Comparative microscopic analysis of plastic dispersion from 3D-printed and thermoformed orthodontic aligners.

IF 2.7 3区医学 Q1 DENTISTRY, ORAL SURGERY & MEDICINE

European journal of orthodontics Pub Date : 2025-04-08 DOI:10.1093/ejo/cjaf014

Piero Antonio Zecca, Marina Borgese, Mario Raspanti, Francesca Zara, Rosamaria Fastuca, Marco Serafin, Alberto Caprioglio

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引用次数: 0

Abstract

Aim: To compare directly printed aligners (DPA) and thermoformed aligners (TFA), evaluating the potential release and dispersion of microplastic (MP) and nanoplastic (NP) particles under simulated oral conditions.

Materials and methods: DPA samples (Graphy Tera Harz TC-85-DAC resin) and TFA samples (Invisalign® SmartTrack) were subjected to rubs in an ultrapure water bath. The liquid was collected post-friction and analyzed for MPs and NPs using various techniques: optical microscopy (OM), transmission electron microscopy (TEM), and atomic force microscopy (AFM). Also, plastic residues were quantified by weighing after drying within a laminar flow hood. Microscopic image analyses comprised the quantification of the average size of MPs and NPs, their concentration by TEM, and the roughness analysis by AFM.

Results: The masses of MPs and NPs separated after rubbing were 0.001 g/200 µl and 0.004 g/200 µl for TFA and DPA samples, respectively. TEM analysis confirmed that DPA samples had larger (203.08 ± 2651.65 μm²) and more numerous particles compared to TFA (0.23 ± 27.53 μm²), even though it was not possible to distinguish the MPs and NPs due to clustering of the plastic residuals. AFM analysis indicated a bigger root mean square grain size for TFA than DPA; similarly, the mean roughness was lesser in the DPA sample than TFA one.

Conclusions: DPA generated larger and more numerous plastic particles compared to TFA, though grain-size characterization was challenging due to particle aggregation. This suggests that the manufacturing process and materials used in DPA could impact the creation of MPs and NPs during simulated mastication, highlighting a potential area for process optimization.

Abstract Image

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3d打印和热成型正畸矫正器塑料分散的比较显微分析。

目的：比较直接打印对准剂（DPA）和热成型对准剂（TFA），评估微塑料（MP）和纳米塑料（NP）颗粒在模拟口腔条件下的潜在释放和分散。材料和方法：DPA样品（Graphy Tera Harz TC-85-DAC树脂）和TFA样品（Invisalign®SmartTrack）在超纯水浴中摩擦。摩擦后收集液体，并使用各种技术：光学显微镜（OM）、透射电子显微镜（TEM）和原子力显微镜（AFM）分析MPs和NPs。此外，塑料残留物被定量称重后，在层流罩内干燥。显微图像分析包括定量MPs和NPs的平均尺寸，TEM测定其浓度，AFM测定其粗糙度。结果：TFA和DPA样品摩擦后分离的MPs和NPs质量分别为0.001 g/200µl和0.004 g/200µl。TEM分析证实，DPA样品比TFA样品（0.23±27.53 μ²）具有更大（203.08±2651.65 μ²）和更多的颗粒，尽管由于塑料残留的聚类而无法区分MPs和NPs。AFM分析表明，TFA的均方根晶粒尺寸大于DPA；同样，DPA样品的平均粗糙度小于TFA样品。结论：与TFA相比，DPA产生的塑料颗粒更大，数量更多，尽管由于颗粒聚集，粒度表征具有挑战性。这表明DPA中使用的制造工艺和材料可能会影响模拟咀嚼过程中MPs和NPs的产生，突出了工艺优化的潜在领域。

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来源期刊

European journal of orthodontics 医学-牙科与口腔外科

CiteScore

5.50

自引率

7.70%

发文量

审稿时长

4-8 weeks

期刊介绍： The European Journal of Orthodontics publishes papers of excellence on all aspects of orthodontics including craniofacial development and growth. The emphasis of the journal is on full research papers. Succinct and carefully prepared papers are favoured in terms of impact as well as readability.