Sommer Isolde, Griebler Ursula, Kien Christina, Auer Stefanie, Klerings Irma, Hammer Renate, Holzer Peter, Gartlehner Gerald
Department for Evidence-based Medicine and Clinical Epidemiology, Danube University Krems, Dr.-Karl-Dorrek-Straße 30, 3500, Krems, Austria.
Cochrane Austria, Danube University Krems, Krems, Austria.
BMC Geriatr. 2017 Jan 13;17(1):16. doi: 10.1186/s12877-016-0405-0.
Sunlight exposure and high vitamin D status have been hypothesised to reduce the risk of developing dementia. The objective of our research was to determine whether lack of sunlight and hypovitaminosis D over time are associated with dementia.
We systematically searched MEDLINE (via PubMed), Cochrane Library, EMBASE, SCOPUS, Web of Science, ICONDA, and reference lists of pertinent review articles from 1990 to October 2015. We conducted random effects meta-analyses of published and unpublished data to evaluate the influence of sunlight exposure or vitamin D as a surrogate marker on dementia risk.
We could not identify a single study investigating the association between sunlight exposure and dementia risk. Six cohort studies provided data on the effect of serum vitamin D concentration on dementia risk. A meta-analysis of five studies showed a higher risk for persons with serious vitamin D deficiency (<25 nmol/L or 7-28 nmol/L) compared to persons with sufficient vitamin D supply (≥50 nmol/L or 54-159 nmol/L) (point estimate 1.54; 95% CI 1.19-1.99, I = 20%). The strength of evidence that serious vitamin D deficiency increases the risk of developing dementia, however, is very low due to the observational nature of included studies and their lack of adjustment for residual or important confounders (e.g. ApoE ε4 genotype), as well as the indirect relationship between Vitamin D concentrations as a surrogate for sunlight exposure and dementia risk.
The results of this systematic review show that low vitamin D levels might contribute to the development of dementia. Further research examining the direct and indirect relationship between sunlight exposure and dementia risk is needed. Such research should involve large-scale cohort studies with homogeneous and repeated assessment of vitamin D concentrations or sunlight exposure and dementia outcomes.
有假说认为,阳光照射及高维生素D水平可降低患痴呆症的风险。我们研究的目的是确定长期缺乏阳光照射和维生素D缺乏症是否与痴呆症有关。
我们系统检索了MEDLINE(通过PubMed)、Cochrane图书馆、EMBASE、SCOPUS、科学引文索引、ICONDA以及1990年至2015年10月相关综述文章的参考文献列表。我们对已发表和未发表的数据进行随机效应荟萃分析,以评估阳光照射或维生素D作为替代指标对痴呆症风险的影响。
我们未能找到一项研究阳光照射与痴呆症风险之间关系的研究。六项队列研究提供了血清维生素D浓度对痴呆症风险影响的数据。对五项研究的荟萃分析表明,与维生素D供应充足(≥50 nmol/L或54 - 159 nmol/L)的人相比,维生素D严重缺乏(<25 nmol/L或7 - 28 nmol/L)的人患痴呆症的风险更高(点估计值为1.54;95%置信区间为1.19 - 1.99,I² = 20%)。然而,由于纳入研究的观察性性质、缺乏对残余或重要混杂因素(如ApoE ε4基因型)的调整,以及作为阳光照射替代指标的维生素D浓度与痴呆症风险之间的间接关系,严重维生素D缺乏会增加患痴呆症风险这一证据的强度非常低。
本系统评价的结果表明,低维生素D水平可能会促使痴呆症的发生。需要进一步研究来探讨阳光照射与痴呆症风险之间的直接和间接关系。此类研究应包括大规模队列研究,对维生素D浓度或阳光照射以及痴呆症结局进行统一且重复的评估。
