Data Science Center of Excellence, BFS health finance, Bertelsmann, Dortmund, Germany.
Center for Public Health and Healthcare Research, Institute of General Practice, Family Medicine and Preventive Medicine, Program Medical Science, Paracelsus Medical University, Salzburg, Austria.
BMC Oral Health. 2024 Feb 9;24(1):205. doi: 10.1186/s12903-024-03897-4.
Ideally, health services and interventions to improve dental health should be tailored to local target populations. But this is not the standard. Little is known about risk clusters in dental health care and their evaluation based on small-scale, spatial data, particularly among under-represented groups in health surveys. Our study aims to investigate the incidence rates of major oral diseases among privately insured and self-paying individuals in Germany, explore the spatial clustering of these diseases, and evaluate the influence of social determinants on oral disease risk clusters using advanced data analysis techniques, i.e. machine learning.
A retrospective cohort study was performed to calculate the age- and sex-standardized incidence rate of oral diseases in a study population of privately insured and self-pay patients in Germany who received dental treatment between 2016 and 2021. This was based on anonymized claims data from BFS health finance, Bertelsmann, Dortmund, Germany. The disease history of individuals was recorded and aggregated at the ZIP code 5 level (n = 8871).
Statistically significant, spatially compact clusters and relative risks (RR) of incidence rates were identified. By linking disease and socioeconomic databases on the ZIP-5 level, local risk models for each disease were estimated based on spatial-neighborhood variables using different machine learning models. We found that dental diseases were spatially clustered among privately insured and self-payer patients in Germany. Incidence rates within clusters were significantly elevated compared to incidence rates outside clusters. The relative risks (RR) for a new dental disease in primary risk clusters were min = 1.3 (irreversible pulpitis; 95%-CI = 1.3-1.3) and max = 2.7 (periodontitis; 95%-CI = 2.6-2.8), depending on the disease. Despite some similarity in the importance of variables from machine learning models across different clusters, each cluster is unique and must be treated as such when addressing oral public health threats.
Our study analyzed the incidence of major oral diseases in Germany and employed spatial methods to identify and characterize high-risk clusters for targeted interventions. We found that private claims data, combined with a network-based, data-driven approach, can effectively pinpoint areas and factors relevant to oral healthcare, including socioeconomic determinants like income and occupational status. The methodology presented here enables the identification of disease clusters of greatest demand, which would allow implementing more targeted approaches and improve access to quality care where they can have the most impact.
理想情况下,应针对当地目标人群量身定制改善口腔健康的卫生服务和干预措施。但这并非标准做法。我们对口腔保健中的风险群集及其基于小规模空间数据的评估知之甚少,尤其是在健康调查中代表性不足的群体中。我们的研究旨在调查德国私人保险和自费个体中主要口腔疾病的发病率,探索这些疾病的空间聚类,并使用先进数据分析技术(即机器学习)评估社会决定因素对口腔疾病风险群集的影响。
我们进行了一项回顾性队列研究,以计算 2016 年至 2021 年间在德国接受牙科治疗的私人保险和自费患者的年龄和性别标准化发病率。这是基于德国多特蒙德伯尔蒂斯曼 BFS 健康金融匿名索赔数据得出的。个体的疾病史记录并汇总到邮政编码 5 级(n=8871)。
我们确定了具有统计学意义的、空间上紧凑的集群和发病率的相对风险(RR)。通过在邮政编码 5 级上链接疾病和社会经济数据库,我们使用不同的机器学习模型,基于空间邻域变量为每种疾病估计了局部风险模型。我们发现,德国私人保险和自费患者的口腔疾病存在空间聚类。集群内的发病率明显高于集群外的发病率。初级风险集群中新口腔疾病的相对风险(RR)最小值为 1.3(不可逆性牙髓炎;95%CI=1.3-1.3),最大值为 2.7(牙周炎;95%CI=2.6-2.8),具体取决于疾病。尽管不同集群中来自机器学习模型的变量的重要性存在一些相似之处,但每个集群都是独特的,在解决口腔公共卫生威胁时必须如此对待。
我们的研究分析了德国主要口腔疾病的发病率,并采用空间方法识别和描述了针对目标干预措施的高风险集群。我们发现,私人索赔数据与基于网络的、数据驱动的方法相结合,可以有效地确定与口腔保健相关的区域和因素,包括收入和职业地位等社会经济决定因素。本文提出的方法能够识别需求最大的疾病集群,从而可以实施更有针对性的方法,并在最能产生影响的地方改善获得优质护理的机会。
