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Comparación del Metabolismo de la Glucosa en Individuos Delgados y Obesos Utilizando [14C]-Glucosa Microtrazadora

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Objetivo del estudio

Este estudio tiene como objetivo comparar cómo metabolizan la glucosa los individuos delgados y obesos, midiendo el balance total de masa de un microtrazador de [14C]-Glucosa a través de la orina, las heces y el CO₂ espirado.

Qué se está evaluando

Low-glycemic breakfast (randomized vs high glycemic)

+ High-glycaemic breakfast (randomized vs low glycemic)

+ High-glycaemic breakfast

Suplemento Dietético
Quiénes están siendo reclutados

Peso Corporal+3

+ Trastornos de la Nutrición

+ Enfermedades Nutricionales y Metabólicas

De 18 a 65 años
+36 Criterios de eligibilidad
Ver todos los criterios de elegibilidad
Cómo está diseñado el estudio

Estudio de Ciencia Básica

Intervencional
Inicio del estudio: febrero de 2026
Ver detalles del protocolo

Resumen

Patrocinador PrincipalWageningen University
Contacto del EstudioMarlou Dirks, PhDMás contactos
Última actualización: 8 de julio de 2026
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Fecha de inicio: 24 de febrero de 2026

Fecha en la que se inscribió al primer participante.

Obesity is associated with substantial metabolic dysregulation, including impaired glucose handling, increased oxidative stress, and altered nutrient partitioning. A metabolic pathway of particular interest in this context is the polyol pathway, in which glucose is converted to sorbitol by aldose reductase and subsequently to fructose. Preclinical studies suggest that flux through this pathway increases when intracellular glucose concentrations rise, such as during hyperglycaemia or insulin resistance. Greater activity of this pathway has been linked to the formation of advanced glycation end products, oxidative stress, and stimulation of de novo lipogenesis. These mechanisms have been proposed as contributors to metabolic complications commonly observed in individuals with obesity. Despite these findings from animal and in vitro studies, polyol pathway activity and its regulation by dietary glycaemic load have not been systematically quantified in humans. This clinical trial addresses this gap by applying a highly sensitive \[14C\]-glucose microtracer approach to measure the metabolic fate of glucose following ingestion of meals with differing glycaemic properties in lean individuals and individuals with obesity. The study makes use of uniformly labelled \[14C\]-glucose, which allows tracing of glucose-derived carbon into metabolic intermediates, expired CO₂, urine, faeces, and lipids using Accelerator Mass Spectrometry. This technology enables quantification of metabolic products with extremely small isotope doses, resulting in radiation exposure far below natural background levels. Through this approach, the study can directly assess the extent to which ingested glucose is oxidized, converted into polyol pathway intermediates, incorporated into lipids, or excreted. The microtracer method provides a level of mechanistic resolution that cannot be achieved with stable isotopes or traditional metabolic tests. The study design includes a single 72-hour metabolic test period during which participants consume either a high- or low-glycaemic breakfast depending on group allocation. The subsequent ingestion of \[14C\]-glucose allows tracking of postprandial metabolic routing under these two dietary conditions. Lean participants are randomized to either glycaemic condition, whereas individuals with obesity receive the high-glycaemic meal to address the study's main objective of comparing pathway activity between lean and obese phenotypes under hyperglycaemic challenge. Although the protocol includes multiple laboratory measurements, the aim of this Detailed Description is not to reproduce the procedure schedule, but to summarize the scientific characteristics of the design. In general terms, the study integrates whole-body, biochemical, and tissue-level metabolic assessments to characterize glucose metabolism in vivo. Whole-body energy expenditure and substrate oxidation are measured repeatedly through indirect calorimetry to determine the proportion of glucose that is oxidized versus stored or redirected into other metabolic pathways. Breath samples are collected to quantify 14CO₂ production, which provides a sensitive measure of glucose oxidation and contributes to mass balance calculations. Serial blood sampling enables the measurement of plasma glucose, insulin, and the appearance of 14C-labelled metabolites, providing insight into the dynamics of glucose disposal and conversion to sorbitol, fructose, and downstream metabolites. A distinctive feature of this study is the assessment of forearm arteriovenous metabolite balance, obtained from arterialized and deep-venous blood sampling combined with Doppler ultrasound measurement of forearm blood flow. This technique allows calculation of tissue-specific uptake and release of glucose and glucose-derived metabolites across skeletal muscle, a major site of postprandial glucose disposal. These measurements offer a physiologically meaningful index of muscle insulin sensitivity and provide additional perspective on how glycaemic load and obesity influence metabolic flux at the tissue level. Collection of urine and faeces for 72 hours enables full recovery of the administered tracer, allowing detailed mass balance calculations. This information reveals how much of the ingested glucose is oxidized, excreted, or directed into biosynthetic pathways. By integrating data from breath, blood, urine, and faeces, the study can comprehensively map the metabolic fate of glucose and determine how this differs across physiological states. The primary scientific questions addressed by this study are whether polyol pathway activity increases under hyperglycaemic conditions in humans and whether individuals with obesity demonstrate greater pathway activation than lean individuals. The study further explores the relationship between polyol pathway activation and de novo lipogenesis and evaluates whether the glycaemic load of a meal modulates these pathways. By combining microtracer-based flux analysis with whole-body and tissue-specific measurements, the study aims to provide mechanistic insight into early metabolic disturbances associated with obesity. Overall, this trial will generate foundational human data on endogenous fructose production and glucose routing in response to dietary glycaemic load. These findings may contribute to improved understanding of how carbohydrate metabolism becomes dysregulated in obesity and may support the development of nutritional or therapeutic strategies targeting glucose-handling pathways. The study also demonstrates the potential of Accelerator Mass Spectrometry as a powerful tool for investigating nutrient metabolism in vivo with minimal participant burden and extremely low radiation exposure.

Patrocinador PrincipalWageningen University
Contacto del EstudioMarlou Dirks, PhDMás contactos
Última actualización: 8 de julio de 2026
Extraido de una base de datos validada por el gobierno.Reclamar como socio

Protocolo

Esta sección proporciona detalles del plan del estudio, incluyendo cómo está diseñado y qué se está evaluando.
Detalles del Diseño

Se reclutarán 24 pacientes

Número total de participantes que el ensayo clínico espera reclutar.

Estudio de Ciencia Básica

Los estudios de ciencia básica ayudan a los investigadores a comprender cómo funciona el cuerpo o cómo se desarrolla una enfermedad. No prueban tratamientos, pero sientan las bases para terapias futuras.



Elegibilidad

Los investigadores buscan pacientes que cumplan ciertos criterios, conocidos como criterios de elegibilidad: estado general de salud o tratamientos previos.
Condiciones
Criterios

Cualquier sexo

Sexo biológico de los participantes elegibles para inscribirse.

De 18 a 65 años

Rango de edades de los participantes que pueden unirse al estudio.

Voluntarios sanos permitidos

Indica si personas sanas, sin la condición que se estudia, pueden participar.

Condiciones

Patología

Peso CorporalTrastornos de la NutriciónEnfermedades Nutricionales y MetabólicasSignos y SíntomasCondiciones Patológicas, Signos y SíntomasObesidad

Criterios

6 criterios de inclusión requeridos para participar
Debe estar dispuesto y ser capaz de comunicarse y participar en todo el estudio, incluido el consumo de 14C-glucosa y las comidas ofrecidas durante la realización del estudio

18.5 < IMC < 25 kg/m^2 o 30 < IMC < 35 kg/m^2

Debe tener movimientos intestinales regulares (es decir, producción promedio de heces de >= 1 y <= 3 heces por día)

Generalmente debe comer 3 comidas al día (es decir, desayuno, almuerzo y cena)

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30 criterios de exclusión impiden participar
Alergias o intolerancias alimentarias conocidas a los 14 alérgenos alimentarios principales (apio, cereales que contienen gluten, crustáceos, huevos, pescado, lupino, leche, moluscos, mostaza, frutos secos, cacahuetes, semillas de sésamo, soja, dióxido de azufre y sulfitos) o antecedentes de un síndrome de malabsorción, incluida la enfermedad celíaca

Antecedentes personales o familiares de trombosis (coágulos), epilepsia, convulsiones o esquizofrenia

Estilo de vida sedentario evaluado mediante el Cuestionario Internacional de Actividad Física [IPAQ]

Sujetos que estén siguiendo una dieta de pérdida de peso o una dieta hipercalórica/rica en proteínas para aumentar de peso

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Plan de Estudio

Conoce todos los tratamientos administrados en este estudio, su descripción detallada y en qué consisten.
Grupos de Tratamiento
Objetivos del Estudio

3 grupos de intervención están designados en este estudio

0% de probabilidad de ser asignado al grupo placebo

Grupos de Tratamiento

Grupo I

Experimental
Lean participants randomized to consume a low-glycemic breakfast prior to administration of an oral \[¹⁴C\]-glucose microtracer to assess postprandial glucose metabolism.

Grupo II

Experimental
Lean participants randomized to consume a high-glycemic breakfast prior to administration of an oral \[¹⁴C\]-glucose microtracer to assess postprandial glucose metabolism.

Grupo III

Experimental
Participants with obesity consume a high-glycemic breakfast prior to administration of an oral \[¹⁴C\]-glucose microtracer to assess postprandial glucose metabolism.

Objetivos del Estudio

Objetivos Primarios

Objetivos Secundarios

Centros del Estudio

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Este estudio tiene una ubicación

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Wageningen University and Research

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