Technical University of Applied Science, Wildau, Germany.
Clin Chem. 2011 May;57(5):675-87. doi: 10.1373/clinchem.2010.153767. Epub 2011 Mar 7.
Over the past 10 years, the use of saliva as a diagnostic fluid has gained attention and has become a translational research success story. Some of the current nanotechnologies have been demonstrated to have the analytical sensitivity required for the use of saliva as a diagnostic medium to detect and predict disease progression. However, these technologies have not yet been integrated into current clinical practice and work flow.
As a diagnostic fluid, saliva offers advantages over serum because it can be collected noninvasively by individuals with modest training, and it offers a cost-effective approach for the screening of large populations. Gland-specific saliva can also be used for diagnosis of pathology specific to one of the major salivary glands. There is minimal risk of contracting infections during saliva collection, and saliva can be used in clinically challenging situations, such as obtaining samples from children or handicapped or anxious patients, in whom blood sampling could be a difficult act to perform. In this review we highlight the production of and secretion of saliva, the salivary proteome, transportation of biomolecules from blood capillaries to salivary glands, and the diagnostic potential of saliva for use in detection of cardiovascular disease and oral and breast cancers. We also highlight the barriers to application of saliva testing and its advancement in clinical settings.
Saliva has the potential to become a first-line diagnostic sample of choice owing to the advancements in detection technologies coupled with combinations of biomolecules with clinical relevance.
在过去的 10 年中,唾液作为一种诊断液的应用引起了人们的关注,并成为转化研究的成功案例。一些当前的纳米技术已经被证明具有分析灵敏度,可将唾液用作诊断介质,以检测和预测疾病进展。然而,这些技术尚未整合到当前的临床实践和工作流程中。
作为一种诊断液,唾液具有优于血清的优势,因为它可以由经过适度培训的个体非侵入性地采集,并且对于大人群的筛查具有成本效益的方法。腺体特异性唾液也可用于诊断特定于主要唾液腺之一的病理学。在采集唾液期间感染的风险最小,并且唾液可用于临床挑战性情况,例如从儿童或残疾或焦虑的患者中获取样本,在这些患者中,采血可能是一项困难的操作。在这篇综述中,我们强调了唾液的产生和分泌、唾液蛋白质组、生物分子从毛细血管向唾液腺的运输,以及唾液在检测心血管疾病、口腔癌和乳腺癌方面的诊断潜力。我们还强调了唾液检测的应用障碍及其在临床环境中的进展。
由于检测技术的进步以及与临床相关的生物分子的组合,唾液有可能成为首选的一线诊断样本。
