结构化报告，用于对肺栓塞进行高效的流行病学分析和院内发病率分析。

IF 1.3 4区医学 Q3 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

Rofo-fortschritte Auf Dem Gebiet Der Rontgenstrahlen Und Der Bildgebenden Verfahren Pub Date : 2025-02-01 Epub Date: 2024-05-28 DOI:10.1055/a-2301-3349

Tobias Jorg, Moritz C Halfmann, Dirk Graafen, Lukas Hobohm, Christoph Düber, Peter Mildenberger, Lukas Müller

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引用次数: 0

摘要

结构化报告（SR）不仅在报告质量方面具有优势，而且作为一种基于信息技术的方法，还提供了汇总和分析大型、高度结构化数据集（数据挖掘）的机会。本研究采用数据挖掘算法，通过分析结构化 CT 报告来计算肺栓塞（PE）的流行病学数据和院内患病率统计数据。我们从 SR 数据库中提取并分析了过去 5 年 PE CT 扫描的所有结构化报告（n = 2790）。我们从SR数据库中提取并分析了过去5年中所有PE CT扫描的结构化报告（n = 2790），计算了整个组群的PE患病率，并根据转诊类型和临床转诊者进行了分层。计算了 PE 的表现分布（中央型、叶状型、节段型、亚节段型以及左侧型、右侧型、双侧型），并将右心劳损的发生与表现相关联。PE患者的中位年龄为71岁（IQR 58-80），性别分布为1.2/1（男/女）。与普通病房（27%）和重症监护室（30%）的患者相比，门诊患者的发病率较低，仅为 23%。外科转诊患者的发病率高于内科患者（34% 对 22%）。与外周和单侧栓塞患者相比，中枢性和双侧 PE 患者的右心劳损发生率明显更高。结构化报告的数据挖掘是获取患病率统计、流行病学数据和疾病特征分布的一种简单方法，PE 用例就证明了这一点。生成的数据可用于多种目的，如内部临床质量保证和科学分析。为了从中获益，需要并建议持续使用 SR。- 基于 SR 的数据挖掘可以对 PE 进行简单的流行病学分析。- 门诊病人和住院病人的 PE 患病率不同。- 中枢性和双侧PE导致右心劳损的风险增加- Jorg T、Halfmann MC、Graafen D 等人.有效进行肺栓塞流行病学和院内患病率分析的结构化报告.Fortschr Röntgen.Fortschr Röntgenstr 2024; DOI 10.1055/a-2301-3349.

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Structured reporting for efficient epidemiological and in-hospital prevalence analysis of pulmonary embolisms.

Structured reporting (SR) not only offers advantages regarding report quality but, as an IT-based method, also the opportunity to aggregate and analyze large, highly structured datasets (data mining). In this study, a data mining algorithm was used to calculate epidemiological data and in-hospital prevalence statistics of pulmonary embolism (PE) by analyzing structured CT reports.All structured reports for PE CT scans from the last 5 years (n = 2790) were extracted from the SR database and analyzed. The prevalence of PE was calculated for the entire cohort and stratified by referral type and clinical referrer. Distributions of the manifestation of PEs (central, lobar, segmental, subsegmental, as well as left-sided, right-sided, bilateral) were calculated, and the occurrence of right heart strain was correlated with the manifestation.The prevalence of PE in the entire cohort was 24% (n = 678). The median age of PE patients was 71 years (IQR 58-80), and the sex distribution was 1.2/1 (M/F). Outpatients showed a lower prevalence of 23% compared to patients from regular wards (27%) and intensive care units (30%). Surgically referred patients had a higher prevalence than patients from internal medicine (34% vs. 22%). Patients with central and bilateral PEs had a significantly higher occurrence of right heart strain compared to patients with peripheral and unilateral embolisms.Data mining of structured reports is a simple method for obtaining prevalence statistics, epidemiological data, and the distribution of disease characteristics, as demonstrated by the PE use case. The generated data can be helpful for multiple purposes, such as for internal clinical quality assurance and scientific analyses. To benefit from this, consistent use of SR is required and is therefore recommended. · SR-based data mining allows simple epidemiologic analyses for PE.. · The prevalence of PE differs between outpatients and inpatients.. · Central and bilateral PEs have an increased risk of right heart strain.. · Jorg T, Halfmann MC, Graafen D et al. Structured reporting for efficient epidemiological and in-hospital prevalence analysis of pulmonary embolisms. Rofo 2025; 197: 186-195.

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来源期刊

Rofo-fortschritte Auf Dem Gebiet Der Rontgenstrahlen Und Der Bildgebenden Verfahren 医学-核医学

CiteScore

1.20

自引率

5.60%

发文量

340

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