Dynamic modeling of antagonism between enteric infection and undernutrition in infancy

婴儿期肠道感染与营养不良拮抗的动态模型

• 批准号: 10162494
• 负责人: GWENYTH O'NEILL LEE
• 金额: $ 11.41万
• 依托单位: UNIVERSITY OF MICHIGAN AT ANN ARBOR
• 依托单位国家: 美国
• 财政年份: 2020
• 资助国家: 美国
• 起止时间: 2020-05-11 至 2025-04-30
• 项目状态: 未结题
• 来源: https://reporter.nih.gov/project-details/10162494
• 关键词: Address; Adult; Affect; Age; Age-Months; Area; Award; Behavior; Biological; Biological Models; Birth; Campylobacter; Child; Childhood; Chronic; Communicable Diseases; Communities; Complex; Computer Models; Data; Data Set; Development; Diet; Dietary Factors; Disease; Ecuadorian; Elements; Ensure; Enteral; Epidemiology; Exposure to; Fatty acid glycerol esters; Feedback; Funding; Giardia; Goals; Growth; Height; Human; Immunity; In Situ; Income; Individual; Infant; Infant Development; Infant Health; Infection; Intake; Interdisciplinary Study; Intervention; Knowledge; Leadership; Life; Malnutrition; Mentored Research Scientist Development Award; Mentors; Mentorship; Metabolism; Methodology; Methods; Michigan; Modeling; National Institute of Allergy and Infectious Disease; Nutrient; Nutritional; Nutritional status; Outcome; Output; Pattern; Positioning Attribute; Poverty; Process; Proteins; Regulation; Reporting; Research; Research Personnel; Resources; Rotavirus; Rural; Sampling; Social Conditions; System; Testing; Time; Training; Universities; Update; Vitamin A; Work; Zinc; base; bridge program; career; cognitive development; cohort; community based research; deprivation; design; dietary; early childhood; energy balance; enteric infection; enteric pathogen; epidemiology study; experience; feeding; girls; global health; improved; indexing; infancy; infection risk; innovation; interest; low and middle-income countries; maternal outcome; mathematical model; nutritional epidemiology; pathogen; prevent; programs; tool; training project

PROJECT SUMMARY The goal of this NIAID Mentored Research Scientist Development Award (K01) is to provide the candidate, Gwenyth O. Lee, with the training and protected time to build an independent, interdisciplinary research program. This program would bridge computational modeling methods and community-based research to address key questions in the field of enteric disease epidemiology. Stunted growth is a significant negative outcome of frequent enteric infection among children under five years in low and middle- income countries (LMICs). A major obstacle to the development of impactful interventions to prevent stunting has been methodological. Growth faltering in children is the cumulative result of complex interactions between infectious exposures and dietary inadequacies. Conventional statistical approaches are capable of, but not well-suited to, disentangling these interactions to identify those modifiable factors with the greatest potential impact. On the other hand, systems approaches are explicitly designed to capture complex interactions between multiple causal relationships. Therefore, the overall objective of this proposal is to develop a mechanistic model that captures patterns of feedback between infection, diet, and short-term growth dynamics and predicts how an individual infant might grow, given different patterns of infection experienced in the first two years of life. This model will be used to test whether feedback between infection and undernutrition has the potential to result in a ‘tipping point’, such that enteric infections impact stunting only when the negative effect of these infections outpaces the infant’s biological capacity for catch-up growth. The model will also be used to investigate mechanisms by which dietary inadequacies modify the relationship between enteric infections and growth and to compare enteropathogen- specific growth impacts. The model will be empirically based in 1) data from three Ecuadorian birth cohorts, sampled across rural-urban gradient with variable burdens of enteric exposures but relatively homogenous infant feeding practices and 2) data from six birth cohorts from multiple LMIC contexts (‘MAL-ED’ study), where enteric exposures but also dietary and social conditions are heterogeneous between cohorts. To match the proposed scientific work, the candidate will seek to integrate her experience in community-based enteric disease research with the following training areas: computational modeling, including 1) system dynamics and 2) agent-based modeling, and 3) the nutritional regulation of child growth. This training will be augmented with 4) career-building activities to acquire essential tools for leadership and professional growth. Experts have emphasized the need to better integrate computational modeling into applied epidemiology research, thereby creating models that can better predict contextually-tailored intervention strategies. The project builds upon the unique resources and mentoring available to the candidate through the University of Michigan to provide advanced methodological training, bolster applications for competitive funding, disseminate findings across the wider research community and attain research independence.

项目摘要 这个NIAID指导研究科学家发展奖（K 01）的目标是提供候选人， 格温妮丝·奥李，与培训和保护的时间，以建立一个独立的，跨学科的研究计划。 该计划将连接计算建模方法和基于社区的研究，以解决关键问题 肠道疾病流行病学领域的问题。增长受阻是一个重大的负面结果， 低收入和中等收入国家5岁以下儿童肠道感染频繁。一个主要 阻碍制定有效干预措施预防发育迟缓的主要障碍是方法问题。增长 儿童的步履蹒跚是感染暴露和饮食之间复杂相互作用的累积结果 不足之处传统的统计方法能够，但不适合，解开这些 互动，以确定那些具有最大潜在影响的可修改因素。另一方面，系统 这些方法被明确地设计为捕捉多种因果关系之间的复杂相互作用。 因此，本提案的总体目标是开发一种机制模型， 感染、饮食和短期生长动态之间的反馈，并预测单个婴儿如何 考虑到在生命的头两年经历的不同感染模式，该模型将用于测试 感染和营养不良之间的反馈是否有可能导致“临界点”， 只有当肠道感染的负面影响超过婴儿的生物学影响时，这些感染才会影响发育迟缓 追赶增长的能力。该模型还将用于研究饮食中 不足之处修改肠道感染和生长之间的关系，并比较肠道病原体- 具体的增长影响。该模型将以经验为基础，1）来自三个厄瓜多尔出生队列的数据， 在城乡梯度中采样，肠道暴露负荷不同，但婴儿相对均匀 喂养实践和2）来自多个LMIC背景的6个出生队列的数据（“MAL-ED”研究），其中肠 不同群体之间的接触以及饮食和社会条件也不相同。为了配合拟议的 科学工作，候选人将寻求整合她在社区为基础的肠道疾病研究的经验， 具有以下培训领域：计算建模，包括1）系统动力学和2）基于代理的 3）儿童生长发育的营养调控。 这项训练还将增加职业发展的内容 活动，以获得领导和专业成长的基本工具。专家们强调， 更好地将计算建模与应用流行病学研究相结合，从而创建能够 更好地预测针对具体情况的干预策略。该项目建立在独特的资源和 通过密歇根大学为候选人提供指导，以提供先进的方法 培训，支持竞争性资金的申请，在更广泛的研究界传播研究成果 实现研究独立。