Journal of Laboratory Physicians (Mar 2021)

The Effects of a Single Freeze-Thaw Cycle on Concentrations of Nutritional, Noncommunicable Disease, and Inflammatory Biomarkers in Serum Samples

  • Ransi Ann Abraham,
  • Garima Rana,
  • Praween K. Agrawal,
  • Robert Johnston,
  • Avina Sarna,
  • Sowmya Ramesh,
  • Rajib Acharya,
  • Nizamuddin Khan,
  • Akash Porwal,
  • Sucheta Banerjee Kurundkar,
  • Arvind Pandey,
  • Raghu Pullakhandam,
  • Krishnapillai Madhavan Nair,
  • Geeta Trilok Kumar,
  • HPS Sachdev,
  • Umesh Kapil,
  • Sila Deb,
  • Arjan de Wagt,
  • Ajay Khera,
  • Lakshmy Ramakrishnan

DOI
https://doi.org/10.1055/s-0041-1726575
Journal volume & issue
Vol. 13, no. 01
pp. 006 – 013

Abstract

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Background The stability of biological samples is vital for reliable measurements of biomarkers in large-scale survey settings, which may be affected by freeze-thaw procedures. We examined the effect of a single freeze-thaw cycle on 13 nutritional, noncommunicable diseases (NCD), and inflammatory bioanalytes in serum samples. Method Blood samples were collected from 70 subjects centrifuged after 30 minutes and aliquoted immediately. After a baseline analysis of the analytes, the samples were stored at − 70°C for 1 month and reanalyzed for all the parameters. Mean percentage differences between baseline (fresh blood) and freeze-thaw concentrations were calculated using paired sample t-tests and evaluated according to total allowable error (TEa) limits (desirable bias). Results Freeze-thaw concentrations differed significantly (p < 0.05) from baseline concentrations for soluble transferrin receptor (sTfR) (− 5.49%), vitamin D (− 12.51%), vitamin B12 (− 3.74%), plasma glucose (1.93%), C-reactive protein (CRP) (3.45%), high-density lipoprotein (HDL) (7.98%), and cholesterol (9.76%), but they were within respective TEa limits. Low-density lipoprotein (LDL) (− 0.67%), creatinine (0.94%), albumin (0.87%), total protein (1.00%), ferritin (− 0.58%), and triglycerides (TAG) (2.82%) concentrations remained stable following the freeze-thaw cycle. In conclusion, single freeze-thaw cycle of the biomarkers in serum/plasma samples after storage at − 70°C for 1 month had minimal effect on stability of the studied analytes, and the changes in concentration were within acceptable limit for all analytes.

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