腹膜透析液中化学品和迁移塑料的检测

Pub Date : 2024-07-01 DOI:10.25259/ijn_515_23

Sanjay Kumar Panda, Rama Krishna Maloth, Vijayasarthi Upadyayalu, Ankita Mishra, Santosh Noronha

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引用次数: 0

摘要

腹膜透析（PD）是肾脏替代疗法（RRT）的一种重要方式。腹膜炎和超滤失败是对腹膜透析患者有长期影响的并发症。除了接触污染、程序错误和腹膜炎的临床原因外，污染物和腹膜透析液（PDF）的成分也被认为是导致腹膜炎和超滤失败的原因。这项研究的目的是检测印度的腹膜透析液中是否存在可迁移的塑料。我们使用液相色谱质谱法（LCMS）和气相色谱质谱法（GCMS）对印度两家制造商生产的腹膜透析液进行了检测，并进行了顶空分析（挥发性化合物）和塑料热解（聚合物化合物）。贮存条件和处理方式都是统一的。结果显示，醋酸酯化合物和葡萄糖降解产物（GDPs）的醛衍生物等杂质与污染物和可浸出塑料有关。以 5-hydroxymethylfurfural compounds (5-HMF) 形式存在的 GDP 衍生物含量很高。这项研究揭示了无菌腹膜炎和超滤失败的发病机制可能与化学品和 GDPs 有关。该研究证明了可浸出塑料的存在。总之，LCMS 和 GCMS 研究可用于在 PDF 供人类使用前检测其是否含有不需要的化学物质。

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Detections of Chemicals and Migratory Plastics in Peritoneal Dialysis Fluids

Peritoneal dialysis (PD) is an important modality of renal replacement therapy (RRT). Peritonitis and ultrafiltration failure are complications that have a long-term impact on PD patients. Besides touch contamination, procedural errors and clinical reasons of peritonitis, contaminants, and constituents of peritoneal dialysis fluids (PDFs) have been implicated in causing peritonitis and ultrafiltration failure. This study was aimed to test the PDFs in India for the presence of migratory plastics. PDFs from the two manufacturers in India were tested using liquid chromatography mass spectrometry (LCMS) and gas chromatography mass spectrometry (GCMS) with headspace analysis (volatile compounds) and pyrolysis of plastics (polymer compounds). The storage conditions and handling were uniform. The results revealed impurities of acetate compounds and aldehyde derivatives of glucose degradation products (GDPs) with contaminants and leachable plastics. There were high levels of GDP derivative in the form of 5-hydroxymethylfurfural compounds (5-HMF). The analysis revealed the presence of plastic softeners in very high concentrations. The study unmasks the presence of chemicals and GDPs that can be implicated in pathogenesis of sterile peritonitis and ultrafiltration failure. The study demonstrated the presence of leachable plastics. In conclusion, LCMS and GCMS studies can be used to test PDFs for unwanted chemicals prior to human use.

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