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1.
Cureus ; 14(9): e29445, 2022 Sep.
Artículo en Inglés | MEDLINE | ID: mdl-36299964

RESUMEN

INTRODUCTION: Non-alcoholic fatty liver disease (NAFLD) is the most common cause of advanced liver disease in the USA. Liver biopsy, the gold standard diagnostic test for evaluating liver fibrosis, is associated with significant risk and expense. The accuracy of ultrasound elastography and Fibrosis-4 index (FIB-4) in the obese NAFLD population is unknown. We aimed to compare the accuracy of ultrasound elastography and FIB-4 to liver biopsy in ruling out cirrhosis in NAFLD patients at a tertiary, transplant referral center in the US. METHODS: We retrospectively evaluated 93 patients with a mean age of 53 years (SD: 13 years) who underwent liver ultrasound elastography and liver biopsy, and additionally calculated their FIB-4 at the time of biopsy. We compared the liver stiffness measurement (LSM) obtained from ultrasound elastography and FIB-4 with the pathology results for ruling out cirrhosis. RESULTS: 85% of the patients were white, 53% were female, average BMI was 34.7 (SD: 6.7), 52% had diabetes, and 53% had hypertension. For biopsy-proven cirrhosis (prevalence 15%), a cut-off value of 12.5 kilopascals (kPa) for F4 had a sensitivity of 92% and a specificity of 54%. Values below this threshold excluded cirrhosis with 98% certainty. Compared to FIB-4, ultrasound elastography showed higher accuracy in ruling out cirrhosis (92% vs. 80% sensitivity, 98% vs. 95% negative predictive value (NPV), respectively). CONCLUSION: To our knowledge, this is the first study in a tertiary transplant referral center in the USA to show that ultrasound elastography was superior to FIB-4 and can be used as a reliable screening test to rule out cirrhosis in obese NAFLD patients at a 12.5 kPa cut-off. Therefore, helping to avoid the risk and expense associated with liver biopsy.

2.
Am J Physiol Renal Physiol ; 316(3): F473-F480, 2019 03 01.
Artículo en Inglés | MEDLINE | ID: mdl-30565998

RESUMEN

Fructose consumption has increased because of widespread use of high-fructose corn syrup by the food industry. Renal proximal tubules are thought to reabsorb fructose. However, fructose reabsorption (Jfructose) by proximal tubules has not yet been directly demonstrated, nor the effects of dietary fructose on Jfructose. This segment expresses Na+- and glucose-linked transporters (SGLTs) 1, 2, 4, and 5 and glucose transporters (GLUTs) 2 and 5. SGLT4 and -5 transport fructose, but SGLT1 and -2 do not. Knocking out SGLT5 increases urinary fructose excretion. We hypothesize that Jfructose in the S2 portion of the proximal tubule is mediated by luminal entry via SGLT4/5 and basolateral exit by GLUT2 and that it is enhanced by a fructose-enriched diet. We measured Jfructose by proximal straight tubules from rats consuming either tap water (Controls) or 20% fructose (FRU). Basal Jfructose in Controls was 14.1 ± 1.5 pmol·mm-1·min-1. SGLT inhibition with phlorizin reduced Jfructose to 4.9 ± 1.4 pmol·mm-1·min-1 ( P < 0.008), whereas removal of Na+ diminished Jfructose by 86 ± 5% ( P < 0.0001). A fructose-enriched diet increased Jfructose from 12.8 ± 2.5 to 19.3 ± 0.5 pmol·mm-1·min-1, a 51% increase ( P < 0.03). Using immunofluorescence, we detected luminal SGLT4 and SGLT5 and basolateral GLUT2; GLUT5 was undetectable. The expression of apical transporters SGLT4 and SGLT5 was higher in FRU than in Controls [137 ± 10% ( P < 0.01) and 38 ± 14% ( P < 0.04), respectively]. GLUT2 was also elevated by 88 ± 27% ( P < 0.02) in FRU. We conclude that Jfructose by proximal tubules occurs primarily via Na+-linked cotransport processes, and a fructose-enriched diet enhances reabsorption. Transport across luminal and basolateral membranes is likely mediated by SGLT4/5 and GLUT2, respectively.


Asunto(s)
Metabolismo de los Hidratos de Carbono/fisiología , Carbohidratos de la Dieta/administración & dosificación , Fructosa/administración & dosificación , Transportador de Glucosa de Tipo 2/metabolismo , Túbulos Renales Proximales/metabolismo , Proteínas de Transporte de Sodio-Glucosa/metabolismo , Administración Oral , Animales , Metabolismo de los Hidratos de Carbono/efectos de los fármacos , Transportador de Glucosa de Tipo 2/genética , Túbulos Renales Proximales/efectos de los fármacos , Masculino , Ratas , Ratas Sprague-Dawley , Proteínas de Transporte de Sodio-Glucosa/genética
3.
Physiol Rev ; 99(1): 235-309, 2019 01 01.
Artículo en Inglés | MEDLINE | ID: mdl-30354966

RESUMEN

The thick ascending limb plays a key role in maintaining water and electrolyte balance. The importance of this segment in regulating blood pressure is evidenced by the effect of loop diuretics or local genetic defects on this parameter. Hormones and factors produced by thick ascending limbs have both autocrine and paracrine effects, which can extend prohypertensive signaling to other structures of the nephron. In this review, we discuss the role of the thick ascending limb in the development of hypertension, not as a sole participant, but one that works within the rich biological context of the renal medulla. We first provide an overview of the basic physiology of the segment and the anatomical considerations necessary to understand its relationship with other renal structures. We explore the physiopathological changes in thick ascending limbs occurring in both genetic and induced animal models of hypertension. We then discuss the racial differences and genetic defects that affect blood pressure in humans through changes in thick ascending limb transport rates. Throughout the text, we scrutinize methodologies and discuss the limitations of research techniques that, when overlooked, can lead investigators to make erroneous conclusions. Thus, in addition to advancing an understanding of the basic mechanisms of physiology, the ultimate goal of this work is to understand our research tools, to make better use of them, and to contextualize research data. Future advances in renal hypertension research will require not only collection of new experimental data, but also integration of our current knowledge.


Asunto(s)
Presión Sanguínea/fisiología , Extremidades/irrigación sanguínea , Hipertensión/metabolismo , Transporte Iónico/fisiología , Sodio/metabolismo , Animales , Humanos , Equilibrio Hidroelectrolítico/fisiología
4.
Nutrients ; 9(8)2017 Aug 16.
Artículo en Inglés | MEDLINE | ID: mdl-28813008

RESUMEN

Fructose-enriched diets cause salt-sensitive hypertension. Proximal tubules (PTs) reabsorb 70% of the water and salt filtered through the glomerulus. Angiotensin II (Ang II) regulates this process. Normally, dietary salt reduces Ang II allowing the kidney to excrete more salt, thereby preventing hypertension. We hypothesized that fructose-enriched diets enhance the ability of low concentrations of Ang II to stimulate PT transport. We measured the effects of a low concentration of Ang II (10-12 mol/L) on transport-related oxygen consumption (QO2), and Na/K-ATPase and Na/H-exchange (NHE) activities and expression in PTs from rats consuming tap water (Control) or 20% fructose (FRUC). In FRUC-treated PTs, Ang II increased QO2 by 14.9 ± 1.3 nmol/mg/min (p < 0.01) but had no effect in Controls. FRUC elevated NHE3 expression by 19 ± 3% (p < 0.004) but not Na/K-ATPase expression. Ang II stimulated NHE activity in FRUC PT (Δ + 0.7 ± 0.1 Arbitrary Fluorescent units (AFU)/s, p < 0.01) but not in Controls. Na/K-ATPase activity was not affected. The PKC inhibitor Gö6976 blocked the ability of FRUC to augment the actions of Ang II. FRUC did not alter the inhibitory effect of dopamine on NHE activity. We conclude that dietary fructose increases the ability of low concentrations of Ang II to stimulate PT Na reabsorption via effects on NHE.


Asunto(s)
Angiotensina II/metabolismo , Transporte Biológico , Presión Sanguínea/efectos de los fármacos , Fructosa/administración & dosificación , Túbulos Renales Proximales/fisiología , Sodio/metabolismo , Animales , Carbohidratos de la Dieta , Regulación de la Expresión Génica/efectos de los fármacos , Masculino , Distribución Aleatoria , Ratas , Ratas Sprague-Dawley
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