| Literature DB >> 33671841 |
Jing Huang1,2, Nairveen Ali1,2, Elsie Quansah1,2, Shuxia Guo1,2, Michel Noutsias3,4, Tobias Meyer-Zedler1,2, Thomas Bocklitz1,2, Jürgen Popp1,2,5,6, Ute Neugebauer1,2,5,6, Anuradha Ramoji1,2,5.
Abstract
In recent decades, vibrational spectroscopic methods such as Raman and FT-IR spectroscopy are widely applied to investigate plasma and serum samples. These methods are combined with drop coating deposition techniques to pre-concentrate the biomolecules in the dried droplet to improve the detected vibrational signal. However, most often encountered challenge is the inhomogeneous redistribution of biomolecules due to the coffee-ring effect. In this study, the variation in biomolecule distribution within the dried-sample droplet has been investigated using Raman and FT-IR spectroscopy and fluorescence lifetime imaging method. The plasma-sample from healthy donors were investigated to show the spectral differences between the inner and outer-ring region of the dried-sample droplet. Further, the preferred location of deposition of the most abundant protein albumin in the blood during the drying process of the plasma has been illustrated by using deuterated albumin. Subsequently, two patients with different cardiac-related diseases were investigated exemplarily to illustrate the variation in the pattern of plasma and serum biomolecule distribution during the drying process and its impact on patient-stratification. The study shows that a uniform sampling position of the droplet, both at the inner and the outer ring, is necessary for thorough clinical characterization of the patient's plasma and serum sample using vibrational spectroscopy.Entities:
Keywords: cardiac patients; coffee-ring effect; fluorescence lifetime; plasma; serum; vibrational spectroscopy
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Year: 2021 PMID: 33671841 PMCID: PMC7926873 DOI: 10.3390/ijms22042191
Source DB: PubMed Journal: Int J Mol Sci ISSN: 1422-0067 Impact factor: 5.923