Measuring the administered dose of particles on the facial mucosa of a realistic human model

Duan, Mengjie; Liu, Li; Da, Guillaume; Gehin, Evelyne; Nielsen, Peter; Weinreich, Ulla Møller; Lin, Borong; Wang, Yi; Zhang, Ting; Sun, Wei

doi:10.1111/ina.12612

Cited by 13 publications

(15 citation statements)

References 54 publications

(95 reference statements)

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“…We developed a 3D-printed human replica ( Figure 1 ) based on computed tomography (CT) scans of the small airways of a healthy 34-year-old male, who is a non-smoker with no airway disease, to quantify the administered PM 2.5 dose [ 26 ]. The model includes the face, nasopharynx, trachea, G1–G5 bronchi and lung cavities.…”

Section: Methodsmentioning

confidence: 99%

Negative Ion Purifier Effects on Indoor Particulate Dosage to Small Airways

Duan

Wang

Meng

et al. 2021

IJERPH

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Indoor air quality is an important health factor as we spend more than 80% of our time indoors. The primary type of indoor pollutant is particulate matter, high levels of which increase respiratory disease risk. Therefore, air purifiers are a common choice for addressing indoor air pollution. Compared with traditional filtration purifiers, negative ion air purifiers (NIAPs) have gained popularity due to their energy efficiency and lack of noise. Although some studies have shown that negative ions may offset the cardiorespiratory benefits of air purifiers, the underlying mechanism is still unclear. In this study, we conducted a full-scale experiment using an in vitro airway model connected to a breathing simulator to mimic inhalation. The model was constructed using computed tomography scans of human airways and 3D-printing technology. We then quantified the effects of NIAPs on the administered dose of 0.5–2.5 μm particles in the small airway. Compared with the filtration purifier, the NIAP had a better dilution effect after a 1-h exposure and the cumulative administered dose to the small airway was reduced by 20%. In addition, increasing the negative ion concentration helped reduce the small airway exposure risk. NIAPs were found to be an energy-efficient air purification intervention that can effectively reduce the small airway particle exposure when a sufficient negative ion concentration is maintained.

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Section: Methodsmentioning

confidence: 99%

Negative Ion Purifier Effects on Indoor Particulate Dosage to Small Airways

Duan

Wang

Meng

et al. 2021

IJERPH

Self Cite

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“…the model at a distance of 20 cm, found that more 80% of the generated aerosol particles with an initial velocity of 0.94 m/s was deposited on the lips rather than on the eyes [75].…”

Section: Gravitational Forcementioning

confidence: 96%

Natural protection of ocular surface from viral infections – A hypothesis

2020

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this work, we will use "infectious conjunctivitis" as an umbrella term to denote ocular surface inflammation caused by a viral infection; however, in reality, the inflammation of the ocular surface often involves more than just the conjunctiva, and can spread over the cornea, a condition which is described as "keratoconjunctivitis" and rarely can involve only the cornea, a condition described as "keratitis".

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“…After entering into the respiratory system, large particles with large inertia may be trapped in the upper airways, while smaller particles with small inertia move along with the air and enter the lower airways [1,43,51,55,69,70]. The inhaled particles that fail to deposit in the respiratory system will be exhaled [42,44,48,[58][59][60][61][62][63][64][65][66]70]. RCMD particles may include a considerable amount of fine or ultrafine particles from which the most damaging particles are probably those that are small enough to penetrate deep into the lungs.…”

Section: Figurementioning

confidence: 99%

Respirable Coal Mine Dust: A Review of Respiratory Deposition, Regulations, and Characterization

et al. 2021

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In the late 1990s, despite years of efforts to understand and reduce coal worker’s pneumoconiosis (CWP) prevalence from more than 30% in 1970 to less than 4.2%, the level of occurrence among the US coal miners increased unexpectedly. The recent resurgence of lung diseases has raised concerns in the scientific and regulatory communities. In 2014, the United States Mine Safety and Health Administration (MSHA) issued a new dust rule changing the respirable coal mine dust (RCMD) exposure limits, measurement technology, and sampling protocol. The analysis for probable causes for the substantial increase in the CWP incidence rate is rather complicated. This paper aims to conduct a review of RCMD respiratory deposition, health effects, monitoring, regulations, and particle characteristics. The primary sources of RCMD along with the health risks from potential exposure are highlighted, and the current RCMD exposure regulations of the major coal producer countries are compared. A summary of RCMD characterization studies from 1972 to the present is provided. A review of the literature revealed that numerous factors, including geological and mining parameters, advancements in mining practices, particle characteristics, and monitoring approaches are considered to contribute to the recent resurgence of RCMD lung diseases. However, the root causes of the problem are still unknown. The effectiveness of the new dust rules in the United States will probably take years to be correctly assessed. Therefore, future research is needed to understand the relationship between RCMD particle characteristics and lung deposition, and the efficacy of current monitoring practices to measure the true dose of RCMD exposure.

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Measuring the administered dose of particles on the facial mucosa of a realistic human model

Cited by 13 publications

References 54 publications

Negative Ion Purifier Effects on Indoor Particulate Dosage to Small Airways

Negative Ion Purifier Effects on Indoor Particulate Dosage to Small Airways

Natural protection of ocular surface from viral infections – A hypothesis

Respirable Coal Mine Dust: A Review of Respiratory Deposition, Regulations, and Characterization

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