Your search keyword '"Ciociaro, D"' showing total 9 results

1. Effect of exenatide on postprandial glucose fluxes, lipolysis, and ß-cell function in non-diabetic, morbidly obese patients.

Author

Camastra S, Astiarraga B, Tura A, Frascerra S, Ciociaro D, Mari A, Gastaldelli A, and Ferrannini E

Subjects

Adipose Tissue metabolism, Adult, Blood Glucose metabolism, Exenatide, Fasting metabolism, Female, Gastric Inhibitory Polypeptide drug effects, Gastric Inhibitory Polypeptide metabolism, Glucagon drug effects, Glucagon metabolism, Glucagon-Like Peptide 1 drug effects, Glucagon-Like Peptide 1 metabolism, Humans, Insulin Resistance, Insulin Secretion, Insulin-Secreting Cells metabolism, Liver metabolism, Male, Middle Aged, Postprandial Period, Adipose Tissue drug effects, Blood Glucose drug effects, Hypoglycemic Agents pharmacology, Insulin metabolism, Insulin-Secreting Cells drug effects, Lipolysis drug effects, Liver drug effects, Obesity, Morbid metabolism, Peptides pharmacology, Venoms pharmacology

Abstract

Aims: To investigate the effect of exenatide on glucose disposal, insulin secretion, ß-cell function, lipolysis and hormone concentrations in non-diabetic, morbidly obese subjects under physiological conditions., Materials and Methods: Patients were assigned to exenatide 10 µg twice daily (EXE, n = 15) or control (CT, n = 15) for 3 months. Patients received a meal test/tracer study (MTT) to measure endogenous glucose production (EGP), rate of oral glucose appearance (RaO), insulin secretion rate (ISR), ß-cell function, hepatic insulin resistance (HIR) and adipose tissue insulin resistance (AT-IR) and insulin sensitivity (IS)., Results: Post treatment, the EXE group showed a significant reduction in body weight ( P < .001). The postmeal time-course of glucose, insulin and ISR showed a lower peak between 60 and 180 minutes in phase with a reduction in RaO ( P < .01). After an initial similar suppression, EGP resumed at higher rates between 60 and 180 minutes ( P = .02) in EXE vs CT, while total RaO and EGP were similar throughout the MTT. In EXE, the postmeal glucagon, GLP1 and GIP responses were reduced ( P < .05). Fasting and postprandial lipolysis and ß-cell function were unaltered by active treatment. HIR, AT-IR and IS were all improved after exenatide treatment ( P < .05)., Conclusions: In morbidly obese non-diabetic subjects, exenatide causes weight loss, decreased postprandial glycaemia and glucagon response without changes in ß-cell function. These effects are consequent upon delayed oral glucose appearance in the circulation. Exenatide treatment is also associated with an improvement in hepatic, adipose tissue and whole-body IS with no influence on postprandial lipolysis., (© 2016 John Wiley & Sons Ltd.)

Published

2017

2. Effects of acute alpha 2-blockade on insulin action and secretion in humans.

Author

Natali A, Gastaldelli A, Galvan AQ, Sironi AM, Ciociaro D, Sanna G, Rosenzweig P, and Ferrannini E

Subjects

Adult, Analysis of Variance, Blood Glucose drug effects, C-Peptide blood, C-Peptide metabolism, Calorimetry, Indirect, Glucose Clamp Technique, Humans, Hyperglycemia, Insulin blood, Insulin metabolism, Insulin Secretion, Kinetics, Male, Oxygen Consumption drug effects, Adrenergic alpha-2 Receptor Antagonists, Adrenergic alpha-Antagonists pharmacology, Blood Glucose metabolism, Epinephrine pharmacology, Imidazoles pharmacology, Indoles pharmacology, Insulin physiology

Abstract

We tested whether acute alpha 2-blockade affects insulin secretion, glucose and fat metabolism, thermogenesis, and hemodynamics in humans. During a 5-h epinephrine infusion (50 ng.min-1.kg-1) in five volunteers, deriglidole, a selective alpha 2-receptor inhibitor, led to a more sustained rise in plasma insulin and C-peptide levels (+59 +/- 14 vs. +28 +/- 6, and +273 +/- 18 vs. +53 +/- 14 pM, P < 0.01 vs. placebo) despite a smaller rise in plasma glucose (+0.90 +/- 0.4 vs. +1.5 +/- 0.3 mM, P < 0.01). Another 10 subjects were studied in the postabsorptive state and during a 4-h hyperglycemic (+4 mM) clamp, coupled with the ingestion of 75 g of glucose at 2 h. In the postabsorptive state, hepatic glucose production, resting energy expenditure, and plasma insulin, free fatty acid (FFA), and potassium concentrations were not affected by acute alpha 2-blockade. Hyperglycemia elicited a biphasic rise in plasma insulin (to a peak of 140 +/- 24 pM), C-peptide levels (1,520 +/- 344 pM), and insulin secretion (to 410 +/- 22 pmol/min); superimposed glucose ingestion elicited a further twofold rise in insulin and C-peptide levels, and insulin secretion. However, alpha 2-blockade failed to change these secretory responses. Fasting blood beta-hydroxybutyrate and glycerol and plasma FFA and potassium concentrations all declined with hyperglycemia; time course and extent of these changes were not affected by alpha 2-blockade. Resting energy expenditure (+25 vs. +16%, P < 0.01) and external cardiac work (+28% vs. +19%, P < 0.01) showed larger increments after alpha 2-blockade. We conclude that acute alpha 2-blockade in humans 1) prevents epinephrine-induced inhibition of insulin secretion, 2) does not potentiate basal or intravenous- or oral glucose-induced insulin release, 3) enhances thermogenesis, and 4) increases cardiac work.

Published

1998

3. Effect of insulin on uric acid excretion in humans.

Author

Quiñones Galvan A, Natali A, Baldi S, Frascerra S, Sanna G, Ciociaro D, and Ferrannini E

Subjects

Adult, Creatinine blood, Creatinine urine, Female, Humans, Insulin blood, Male, Middle Aged, Natriuresis, Potassium blood, Potassium urine, Sodium blood, Uric Acid blood, Insulin pharmacology, Uric Acid urine

Abstract

Although hyperuricemia is a frequent finding in insulin-resistant states, insulin's effect on renal uric acid (UA) handling is not known. In 20 healthy volunteers, diastolic blood pressure, body weight, and fasting plasma insulin were positively (and age was negatively) related to fasting plasma UA concentrations, together accounting for 53% of their variability. During an insulin clamp, urine flow was lower than during fasting conditions (1.01 +/- 0.12 vs. 1.56 +/- 0.32 ml/min, P = 0.04), whereas creatinine clearance was unchanged (129 +/- 7 and 131 +/- 9 ml/min, P = not significant). Hyperinsulinemia did not alter serum UA concentrations (303 +/- 13 vs. 304 +/- 12 microM) but caused a significant decrease in urinary UA excretion [whether expressed as absolute excretion rate (1.66 +/- 0.21 vs. 2.12 +/- 0.23 mumol/min, P = 0.03), clearance rate (5.6 +/- 0.8 vs. 7.3 +/- 0.8 ml/min, P = 0.03), or fractional excretion (4.48 +/- 0.80 ml/min vs. 6.06 +/- 0.64%, P < 0.03)]. Hyperinsulinemia was also associated with a 30% (P < 0.001) fall in urine Na excretion. Fractional UA excretion was related to Na fractional excretion under basal conditions (r = 0.59, P < 0.01) and during the insulin period (r = 0.53, P < 0.02). Furthermore, the insulin-induced changes in fractional UA and Na excretion correlated with one another (r = 0.66, P < 0.001). Physiological hyperinsulinemia acutely reduces urinary UA and Na excretion in a coupled fashion.

Published

1995

4. Fasting insulin has a stronger association with an adverse cardiometabolic risk profile than insulin resistance: the RISC study

Author

de Rooij SR, Dekker, Jm, Kozakova, M, Mitrakou, A, Melander, O, Gabriel, R, Guidone, C, Højlund, K, Murphy, Ms, Nijpels, G, Dekker, J, de Rooij, S, Boorsma, P, Tournis, S, Kyriakopoulou, K, Thomakos, P, Lalic, N, Lalic, K, Jotic, A, Lukic, L, Civcic, M, Nolan, J, Yeow, Tp, Murphy, M, Delong, C, Neary, G, Colgan, Mp, Hatunic, M, Konrad, T, Böhles, H, Fuellert, S, Baer, F, Zuchhold, H, Golay, A, Harsch Bobbioni, E, Barthassat, V, Makoundou, V, Lehmann, Tn, Merminod, T, Petrie, Jr, Perry, C, Neary, F, Macdougall, C, Shields, K, Malcolm, L, Laakso, M, Salmenniemi, U, Aura, A, Raisanen, R, Raisanen, U, Sistonen, T, Laitinen, M, Saloranta, H, Coppack, Sw, Mcintosh, N, Ross, J, Pettersson, L, Khadobaksh, P, Laville, M, Bonnet, F, Brac de la Perriere, A, Louche Pelissier, C, Maitrepierre, C, Peyrat, J, Beltran, S, Serusclat, S, Sánchez, Me, Carraro, R, Friera, A, Perez, S, Nilsson, P, Persson, M, Ostling, G, Burri, P, Piatti, Pm, Monti, Ld, Setola, E, Galluccio, E, Minicucci, F, Colleluori, A, Walker, M, Ibrahim, Im, Jayapaul, M, Carman, D, Ryan, C, Short, K, Mcgrady, Y, Richardson, D, Beck Nielsen, H, Staehr, P, Hojlund, K, Vestergaard, V, Olsen, C, Hansen, L, Bolli, Gb, Porcellati, Francesca, Fanelli, Carmine Giuseppe, Lucidi, Paola, Calcinaro, F, Saturni, A, Ferrannini, E, Natali, A, Muscelli, E, Pinnola, S, Mingrone, G, Favuzzi, A, Di Rocco, P, Anderwald, C, Bischof, M, Promintzer, M, Krebs, M, Mandl, M, Hofe, A, Luger, A, Waldhäusl, W, Roden, M, Balkau, B, Mari, A, Gaffney, P, Boran, G, Kok, A, Patel, S, Gastaldelli, A, Ciociaro, D, Guillanneuf, Mt, Mhamdi, L, Landucci, L, Hills, S, Mota, L, Pacini, G, Cavaggion, C, Hills, Sa, Mota, Epidemiology and Data Science, General practice, and EMGO - Lifestyle, overweight and diabetes

Subjects

Adult, Male, medicine.medical_specialty, Endocrinology, Diabetes and Metabolism, medicine.medical_treatment, Cohort Studies, Endocrinology, Insulin resistance, Internal medicine, Prevalence, medicine, Hyperinsulinemia, Humans, Insulin, Ultrasonography, Metabolic Syndrome, Glucose tolerance test, medicine.diagnostic_test, business.industry, Metabolic Syndrome X, Fasting, General Medicine, Odds ratio, Glucose Tolerance Test, Middle Aged, Glucose clamp technique, medicine.disease, Cardiovascular Diseases, Europe, Female, Glucose Clamp Technique, Insulin Resistance, Tunica Media, Intima-media thickness, Metabolic syndrome, business

Abstract

ObjectiveFasting insulin concentrations are often used as a surrogate measure of insulin resistance. We investigated the relative contributions of fasting insulin and insulin resistance to cardiometabolic risk and preclinical atherosclerosis.Design and methodsThe Relationship between Insulin Sensitivity and Cardiovascular disease (RISC) cohort consists of 1326 European non-diabetic, overall healthy men and women aged 30–60 years. We performed standard oral glucose tolerance tests and hyperinsulinemic euglycemic clamps. As a general measure of cardiovascular risk, we assessed the prevalence of the metabolic syndrome in 1177 participants. Carotid artery intima media thickness (IMT) was measured by ultrasound to assess preclinical atherosclerosis.ResultsFasting insulin was correlated with all elements of the metabolic syndrome. Insulin sensitivity (M/I) was correlated with most elements. The odds ratio for the metabolic syndrome of those in the highest quartile of fasting insulin compared with those in the lower quartiles was 5.4 (95% confidence interval (CI) 2.8–10.3, adjusted for insulin sensitivity) in men and 5.1 (2.6–9.9) in women. The odds ratio for metabolic syndrome of those with insulin sensitivity in the lowest quartile of the cohort compared with those in the higher quartiles was 2.4 (95% CI 1.3–4.7, adjusted for fasting insulin) in men and 1.6 (0.8–3.1) in women. Carotid IMT was only statistically significantly associated with fasting insulin in both men and women.ConclusionsFasting insulin, a simple and practical measure, may be a stronger and independent contributor to cardiometabolic risk and atherosclerosis in a healthy population than hyperinsulinemic euglycemic clamp-derived insulin sensitivity.

Published

2009

5. The effect of menopause on carotid artery remodeling, insulin sensitivity, and plasma adiponectin in healthy women

Author

Muscelli, E., Kozakova, M., Flyvbjerg, A., Kyriakopoulou, K., Astiarraga, B. D., Glintborg, D., Konrad, T., Favuzzi, A., Petrie, J., Heine, R. J., Dekker, J., De Rooij, S., Nijpels, G., Boorsma, W., Mitrakou, A., Tournis, S., Thomakos, P., Lalic, N., Lalic, K., Jotic, A., Lukic, L., Civcic, M., Nolan, J., Yeow, T. P., Murphy, M., Delong, C., Neary, G., Colgan, M. P., Hatunic, M., Bohles, H., Fuellert, S., Baer, F., Zuchhold, H., Golay, A., Harsch Bobbioni, E., Barthassat, V., Makoundou, V., Lehmann, T. N. O., Merminod, T., Petrie, J. R., Perry, C., Neary, F., Macdougall, C., Shields, K., Malcolm, L., Laakso, M., Salmenniemi, U., Aura, A., Raisanen, R., Ruotsalainen, U., Sistonen, T., Laitinen, M., Saloranta, H., Coppack, S. W., Mcintosh, N., Ross, J., Pettersson, L., Khadobaksh, P., Laville, M., Bonnet, F., Brac De La Perriere, A., Louche-Pelissier, C., Maitrepierre, C., Peyrat, J., Beltran, S., Serusclat, A., Gabriel, R., Sanchez, E. M., Carraro, R., Friera, A., Novella, B., Nilsson, P., Persson, M., Ostling, G., Melander, O., Burri, P., Piatti, P. M., Monti, L. D., Setola, E., Galluccio, E., Minicucci, F., Colleluori, A., Walker, M., Ibrahim, I. M., Jayapaul, M., Carman, D., Ryan, C., Short, K., Mcgrady, Y., Richardson, D., Beck-Nielsen, H., Staehr, P., Hojlund, K., Vestergaard, V., Olsen, C., Hansen, L., Bolli, G. B., Porcellati, F., Fanelli, C., Lucidi, P., Calcinaro, F., Saturni, A., Ferrannini, E., Natali, A., Pinnola, S., Mingrone, G., Guidone, C., Di Rocco, P., Anderwald, C., Bischof, M., Promintzer, M., Krebs, M., Mandl, M., Hofer, A., Luger, A., Waldhausl, W., Roden, M., Balkau, B., Dekker, J. M., Mari, A., Gaffney, P., Boran, G., Kok, A., Patel, S., Gastaldelli, A., Ciociaro, D., Guillanneuf, M. T., Mhamdi, L., Pacini, G., Cavaggion, C., Hills, S. A., Landucci, L., and Mota, L.

Subjects

Blood Glucose, medicine.medical_specialty, Carotid Artery, Common, medicine.medical_treatment, Blood Pressure, Insulin resistance, Risk Factors, medicine.artery, Internal medicine, Insulin Secretion, Internal Medicine, Medicine, Humans, Insulin, Common carotid artery, cardiovascular diseases, Ultrasonography, Adiponectin, Cardiovascular Diseases, Cross-Sectional Studies, Female, Insulin Resistance, Menopause, Middle Aged, Tunica Intima, Tunica Media, business.industry, medicine.disease, Common, Endocrinology, Blood pressure, Intima-media thickness, cardiovascular system, Carotid Artery, business, Body mass index

Abstract

BACKGROUND The mechanisms by which menopause may influence the systemic subclinical atherosclerosis are unexplained. The aim of this cross-sectional study was to evaluate the associations between early menopause, established cardiovascular (c-v) risk factors, metabolic parameters (insulin secretion and sensitivity, plasma adiponectin), and carotid intima-media thickness (IMT) in healthy women. METHODS In 74 menopausal women (mean age = 51 +/- 3 years, mean duration of menopause = 2.9 +/- 1.2 years) and in 74 nonmenopausal women comparable for age and body mass index (BMI), common carotid artery (CCA) luminal diameter, and IMT in different carotid segments were measured in digitized ultrasound images. Insulin sensitivity and secretion were assessed using the euglycemic hyperinsulinemic clamp technique and oral glucose tolerance test (OGTT). Insulin secretion was reconstructed by mathematical modeling. RESULTS CCA diameter (5.55 +/- 0.46 vs. 5.21 +/- 0.51 mm, P less than 0.001), CCA IMT (608 +/- 78 vs. 576 +/- 74 mu m, P less than 0.01) and systolic blood pressure (BP) 0 17 +/- 12 vs. 113 +/- 11 mm Hg, P less than 0.05) were higher in menopausal women, whereas CCA IMT/diameter ratio and IMT in other carotid segments did not differ between the groups. By multivariate models, independent predictors of CCA diameter were menopause and body weight (cumulative R-2 = 0.37) and independent correlates of CCA IMT were luminal diameter, systolic BP and low-density lipoprotein (LDL) cholesterol (cumulative R-2 = 0.48). Fasting insulin, insulin secretion, and sensitivity and plasma adiponectin were similar in the two groups and were not related to carotid IMT. CONCLUSIONS Early menopause is associated with CCA remodeling, characterized by a proportional increase in luminal diameter and wall thickness, independent of atherosclerotic risk factors and metabolic variables.

Published

2009

6. Impact of increased visceral and cardiac fat on cardiometabolic risk and disease.

Author

Sironi, A. M., Petz, R., De Marchi, D., Buzzigoli, E., Ciociaro, D., Positano, V., Lombardi, M., Ferrannini, E., and Gastaldelli, A.

Subjects

HEART disease risk factors, METABOLIC syndrome diagnosis, ADIPOSE tissues, ANTHROPOMETRY, BIOMARKERS, BLOOD pressure, BLOOD pressure measurement, HUMAN body composition, DIABETES, FASTING, FAT, HIGH density lipoproteins, INSULIN, LOW density lipoproteins, MAGNETIC resonance imaging, TRIGLYCERIDES, DATA analysis, BODY mass index

Abstract

Diabet. Med. 29, 622-627 (2012) Abstract Objective Previous studies have highlighted the associations between abdominal, cardiac or total fat accumulation and cardiovascular disease. The aim of this study was to investigate the impact of different ectopic fat depots on measurements of metabolic dysfunction and cardiovascular disease risk. Methods Using magnetic resonance imaging in 113 subjects, we measured abdominal (visceral and subcutaneous) and cardiac (epicardial and extra-pericardial) fat depots and examined their association with overall (BMI) and abdominal obesity (waist circumference), dyslipidaemia (triglycerides, total and HDL cholesterol), glucose tolerance (by an oral glucose tolerance test) and insulin sensitivity, blood pressure and 10-year coronary heart disease risk by Framingham score. Results Fat accumulation was proportional to the degree of obesity, with body fat ranging from 14 to 33 kg, visceral fat from 0.8 to 1.8 kg and cardiac fat from 134 to 236 g. Most cardiac fat (70% on average) was extra-pericardial, with a wide variability for both cardiac depots (epicardial: 172-2008 mm2; extra-pericardial: 100-5056 mm2). Only visceral and extra-pericardial fat, but not epicardial or subcutaneous fat, could discriminate between subjects with three or more factors of the metabolic syndrome or medium-to-high coronary heart disease risk score. Controlling for gender and BMI by multivariable analysis, the best marker of reduced insulin sensitivity was visceral fat (partial r = −0.35); extra-pericardial fat was the closest associate of increased blood pressure (partial r = 0.26) and both extra-pericardial and visceral fat clustered with hypertriglyceridaemia (partial r = 0.29 and 0.24; both P < 0.02). Conclusion Increased epicardial fat per se does not necessarily translate into presence or prediction of disease. In contrast, increased deposition of visceral abdominal and extra-pericardial mediastinal fat are both associated with an enhanced cardiovascular disease risk profile. [ABSTRACT FROM AUTHOR]

Published

2012

7. Effect of Pioglitazone on the Metabolic and Hormonal Response to a Mixed Meal in Type II Diabetes.

Author

Gastaldelli, A., Casolaro, A., Pettiti, M., Nannipieri, M., Ciociaro, D., Frascerra, S., Buzzigoli, E., Baldi, S., Mari, A., and Ferrannini, E.

Subjects

GLYCEMIC index, DIABETES, PEOPLE with diabetes, GLUCONEOGENESIS, INSULIN

Abstract

We explored the mechanisms by which a 4-month, placebo-controlled pioglitazone treatment (45 mg/day) improves glycemic control in type II diabetic patients (T2D, n=27) using physiological testing (6-h mixed meal) and a triple tracer technique ([6,6-2H2]glucose infusion, 2H2O and [6-3H]glucose ingestion) to measure endogenous glucose production (EGP), gluconeogenesis (GNG), insulin-mediated glucose clearance and β-cell glucose sensitivity (by c-peptide modeling). Compared to sex/age/weight-matched non-diabetic controls, T2D patients showed inappropriately (for prevailing insulinemia) raised glucose production (1.05[0.53] vs 0.71[0.36]mmol min−1 kgffm−1 pM, P=0.03) because of enhanced GNG (73.1±2.4 vs 59.5±3.6%, P<0.01) persisting throughout the meal, reduced insulin-mediated glucose clearance (6[5] vs 12[13]ml min−1 kgffm−1 nM−1, P<0.005), and impaired β-cell glucose-sensitivity (27[38] vs 71[37]pmol min−1 m−2 mM−1, P=0.002). Compared to placebo, pioglitazone improved glucose overproduction (P=0.0001), GNG and glucose underutilization (P=0.05) despite lower insulinemia. GNG improvement was quantitatively related to raised adiponectin. β-cell glucose sensitivity was unchanged. In mild-to-moderate T2D, pioglitazone monotherapy decreased fasting and post-prandial glycemia, principally via inhibition of gluconeogenesis, improved hepatic and peripheral insulin resistance.Clinical Pharmacology & Therapeutics (2007) 81, 205–212. doi:10.1038/sj.clpt.6100034 [ABSTRACT FROM AUTHOR]

Published

2007

8. Splanchnic and leg substrate exchange after ingestion of a natural mixed meal in humans.

Author

Capaldo, Brunella, Gastaldelli, Amalia, Antoniello, Salvatore, Auletta, Maria, Pardo, Francesco, Ciociaro, Demetrio, Guida, Raffaele, Ferrannini, Ele, Sacca, Luigi, Capaldo, B, Gastaldelli, A, Antoniello, S, Auletta, M, Pardo, F, Ciociaro, D, Guida, R, Ferrannini, E, and Saccà, L

Subjects

ARTERIAL catheterization, GLUCOSE, CARBOHYDRATE metabolism, GLUCOSE metabolism, BLOOD sugar, BRANCHED chain amino acids, CATHETERIZATION, DIET, DYNAMICS, FATTY acids, FEMORAL artery, FEMORAL vein, FOOD, GLUCANS, INSULIN, INTESTINAL absorption, LACTIC acid, LEG, MESENTERIC blood vessels, HEPATIC veins

Abstract

The disposal of a mixed meal was examined in 11 male subjects by multiple (splanchnic and femoral) catheterization combined with double-isotope technique (intravenous [2-3H]glucose plus oral U-[14C]starch). Glucose kinetics and organ substrate balance were measured basally and for 5 h after eating pizza (600 kcal) containing carbohydrates 75 g as starch, proteins 37 g, and lipids 17 g. The portal appearance of ingested carbohydrate was maximal (1.0 mmol/min) between 30 and 60 min after the meal and gradually declined thereafter, but was still incomplete at 300 min (0.46+/-0.08 mmol/min). The total amount of glucose absorbed by the gut over the 5 h of the study was 247+/-26 mmol (45+/-6 g), corresponding to 60+/-6% of the ingested starch. Net splanchnic glucose balance (-6.7+/-0.5 micromol x kg(-1) x min(-1), basal) rose by 250-300% between 30 and 60 min and then returned to baseline. Hepatic glucose production (HGP) was suppressed slightly and only tardily in response to meal ingestion (approximately 30% between 120 and 300 min). Splanchnic glucose uptake (3.7+/-0.6 micromol x kg(-1) x min(-1), basal) peaked to 9.8+/-2.0 micromol x kg(-1) x min(-1) (P<0.001) at 120 min and then returned slowly to baseline. Leg glucose uptake (34+/-5 micromol x leg(-1) x min(-1), basal) rose to 151+/-29 micromol x leg(-1) x min(-1) at 30 min (P<0.001) and remained above baseline until the end of the study, despite no increase in leg blood flow. The total amount of glucose taken up by the splanchnic area and total muscle mass was 161+/-16 mmol (29+/-3 g) and 128 mmol (23 g), respectively, which represent 39 and 30% of the ingested starch. Arterial blood lactate increased by 30% after meal ingestion. Net splanchnic lactate balance switched from a basal net uptake (3.2+/-0.6 micromol kg(-1) x min(-1) to a net output between 60 and 120 min and tended to zero thereafter. Leg lactate release (25+/-11 micromol x leg(-1) x min(-1), basal) drastically decreased postprandially. Arterial concentration of both branched-chain amino acids (BCAA) and non-branched-chain amino acids (N-BCAA) increased significantly after meal ingestion (P<0.001). The splanchnic area switched from a basal net amino acid uptake (31+/-16 and 92+/-48 micromol/min for BCAA and N-BCAA, respectively) to a net amino acid release postprandially. The net splanchnic amino acid release over 5 h was 11.3+/-4.2 mmol for BCAA and 37.8+/-9.7 mmol for N-BCAA. Basally, the net leg balance of BCAA was neutral (-3+/-5 micromol x leg(-1) x min(-1)), whereas that of N-BCAA indicated a net release (54+/-14 micromol x leg(-1) x min(-1)). After meal ingestion, there was a net leg uptake of BCAA (20+/-6 micromol x leg(-1) x min(-1)), whereas leg release of N-BCAA decreased by 50%. It is concluded that in human subjects, 1) the absorption of a natural mixed meal is still incomplete at 5 h after ingestion; 2) HGP is only marginally and tardily inhibited; 3) splanchnic and peripheral tissues contribute to the disposal of meal carbohydrate to approximately the same extent; 4) the splanchnic area transfers >30% of the ingested proteins to the systemic circulation; and 5) after meal ingestion, skeletal muscle takes up BCAA to replenish muscle protein stores. [ABSTRACT FROM AUTHOR]

Published

1999

9. Splanchnic and leg substrate exchange after ingestion of a natural mixed meal in humans

Author

M. Auletta, F. Pardo, Amalia Gastaldelli, Brunella Capaldo, R. Guida, Eleuterio Ferrannini, L. Sacca, Demetrio Ciociaro, S. Antoniello, Capaldo, B., Sacca', Luigi, Antoniello, S., Auletta, M., Pardo, F., Ciociaro, D., Guida, R., Ferrannini, E., L., Sacca', Capaldo, Brunella, Gastaldelli, A, Antoniello, S, Auletta, M, Pardo, F, Ciociaro, D, Guida, R, Ferrannini, E, Sacca, L., and Capaldo, B

Subjects

Adult, Blood Glucose, Male, medicine.medical_specialty, Starch, Endocrinology, Diabetes and Metabolism, Glucose uptake, Fatty Acids, Nonesterified, Hepatic Veins, Biology, Catheterization, chemistry.chemical_compound, Internal medicine, Internal Medicine, medicine, Humans, Insulin, Ingestion, Lactic Acid, Splanchnic Circulation, Leg, Meal, Metabolism, Femoral Vein, Middle Aged, Carbohydrate, Diet, Femoral Artery, Kinetics, Glucose, Endocrinology, Postprandial, Intestinal Absorption, chemistry, Food, Splanchnic, Amino Acids, Branched-Chain

Abstract

The disposal of a mixed meal was examined in 11 male subjects by multiple (splanchnic and femoral) catheterization combined with double-isotope technique (intravenous [2-3H]glucose plus oral U-[14C]starch). Glucose kinetics and organ substrate balance were measured basally and for 5 h after eating pizza (600 kcal) containing carbohydrates 75 g as starch, proteins 37 g, and lipids 17 g. The portal appearance of ingested carbohydrate was maximal (1.0 mmol/min) between 30 and 60 min after the meal and gradually declined thereafter, but was still incomplete at 300 min (0.46+/-0.08 mmol/min). The total amount of glucose absorbed by the gut over the 5 h of the study was 247+/-26 mmol (45+/-6 g), corresponding to 60+/-6% of the ingested starch. Net splanchnic glucose balance (-6.7+/-0.5 micromol x kg(-1) x min(-1), basal) rose by 250-300% between 30 and 60 min and then returned to baseline. Hepatic glucose production (HGP) was suppressed slightly and only tardily in response to meal ingestion (approximately 30% between 120 and 300 min). Splanchnic glucose uptake (3.7+/-0.6 micromol x kg(-1) x min(-1), basal) peaked to 9.8+/-2.0 micromol x kg(-1) x min(-1) (P30% of the ingested proteins to the systemic circulation; and 5) after meal ingestion, skeletal muscle takes up BCAA to replenish muscle protein stores.

Published

1999