ManoMap：一种用于高分辨率测压记录的结肠传播收缩特征分析的自动化系统。

ManoMap: an automated system for characterization of colonic propagating contractions recorded by high-resolution manometry.

机构信息

Auckland Bioengineering Institute, University of Auckland, Private Bag 92019, Auckland, 1142, New Zealand.

Department of Surgery, University of Auckland, Auckland, New Zealand.

出版信息

Med Biol Eng Comput. 2021 Feb;59(2):417-429. doi: 10.1007/s11517-021-02316-y. Epub 2021 Jan 26.

DOI:10.1007/s11517-021-02316-y

PMID:33496911

Abstract

RATIONALE

Colonic high-resolution manometry (cHRM) is an emerging clinical tool for defining colonic function in health and disease. Current analysis methods are conducted manually, thus being inefficient and open to interpretation bias.

OBJECTIVE

The main objective of the study was to build an automated system to identify propagating contractions and compare the performance to manual marking analysis.

METHODS

cHRM recordings were performed on 5 healthy subjects, 3 subjects with diarrhea-predominant irritable bowel syndrome, and 3 subjects with slow transit constipation. Two experts manually identified propagating contractions, from five randomly selected 10-min segments from each of the 11 subjects (72 channels per dataset, total duration 550 min). An automated signal processing and detection platform was developed to compare its effectiveness to manually identified propagating contractions. In the algorithm, individual pressure events over a threshold were identified and were then grouped into a propagating contraction. The detection platform allowed user-selectable thresholds, and a range of pressure thresholds was evaluated (2 to 20 mmHg).

KEY RESULTS

The automated system was found to be reliable and accurate for analyzing cHRM with a threshold of 15 mmHg, resulting in a positive predictive value of 75%. For 5-h cHRM recordings, the automated method takes 22 ± 2 s for analysis, while manual identification would take many hours.

CONCLUSIONS

An automated framework was developed to filter, detect, quantify, and visualize propagating contractions in cHRM recordings in an efficient manner that is reliable and consistent.

摘要

原理

结肠高分辨率测压（cHRM）是一种新兴的临床工具，用于在健康和疾病中定义结肠功能。目前的分析方法是手动进行的，因此效率低下且容易受到解释偏差的影响。

目的

本研究的主要目的是构建一个自动系统来识别传播性收缩，并将其性能与手动标记分析进行比较。

方法

对 5 名健康受试者、3 名腹泻为主型肠易激综合征患者和 3 名慢传输性便秘患者进行 cHRM 记录。两位专家手动识别传播性收缩，从 11 名受试者的五个随机选择的 10 分钟段（每个数据集 72 个通道，总时长 550 分钟）中识别。开发了一种自动信号处理和检测平台，以比较其与手动识别传播性收缩的效果。在算法中，超过阈值的单个压力事件被识别出来，然后被分组为传播性收缩。检测平台允许用户选择阈值，并评估了一系列压力阈值（2 至 20mmHg）。

主要结果

该自动系统在使用 15mmHg 阈值分析 cHRM 时被发现是可靠和准确的，其阳性预测值为 75%。对于 5 小时的 cHRM 记录，自动方法的分析时间为 22±2 秒，而手动识别则需要数小时。

结论

开发了一种自动框架，以高效、可靠和一致的方式对 cHRM 记录中的过滤、检测、量化和可视化传播性收缩。

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ManoMap：一种用于高分辨率测压记录的结肠传播收缩特征分析的自动化系统。

ManoMap: an automated system for characterization of colonic propagating contractions recorded by high-resolution manometry.

机构信息

出版信息

RATIONALE

OBJECTIVE

METHODS

KEY RESULTS

CONCLUSIONS

原理

目的

方法

主要结果

结论

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