administered insulin were studied in nine uraemic insulin-dependent diabetics undergoing continuous ambulatory peritoneal dialysis (CAPD). In each of three studies 20 U of regular insulin was directly injected as a bolus into the peritoneal cavity through an indwelling Tenckhoff catheter. In two procedures the insulin injection was followed by the instillation of either 2 litres of 1.5% dextrose dialysates or 2 litres of 4.5% dextrose dialysate. In the third 20 ml of saline was used to flush the tubing. Plasma free insulin values rose more rapidly and reached significantly higher concentrations (55.6 +/- 18.8 mU/l) when the insulin had been injected into an empty peritoneal cavity than when it was followed by dialysate. These differences were observed despite the fact that most of the insulin injected was retained by the patients. Since the plasma insulin values did not differ after instillations of dialysate containing 1.5% and 4.5% dextrose, the osmolality of the dialysate seemed not to affect insulin absorption, and the dilution of the insulin probably delayed its transfer through the peritoneum. These findings suggest that insulin given intraperitoneally to patients undergoing CAPD will be most effective if it is given into an empty peritoneal cavity at least 30 minutes before the dialysate is instilled.     

Biotechnological and administration innovations in insulin therapy

The importance of the intensive control of blood glucose in patients with diabetes has been well documented in several large scale studies. Attempts to attain strict glucose control when managing diabetes have traditionally utilized daily subcutaneous injections of human insulin. This strategy has offered improvements in glycaemic control but is unable to replicate fully the normal diurnal plasma profile of endogenous human insulin. Advances in protein engineering techniques have, however, resulted in the formulation of a number of insulin analogues that offer more desirable properties of absorption from the subcutaneous depot and hence improved insulin profiles in patients with diabetes. Concurrent to the development of insulin analogues, devices to deliver insulin either subcutaneously or by other routes have also advanced. These novel delivery strategies are also likely to contribute to improved glycaemic control for patients with diabetes in the future.     

Postprandial glycaemic effects of a long-acting somatostatin analogue (octreotide) in non-insulin dependent diabetes mellitus

Postprandial changes in blood glucose, insulin and glucagon were examined in 7 non-insulin dependent diabetic patients, before and after 3 days' treatment with the somatostatin analogue, octreotide (50 ug injected subcutaneously thricedaily). After octreotide injection, postprandial rises in plasma insulin and glucagon were significantly flattened. The postprandial glycaemic rise was delayed but the area under the glycaemic curve was not increased. Animal studies have suggested that octreotide inhibits growth hormone and glucagon secretion much more powerfully than native somatostatin, while relatively sparing insulin secretion. However, the present findings suggest that this analogue is not sufficiently selective to be therapeutically useful in non-insulin dependent diabetes.     

Effect of space flight and head-down bedrest on neuroendocrine response to metabolic stress in physically trained subjects

The aim of this study was to evaluate the association of plasma epinephrine (EPI) and norepinephrine (NE) responses to insulin induced hypoglycemia (ITT) 3 weeks before the space flight (SF), on the 5th day of SF, on the 2nd and 16th days after the landing in the first Slovak astronaut, and before and on the 5th day of prolonged subsequent head-down (-6 degrees) bed rest (BR) in 15 military aircraft pilots. Blood samples during the test were collected via cannula inserted into cubital vein, centrifuged in the special appliance Plasma-03, frozen in Kryogem-03, and at the end of the 8-day space flight transferred to Earth in special container for hormonal analysis. Insulin hypoglycemia was induced by i.v. administration of 0.1 IU/kg BW insulin (Actrapid HM) in bolus. Insulin administration led to a comparable hypoglycemia in pre-flight, in-flight conditions and before and after bed rest. ITT led to a pronounced increase in EPI levels and moderate increase in NE in pre-flight studies. However, an evidently reduced EPI response was found after insulin administration during SF and during BR. Thus, during the real microgravity in SF and simulated microgravity in BR, insulin-induced hypoglycemia activates the adrenomedullary system to less extent than at conditions of the Earth gravitation. Post-flight changes in EPI and NE levels did not significantly differ from those of pre-flight since SF was relatively short (8 days) and the readaptation to Earth gravitation was fast. It seems, that an increased blood flow in brain might be responsible for the reduced EPI response to insulin. Responses to ITT in physically fit subjects indicate the stimulus specificity of deconditioning effect of 5 days bed rest on stress response. Thus, the data indicate that catecholamine responses to ITT are reduced after exposure to real as well as simulated microgravity.     

Glycaemic effects of incretins in Type 1 diabetes mellitus: a concise review, with emphasis on studies in humans

The remission phase of Type 1 diabetes mellitus is associated with substantial recovery of beta-cell function and with marked improvement of endogenous insulin responses to meals in the early months after diagnosis, accompanied by little or no improvement in the insulin response to parenteral glucose, suggesting that the incretin function may be important in glycaemic regulation in this phase of diabetes. Preservation of the insulin response to parenteral glucagon-like peptide-1 (GLP-1), contrasting with lack of stimulation of insulin secretion by the other known incretin gastric inhibitory polypeptide (GIP), prompted studies with exogenous GLP-1 in recent-onset Type 1 diabetes. These studies showed substantial reduction of glycaemic excursions after ingestion of mixed nutrients during intravenous infusion of GLP-1 without administration of insulin, in subjects with a range of endogenous secretion of insulin in response to meals as demonstrated by blood levels of the insulin-connecting peptide (CP). These effects were independent of stimulation of blood levels of CP and were reproduced in volunteers with no endogenous release of CP in response to meals. The glycaemic effects were associated with inhibition of abnormal rises of blood levels of glucagon, and with suppression of endogenous release of human pancreatic polypeptide (HPP), by GLP-1. It was hypothesized that a major component of the glycaemic effect is attributable to the known action of GLP-1 to inhibit gastric emptying and to inhibit glucagon secretion. Studies of the effects of GLP-1 agonists (GLP-1 and exendin-4) given together with established insulin doses before a meal supported the hypothesis. The more prolonged actions of exendin-4 were accompanied by greater and more prolonged reduction of glycaemic effects of ingestion of meals in volunteers with CP-negative Type 1 diabetes mellitus, during intensive insulin therapy, in whom delay of gastric emptying was confirmed by studies of blood levels of acetaminophen ingested with the meals. Side effect-free doses of exendin-4 given together with insulin in volunteers with CP-negative Type 1 diabetes receiving continuing intensive insulin therapy demonstrated the capacity of this combination therapy to normalize blood glucose levels after ingestion of meals that were consistent with the dietary program of the volunteers, without apparent increased risk of hypoglycaemia within a normal between-meals interval. It is suggested that further and more prolonged studies of the use of long-acting GLP-1 agonists as congeners with insulin in Type 1 diabetes mellitus are indicated.     

Inhibition of insulin, glucose-dependent insulinotropic polypeptide (GIP) and glucagon-like peptide-1 (GLP-1) secretion by octreotide has no effect on post-heparin plasma lipoprotein lipase activity.

This study examines the immediate effect of modulating postprandial insulin and insulinotropic hormone (glucose-dependent insulinotropic polypeptide, GIP; glucagon-like peptide-1, GLP-1) secretion on the activation of lipoprotein lipase (LPL) in six lean and six obese age-matched women. Subjects were given, on two separate occasions, 340 kcal of carbohydrate alone or combined with an IV infusion of octreotide, (100 microg infusion from 30 min before the meal for 150 min). Post-heparin LPL activity (10,000 U) was measured on each occasion 120 minutes post-carbohydrate. Following oral carbohydrate postprandial plasma insulin levels were significantly higher in obese subjects than in lean (p < 0.01). Glucose tolerance was slightly impaired in obese subjects. Insulin, GIP and GLP-1 secretion post-carbohydrate was markedly reduced by octreotide in lean and obese subjects. LPL activity was similar in the two groups after carbohydrate administration and was unaffected by octreotide. Inhibition of postprandial insulin, GIP and GLP-1 secretion acutely did not reduce post-heparin LPL activity either in lean or obese subjects.     

Diurnal Variation in Glucose Tolerance: Associated Changes in Plasma Insulin,Growth Hormone,and Non-esterified

Oral glucose tolerance tests were performed in the morning and afternoon of separate days on 31 people derived from a normal population sample. Blood sugar levels were higher in the afternoon test from and including 60 minutes after the glucose load. The degree of diurnal variation was similar in men and women, but greater in the older half of the group. It was negatively correlated with the degree of obesity. The plasma insulin response was less at the 30 minute time point in the afternoon, but significantly exceeded the morning values at 120 and 150 minutes after the glucose load. Growth hormone levels were similar in morning and afternoon tests. Fasting non-esterified fatty acid levels were significantly higher before the afternoon test.The relatively impaired glucose tolerance in the afternoon is associated with a delayed insulin response to the glucose load. This seems unlikely to be the sole explanation, however, and increased non-esterified fatty acid metabolism with a consequent decrease in glucose disposal may also contribute.     

Management of severely brittle diabetes by continuous subcutaneous and intramuscular insulin infusions: evidence for a defect in subcutaneous insulin absorption.

Severely brittle diabetes is defined as a rare subtype of insulin-dependent diabetes with wide, fast, unpredictable, and inexplicable swings in blood glucose concentration, often culminating in ketoacidosis or hypoglycaemic coma. To assess the role of inappropriate type, amount, or timing of insulin treatment and the route of administration as a cause of severe brittleness six patients with continuous subcutaneous insulin infusion, which provides a high degree of optimisation of dosage with exogenous insulin in stable diabetics. The glycaemic control achieved during continuous subcutaneous insulin infusion was compared with that during continuous intramuscular insulin infusion. Six patients with non-brittle diabetes were also treated by continuous subcutaneous insulin infusion. These patients achieved the expected improvement in glycaemic control (mean +/- SD plasma glucose concentration 5.1 +/- 2.3 mmol/l (92 +/- 41 mg/100 ml)), but not the patients with brittle diabetes remained uncontrolled with continuous subcutaneous infusion (13.6 +/- 5.8 mmol/1 (245 +/- 105 mg/100 ml) compared with 10.3 +/- 4.1 mmol/l (186 +/- 74 mg/100 ml) during treatment with optimised conventional subcutaneous injections). During continuous intramuscular infusion, however, glycaemic control in five of the patients with brittle diabetes was significantly improved (7.7 +/- 2.6 mmol/l (139 +/- 47 mg/100 ml). The remaining patient with brittle diabetes, previously safely controlled only with continuous intravenous insulin, did not respond to continuous intramuscular infusion. It is concluded that in five of the six patients with brittle diabetes studied here impaired or irregular absorption of insulin from the subcutaneous site played a more important part in their hyperlability than inappropriate injection strategies. This absorption defect was presumably bypassed by the intramuscular route.     

Stimulation of glucose uptake in skeletal muscle using bolus or continuous insulin delivery

We investigated glucose uptake in the non-cyclically perfused rat hindlimb in response to continuous infusion (CI) or bolus injection (BI) of insulin. Ten mM glucose was infused at 3 ml/min, venous glucose was monitored at two minute intervals, and glucose uptake was calculated on the basis of arteriovenous-difference and expressed as micron/min/100 g body wt. Insulin BI given every ten minutes equaled the amount of insulin given by CI for ten minutes. Insulin doses of 1500, 3000, 6000, and 45,000 microU/30 min showed no significant difference between the two modes of delivery in either onset of stimulation or maximal stimulation of glucose uptake. At the lowest insulin dose tested (1500 microU/30 min) neither BI nor CI stimulated glucose uptake above the control of 1.849 micron/min/100 g. A dose response curve for glucose uptake was obtained using insulin boluses ranging from 2000 to 20,000 microU. Insulin uptake by the muscle was always greater when insulin was administered CI. Net disappearance of immunoreactive insulin over the entire 30 minutes of perfusion was 29.4 +/- 2.6% for CI but only 7.1 +/- 1.6% for BI. Thus in the perfused rat hindlimb, stimulation of glucose uptake in skeletal muscle is comparable with BI and CI delivery of insulin but insulin uptake by the muscle is several-fold greater with CI delivery.     

Absorption of isophane (NPH) insulin and its clinical implications.

Absorption of 125I-NPH insulin (125I-isophane insulin) (40 IU/ml) was studied in eight diabetics given 50% and 150% of their normal daily dose of insulin. Insulin absorption correlated with plasma insulin (r = 0.97, p less than 0.001) and blood glucose (r = -0.87, p less than 0.01) concentrations. Absorption was slower at higher doses, so that trebling the insulin dose only doubled the amount absorbed over the first 24 hours. The plasma elimination half time (t12) of insulin was about five minutes. Thus, the disappearance of radiolabelled insulin is a reliable and quantitative index of insulin absorption; subcutaneous degradation, if present, is minimal and constant. Changes in dise of intermediate-acting insulin further increases the large variation in insulin absorption. This implies that minor adjustments of intermediate insulin dosage are probably futile.     

Digestion of starch and glycaemic response to mixed meals in pigs.

The digestion in the proximal intestine of mixed meals (5,160 kJ) containing either native (NS) or pregelatinized (PS) maize starches (approximately 200 g), and the postprandial glycaemic responses they induced were compared in pigs. For both meals, approximately 25% of the ingested starch was assimilated above the duodenal cannula (positioned 75 cm beyond the pylorus). Larger amounts of starch were collected for NS than for PS during the first 30 min. The glycaemic responses, however, indicated a higher rate of glucose absorption for PS during the first 30 min, which could be explained by the higher susceptibility of PS to hydrolysis, as we observed in vivo. Indeed, malto-oligosaccharides (G1-G3) represented almost 80% of the total alpha-glucans collected at 150 min in the duodenum after the PS meal. At that time, after the NS meal, only 30% of the alpha-glucans were malto-oligosaccharides. Thus, even after a mixed meal, the starch digestion rate can alter the observed postprandial glycaemic response.     

Alternative approach to the treatment of diabetes mellitus

The influence of insulin preparations (Actrapid and Ransulin) on the glucose and insulin blood level has been studied in patients with diabetes mellitus. It has been shown that comparable changes in the measured parameters are achieved in most patients with oral doses of Ransulin that are two to three times higher than the doses of Actrapid.