Plasma glucose kinetics and response of insulin and GIP following a cereal breakfast in female subjects: effect of starch digestibility.

BACKGROUND/OBJECTIVES: Foods with high contents of slowly digestible starch (SDS) elicit lower glycemic responses than foods with low contents of SDS but there has been debate on the underlying changes in plasma glucose kinetics, that is, respective contributions of the increase in the rates of appearance and disappearance of plasma glucose (RaT and RdT), and of the increase in the rate of appearance of exogenous glucose (RaE) and decrease in endogenous glucose production (EGP). SUBJECTS/METHODS: Sixteen young healthy females ingested in random order four types of breakfasts: an extruded cereal (0.3% SDS: Lo-SDS breakfast) or one of three biscuits (39-45% SDS: Hi-SDS breakfasts). The flour in the cereal products was labeled with (13)C, and plasma glucose kinetics were measured using [6,6-(2)H2]glucose infusion, along with the response of plasma glucose, insulin and glucose-dependent insulinotropic peptide (GIP) concentrations. RESULTS: When compared with the Lo-SDS breakfast, after the three Hi-SDS breakfasts, excursions in plasma glucose, the response of RaE, RaT and RdT, and the reduction in EGP were significantly lower (P<0.05). The amount of exogenous glucose absorbed over the 4.5-h postprandial period was also significantly lower by ~31% (P<0.001). These differences were associated with lower responses of GIP and insulin concentrations. CONCLUSIONS: Substituting extruded cereals with biscuits slows down the availability of glucose from the breakfast and its appearance in peripheral circulation, blunts the changes in plasma glucose kinetics and homeostasis, reduces excursions in plasma glucose, and possibly distributes the glucose ingested over a longer period following the meal.

[Injectable hospital preparation of valine labeled with the carbon 13 and nitrogen 15 (5 mg/mL) for a clinical trial on the brain tumor metabolism: Pharmaceutical control of active pharmaceutical ingredient and stability study of the finished product]. / Préparation hospitalière injectable de valine marquée au carbone 13 et à l'azote 15 (5mg/mL) pour un essai clinique sur le métabolisme tumoral cérébral : contrôle pharmaceutique de la substance active et étude de stabilité du produit fini.

INTRODUCTION: The L-Valine labeled (L-[U-(13)C,(15)N] Val) is a stable isotopic tracer administered by parenteral route within the framework of a new clinical research program concerning the brain tumor metabolism. To meet regulatory requirements and have ready to use solution with an expiration date, a pharmaceutical control of active pharmaceutical ingredient followed by stability study of hospital preparation were realised. MATERIALS AND METHODS: After the pharmaceutical control of the L-[U-(13)C,(15)N] Val, the hospital preparation was prepared according to the good manufacturing preparation. Prepared bottles were stored at 5°C±3°C and 25°C±2°C for six months. The stability of the preparation was determined by physico-chemical controls (pH, osmolality, sub-visible particles, L-[U-(13)C,(15)N] Val concentration, sodium concentration, isotopic enrichment) and microbiological (bacterial endotoxin and sterility). RESULTS: Concentrations of L-[U-(13)C, (15)N] Val and sodium does not significantly decrease during the stability study. In parallel, no change in pH and osmolality were highlighted. Isotopic enrichment higher than 99.9% reflected the stability of labeling of L-valine molecule. The sub-visible particles, the bacterial endotoxin and sterility were in accordance with the European Pharmacopoeia attesting limpidity, apyrogenicity and sterility of this injectable preparation. DISCUSSION AND CONCLUSION: The stability of this hospital preparation of L-[U-(13)C, (15)N] Val has been demonstrated for six months at 5°C±3°C and 25°C±2°C, ensuring a parenteral administration as part of the clinical trial.

[Injectable preparation of labeled leucine with the carbon 13 for a clinical research program on the Alzheimer disease: pharmaceutical control of raw materials and the finished product and stability study]. / Préparation injectable de leucine marquée au carbone 13 pour un programme de recherche clinique sur la maladie d'Alzheimer : contrôle pharmaceutique des matières premières et du produit fini et étude de stabilité

INTRODUCTION: The L-leucine labeled (L-[U-(13)C] Leu) is a stable isotopic tracer administered by parenteral route within the framework of a new clinical research program concerning the diagnosis of the Alzheimer's disease. To meet regulatory requirements and have ready to use solution with an expiration date, a pharmaceutical control of raw materials and the finished product followed by a stability study were realised. MATERIALS AND METHOD: After the pharmaceutical control of raw materials, the solution of L-[U-(13)C] Leu was prepared according to the good practices preparation. Prepared bottles were stored for 1 year of a share in a climatic chamber (25 °C±2 °C) and the other in a refrigerator (5 °C±3 °C). To assess stability, the physicochemical controls (pH, osmolality, sub-visible particles, L-[U-(13)C] Leu concentration, sodium concentration, isotopic enrichment) and microbiological (bacterial endotoxin and sterility) were performed at regular intervals for 1 year. RESULTS: Neither significant decrease of L-[U-(13)C] Leu concentration and sodium concentration nor pH and osmolality variation were observed for 1 year. Isotopic enrichment higher than 99.9% reflected the stability of labelling of L-leucine molecule. The sub-visible particles, the bacterial endotoxin and sterility were in accordance with the European pharmacopoeia attesting limpidity, apyrogenicity and sterility of this injectable preparation. DISCUSSION AND CONCLUSION: The injectable preparation of L-[U-(13)C] Leu was stable after 1 year for two preservation conditions, ensuring to safety for administration for human within the framework of this clinical research.

[Validation of pharmaceutical quality of a [6,6-(2)H(2)]-glucose parenteral solution used for insulin-resistance measurement during human clinical trials]. / Validation de la qualité pharmaceutique de préparations de [6,6-(2)H(2)]-glucose en solution aqueuse administrées par voie parentérale pour la mesure de l'insulino-résistance dans le cadre d'essais cliniques.

INTRODUCTION: Deuterated glucose ([6,6-(2)H(2)]-glucose) is a stable isotopic tracer administered parenterally in healthy volunteers, obese or diabetic patients in clinical trial to study glucose metabolism during euglycemic hyperinsulinemic clamps. In accordance with the Health Authorities on drug safety, we evaluated the pharmaceutical quality of this preparation for biomedical research with a stability study. METHODS: After pharmaceutical qualification of the raw material, the [6,6-(2)H(2)]-glucose was dissolved in water for injection, then sterile, filtered under positive pressure of nitrogen and then autoclaved. Two batch products (500mg/10mL and 2g/15mL) were sampled to evaluate glucose alteration, isotope shift, limpidity, apyrogenicity and sterility at regular intervals for 2 years. Deuterated glucose solutions were stored in the dark, at +2°C+8°C, in type II glass bottles. RESULTS: Neither significant decrease of glucose concentration nor pH variation were observed for 2 years. The 5-hydroxymethylfurfural concentration was below the human harmful levels, attesting a non-generation of metabolites during autoclaving. Isotopic enrichment higher than 99% reflected the stability of deuterated label on the 6-carbon of glucose molecules. The non-visible particle concentration below the minimal permissible concentration tolerated by the European Pharmacopoeia and the absence of bacterial endotoxin and bacterial growth attested limpidity, apyrogenicity and sterility of the [6,6-(2)H(2)]-glucose solutions. CONCLUSION: After the 2-year study, 500mg/10mL and 2g/15mL deuterated glucose solutions stored in the dark at +2°C+8°C were stable in aqueous solution, allowing to ensure safety administration for human clinical trials using euglycemic hyperinsulinemic clamps.

Variations in extracellular levels of dopamine, noradrenaline, glutamate, and aspartate across the sleep--wake cycle in the medial prefrontal cortex and nucleus accumbens of freely moving rats.

We used intracerebral microdialysis coupled with electrophysiologic recordings to determine relative changes in the concentrations of several neurotransmitters in the medial prefrontal cortex and nucleus accumbens of freely moving rats during waking, slow-wave sleep, and rapid eye movement (REM) sleep. The concentrations of noradrenaline, dopamine, glutamate, and aspartate in 2-min dialysate samples were analyzed by capillary electrophoresis combined with laser-induced fluorescence detection. Changes in glutamate and aspartate concentrations were found only in the nucleus accumbens, in which a decrease was obtained during both slow-wave sleep and REM sleep compared to waking. A progressive reduction in the release of noradrenaline was observed from waking to REM sleep in both structures. In contrast, dopamine concentrations were higher during waking and REM sleep compared to that during slow-wave sleep. The latter results demonstrate that contrary to the findings of earlier electrophysiologic studies carried out on ventral tegmental area dopaminergic neurons, changes in the release of dopamine in projection areas occur across the sleep-wake cycle. The elevated levels of dopamine during waking and REM sleep in the medial prefrontal cortex and the nucleus accumbens could result from changes during these two states in afferent modulation at the level of cell bodies or at the level of dopaminergic terminals.