ABSTRACT
Introducción: Recientemente han surgido nuevas evidencias que relacionan el metabolismo óseo con el energético. La osteocalcina es una proteína de la matriz ósea no colágena, sintetizada por los osteoblastos que modula localmente la mineralización ósea, tradicionalmente usada como marcador de formación ósea. Se ha demostrado tanto en modelos "in vitro" como en animales de experimentación que la osteocalcina tiene acción hormonal. Esta proteína tiene la propiedad de regular la insulinosensibilidad, la insulinosecreción y la proliferación de las células beta pancreáticas. Objetivo: Evaluar la existencia de correlación entre los niveles de osteocalcina sérica y marcadores de insulinorresistencia (IR) e insulinosensibilidad en una población de adultos mayores con síndrome metabólico. Material y métodos: En nuestro estudio prospectivo se incluyeron 88 pacientes (68 % mujeres, 32 % hombres, media de edad 73 ± 6 y 74 ± 6 años respectivamente) que concurrieron a los consultorios externos del servicio de Endocrinología y Metabolismo del hospital Dr. César Milstein. Todos cumplían con los criterios diagnósticos de síndrome metabólico del año 2009 de la Federación Internacional de Diabetes (IDF). Se midieron: osteocalcina sérica, hemoglobina glicosilada (HbA1c), HDL y triglicéridos (TG). Se calcularon QUICKI (Quantitative Insulin Sensivity Check Index) y el índice TG/HDL. Resultados: Los niveles de osteocalcina sérica se asociaron positivamente con HDL (r = 0,213, p = 0,05) y QUICKI (r = 0,212, p = 0,05) e inversamente con TG (r = -0,218, p < 0,05), con el índice TG/HDL (r = -0,217, p < 0,05) y con HbA1c (r = -0,253, p < 0,05). Conclusiones: Nuestro estudio mostró que en adultos mayores con sindrome metabólico, los niveles de osteocalcina reducidos se asociaron con un aumento en los índices de insulinorresistencia, una disminución de los de insulinosensibilidad y un peor control metabólico. Rev Argent Endocrinol Metab 52:8-13, 2015 Los autores no poseen conflictos de interés.
Introduction: In recent years there has been increasing evidence about the relationship between bone and energy metabolism. Osteocalcin is a non-collagenous bone matrix protein synthesized by osteoblasts that locally modulates bone mineralization and is traditionally used as a bone formation marker. Osteocalcin has been shown to have hormonal actions both in in vitro models and in experimental animals. This hormone has the property of regulating insulin secretion and insulin sensitivity as well as beta pancreatic cell proliferation. Aim: To evaluate the existence of correlation between serum osteocalcin levels, insulin resistance and insulin sensitivity markers in an elderly population with metabolic syndrome. Material and methods: Eighty-eight elderly patients were included in our prospective study (68 % women, mean age 73 ± 6 ; 32 % men, mean age 74 ± 6). They attended the outpatient Endocrinology and Metabolism service at Dr. César Milstein Hospital and met the International Diabetes Federation (IDF) criteria of metabolic syndrome. Serum Osteocalcin, Glycated haemoglobin (HbA1c), HDL and Triglycerides (TG) were measured. QUICKI and TG/HDL index were calculated. Results: Serum osteocalcin levels were positively associated with HDL (r = 0.213, p = 0.05) and QUICKI (r = 0.212, p = 0.05), and inversely associated with TG (r = -0.218, p < 0.05), TG/HDL index (r = -0.217, p < 0.05) and HbA1c (r = -0.253, p < 0.05). Conclusions: Our study showed that in elderly patients with metabolic syndrome, reduced osteocalcin levels were associated with increased insulin sensitivity, decreased insulin resistance indexes and impaired metabolic control. Rev Argent Endocrinol Metab 52:8-13, 2015 No financial conflicts of interest exist.
ABSTRACT
Introducción: El síndrome metabólico (SM) se define por un conjunto de alteraciones clínicas que aumentan el riesgo de enfermedad cardiovascular. Diferentes organizaciones internacionales de salud han ajustado progresivamente los criterios que definen al SM, con el consiguiente aumento del diagnóstico del mismo. Sin embargo, ninguno de los parámetros considerados se han adaptado a la edad ni se han tomado en cuenta las modificaciones antropométricas y metabólicas características del envejecimiento. Objetivo: Caracterizar al SM en una población de adultos mayores y evaluar si existen diferencias de género. Materiales y métodos: Se realizó un estudio prospectivo en pacientes que consultaron al Servicio de Endocrinología de la U. A. Dr. César Milstein. El 68,8 % fueron mujeres y la edad de la población fue 73 ± 6 años. Para el diagnóstico de SM se utilizaron los criterios del Joint Interim Statement de 2009. Recabamos información sobre antecedentes, medicación y se realizaron análisis de laboratorio. Se midió índice cintura/talla (ICT). Se calculó media ± desvío estándar (DS) y proporciones. Para establecer comparaciones entre varones y mujeres se utilizó Test de Student y test de Chi2. Resultados: En una muestra de 77 pacientes, 42,9 % cumplió con 3 componentes de SM, 33,8 % con 4 y 23,4 % con 5, con distribución similar en hombres y mujeres. Según el índice de masa corporal (IMC), 32,5 % de la población presentó sobrepeso; 35 % obesidad grado I; 22 % grado II y 9 % grado III. Al evaluar el perímetro de cintura (PC), el 98,7 % superó los puntos de corte. El índice cintura/ talla superó el valor normal en ambos sexos, siendo significativamente superior en las mujeres (p: 0,003). Conclusiones: En la población de adultos mayores que se estudió no se observó diferencia entre ambos sexos en el número de componentes diagnósticos de SM. En cuanto al perímetro de cintura, el valor fue similar en ambos sexos, lo que podría llevar a revisar el valor de corte del mismo en este grupo etario. El ICT estuvo aumentado en toda la población y por ser un subrogante de riesgo cardiovascular, sería otro parámetro a tener en cuenta al momento del diagnóstico de SM. Rev Argent Endocrinol Metab 51:130-135, 2014 Los autores no poseen conflictos de interés.
Introduction: The metabolic syndrome (MS) denotes an association of abnormalities that increase the risk of cardiovascular disease. With the intention of decreasing this risk, international organizations have dropped the normal range for various parameters, with a consequent increase in the diagnosis of MS. Although the changes related to age are well documented, none of these parameters has been age-adapted. Aims: to characterize MS in the elderly population and to establish possible gender differences. Materials and methods: We performed a prospective study in patients who presented at the Department of Endocrinology of the Healthcare Unit Dr. Cesar Milstein. Of the total population, 68.8 % were women and the average age was 73 ± 6 years. For the diagnosis of MS, we used the 2009 Joint Interim Statement diagnostic criteria. Information was collected on previous history and medication, and laboratory analyses were performed. The waist / height ratio was also measured. Mean ± standard deviation (SD) and proportions were calculated. For comparisons between men and women, the Student test and Chi-squared test were used. Results: Of the total population, 42.9 % fulfilled 3 criteria for MS, 33.8 % fulfilled 4 criteria and 23.4 % fulfilled 5, with similar distribution in men and women. According to body mass index (BMI), 32.5 % of the population had overweight, 35 % were grade I obese, 22 % were grade II and 9 % were grade III. As regards waist circumference, 98.7 % of the total population exceeded the established cutoffs. The waist/ height ratio exceeded normal values in both genders, being significantly higher in women (p = 0.003). Conclusions: In the elderly, there are no gender differences in the number of components of MS. As for waist circumference, values were similar in both men and women. This finding could lead to redefine the cutoff value in aged woman. The waist / height ratio, a surrogate marker of cardiovascular disease, was ...
ABSTRACT
En este trabajo, estudiamos el efecto de una Diabetes inducida por destrucción parcial de la masa de células beta pancreáticas, sobre el compromiso osteogénico de células progenitoras de médula ósea (CPMO), y su modulación por el tratamiento oral con Metformina. Para ello utilizamos ratas Sprague Dawley, divididas en cuatro grupos: controles [C], controles tratadas con Metformina [M], diabéticas [D], y diabéticas tratadas con Metformina [DM]. La inducción de Diabetes se realizó, por inyección intraperitoneal sucesiva de ácido nico-tínico y estreptozotocina. Sobre los cultivos de CPMO se evaluó la actividad específica de Fosfatasa Alcalina (FAL) y la producción de Colágeno tipo 1 (Col-1) en estado basal y en medio de diferenciación osteogénico luego de 15 días. A los 21 días, se evaluaron los depósitos de mineral extracelular. La FAL y el Col-1 de CPMO basales, no mostraron diferencias significativas entre los cuatro grupos experimentales. Al cabo de 15 días, las CPMO de ratas M mostraron un incremento en el Col-1 de 122 % respecto de C; D 30 % respecto de C y DM 68 % respecto de C. La FAL expresó un 171 % para M, 34 % para D; y 125 % para DM todos respecto de C. Luego de 21 días, se observó una disminución en la mineralización de las CPMO de D (65 % respecto del grupo C). El tratamiento con metformina incrementó la mineralización de las CPMO en todos los casos. En conclusión, en nuestro modelo experimental de Diabetes, ésta disminuye el potencial osteogénico de las CPMO, un efecto que es parcialmente revertido por el tratamiento oral con Metformina. Estos hallazgos podrían explicar, al menos en parte, las alteraciones óseas descriptas en el hueso asociadas con la Diabetes. Los autores declaran no poseer conflictos de interés.
Diabetes mellitus is associated with an increased incidence of skeletal abnormalities, resulting in lower bone formation and/or remodeling. Osteopenia, osteoporosis and an increased incidence of non-traumatic fractures has been particularly observed in patients with type 2 diabetes. Recently, we have demonstrated that metformin has in vitro and in vivo osteogenic effects: (a) it stimulates the proliferation, differentiation and mineralization of osteoblasts in culture, and (b) in non-diabetic rats, it increases the repair of minimal bone lesions and improves femoral trabecular bone microarchitecture. In this study, we evaluated in rats the effect of diabetes induction by a partial destruction of pancreatic beta cells, on the osteogenic commitment of bone marrow progenitor cells (BMPC), and the modulation of this effect by orally administered metformin. We used young male Sprague Dawley rats (200 g), divided into four groups: untreated non-diabetic controls [C], non-diabetic rats treated for 2 weeks with metformin administered in drinking water (100 mg/kg/day) [M], untreated diabetic rats [D], and diabetic rats treated for 2 weeks with metformin (100 mg/kg/day) [DM]. Induction of Diabetes was performed one week prior to treatment with metformin, by successive intraperitoneal injections with 75 mg/kg body weight of nicotinic acid and 60 mg/kg body weight of streptozotocin. At the end of all treatments, blood samples were obtained to confirm the development of Diabetes, after which the animals were sacrificed by cervical dislocation under anesthesia. Femora and/or tibiae were dissected, and bone marrow cells were collected by flushing the bone diaphysal canal with Dulbecco's modified essential medium (DMEM) under sterile conditions. Adherent cells were grown to confluence in DMEM-10 % fetal bovine serum (FBS), after which we assessed alkaline phosphatase specific activity (ALP) by an enzymatic kinetic method, and type 1 collagen production (Col-1) by a Sirius Red colorimetric method (basal osteoblastic differentiation of BMPC). Subsequently, BMPC were submitted to an osteogenic induction for 15 days with an osteogenic medium (DMEM-10 % FBS containing ascorbic acid and sodium beta-glycerophosphate), after which ALP and Col-1 were evaluated. Basal ALP activity and type 1 collagen production (BMPC without osteogenic differentiation) showed no significant differences between the four experimental groups. After 15 days of culture in osteogenic medium, BMPC from control rats increased their expression of ALP (5 times compared to baseline) and collagen production (11 times compared to baseline). BMPC from diabetic rats after 15 days culture in osteogenic medium, also showed a significant (although smaller) increase in ALP (2-3 fold over basal activity) and collagen production (4-fold compared to baseline). BMPC obtained from rats treated with metformin (groups M and DM) and submitted to osteogenic induction for 15 days, showed an approximately 2-4-fold increase in both ALP and Col-1 (when compared with groups C and D, respectively). After 21 days of osteogenic induction, a decrease was observed in the mineralization of BMPC obtained from group D (65 % of that for group C). Treatment with metformin increased the mineralizing capacity of BMPC in all cases, including a reversal of the inhibitory effect of Diabetes on this parameter. In conclusion, we have found that our model of Diabetes reduces the osteogenic potential of bone marrow progenitor cells, and that this effect is partially reverted by orally administered metformin. These findings could explain, at least in part, the bone alterations that have been associated with Diabetes mellitus. No financial conflicts of interest exist.
ABSTRACT
El Sndrome Metablico (SM) se ha asociado recientemente con una disminucin en la densidad mineral sea, y con un aumento en la incidencia de fracturas osteoporticas. Recientemente encontramos que la Metformina por va oral en ratas, promueve la diferenciacin osteognica de clulas progenitoras de mdula sea e incrementa la reparacin de lesiones seas. En este trabajo evaluamos los efectos del SM inducido por Fructosa sobre la microarquitectura sea en ratas, y la modulacin de estos efectos por Metformina administrada en forma oral. Utilizamos ratas Sprague Dawley macho jvenes: C (control sin tratamiento), C+M (100mg/kg/da Metformina en el agua de bebida), F (10 % Fructosa en el agua de bebida) y F+M (Fructosa+Metformina en el agua de bebida). Los tratamientos se continuaron por 3 semanas luego de lo cual se tomaron muestras de sangre, previas al sacrificio de los animales. Se disecaron los fmures para evaluacin histomorfomtrica de la microarquitectura metafisaria por tincin con Hematoxilina-Eosina (H-E). Se observ un incremento en la glucemia y trigliceridemia en el grupo F versus el C, compatible con el desarrollo de SM. El anlisis de las metfisis femorales mostr un aumento en la densidad osteoctica trabecular para el grupo C+M (118 % del control, p<0,05). El tratamiento con Fructosa sola disminuy la densidad osteoctica (79 % del control, p<0,05), mientras que el co-tratamiento Fructosa+Metformina (grupo F+M) revirti parcialmente este descenso (88 % del control). Similarmente, el porcentaje de hueso trabecular en la metfisis femoral aument luego del tratamiento slo con Metformina (129 % respecto del control), se redujo en las ratas tratadas con Fructosa (89 % respecto del control), y fue intermedia en el grupo F+M (94 % respecto del control). Estos resultados muestran que el SM inducido por Fructosa en ratas altera la microarquitectura metafisaria femoral; y que estos efectos deletreos pueden ser parcialmente prevenidos por un tratamiento oral con Metformina.
Several clinical studies have demonstrated that the Metabolic Syndrome (MS) is associated with a decrease in bone mineral density, and with an increased risk for non-vertebral osteoporotic fractures. We have recently found that orally administered Metformin induces osteogenic effects in rats, promoting osteoblastic differentiation of bone marrow progenitor cells and increasing the repair of bone lesions. In the present work we have evaluated the effects of Fructose-induced MS on bone micro-architecture in rats, and the possible modulation of these effects by orally administered Metformin. We utilized young male Sprague-Dawley rats, divided into four groups: C (non-treated controls); C+M (100 mg/kg/day of Metformin in drinking water); F (10 % of Fructose in drinking water); and F+M (Fructose+Metformin in drinking water). After three weeks of all treatments blood samples were taken, after which animals were sacrificed by cervical dislocation under anaesthesia. Femurs were then dissected for evaluation of metaphyseal micro-architecture after Haematoxilin-Eosin staining of 5 μm histological slices of decalcified bone. In particular, osteocytic density and relative trabecular volume were determined. An increase in serum glucose and triglycerides was observed in Fructose-treated rats, in accordance with the development of MS. In rats treated with Metformin alone (group C+M), the analysis of femoral metaphyses showed an increase in trabecular osteocytic density (118 % of control [group C], p<0.05). Treatment with Fructose alone (group F) significantly decreased ostecytic density (79 % of control, p<0.05), while co-treatment with Fructose and Metformin partially reverted this decrease (group F+M, 88 % of control). Similarly, the relative trabecular volume of femoral metaphysic was increased by treatment with Metformin alone (129% of control), was reduced in Fructose-treated rats (89 % of control), and tended to revert back to control values after Fructose-Metformin co-treatment (94 % of control). These results show for the first time that (a) Fructose-induced MS in rats alters their femoral metaphysis micro-architecture; and that (b) these deleterious effects can be partially prevented by orally administered Metformin.