主动转运提高健康水平、降低医疗成本和减少温室气体排放的潜力：建模研究。

Potential of active transport to improve health, reduce healthcare costs, and reduce greenhouse gas emissions: A modelling study.

机构信息

Burden of Disease Epidemiology, Equity, and Cost-Effectiveness Programme, Department of Public Health, University of Otago (Wellington), Wellington, New Zealand.

Population Interventions Unit, Centre for Epidemiology and Biostatistics, Melbourne School of Population and Global Health, University of Melbourne, Melbourne, Australia.

出版信息

PLoS One. 2019 Jul 17;14(7):e0219316. doi: 10.1371/journal.pone.0219316. eCollection 2019.

DOI:10.1371/journal.pone.0219316

PMID:31314767

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6636726/

Abstract

BACKGROUND

Physical inactivity contributes substantively to disease burden, especially in highly car dependent countries such as New Zealand (NZ). We aimed to quantify the future health gain, health-sector cost-savings, and change in greenhouse gas emissions that could be achieved by switching short vehicle trips to walking and cycling in New Zealand.

METHODS

We used unit-level survey data to estimate changes in physical activity, distance travelled by mode, and air pollution for: (a) switching car trips under 1km to walking and (b) switching car trips under 5km to a mix of walking and cycling. We modelled uptake levels of 25%, 50%, and 100%, and assumed changes in transport behaviour were permanent. We then used multi-state life table modelling to quantify health impacts as quality adjusted life years (QALYs) gained and changes in health system costs over the rest of the life course of the NZ population alive in 2011 (n = 4.4 million), with 3% discounting.

FINDINGS

The modelled scenarios resulted in health gains between 1.61 (95% uncertainty interval (UI) 1.35 to 1.89) and 25.43 (UI 20.20 to 30.58) QALYs/1000 people, with total QALYs up to 112,020 (UI 88,969 to 134,725) over the remaining lifespan. Healthcare cost savings ranged between NZ$127million (UI $101m to 157m) and NZ$2.1billion (UI $1.6b to 2.6b). Greenhouse gas emissions were reduced by up to 194kgCO2e/year, though changes in emissions were not significant under the walking scenario.

CONCLUSIONS

Substantial health gains and healthcare cost savings could be achieved by switching short car trips to walking and cycling. Implementing infrastructural improvements and interventions to encourage walking and cycling is likely to be a cost-effective way to improve population health, and may also reduce greenhouse gas emissions.

摘要

背景

身体活动不足对疾病负担有实质性影响，尤其是在像新西兰（NZ）这样高度依赖汽车的国家。我们旨在量化通过在新西兰将短途汽车旅行转换为步行和骑自行车来实现的未来健康收益、卫生部门成本节约和温室气体排放变化。

方法

我们使用单位水平的调查数据来估计以下两种情况的身体活动、出行距离和空气污染变化：（a）将 1 公里以内的汽车旅行转换为步行；（b）将 5 公里以内的汽车旅行转换为步行和自行车的混合。我们假设采用 25%、50%和 100%的吸收率水平，并假设交通行为的变化是永久性的。然后，我们使用多状态生命表模型来量化健康影响，即获得的质量调整生命年（QALYs）和 2011 年新西兰（440 万）在世人口剩余寿命内卫生系统成本的变化，贴现率为 3%。

结果

模型情景导致健康收益在 1.61（95%置信区间（UI）1.35 至 1.89）和 25.43（UI 20.20 至 30.58）QALYs/1000 人之间，在剩余寿命内的总 QALYs 高达 112,020（UI 88,969 至 134,725）。医疗保健成本节约范围在 1.27 亿新西兰元（UI 1.01 亿至 1.57 亿新西兰元）至 21 亿新西兰元（UI 1.60 亿至 2.60 亿新西兰元）之间。温室气体排放量减少了多达 194kgCO2e/年，但在步行情景下变化不显著。

结论

通过将短途汽车旅行转换为步行和骑自行车，可以实现可观的健康收益和医疗保健成本节约。实施基础设施改善和鼓励步行和骑自行车的干预措施，可能是改善人口健康的一种具有成本效益的方式，也可能减少温室气体排放。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cc27/6636726/f79a0d904b10/pone.0219316.g001.jpg

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主动转运提高健康水平、降低医疗成本和减少温室气体排放的潜力：建模研究。

Potential of active transport to improve health, reduce healthcare costs, and reduce greenhouse gas emissions: A modelling study.

机构信息

出版信息

BACKGROUND

METHODS

FINDINGS

CONCLUSIONS

背景

方法

结果

结论

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