Admission glucose level and clinical outcomes in the NINDS rt-PA Stroke Trial.

BACKGROUND: Hyperglycemia during acute ischemic stroke may augment brain injury, predispose to intracerebral hemorrhage (ICH), or both. METHOD: To analyze the relationship between admission glucose level and clinical outcomes from acute ischemic stroke, the authors performed multivariate regression analysis with the National Institute of Neurological Disorders and Stroke recombinant tissue plasminogen activator (rt-PA) Stroke Trial data. Neurologic improvement was defined as improvement on the NIH Stroke Scale by 4 or more points from baseline to 3 months, or a final score of zero. Favorable outcome was defined as both Glasgow Outcome score of 1 and Barthel Index 95 to 100 at 3 months. Symptomatic ICH was defined as CT-documented hemorrhage temporally related to clinical deterioration within 36 hours of treatment. Potential confounding factors were controlled, including acute treatment (rt-PA or placebo), age, baseline NIH Stroke Scale score, history of diabetes mellitus, stroke subtype, and admission blood pressure. RESULTS: There were 624 patients enrolled within 3 hours after stroke onset. As admission glucose increased, the odds for neurologic improvement decreased (odds ratio [OR] = 0.76 per 100 mg/dL increase in admission glucose, 95% CI 0.61 to 0.95, p = 0.01). The relation between admission glucose and favorable outcome depended on admission mean blood pressure (MBP): as admission MBP increased, the odds for favorable outcome related to increasing admission glucose levels progressively decreased (p = 0.02). As admission glucose increased, the odds for symptomatic ICH also increased (OR = 1.75 per 100 mg/dL increase in admission glucose, 95% CI 1.11 to 2.78, p = 0.02). Admission glucose level was not associated with altered effectiveness of rt-PA. CONCLUSIONS: In patients with acute ischemic stroke, higher admission glucose levels are associated with significantly lower odds for desirable clinical outcomes and significantly higher odds for symptomatic ICH, regardless of rt-PA treatment. Whether this represents a cause and effect relationship remains to be determined.

Effects of admission hyperglycemia on mortality and costs in acute ischemic stroke.

BACKGROUND: Hyperglycemia at the time of acute ischemic stroke has been linked to worse outcome in both human and animal studies. OBJECTIVE: To describe the prevalence and severity of hyperglycemia on hospital admission among acute ischemic stroke patients, to examine the independent relationship of admission hyperglycemia to all-cause mortality, and to document the inpatient management of hyperglycemia. METHODS: Patients hospitalized with acute ischemic stroke at one hospital from July 1993 to June 1998 (n = 656) were identified. Demographic data, diagnoses, and blood glucose (BG) values were retrieved from the electronic medical record system. Admission stroke severity, fingerstick BG results, and new diabetes diagnoses were obtained by chart review. Hyperglycemia was defined as admitting random serum BG > or = 130 mg/dL. Hazard ratios (HR) for 30-day, 1-year, and 6-year mortality were calculated using multivariable Cox regression models. RESULTS: Hyperglycemia at admission to hospital was present in 40% of patients with acute stroke. Patients with hyperglycemia were more often women and more likely to have prior diagnoses of diabetes and heart failure. Almost all of these patients remained hyperglycemic during their hospital stay (mean BG = 206 mg/dL), and 43% received no inpatient hypoglycemic drugs. Hyperglycemic patients had longer hospital stay (7 vs 6 days, p = 0.015) and higher inpatient hospital charges ($6,611 vs $5,262, p < 0.001). Hyperglycemia independently increased the risk for death at 30 days (HR 1.87, p < or = 0.01), 1 year (HR 1.75, p < or = 0.01), and 6 years after stroke (HR 1.41, p

Use of an automated device for alternative site blood glucose monitoring.

OBJECTIVE: To evaluate the accuracy, comfort, and ease of use of a new automated device for blood glucose monitoring using the arm as an alternative sampling site. RESEARCH DESIGN AND METHODS: These studies use an automated hand-held device that applies a small vacuum, lances the skin, transfers blood onto an electrochemical test strip, and measures glucose. Patients who had type 1 or type 2 diabetes and had received no prior training using this device were recruited from five diabetes clinics. Testing was performed by the patients using this device and by trained healthcare professionals. Blood glucose was measured by 354 patients: from the arm using the device, from the finger using a laboratory reference instrument, and from the finger using the device via the secondary test port. Each patient completed a questionnaire rating the level of pain and ease of use of the device. RESULTS: Blood glucose results in samples obtained from the arm with the automated device agreed well with finger-stick plasma glucose results using a reference instrument (regression slope 0.98, intercept 0.01 mmol/l [0.1 mg/dl], r = 0.96). Error grid analysis showed that 100% of the measurements fell within zones A and B. In the survey, 60% of the patients reported that arm testing with the automated device was "painless;" another 31% of the patients stated that it was "much less painful," and 6% of patients considered using the device "less painful" than finger-stick testing. In a survey containing 15 questions for rating the ease of use with a scale of 1 to 6, the overall mean rating was 5.5. CONCLUSIONS: The automated device is easy to use and provides accurate glucose results; 97% of the patients found it less painful than finger-stick testing.

Salt sensitivity, pulse pressure, and death in normal and hypertensive humans.

Although factors such as age, blood pressure, and its responsiveness to changes in sodium balance and extracellular fluid volume status (salt sensitivity) are associated with an increased risk of end-organ disease and cardiovascular events in hypertensive subjects, no such relationship with mortality has been demonstrated for salt sensitivity in normotensive subjects. We conducted long-term follow-up of 430 normal and 278 hypertensive subjects in whom assessment of salt sensitivity of blood pressure was performed as long as 27 years ago. We ascertained the status of 596 subjects (85% of the total population), 123 (21%) of whom had died. The following initial measurements were significantly (P<0.002) associated with subjects who had died compared with subjects known to be alive: age at study, pulse pressure, systolic, diastolic, and mean arterial pressures, hypertension, salt sensitivity, baseline renin levels, and body mass index (but not body weight). A stepwise logistic regression found the following independent predictors of death (odds ratio, 95% CI): age at initial study (1.08, 1.06 to 1.10), baseline blood pressure (1.03, 1.01 to 1.04), sodium sensitivity (1.73, 1.02 to 2.94), and male gender (1.91, 1.15 to 3.17). When survival curves were examined, normotensive salt-sensitive subjects aged >25 years when initially studied were found to have a cumulative mortality similar to that of hypertensive subjects, whereas salt-resistant normotensive subjects had increased survival (P:<0.001). These observations provide unique evidence of a relationship between salt sensitivity and mortality that is independent of elevated blood pressure.

Glycaemic control and hormone replacement therapy: implications of the Postmenopausal Estrogen/Progestogen Intervention (PEPI) study.

Despite evidence that supports the beneficial effects of postmenopausal hormone replacement therapy (HRT), concerns remain about its possible adverse effects. However, entry into the postmenopausal state is associated with many characteristics of the insulin resistance syndrome, including increased cardiovascular morbidity and mortality, accretion of generalised and visceral adiposity and insulin resistance. Studies carried out in postmenopausal women have revealed that an increase in visceral obesity is associated with an increase in androgenicity that, in turn, is associated with type 2 (non-insulin-dependent) diabetes mellitus. Short term studies of HRT containing conjugated estrogens (CEE) and medroxyprogesterone (MPA) have shown prevention of the accretion of visceral fat. However, longer term studies using other techniques suggest that these effects may be evanescent. A few trials suggest that oral estrogen therapy reduces postmenopausal insulin resistance, as suggested by reductions in fasting insulin and glucose levels and an increase in glucose metabolism rates, whereas most studies do not show an adverse effect upon carbohydrate metabolism. MPA may decrease these beneficial effects. Transdermal estrogen is essentially neutral with regard to insulin sensitivity and oral estradiol (17beta-estradiol) may also be neutral or enhance sensitivity. Different progestogens vary in their effects upon carbohydrate metabolism. The Postmenopausal Estrogen/Progestogen Intervention (PEPI) Study was a prospective, 3-year, randomised trial in 875 women that compared placebo, unopposed CEE, CEE plus continuous MPA, CEE plus cyclical MPA, and CEE plus cyclical micronised progesterone. Fasting insulin and glucose levels decreased significantly by 16.1% and 0.122 mmol/L, respectively, in all drug treatment groups. However, after a 75g glucose load, glucose levels at 2 hours increased by 0.33 mmol/L in the active treatment groups without a corresponding increase in insulin levels. No beneficial effects on waist/hip ratio could be demonstrated. Data from the PEPI trial also suggested that the maximum benefit regarding carbohydrate metabolism was achieved in patients who were the most hyperglycaemic and hyperinsulinaemic at the start of therapy. It can be concluded, therefore, that HRT has few, if any, harmful effects on carbohydrate metabolism and that it may be of benefit in women in modifying the long term complications of the postmenopausal state.

The treatment of hypertension and dyslipidemia in diabetes mellitus.

The relationship between macrovascular complications of diabetes mellitus, hypertension, and dyslipidemia is explored. Management strategies for patients with lipid abnormalities are given, along with indications and use of available drug classes. Pharmacologic and nonpharmacologic approaches to hypertension management are reviewed. The controversies concerning the use of various classes of anti-hypertensive drugs including calcium channel blockers and diuretic therapy are also discussed.

Effect of postmenopausal hormone therapy on glucose and insulin concentrations. PEPI Investigators. Postmenopausal Estrogen/Progestin Interventions.

OBJECTIVE: To characterize the long-term impact of four hormone therapy regimens on insulin and glucose concentrations measured during a standard oral glucose tolerance test. RESEARCH DESIGN AND METHODS: The Postmenopausal Estrogen/Progestin Intervention Study was a 3-year placebo-controlled randomized trial to assess effects of four hormone regimens on cardiovascular risk factors. This efficacy analysis describes glucose and insulin concentrations from 788 adherent women at baseline and at 1 and 3 years' postrandomization. RESULTS: When compared with women taking placebo, those taking conjugated equine estrogen (CEE) at 0.625 mg/day with or without a progestational agent had mean fasting insulin levels that were 16.1% lower, mean fasting glucose levels 2.2 mg/dl lower, and mean 2-h glucose levels 6.4 mg/dl higher (each nominal P < 0.05). No significant differences were apparent between women taking CEE only versus the three progestin regimens: medroxyprogesterone acetate (MPA) at 2.5 mg daily (continuous MPA), MPA at 10 mg on days 1-12 (cyclical MPA), and micronized progesterone (MP) (cyclical) at 200 mg on days 1-12. The impact of hormone therapy on insulin and glucose depended on baseline levels of fasting insulin and 1-h glucose (P < 0.05). However, the treatment effects on carbohydrate metabolism appeared to be consistent across participant subgroups formed by lifestyle, clinical, and demographic characteristics. CONCLUSIONS: Oral hormone therapy involving 0.625 mg/day of CEE may modestly decrease fasting levels of insulin and glucose. Postchallenge glucose concentrations are increased, however, which may indicate delayed glucose clearance.

The Postmenopausal Estrogen/Progestin Interventions Study: primary outcomes in adherent women.

OBJECTIVE: To assess the efficacy of unopposed estrogen, and three estrogen/progestin regimens on selected heart disease risk factors among adherent women and to contrast those results with efficacy among all women in the PEPI study. DESIGN: A 3-year, multicenter, randomized, double-blinded, placebo-controlled clinical trial. PARTICIPANTS: A total of 847 healthy postmenopausal women aged 45 to 64 years of age with no known contraindication to hormone therapy, who attended their 36 month clinical visit. INTERVENTION: Participants were randomized in equal numbers to one of the following treatments: (1) placebo; (2) conjugated equine estrogen (CEE) 0.625 mg daily; (3) CEE 0.625 daily plus medroxyprogesterone acetate (MPA) 10 mg, days 1-12; (4) CEE 0.625 daily plus MPA 2.5 mg daily; or (5) CEE 0.625 daily plus micronized progesterone (MP) 200 mg, days 1-12. ANALYSIS: Analyses are based on adherent women, where adherence is defined as taking at least 80% of pills at each 6-month visit. RESULTS: Adherence rates were high in all groups except women with a uterus assigned to unopposed CEE. The difference in HDL-C levels resulting from the CEE vs. CEE+MP was approximately three times larger than in the intent-to-treat analyses, reaching statistical significance (P < 0.05). In each active treatment, LDL-C decreased 10-15%. Triglycerides increased 15-20% in each opposed CEE arm and over 25% in the CEE only arm; this difference was not statistically significant. Fibrinogen increased by 7% among placebo adherers, but decreased or remained fairly stable among the active arm adherers. Systolic blood pressure increased 3-5% in all treatment arms. Women adherent to the CEE+MPA arms had twice the increase of 2 h glucose levels as women adherent to CEE only, or CEE+MP (8-9% vs. 3-4%). Two-hour insulin levels decreased 3-12% for all arms. The patterns of change for fibrinogen, SBP, 2 h glucose and insulin were similar to those from the intent-to-treat analyses. CONCLUSIONS: In analyses limited to adherent women, all active treatments, compared to placebo, continued to have similar and favorable effects on LDL-cholesterol and fibrinogen and no significant effects on blood pressure or insulin levels. Given the overall high adherence rates in PEPI, the results are similar to the intent-to-treat analyses, as expected. Only the trend of HDL-C to have a larger increase in the CEE only arm (in the intent-to-treat analyses) gained statistical significance in analyses restricted to adherers.

Effect of postmenopausal hormone therapy on body weight and waist and hip girths. Postmenopausal Estrogen-Progestin Interventions Study Investigators.

Reports from cross-sectional comparisons, nonrandomized prospective studies, and relatively small clinical trials indicate that postmenopausal hormone therapy may slightly decrease the amount of weight typically gained by women during the decade following menopause. Despite this, widespread belief remains that hormone therapy may cause weight gain. We use data from the Postmenopausal Estrogen/Progestin Interventions trial to characterize the impact of postmenopausal hormone therapy on weight and fat distribution and to examine the consistency of this impact among subgroups of women defined by lifestyle, clinical, and demographic factors. The Postmenopausal Estrogen/Progestin Interventions trial was a 3-yr, placebo-controlled, randomized clinical trial of 875 women assessing the effects on cardiovascular risk factors of four hormone regimens: oral conjugated equine estrogen (CEE) therapy (0.625 mg daily alone), CEE in combination with medroxyprogesterone acetate (2.5 mg daily), CEE in combination with medroxyprogesterone acetate (10 mg daily on days 1-12), and CEE in combination with micronized progesterone (200 mg daily on days 1-12). Women randomly assigned to CEE with or without a progestational agent averaged 1.0 kg less weight gain at the end of 3 yr (P = 0.006) than those assigned to placebo. Assignment to CEE was also associated with averages of 1.2 cm less increase in waist girth (P = 0.01) and 0.3 cm less increase in hip (P = 0.07) girth. In regression models that included weight change as a covariate, none of these differences reached statistical significance. There were no significant differences in weight or girth changes among any of the four active hormone regimens. After accounting for the effects of assignment to active hormone therapy and baseline weight, older age (P 0.008) and higher physical activity level at baseline (P = 0.002) were also independently predictive of less weight gain. The impact of hormone therapy on weight gain was similar among subgroups, except for those defined by baseline smoking status (P = 0.04) and physical activity level at home (P = 0.02). Factors that were independently associated with smaller increases in girths were: for waist, greater overall activity (P = 0.005) and Hispanic ethnicity (P = 0.02); and for hip, work activity (P = 0.003) and greater alcohol consumption (P = 0.03). None of these factors significantly affected the observed overall relationships between estrogen and changes in girth.

Immunologic effects of insulin lispro [Lys (B28), Pro (B29) human insulin] in IDDM and NIDDM patients previously treated with insulin.

Insulin lispro [Lys (B28), Pro (B29) human insulin] is a rapidly absorbed analog that has diminished tendency to self-associate. In four open-label, 1-year-long international randomized trials, we contrasted the immunogenicity of insulin lispro versus regular human insulin (RHI) in patients previously treated with insulin who had IDDM or NIDDM. Using a self-blank subtraction assay, we assessed sera for the presence of insulin-specific antibodies (ISA), insulin lispro-specific antibodies (LSA), and cross-reactive antibodies (CRA). Basal insulin needs were provided either with human ultralente (UL) or NPH insulins. After 2 to 4 weeks of therapy with RHI plus UL or RHI plus NPH, 50% of patients were randomly assigned to begin insulin lispro or continue on RHI. At baseline, few pretreated patients had LSA (0-4%) and approximately 10% had ISA, whereas 41-45% of patients with IDDM and 23-27% of patients with NIDDM had CRA (IDDM vs. NIDDM, P < 0.001). Within studies, no significant differences were noted over time in ISA, LSA, or CRA attributable to the type of short-acting insulin. When data were pooled, inconsistent changes were noted in ISA and LSA (LSA were greater in NIDDM vs. IDDM at baseline, P = 0.001, and ISA were greater in IDDM vs. NIDDM at 6 months, P = 0.007). Significant levels of CRA were more common in IDDM at all times (P < 0.001, P = 0.022, and P = 0.002 at baseline, 6 months, and 12 months, respectively). For patients receiving insulin lispro, no significant changes occurred in antibody status among IDDM and NIDDM patients throughout the study (became positive, remained positive, became negative, or remained negative). IDDM patients were more likely to develop or maintain CRA levels (P = 0.008 vs. NIDDM), whereas antibody levels were comparable among positive individuals. No evidence was noted that insulin lispro differs in immunogenicity from RHI in previously treated IDDM and NIDDM patients.

Controlled portions of presweetened cereals present no glycemic penalty in persons with insulin-dependent diabetes mellitus.

OBJECTIVE: To determine metabolic responses to commercially sweetened flaked corn cereal, unsweetened flaked corn cereal, glucose, and sucrose in teenagers and young adults with insulin-dependent diabetes mellitus (IDDM). DESIGN: A crossover design in which each subject consumed test meals in random order on 4 separate days at least 72 hours apart. SETTING: The inpatient setting of the General Clinical Research Center of the Indiana University Medical Center Hospital. SUBJECTS: Sixteen males and eight females, aged 14 to 25 years, with IDDM. INTERVENTIONS: After fasting overnight, each subject underwent challenge tests with 50 g carbohydrate per 1.73 m2 of body surface area from sweetened flaked corn cereal, unsweetened flaked corn cereal, sucrose, and glucose. All subjects were maintained on continuous intravenous infusion of insulin overnight (euglycemic goal = 3.9 to 6.7 mmol/L), with a constant basal insulin dose infused before and throughout a 3-hour postprandial period. MAIN OUTCOME MEASURES: Plasma glucose, free insulin, triglycerides, and free fatty acid levels measured at baseline and 15, 30, 45, 60, 90, 120, 150, and 180 minutes after meals. STATISTICAL ANALYSES PERFORMED: Comparisons among the four meals were made using two-way repeated measures analyses of variance followed by the Newman-Keuls multiple comparison procedure to identify specific differences among meals. The areas under the response curves were compared using one-way repeated measures analysis of covariance, adjusted for baseline values. RESULTS: The response to glucose for the area under the 3-hour blood glucose response curve was significantly greater than the response to sucrose (P = .006 by repeated measures analysis of variance); the areas for the two cereals (not significantly different from one another) were between the glucose and sucrose areas. At 3 hours, glycemia differed significantly among three of the meals: unsweetened flaked corn cereal > sweetened flaked corn cereal > sucrose (P < .001). Glucose at 3 hours was greater than sucrose (P < .001). There were no significant differences for free insulin, triglycerides, or free fatty acids. APPLICATIONS: Equivalent gram amounts of carbohydrate as presweetened breakfast cereals are not detrimental to persons with IDDM compared with unsweetened cereals. Therefore, presweetened cereals can be used in the correct portion sizes and based on the number of carbohydrate or starch servings in a person's diabetic meal plan.

Effects of diabetes on the activity and content of the branched-chain alpha-ketoacid dehydrogenase complex in liver.

Severe ketotic diabetes induced in rats by streptozotocin resulted in a reduction in activity of the hepatic branched-chain alpha-ketoacid dehydrogenase complex, regardless of whether activity was expressed on the basis of liver wet weight, total liver, liver protein, or liver DNA. A decrease in enzyme specific activity (units of enzyme activity per mg of enzyme protein) was found responsible for the reduction in measurable enzyme activity of the complex. Insulin treatment reversed the decrease in enzyme specific activity. Treatment of tissue extracts with phosphoprotein phosphatase had no effect, indicating that activity of the complex was decreased by some mechanism other than reversible phosphorylation. Specific protein components of the complex were also not found reduced by the diabetic state. Induction of severe ketotic diabetes in rats previously fed a low-protein diet resulted in activation of the enzyme as a consequence of dephosphorylation. Nevertheless, the specific activity of the dephosphorylated enzyme of diabetic, low-protein-fed rats was decreased relative to that of control, low-protein-fed animals. Reconstitution studies with tissue extracts fortified with the purified E1 component indicate that severe diabetes induces a defect in this component of the hepatic branched-chain alpha-ketoacid dehydrogenase complex.

Immediate HbA1c results. Performance of new HbA1c system in pediatric outpatient population.

OBJECTIVE: This study compared the performance of a new device that uses an IA to measure HbA1c in 9 min with a 1-microliter capillary blood sample with AC and CE methods in both nondiabetic and diabetic pediatric patients. RESEARCH DESIGN AND METHODS: Two hundred seven pediatric subjects (103 nondiabetic, 104 with insulin-dependent diabetes mellitus) had HbA1c measured with the IA method and compared with total GHb values determined by AC and HbA1 by the CE method with the same whole-blood capillary aliquot. Glucose values were also obtained from the same blood samples. RESULTS: Correlations and regression analyses show excellent correspondence between the three assays. The correlation between the AC and CE methods is 0.98 (P less than 0.001) with a slope of 1.615 +/- 0.0125 and intercept of 4.00 +/- 0.20. The correlation between the IA and AC methods is 0.99 (P less than 0.001) with a slope of 0.608 +/- 0.007 and intercept of 1.326 +/- 0.066. The correlation between the IA and CE methods is 0.97 (P less than 0.001), with a slope of 0.983 +/- 0.018 and intercept of 1.122 +/- 0.153. The average difference and average percentage difference between methods were also significant (P less than 0.001), reflecting the differences in GHb components measured. There was a significant correlation (P less than 0.001) between each method and glucose values (IA r = 0.72, AC r = 0.70, CE r = 0.73). Within-run precision for IA ranged from 1.7 to 3.5% and between-run precision 2.7 to 4.1%. CONCLUSIONS: Study results suggest that the IA method gives extremely accurate and reliable values over the clinical range of interest. The instrument is small, portable, easy to use, and provides information within 9 min for both physicians and patients.

Immunological and metabolic responses of patients with history of antibody-induced beef insulin resistance to treatment with beef, pork, human, and sulfated beef insulin.

OBJECTIVE: We evaluated immunological and metabolic responses during therapy with beef (B), pork (P), human (H, rDNA), and sulfated beef (SB) insulins in patients with insulin-antibody-mediated insulin resistance. RESEARCH DESIGN AND METHODS: A randomized double-blind sequential crossover study was performed with each insulin administered for 56 days unless dose reached 200 U/day or allergy developed. Participants were 26 individuals with history of B-P insulin dosage greater than or equal to 200 U/day and insulin binding capacities greater than 0.216 nM (30 mU/ml serum). Twenty-one participants completed the study. Insulin dosage/day, fasting plasma glucose, percentage HbA1, insulin antibody binding capacity (IABC), bound insulin (BI), percentage binding of 125I-labeled B, P, and H insulins, and receptor inhibition factor (RIF) were assessed. RESULTS: Mean insulin dosage (U/day) was significantly greater on B (88.9) than on P (29.2), H (29.4), or SB (29.6). On B, dosage increased in 12 individuals and reached 200 U/day in 6 individuals. Mean fasting plasma glucose (12.1 mM) and HbA1 (11%) were significantly higher on B than on P, H, and SB. Mean IABC, bound insulin, RIF, and percentage of B, P, and H bound were significantly higher on B than on P, H, and SB. Prolonged treatment with SB before entry into the study (greater than 5 wk) resulted in a blunted anamnestic response to B insulin. CONCLUSIONS: Rechallenge with B results in anamnestic immunological response and deterioration of metabolic control. SB, H, and P insulins have equivalent effects in patients with insulin antibody-mediated immunologic resistance.

Presence of insulin autoantibodies as regular feature of nondiabetic repertoire of immunity.

With an ultrasensitive noncompetitive enzyme-linked immunosorbent assay (ELISA), we tested the hypothesis that the presence of insulin autoantibodies in nondiabetic individuals is a normal event. Plasma and peripheral blood mononuclear cells were obtained from 50 nondiabetic whites for determination of insulin autoantibodies by ELISA and radioimmunoassay (anti-insulin IgG [AI-IgG] and 125I-labeled insulin bound [%]), islet cell antibodies, anti-nuclear antibodies and rheumatoid factor, and HLA class II-type antigens (DR, DRw, and DQ). The range of 125I-insulin binding was significantly less than was seen in pretreatment sera from individuals with diabetes (from -0.4 to 0.4% vs. -0.8 to 7.7%, respectively, P = 0.001). Eighty-eight percent of these nondiabetic individuals had significant levels of AI-IgG with preferential binding to human insulin. The geometric mean of AI-IgG concentrations in individuals with significant levels was 180 pM. Binding to human insulin was seen in 88%, to pork insulin in 42%, and to beef insulin in 24% of individuals (P less than 0.001 overall; P less than 0.05 where more bound to pork than beef insulin). Binding of AI-IgG to human insulin-coated plates was substantially inhibited by preincubation with human insulin (median inhibition 57.6%) with little if any inhibition by glucagon, C-peptide, albumin, or IgG. Four individuals had highly specific human AI-IgG as shown by immunoaffinity studies. AI-IgGs were significantly higher in individuals with the HLA haplotype DR4,DRw53,DQ3 and lower in individuals with DR5,DRw52,DQ1 (P = 0.03 for both).(ABSTRACT TRUNCATED AT 250 WORDS)

Mail-in paper strip vs. microcolumn technique for measurement of glycosylated hemoglobin.

We compared glycosylated hemoglobin (GHb) determined from capillary blood samples on paper strips with a standard microcolumn technique in a cross-sectional observational study with laboratories blinded to duplicate samples. Both the standard and the filter strip laboratories were provided with 80 uniquely identified blood samples from 40 individuals. Each laboratory ran duplicate analyses on each sample, yielding 160 GHb values. The within-laboratory correlations between blinded duplicates were 0.98 for the standard (microcolumn technique) and 0.94 for the filter paper (affinity technique) laboratories. The between-laboratory correlations ranged from 0.69 to 0.77. When classifying patients by quartile of glycemic control, the laboratories agreed on 60% of the patients. In an effort to identify sources of between-laboratory variability, varying quantities of blood were applied to strips and reanalyzed. Five microliter drops always yielded inflated estimates of GHb. These data suggest that the estimates of GHb obtained from mail-in paper strips, although internally consistent, differ in important ways from standard laboratory values, reemphasizing the need for caution in the interpretation of interlaboratory and intermethod comparisons.

Metabolic response to oral challenge of hydrogenated starch hydrolysate versus glucose in diabetes.

Our objective was to determine whether 1) hydrogenated starch hydrolysates (HSHs), bulking/sweetening agents used in hard candies, produce a diminished postmeal glycemic response relative to glucose in individuals with and without diabetes and 2) any diminished glycemia is secondary to altered carbohydrate absorption. This study followed a randomized double-blind crossover design and was performed in 12 individuals with diabetes (6 non-insulin dependent, 6 insulin dependent) and 6 nondiabetic individuals. Each group consisted of 3 men and 3 women, none with known neuropathy. After an overnight fast, each subject was challenged with 50 g of glucose, HSH 5875 (7% sorbitol/60% maltitol), and HSH 6075 (14% sorbitol/78% hydrogenated maltooligosaccharides)/1.73 m2 of body surface area in random order on 3 successive days. Individuals with diabetes were maintained on continuous subcutaneous insulin infusion throughout the study to achieve prechallenge glucose levels between 4.5 and 6.7 mM. For all groups, the order of plasma glucose responses over 5 h postchallenge was glucose greater than HSH 6075 greater than HSH 5875, P less than 0.001 (glucose vs. HSH). Pooled data for all groups for areas under the curve confirmed that HSH 6075 resulted in greater glycemia than HSH 5875 (P less than 0.05). This was reflected in the order of C-peptide responses seen in the nondiabetic and non-insulin-dependent groups (glucose greater than HSH 6075 greater than HSH 5875, P less than 0.001). Breath H2 after glucose was low, whereas HSH 5875 greater than HSH 6075 (P = 0.003). Gastric distress was noticed with all products.(ABSTRACT TRUNCATED AT 250 WORDS)