Comparison of common maceration techniques to prepare porcine bone for fluorescence analysis using alternative light sources (ALS)

IF 0.8 Q4 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING
Catherine Maidment , Anna Williams
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引用次数: 0

Abstract

Objectives

Investigating the impact of three common maceration techniques on the collagen content and autofluorescence of porcine bone, to ascertain the most suitable preparation method for bone undergoing ALS analysis.

Materials and methods

Hot water (80°C), biological washing powder (55°C), and enzymatic (55°C) maceration were used to prepare thirty porcine ribs (Sus scrofa domesticus) (n=10). Ribs were photographed before and after maceration using blue light (Crime-Lite 2, 450nm), coupled with an orange camera filter. Thermogravimetric analysis was used to quantify collagen content, and a bespoke computer program: The Osteo-Fluorescence Calculator (OFC) was used to quantify bone fluorescence.

Results

Ribs macerated in hot water exhibited homogenous fluorescence and produced a 5.5% average increase in fluorescence levels (n=10, s.d.=9.36, p=0.012) alongside a 11.2% loss in collagen content (n=10, s.d.=0.09, p=0.023). Biological washing powder was destructive to bone surfaces and produced an average collagen loss of 22.9% (n=10, s.d.=0.05, p= <0.001), while fluorescence was augmented (54.49%) and inconsistent (n=10, s.d.=27.46, p=0.180). Enzymatic maceration produced an average increase in fluorescence of 23.2% (n=10, s.d.=23.72, p=0.180), with a mostly consistent appearance except for some dark patches, and experienced a 19.5% loss in collagen content (n=10, s.d.=0.09, p=0.001).

Conclusions

Hot water maceration produced fluorescence results comparable to fresh bone with little impact on bone collagen and provides a suitable preparation technique for osseous ALS examination. Biological washing powder was destructive to bone collagen and produced exaggerated, inconsistent fluorescence and therefore should be avoided. Enzymatic maceration was the fastest method but requires an optimised formulation.

替代光源(ALS)下制备猪骨荧光分析常用浸渍技术的比较
目的研究三种常用的浸渍技术对猪骨胶原含量和自发荧光的影响,以确定最适合进行ALS分析的骨制备方法。材料和方法采用热水(80°C)、生物洗衣粉(55°C)和酶法(55°C)浸渍制备30根猪肋骨(Sus scrofa domesticus)(n=10)。使用蓝光(Crime Lite 2450nm)和橙色相机滤镜在浸渍前后拍摄肋骨。使用热重分析来量化胶原含量,并使用定制的计算机程序:骨荧光计算器(OFC)来量化骨荧光。结果浸泡在热水中的肋骨显示出均匀的荧光,荧光水平平均增加5.5%(n=10,s.d.=9.36,p=0.012),胶原蛋白含量损失11.2%(n=10、s.d.=0.09,p=0.023),而荧光增强(54.49%)且不一致(n=10,s.d.=27.46,p=0.180)。酶浸渍产生的荧光平均增加23.2%(n=10、s.d.=23.72,p=0.0180),除一些深色斑块外,外观基本一致,并且胶原含量损失19.5%(n=10,s.d.=0.09,p=0.001)。结论热水浸泡产生的荧光结果与新鲜骨相当,对骨胶原的影响很小,为骨ALS检查提供了一种合适的制备技术。生物洗衣粉对骨胶原具有破坏性,并产生夸大、不一致的荧光,因此应避免使用。酶浸渍是最快的方法,但需要优化配方。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Forensic Imaging
Forensic Imaging RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING-
CiteScore
2.20
自引率
27.30%
发文量
39
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