Raman Spectroscopy Can Identify Acute and Persistent Biochemical Changes in Leukocytes From Patients With COVID-19 and Non-COVID-19-Associated Sepsis

IF 3.1 3区生物学 Q2 BIOCHEMICAL RESEARCH METHODS

Biotechnology Journal Pub Date : 2025-09-01 DOI:10.1002/biot.70105

Anuradha Ramoji, Philipp Baumbach, Oleg Ryabchykov, Aikaterini Pistiki, Jan Rueger, David Vasquez Pinzon, Anja Silge, Stefanie Deinhardt-Emmer, Iwan W. Schie, Karina Weber, Charles Neu, Ute Neugebauer, Michael Kiehntopf, Thomas Bocklitz, Juergen Popp, Sina M. Coldewey

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Abstract

Sepsis remains a major clinical challenge, often resulting in long-term physiological and immunological disturbances. This study employed high-throughput single-cell Raman spectroscopy to analyze the biochemical profiles of peripheral blood leukocytes from patients with non-COVID-19 and COVID-19-associated sepsis. Leukocytes were assessed at multiple timepoints, including the acute phase (Days 3 and 7 after sepsis onset) and late recovery phase (6 and 12 months after sepsis onset). Raman spectroscopic profiles of leukocytes showed clear separation between healthy controls and sepsis patients during the acute phase with high balanced accuracy (BAcc: 95%–98%). Spectral differences between acute and recovery phases (BAcc: 84%–97%) and between recovery-phase leukocytes and those from healthy controls (BAcc: 81%–90%) were also observed, indicating long-lasting molecular alterations. Furthermore, distinct profiles were identified between non-COVID-19 and COVID-19-associated sepsis during the acute phase (BAcc: 65%–71%) and in the late-recovery phase (BAcc: 71%–83%). These findings demonstrate that Raman spectroscopy enables label-free, high-throughput profiling of leukocyte biochemistry across the sepsis trajectory. This suggests that Raman spectroscopy is a promising tool for high-throughput screening, offering insights into the biomolecular changes in sepsis and providing a diagnostic platform to differentiate between sepsis etiologies, a significant advancement in the field of sepsis diagnostics.

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拉曼光谱可以识别COVID-19和非COVID-19相关脓毒症患者白细胞的急性和持续性生化变化

脓毒症仍然是一个主要的临床挑战，经常导致长期的生理和免疫紊乱。本研究采用高通量单细胞拉曼光谱分析非covid -19和covid -19相关脓毒症患者外周血白细胞的生化特征。白细胞在多个时间点进行评估，包括急性期（脓毒症发作后第3天和第7天）和晚期恢复期（脓毒症发作后6个月和12个月）。白细胞拉曼光谱在急性期显示健康对照和败血症患者之间明显的分离，具有较高的平衡准确性（BAcc: 95%-98%）。急性期和恢复期（BAcc: 84%-97%）以及恢复期白细胞和健康对照（BAcc: 81%-90%）之间的光谱差异也被观察到，表明长期的分子改变。此外，在急性期（BAcc: 65%-71%）和恢复后期（BAcc: 71%-83%），非covid -19和covid -19相关败血症之间存在不同的特征。这些发现表明，拉曼光谱能够在脓毒症的发展轨迹中实现无标记、高通量的白细胞生化分析。这表明拉曼光谱是一种很有前途的高通量筛选工具，可以深入了解脓毒症的生物分子变化，并提供区分脓毒症病因的诊断平台，这是脓毒症诊断领域的重大进步。

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来源期刊

Biotechnology Journal Biochemistry, Genetics and Molecular Biology-Molecular Medicine

CiteScore

8.90

自引率

2.10%

发文量

123

审稿时长

1.5 months

期刊介绍： Biotechnology Journal (2019 Journal Citation Reports: 3.543) is fully comprehensive in its scope and publishes strictly peer-reviewed papers covering novel aspects and methods in all areas of biotechnology. Some issues are devoted to a special topic, providing the latest information on the most crucial areas of research and technological advances. In addition to these special issues, the journal welcomes unsolicited submissions for primary research articles, such as Research Articles, Rapid Communications and Biotech Methods. BTJ also welcomes proposals of Review Articles - please send in a brief outline of the article and the senior author''s CV to the editorial office. BTJ promotes a special emphasis on: Systems Biotechnology Synthetic Biology and Metabolic Engineering Nanobiotechnology and Biomaterials Tissue engineering, Regenerative Medicine and Stem cells Gene Editing, Gene therapy and Immunotherapy Omics technologies Industrial Biotechnology, Biopharmaceuticals and Biocatalysis Bioprocess engineering and Downstream processing Plant Biotechnology Biosafety, Biotech Ethics, Science Communication Methods and Advances.