Abstract
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Determining the Optimal Short-Term Storage Duration for T Cells Extracted from Peripheral Blood Prior Flow Cytometry Analysis
by Mazen Almehmadi, Sultan Alshalawi, Salem Alshehri, Salman Alharthi, Abdullah Aljohani, Abdulelah Aljuaid, Osama Abdulaziz, Mamdouh Allhyani
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Background: Researching medical sample storage is crucial for maintaining the integrity of biological specimens and ensuring the accuracy of research investigations and diagnostic tests. Improper storage conditions can lead to sample degradation, compromising the reliability of results. Standardized storage procedures are essential for quality control, particularly in multicenter trials where samples are collected and processed at various locations. Moreover, ethical considerations dictate careful handling of patient samples to uphold privacy and rights.
Methods: This study focuses on the surface phenotype of T cells, which is vital for diagnosing immunodeficiency disorders and autoimmune diseases and for monitoring disease activity and treatment efficacy. The effect of storage duration on T cell surface proteins is multifactorial, influenced by factors like protein degradation, cellular metabolism, and cytokine release. Long-term storage can lead to the gradual loss of T cell function, necessitating techniques to preserve cell activity. Changes in surface markers can affect disease diagnosis, emphasizing the importance of accurate sample processing.
Results: Findings from this study reveal time-dependent changes in T cell surface markers during storage. CD3 levels declined significantly after the fourth day, with FITC labeling proving superior to APC. CD4 levels remained consistent until the fourth day, contrasting with previous findings on foreskin tissue. HLA-DR levels declined rapidly, indicating unsuitability for storage, consistent with other studies on cryopreserved cells. CD16 and CD8 levels decreased gradually, while CD56 declined rapidly after the third day, consistent with recent research.
Conclusions: There were detectable and significant differences after the samples were stored for an improper period, which may have affected the integrity of the results, suggesting that understanding the factors influencing T cell surface protein changes during storage is crucial for maintaining result integrity.
DOI: 10.7754/Clin.Lab.2024.240632
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