新型家庭母乳电导率传感技术作为乳分泌激活进程延迟和早期母乳喂养问题的识别系统:可行性评估

IF 2.1 Q2 PEDIATRICS
Sharon Haramati, Anastasia Firsow, Daniela Abigail Navarro, Ravid Shechter
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引用次数: 0

摘要

背景:长期纯母乳喂养是公共卫生重点,也是母亲们的个人愿望;然而,由于牛奶供应困难是主要原因,死亡率很低。家中早期母乳喂养管理是关键。乳电解质,主要是钠离子,被认为是出生后最初几周分泌激活过程的生物标志物,也是延长母乳喂养成功的预测因素,尽管它们没有被纳入常规护理实践。目的:本研究的目的是测试一种新型手持式智能手机操作的牛奶电导率传感系统的可行性,该系统旨在计算一个新的参数,即牛奶成熟率(MM%),该参数由牛奶样品电导率计算,用于跟踪现实世界家庭环境中的个体分泌激活过程。方法:首先对系统性能进行基于实验室的母乳分析收集的数据进行评估,然后对系统收集的实际观察数据进行回顾性分析,这些数据由哺乳支持提供者或母亲直接在家中现场实施(N=592)。收集的数据包括乳样感知数据、婴儿年龄、自我报告的母乳喂养状况和母乳喂养相关情况。数据以出生后一天的方式进行追溯分类。结果比较了根据纯母乳喂养和母乳喂养问题相关的无效母乳喂养和低母乳供应分组。结果:一组母乳样本的实验室分析表明,该系统的结果与钠离子水平之间存在很强的相关性。在真实世界的数据集中,592多名真实世界的母亲共获得了1511条现场奶感记录。该系统收集的数据显示,乳汁成熟参数(MM%)呈典型的时间依赖性增加,其特征是最初急剧增加,随后适度增加,并在产后第一周达到平台期。此外,发现系统捕获的MM%水平对纯母乳喂养的母乳喂养状况分类和母乳喂养问题敏感,这表现在出生后几天范围内的组平均值差异,主要是在产后第一周。个体母亲在出生依赖性进展后的每个病例时间也可以证明差异。结论:这项可行性研究表明,使用智能乳电导率传感技术可以提供一种可靠的、客观的个体母乳喂养效率测量方法,便于在家庭环境中远程收集数据。该系统在增强自我监测和远程母乳喂养管理能力以及完善临床分类方面具有相当大的潜力。为了进一步验证这种家庭母乳监测工具的临床相关性和潜力,未来的对照临床研究是必要的,这将深入了解它对用户和护理提供者满意度的影响,以及它实现母乳喂养成功目标的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Novel At-Home Mother's Milk Conductivity Sensing Technology as an Identification System of Delay in Milk Secretory Activation Progress and Early Breastfeeding Problems: Feasibility Assessment.

Novel At-Home Mother's Milk Conductivity Sensing Technology as an Identification System of Delay in Milk Secretory Activation Progress and Early Breastfeeding Problems: Feasibility Assessment.

Novel At-Home Mother's Milk Conductivity Sensing Technology as an Identification System of Delay in Milk Secretory Activation Progress and Early Breastfeeding Problems: Feasibility Assessment.

Novel At-Home Mother's Milk Conductivity Sensing Technology as an Identification System of Delay in Milk Secretory Activation Progress and Early Breastfeeding Problems: Feasibility Assessment.

Background: Prolonged exclusive breastfeeding is a public health priority and a personal desire by mothers; however, rates are low with milk supply challenges as a predominant cause. Early breastfeeding management at home is key. Milk electrolytes, mainly sodium ions, are accepted as biomarkers of secretory activation processes throughout the first weeks after birth and predictors for prolonged breastfeeding success, although they are not incorporated into routine care practice.

Objective: The aim of this study was to test the feasibility of a novel handheld smartphone-operated milk conductivity sensing system that was designed to compute a novel parameter, milk maturation percent (MM%), calculated from milk sample conductivity for tracking individual secretory activation progress in a real-world home setting.

Methods: System performance was initially evaluated in data collected from laboratory-based milk analysis, followed by a retrospective analysis of observational real-world data gathered with the system, on the spot in an at-home setting, implemented by lactation support providers or directly by mothers (N=592). Data collected included milk sample sensing data, baby age, and self-reported breastfeeding status and breastfeeding-related conditions. The data were retroactively classified in a day after birth-dependent manner. Results were compared between groups classified according to breastfeeding exclusivity and breastfeeding problems associated with ineffective breastfeeding and low milk supply.

Results: Laboratory analysis in a set of breast milk samples demonstrated a strong correlation between the system's results and sodium ion levels. In the real-world data set, a total of 1511 milk sensing records were obtained on the spot with over 592 real-world mothers. Data gathered with the system revealed a typical time-dependent increase in the milk maturation parameter (MM%), characterized by an initial steep increase, followed by a moderate increase, and reaching a plateau during the first weeks postpartum. Additionally, MM% levels captured by the system were found to be sensitive to breastfeeding status classifications of exclusive breastfeeding and breastfeeding problems, manifested by differences in group means in the several-day range after birth, predominantly during the first weeks postpartum. Differences could also be demonstrated for the per-case time after birth-dependent progress in individual mothers.

Conclusions: This feasibility study demonstrates that the use of smart milk conductivity sensing technology can provide a robust, objective measure of individual breastfeeding efficiency, facilitating remote data collection within a home setting. This system holds considerable potential to augment both self-monitoring and remote breastfeeding management capabilities, as well as to refine clinical classifications. To further validate the clinical relevance and potential of this home milk monitoring tool, future controlled clinical studies are necessary, which will provide insights into its impact on user and care provider satisfaction and its potential to meet breastfeeding success goals.

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来源期刊
JMIR Pediatrics and Parenting
JMIR Pediatrics and Parenting Medicine-Pediatrics, Perinatology and Child Health
CiteScore
5.00
自引率
5.40%
发文量
62
审稿时长
12 weeks
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