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氟西汀可改善慢性轻度应激(一种抑郁动物模型)下的啮齿动物的骨微结构和力学性能。

Fluoxetine improves bone microarchitecture and mechanical properties in rodents undergoing chronic mild stress - an animal model of depression.

机构信息

Department of Orthopaedic Surgery, Yong Loo Lin School of Medicine, National University of Singapore, 119228, Singapore, Singapore.

Department of Psychological Medicine, Yong Loo Lin School of Medicine, National University of Singapore, 119228, Singapore, Singapore.

出版信息

Transl Psychiatry. 2022 Aug 20;12(1):339. doi: 10.1038/s41398-022-02083-w.

DOI:10.1038/s41398-022-02083-w
PMID:35987907
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9392792/
Abstract

Depression is one of the most prevalent mental disorders associated with reductions in bone mineral density and increased fracture risk. Fluoxetine is a highly prescribed selective serotonin reuptake inhibitor (SSRI) in the treatment of depression and is reported to be a risk factor for fractures. The present study examined the effect of fluoxetine on bone microarchitecture and the mechanical properties under chronic mild stress (CMS), a rodent model of depression. Thirty-one 6-9 week-old rats were allocated to 4 groups: 1) CMS + fluoxetine group (n = 10), 2) fluoxetine-only group (n = 5), 3) CMS + placebo group (n = 10) and 4) control group (no CMS and treatment) (n = 6). After 16 weeks, bone microarchitecture of the distal femur was analyzed by µCT. Mechanical properties were assessed by the three-point bending test, and antidepressant efficacy was determined by sucrose preference and forced swimming tests. Significant correlations were found between volume of sucrose intake and bone volume/tissue volume (BV/TV) (p = 0.019) and elastic absorption energy (p = 0.001) in the fluoxetine only group. The fluoxetine-only group showed significantly higher in the second moment of area in y-direction (p = 0.0298), horizontal outer diameter (mm) (p = 0.0488) and average midshaft thickness (mm) (p = 0.00047) than control group. Comparing with the control group, there was a significant reduction in trabecular number (Tb.N) in the CMS + fluoxetine group (p = 0.026) but not the fluoxetine-only group (p > 0.05). Significant increases in trabecular separation were observed in the metaphysis of CMS + placebo (p = 0.003) and CMS + fluoxetine (p = 0.004) groups when compared to the control group but not in the fluoxetine-only group (p > 0.05). During the three-point bending test, the fluoxetine-only group demonstrated significantly higher structural strength than controls (p = 0.04). Micro computed tomography (µCT) slices showed loss of trabecular bone in the metaphysis region of the CMS + fluoxetine and CMS + placebo groups but not the fluoxetine-only and control groups. In an animal model of depression, the adverse effect on the bone microarchitecture was caused by CMS but not by fluoxetine. Without exposure to CMS, fluoxetine significantly increased the cross-sectional area, trabecular bone area, structural strength and osteoblasts / bone area as compared to control condition.

摘要

抑郁症是与骨密度降低和骨折风险增加相关的最常见精神障碍之一。氟西汀是一种高度处方的选择性 5-羟色胺再摄取抑制剂(SSRI),用于治疗抑郁症,据报道它是骨折的一个风险因素。本研究探讨了氟西汀在慢性轻度应激(CMS)下对骨微结构和机械性能的影响,CMS 是一种抑郁症的啮齿动物模型。31 只 6-9 周龄大鼠被分为 4 组:1)CMS+氟西汀组(n=10),2)氟西汀组(n=5),3)CMS+安慰剂组(n=10)和 4)对照组(无 CMS 和治疗)(n=6)。16 周后,通过 µCT 分析远端股骨的骨微结构。通过三点弯曲试验评估机械性能,通过蔗糖偏好和强迫游泳试验确定抗抑郁疗效。在氟西汀组中,发现骨体积/组织体积(BV/TV)(p=0.019)和弹性吸收能(p=0.001)与蔗糖摄入量之间存在显著相关性。氟西汀组的第二矩在 y 方向上(p=0.0298)、水平外径(mm)(p=0.0488)和平均中轴厚度(mm)(p=0.00047)明显高于对照组。与对照组相比,CMS+氟西汀组的骨小梁数量(Tb.N)明显减少(p=0.026),而氟西汀组则没有(p>0.05)。CMS+安慰剂组和 CMS+氟西汀组的骺端骨小梁分离明显增加(p=0.003 和 p=0.004),而对照组则没有(p>0.05)。在三点弯曲试验中,氟西汀组的结构强度明显高于对照组(p=0.04)。微计算机断层扫描(µCT)切片显示 CMS+氟西汀和 CMS+安慰剂组的骺端区域的骨小梁丢失,但氟西汀组和对照组没有。在抑郁症动物模型中,CMS 引起的骨微结构的不良反应,而不是氟西汀引起的。在不暴露于 CMS 的情况下,与对照条件相比,氟西汀显著增加了横截面面积、骨小梁面积、结构强度和成骨细胞/骨面积。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b32d/9392792/46acb52b9797/41398_2022_2083_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b32d/9392792/1e338d4c90aa/41398_2022_2083_Fig1_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b32d/9392792/4bfe5142fcc5/41398_2022_2083_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b32d/9392792/46acb52b9797/41398_2022_2083_Fig6_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b32d/9392792/1e338d4c90aa/41398_2022_2083_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b32d/9392792/592e732fa98e/41398_2022_2083_Fig2_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b32d/9392792/d335378da43c/41398_2022_2083_Fig3_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b32d/9392792/650c8cdaae16/41398_2022_2083_Fig4_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b32d/9392792/4bfe5142fcc5/41398_2022_2083_Fig5_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b32d/9392792/46acb52b9797/41398_2022_2083_Fig6_HTML.jpg

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