混合式禽舍：从自然通风的火鸡舍转变为机械通风的火鸡舍以抵御有害生物气溶胶。

Hybrid barn: the switch from a naturally to a mechanically ventilated turkey barn to protect from harmful bioaerosols.

作者信息

Sake Björn, Butenholz Kira, Kempf Katrin, Kemper Nicole, Schulz Jochen

机构信息

Institute for Animal Hygiene, Animal Welfare and Farm Animal Behavior, University of Veterinary Medicine Hannover, Foundation, Hannover, Germany.

出版信息

Front Vet Sci. 2025 Feb 19;12:1443139. doi: 10.3389/fvets.2025.1443139. eCollection 2025.

DOI:10.3389/fvets.2025.1443139

PMID:40046422

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11881083/

Abstract

INTRODUCTION

Animal health is essential to ensure the highest level of animal welfare and to conserve resources. Especially in naturally ventilated barns, the airborne entry of pathogens is difficult to avoid. For instance, birds in naturally ventilated turkey barns are frequently infected by highly pathogenic avian influenza and the airborne route may play a role. In this study, a naturally ventilated turkey barn was equipped with filter modules that allow a conversion to a mechanically ventilated barn.

METHODS

Four filter modules with two filter stages were adapted to a turkey barn and the curtains were closed to induce a slight overpressure in the barn. Air samples were taken over the course of 16 months in front of and behind the filter units to assess the filter efficiencies. Filter efficiencies were evaluated by the reduction of particle classes (PM1, PM10, nanoparticles), microorganisms (total bacteria, molds, yeasts), and the detection of potentially pathogenic bacteria and viruses by PCR tests.

RESULTS

Particle reduction rates were 94.17% for PM1, 94.27% for PM10, and 95.80% for nanoparticles, respectively. Total bacteria counts were reduced by 95.88%, molds by 94.64%, and yeasts by 66.03%. was significantly retained in the filter units. The results for influenza A also indicated that the entry of potentially infectious particles could be prevented.

DISCUSSION

The flexible switch from a naturally to a mechanically ventilated barn with filtered supply air can be an innovative solution to avoid airborne pathogen entry in risky situations and may represent a component in the strategy to control epidemic diseases.

摘要

引言

动物健康对于确保最高水平的动物福利和资源保护至关重要。特别是在自然通风的畜舍中，病原体通过空气传播进入畜舍难以避免。例如，自然通风的火鸡舍中的鸟类经常感染高致病性禽流感，空气传播途径可能起了作用。在本研究中，一个自然通风的火鸡舍配备了过滤模块，使其能够转换为机械通风的畜舍。

方法

四个具有两个过滤阶段的过滤模块被应用于一个火鸡舍，关闭窗帘以在舍内产生轻微正压。在16个月的时间里，在过滤单元前后采集空气样本以评估过滤效率。通过颗粒类别（PM1、PM10、纳米颗粒）、微生物（总细菌、霉菌、酵母菌）的减少以及通过PCR检测潜在致病细菌和病毒来评估过滤效率。

结果

PM1的颗粒减少率分别为94.17%，PM10为94.27%，纳米颗粒为95.80%。总细菌数量减少了95.88%，霉菌减少了94.64%，酵母菌减少了66.03%。[此处原文缺失部分内容]在过滤单元中被显著截留。甲型流感的结果也表明可以防止潜在感染性颗粒的进入。

讨论

从自然通风畜舍灵活转换为带有过滤送风的机械通风畜舍，可能是在危险情况下避免空气传播病原体进入的创新解决方案，并且可能是控制流行病策略的一个组成部分。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d2c7/11881083/2315629e9492/fvets-12-1443139-g001.jpg

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混合式禽舍：从自然通风的火鸡舍转变为机械通风的火鸡舍以抵御有害生物气溶胶。

Hybrid barn: the switch from a naturally to a mechanically ventilated turkey barn to protect from harmful bioaerosols.

作者信息

机构信息

出版信息

INTRODUCTION

METHODS

RESULTS

DISCUSSION

引言

方法

结果

讨论

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