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VegEze的开发:一款旨在增加澳大利亚成年人蔬菜摄入量的智能手机应用程序。

The Development of VegEze: Smartphone App to Increase Vegetable Consumption in Australian Adults.

作者信息

Hendrie Gilly A, James-Martin Genevieve, Williams Gemma, Brindal Emily, Whyte Ben, Crook Anna

机构信息

Health & Biosecurity, Commonwealth Scientific and Industrial Research Organisation, Adelaide, Australia.

SP Health Co Pty Ltd, Sydney, Australia.

出版信息

JMIR Form Res. 2019 Mar 27;3(1):e10731. doi: 10.2196/10731.

DOI:10.2196/10731
PMID:30916653
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6456819/
Abstract

BACKGROUND

Poor-quality dietary patterns are often characterized by inadequate consumption of fruits and vegetables. Changing dietary behavior is difficult, and although it is often clear what needs to change, how to enact change is more difficult. Smartphones have characteristics that may support the complexity of changing dietary behavior.

OBJECTIVE

This paper describes the iterative process of developing a theory-based smartphone app called VegEze that aimed to increase vegetable consumption.

METHODS

To upscale, reach target users, and create a user-friendly end product, a collaborative research-industry partnership was formed to build the app over a 20-week period. The Integrate, Design, Assess, and Share framework was used as a scientific basis to guide the development. The behavior change wheel was also used as a theoretical grounding in combination with other theory-based strategies, such as self-monitoring, social comparison, and gamification-which have all been shown to be successful in dietary change or digital health interventions. We conducted 1 consumer survey (N=1068), 1 usability testing session (N=11), and a pilot effectiveness and usability trial (N=283) to inform the design of the app.

RESULTS

The target behavior for the app was defined as having 3 different types of vegetables at dinner. The perceived achievability of this target behavior was high; 93% of respondents (993/1068 users) felt they were likely or very likely to be able to regularly achieve the behavior. App features that users wanted included the following: recipes and meal ideas (876/1068, 82% of users), functionality to track their intake (662/1068, 62%), and information on how to prepare vegetables (545/1068, 51%). On the basis of importance of self-monitoring as a behavior change technique (BCT) and its rating by users, the vegetable tracker was a core feature of the app and was designed to be quick and simple to use. Daily feedback messages for logging intake and communicating progress were designed to be engaging and fun, using friendly, positive language and emoji icons. Daily and weekly feedback on vegetable consumption was designed to be simple, informative, and reinforce monitoring. A creative team was engaged to assist in the branding of the app to ensure it had an identity that reflected the fun and simple nature of the underlying behavior. The app included 16 BCTs, most of which were from the goals and planning subsection of the BCT taxonomy.

CONCLUSIONS

Combining a theoretical framework with an industry perspective and input resulted in an app that was developed in a timely manner while retaining its evidence-base. VegEze is an iOS app currently available in the App Store, and the overall impact of the VegEze app will be evaluated in an uncontrolled, quantitative study.

TRIAL REGISTRATION

Australian New Zealand Clinical Trials Registry ACTRN12618000481279; http://www.anzctr.org.au/TrialSearch.aspx?searchTxt=ACTRN12618000481279 (Archived by WebCite: at http://www.webcitation.org/769oG9EaA).

摘要

背景

不良饮食模式的特点通常是水果和蔬菜摄入量不足。改变饮食行为很困难,尽管往往清楚需要改变什么,但如何实现改变则更具挑战性。智能手机具有的特性可能有助于应对改变饮食行为的复杂性。

目的

本文描述了一款名为VegEze的基于理论的智能手机应用程序的迭代开发过程,该应用旨在增加蔬菜摄入量。

方法

为了扩大规模、覆盖目标用户并创建用户友好的最终产品,我们建立了一个研究与行业的合作关系,在20周内开发该应用程序。整合、设计、评估和分享框架被用作指导开发的科学依据。行为改变轮也被用作理论基础,并结合其他基于理论的策略,如自我监测、社会比较和游戏化,这些策略在饮食改变或数字健康干预中都已被证明是成功的。我们进行了1次消费者调查(N = 1068)、1次可用性测试(N = 11)以及1次试点有效性和可用性试验(N = 283),以指导应用程序的设计。

结果

该应用的目标行为被定义为晚餐食用3种不同类型的蔬菜。这种目标行为的可实现性被认为很高;93%的受访者(993/1068名用户)认为他们很可能或非常有可能定期实现该行为。用户想要的应用功能包括:食谱和膳食建议(876/1068,82%的用户)、跟踪摄入量的功能(662/1068,62%)以及蔬菜烹饪方法信息(545/1068,51%)。基于自我监测作为一种行为改变技术(BCT)的重要性及其在用户中的评分,蔬菜摄入量跟踪器是该应用的核心功能,其设计简单易用。用于记录摄入量和传达进展的每日反馈信息旨在通过友好、积极的语言和表情符号图标变得有趣且引人入胜。关于蔬菜摄入量的每日和每周反馈设计得简单明了且能强化监测。我们聘请了一个创意团队来协助应用程序的品牌塑造,以确保其形象能够体现潜在行为的趣味性和简单性。该应用包含16种BCT,其中大部分来自BCT分类法的目标和计划子类别。

结论

将理论框架与行业视角及投入相结合,使得一款应用程序能够在保留其循证基础的同时及时开发出来。VegEze是一款目前可在应用商店获取的iOS应用程序,VegEze应用程序的总体影响将在一项非对照定量研究中进行评估。

试验注册

澳大利亚新西兰临床试验注册中心ACTRN12618000481279;http://www.anzctr.org.au/TrialSearch.aspx?searchTxt=ACTRN12618000481279(由WebCite存档:http://www.webcitation.org/769oG9EaA)

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff4/6456819/bb255b6e3060/formative_v3i1e10731_fig4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff4/6456819/69a60bfa078b/formative_v3i1e10731_fig1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff4/6456819/55246c94955f/formative_v3i1e10731_fig2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff4/6456819/be243641fd8a/formative_v3i1e10731_fig3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff4/6456819/bb255b6e3060/formative_v3i1e10731_fig4.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff4/6456819/69a60bfa078b/formative_v3i1e10731_fig1.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff4/6456819/55246c94955f/formative_v3i1e10731_fig2.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff4/6456819/be243641fd8a/formative_v3i1e10731_fig3.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/dff4/6456819/bb255b6e3060/formative_v3i1e10731_fig4.jpg

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