Possible hazardous components in dental alginates: Physicochemical properties by a mineralogical and spectroscopic investigation

Matteo Ardit , Tommaso Baroni , Fabio Capacci , Giulio Arcangeli , Maurizio Romanelli , Alfonso Zoleo , Silvana Capella , Elena Belluso , Pietro Gabellini , Raffaello Cioni , Francesco Di Benedetto
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Abstract

Alginates are products used as impression materials in dentistry and prosthetics. They consist of polymers, calcium alginates mixed with diatomite and additives. Recently, the occurrence of severe silicosis associated with exposure to respirable dust of such materials has increased the scientific interest in understanding how these materials may pose a toxicological problem to workers. The primary objective of this study is to improve the understanding of both the existence and the characteristics of the toxicant(s) contained in these materials, with the goal of better defining the risk assessment for this occupational setting.

Two commercial dental alginates were subjected to a mineralogical, microchemical and spectroscopic investigation. The results indicate the presence of a significant amount of diatomite, clearly identified by micromorphology and formed mainly by cristobalite. The respirable fraction of the dust represents at least 30  % of the total number of particles, and this fraction contains a relevant amount of crystalline silica particles. Conversely, the investigated alginate materials do not exhibit the presence of radical species.

The results obtained confirm that the cristobalite detected originates from the high-temperature transformation of amorphous silica during the calcination process of diatomite, prior to mixing with the other components. The same process also produces wollastonite (CaSiO3), which, like cristobalite, is a crystalline phase known for its toxicological effects. The present findings call for a rethinking of dental alginates with regard to the definition of their health risks for technical operators.

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牙藻酸盐中可能的有害成分:通过矿物学和光谱研究的物理化学性质
海藻酸盐是在牙科和修复术中用作印模材料的产品。它们由聚合物、海藻酸钙混合硅藻土和添加剂组成。最近,与暴露于这些材料的可吸入粉尘有关的严重矽肺病的发生增加了科学兴趣,以了解这些材料如何可能对工人造成毒理学问题。本研究的主要目的是提高对这些材料中所含毒物的存在及其特性的认识,目的是更好地确定这种职业环境的风险评估。对两种商业海藻酸盐进行了矿物学、微化学和光谱研究。结果表明,该地区存在大量硅藻土,微形态特征明确,硅藻土主要由方英石形成。粉尘的可吸入部分至少占颗粒总数的30%,并且该部分含有相应量的结晶二氧化硅颗粒。相反,所研究的藻酸盐材料不表现出自由基的存在。结果证实,检测到的方石英来源于硅藻土煅烧过程中,未与其他组分混合前的无定形二氧化硅的高温转化。同样的过程也会产生硅灰石(CaSiO3),它和方石英一样,是一种以其毒性作用而闻名的晶体相。目前的研究结果要求重新考虑牙科海藻酸盐对技术操作人员健康风险的定义。
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来源期刊
Hygiene and environmental health advances
Hygiene and environmental health advances Environmental Science (General)
CiteScore
1.10
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0.00%
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0
审稿时长
38 days
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