油炸葵花油对生长大鼠下颌骨生物力学能力的影响。

Elisa V Macri, Clarisa Bozzini, Andrea G Ferreira-Monteiro, Patricia N Rodriguez, Fima Lifshitz, Verónica J Miksztowicz, Silvia M Friedman
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摘要

我们之前的研究表明,食用热氧化油饮食会对身体生长、脂质代谢、骨量和股骨生物力学能力产生不利影响。目的:本研究旨在评估含有油炸葵花油的饮食对生长大鼠下颌骨的影响。材料和方法:雄性Wistar大鼠(21±1日龄)(n=21)在断奶时被分配到三种饮食中的一种,为期8周:对照饮食(C)、含有葵花油的饮食(SFO)或含有反复加热的葵花油的食物(SFOx);将SFO和SFOx两者与13%(w/w)的商业大鼠食物混合。三种日粮的稠度和粘度相似。每周记录Zoometrics和食物摄入量。在wk=8时,通过测量清洁骨骼的解剖点来评估下颌骨的生长,并评估下颌骨的生物力学能力以评估骨骼的结构特性。结果:喂食SFOx饮食的大鼠最终体重(P=0.0074)、下颌重量(P=0.0001)和下颌长度(P=0.0002)最低,两种葵花油日粮(新鲜和油炸)均对下颌骨的屈服负荷(Wy;N)和刚度(Wy/dy;N/mm)产生负面影响(分别为P=0.001;P=0.002;P=0.003),尽管SFOx诱导的Wy/dy降低最为显著(C:44.4(5.4)>SFO:36.1(2.1)>SFOx:26.3(3.7)N/mm;P=0.003)。SFOx对下颌骨生长的有害影响在骨后部更为突出(C:11.4(0.3)=SFO:11.2(0.2)>SFOx:10.7(0.2)mm;p=0.0005);前后比(C:1.25(0.02)=SFO:1.27(0.02)。
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Effect of fried sunflower oil intake on mandibular biomechanical competence of growing rats.

Previous studies by us demonstrated that the consumption of thermally oxidized oil diet adversely affects body growth, lipid metabolism, bone mass and femur biomechanical competence.

Aim: The aim of this study was to evaluate the effects of a diet containing fried sunflower oil on the mandible of growing rats.

Materials and method: Male Wistar rats (21±1 day old) (n=21) were assigned at weaning to one of three diets for 8 weeks: a control diet (C), a diet containing sunflower oil (SFO) or a diet containing sunflower oil that had been repeatedly heated (SFOx); both SFO and SFOx were mixed with commercial rat chow at 13% (w/w). The consistency and viscosity of the 3 diets were similar. Zoometrics and food intake were recorded weekly. At wk=8, mandibular growth was assessed by measurements of anatomical points of cleaned bones, and mandible biomechanical competence was assessed to estimate the structural properties of the bone. Statistical analysis was performed by SPSS v. 20.0.

Results: Rats fed SFOx diet attained the lowest final body weight (P=0.0074), mandibular weight (P=0.0001) and mandibular \length (P=0.0002). Load bearing capacity (Wf;N), load of yielding (Wy;N) and stiffness (Wy/dy;N/mm) of the mandible were negatively affected by both sunflower oil diets (fresh and fried) (P=0.001; P=0.002; P=0.003, respectively) though SFOx induced the most significant reduction in Wy/dy (C:44.4(5.4) > SFO:36.1(2.1) > SFOx: 26.3(3.7) N/ mm; P=0.003). The deleterious effect of SFOx on mandibular growth was more accentuated on the posterior part of the bone (C:11.4(0.3)=SFO:11.2(0.2)>SFOx: 10.7(0.2) mm; p=0.0005); the anterior/ posterior ratio (C:1.25(0.02)=SFO:1.27(0.02)

Conclusion: Consumption of SFOx diet during growth could affect mandibular morphometric properties and biomechanical competence, in terms of bone stiffness.

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