The effect of high‐fat and high‐fructose diets on glucose tolerance and plasma lipid and leptin levels in rats

Huang, B-W; Chiang, Meng‐Tsan; Yao, H-T; Chiang, Wenchang

doi:10.1111/j.1462-8902.2004.00323.x

Cited by 168 publications

(150 citation statements)

References 46 publications

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“…Otra posibilidad es que la ausencia de hiperinsulinemia se deba más a que las ratas utilizadas en el estudio fueron aparentemente resistentes a desarrollar obesidad por el consumo de la dieta alta en grasa, situación en la que, además de la oposición a incrementar el peso, también se observa resistencia a incrementar las concentraciones de insulina (58). Existen asimismo reportes de que las dietas altas en grasa pueden causar intolerancia a la glucosa y alteraciones en la función pancreática para la secreción de insulina lo que ocasionaría que las concentraciones de insulina se inclinaran hacia la disminución y no hacia el aumento (59).…”

Section: Discussionunclassified

“…La hiperglucemia observada en algunos grupos es concordante con otros estudios que indican que una dieta alta en grasa puede causar alteración de la función pancreática para la secreción de insulina y no hiperinsulinemia, intolerancia a la glucosa (59), disminución en el consumo de glucosa en el músculo y tejido adiposo e incremento en otras células no dependientes de la insulina (63).…”

Section: Discussionunclassified

“…También, es factible que la falta de correlación entre glucemia e insulina se deba más al efecto del tipo de dieta ofrecida que, según reportes de investigaciones, afectaría la glucemia pero no la insulina en sangre (59).…”

Section: Discussionunclassified

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Glucemia y concentraciones de insulina en sangre de ratas Wistar sometidas a dieta alta en grasa y a tratamiento con péptidos miméticos de leptina

et al. 2008

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Section: Discussionunclassified

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Glucemia y concentraciones de insulina en sangre de ratas Wistar sometidas a dieta alta en grasa y a tratamiento con péptidos miméticos de leptina

et al. 2008

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“…In diabetes condition oxidative phosphorylation is significantly reduced, afterwards production of adenosine three phosphate is reduced along with decreased level of CoQ10 (Kucharska et al, 2000). One of the other important roles of CoQ10 is inhibit certain enzymes that plays in formation of free radicals and so attenuates oxidative stress (Moazen et al, 2015, Noh et al, 2013, Olatunji and Soladoye, 2007Huang et al, 2004). Feeding fructose or sucrose can provide model of hyperlipidemia, hyperglycemia and insulin resistance (Olatunji and Soladoye, 2007;Huang et al, 2004;Rajasekar and Anuradha, 2007;Thorburn, 1989).…”

Section: Introductionmentioning

confidence: 99%

“…One of the other important roles of CoQ10 is inhibit certain enzymes that plays in formation of free radicals and so attenuates oxidative stress (Moazen et al, 2015, Noh et al, 2013, Olatunji and Soladoye, 2007Huang et al, 2004). Feeding fructose or sucrose can provide model of hyperlipidemia, hyperglycemia and insulin resistance (Olatunji and Soladoye, 2007;Huang et al, 2004;Rajasekar and Anuradha, 2007;Thorburn, 1989). This research conducted to investigate how CoQ10 can improve the antioxidant defense system and decrease of abnormalities in carbohydrate, protein and lipids metabolism in rat.…”

Section: Introductionmentioning

confidence: 99%

Appraisement function of Coenzyme Q10 on body weight changes blood serum biochemical parameters in resembling type 2 diabetic male rats

Shahriary¹,

Khakzadihe²,

Panahi³

2017

J App Pharm Sci

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Diabetes mellitus is a metabolic disorder characterized by hyperglycemia and inadequacy of secretion or action of endogenous insulin. Feeding fructose or sucrose can provide model of hyperlipidemia, hyperglycemia and insulin resistance. This research conducted to investigate how CoQ10 can improve the antioxidant defense system and decrease of abnormalities in carbohydrate, protein and lipids metabolism in rat. First group as control rats with i.p. injection of saline daily. Second group fed on normal diet and supplemented by 10% fructose in drinking water ad libitum with i.p. injection of saline daily. Third group as Fructose fed rats treated with coenzyme Q10, 10 mg/kg i.p. daily. After 30 days blood samples were analyzed. Blood serum glucose assay was performed using GOD-POP method. cholesterol and TG review were performed using enzymatic method, HDL using phosphortungstate method, TP using biuret method, albumin using BCG method, insulin and leptin using RIMA method and MDA using TCA method. Using CoQ10 improved carbohydrate, lipid and protein metabolism and decreased oxidative stress. But recuperation did not reach to recorded level in control group.

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A diet high in fat and fructose adversely affects osseointegration of titanium implants in rats

King

Tanaka

Ross

et al. 2019

Clinical & Exp Dental Res

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Objectives Diet‐induced metabolic dysfunction such as type 2 diabetes mellitus increases the risk of implant failure in both dental and orthopaedic settings. We hypothesised that a diet high in fat and fructose would adversely affect peri‐implant bone structure and function including osseointegration. Materials and methods Thirty female Sprague‐Dawley rats were divided into three groups (n = 10), control group (normal chow) and two intervention groups on a high‐fat (60%), high‐fructose (20%; HFHF) diet. Titanium implants were placed in the proximal tibial metaphysis in all groups either before commencing the diet (dHFHF group) or 6 weeks after commencing the diet (HFHF group) and observed for an 8‐week healing period. Fasting blood glucose levels (fBGLs) were measured weekly. Structural and functional features of the peri‐implant bone, including bone‐to‐implant contact (BIC), were analysed post euthanasia using microcomputed tomography, pull‐out tests, and dynamic histomorphometry. Results The fBGLs were unchanged across all groups. Peri‐implant trabecular bone volume was reduced in the HFHF group compared with controls (p = .02). Percentage BIC was reduced in both HFHF group (25.42 ± 3.61) and dHFHF group (28.56 ± 4.07) compared with the control group (43.26 ± 3.58, p < .05) and reflected the lower pull‐out loads required in those groups. Osteoblast activity was reduced in both intervention groups compared with the control group (p < .05). Conclusion The HFHF diet compromised osseointegration regardless of whether the implant was placed before or after the onset of the diet and, despite the absence of elevated fBGLs, confirming that changes in bone cell function affected both the initiation and maintenance of osseointegration independent of blood glucose levels.

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The effect of high‐fat and high‐fructose diets on glucose tolerance and plasma lipid and leptin levels in rats

Cited by 168 publications

References 46 publications

Glucemia y concentraciones de insulina en sangre de ratas Wistar sometidas a dieta alta en grasa y a tratamiento con péptidos miméticos de leptina

Glucemia y concentraciones de insulina en sangre de ratas Wistar sometidas a dieta alta en grasa y a tratamiento con péptidos miméticos de leptina

Appraisement function of Coenzyme Q10 on body weight changes blood serum biochemical parameters in resembling type 2 diabetic male rats

A diet high in fat and fructose adversely affects osseointegration of titanium implants in rats

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