Your search keyword '"miR-451a"' showing total 2 results

1. Pre-Analytical Modification of Serum miRNAs: Diagnostic Reliability of Serum miRNAs in Hemolytic Diseases

Author

Hanae Shimura, Suthat Fucharoen, Tetsuhiro Harada, Kamonlak Leecharoenkiat, Mari Koga, Ken ichi Sato, Tatsuki Shibuta, Mayu Hatano, Ayaka Ishibashi, Supat Chamnanchanunt, Yukichi Takada, Noriyasu Fukushima, Saovaros Svasti, Takashi Hisatomi, and Tsukuru Umemura

Subjects

Hemolytic anemia, microRNA, business.industry, General Medicine, medicine.disease, Hemolysis, Article, miR-451a, blood drawing, Red blood cell, Circulating MicroRNA, medicine.anatomical_structure, pre-analytical, Immunology, medicine, serum separation, Medicine, Biomarker (medicine), hemolytic disease, business, Ex vivo, Blood drawing

Abstract

Circulating microRNAs (miRNAs) are useful biomarkers of hemolysis. Since blood cells are the main origins of circulating miRNAs, we evaluated blood cell-related pre-analytical modification of the miRNA signatures during blood drawing and serum processing. The levels of miRNA before and after ex vivo blood drawing were analyzed with the reverse transcriptase-based polymerase chain reaction method. Furthermore, the changes of miRNA signatures caused by different time-lag between blood drawing and serum preparation by 24 h were evaluated. Finally, we compared the miRNA levels between leftover samples and samples of hemolytic diseases. Blood drawing procedure induced increments of red blood cell (RBC)-related miRNAs (miR-451a, miR-486) about 2-fold. One hour standing of blood samples before serum separation induced almost the same increases in RBC-related miRNAs. To test the clinical usefulness of miR-451a as a biomarker of hemolytic diseases, we analyzed miRNAs of samples from 10 normal subjects, 30 leftover samples in the clinical laboratory, and 20 samples from patients with hemolytic diseases. Serum miR-451a significantly increased in patients with hemolytic anemia more than the levels of pre-analytical modification. In conclusion, the pre-analytical modification of serum miRNAs did not disturb the usefulness of RBC-derived miRNAs as biomarkers of hemolytic diseases.

Published

2021

2. Pre-Analytical Modification of Serum miRNAs: Diagnostic Reliability of Serum miRNAs in Hemolytic Diseases.

Author

Takada, Yukichi, Shibuta, Tatsuki, Hatano, Mayu, Sato, Kenichi, Koga, Mari, Ishibashi, Ayaka, Harada, Tetsuhiro, Hisatomi, Takashi, Shimura, Hanae, Fukushima, Noriyasu, Leecharoenkiat, Kamonlak, Chamnanchanunt, Supat, Svasti, Saovaros, Fucharoen, Suthat, and Umemura, Tsukuru

Subjects

*MICRORNA, *ERYTHROCYTES, *POLYMERASE chain reaction, *HEMOLYTIC anemia, *BLOOD cells

Abstract

Circulating microRNAs (miRNAs) are useful biomarkers of hemolysis. Since blood cells are the main origins of circulating miRNAs, we evaluated blood cell-related pre-analytical modification of the miRNA signatures during blood drawing and serum processing. The levels of miRNA before and after ex vivo blood drawing were analyzed with the reverse transcriptase-based polymerase chain reaction method. Furthermore, the changes of miRNA signatures caused by different time-lag between blood drawing and serum preparation by 24 h were evaluated. Finally, we compared the miRNA levels between leftover samples and samples of hemolytic diseases. Blood drawing procedure induced increments of red blood cell (RBC)-related miRNAs (miR-451a, miR-486) about 2-fold. One hour standing of blood samples before serum separation induced almost the same increases in RBC-related miRNAs. To test the clinical usefulness of miR-451a as a biomarker of hemolytic diseases, we analyzed miRNAs of samples from 10 normal subjects, 30 leftover samples in the clinical laboratory, and 20 samples from patients with hemolytic diseases. Serum miR-451a significantly increased in patients with hemolytic anemia more than the levels of pre-analytical modification. In conclusion, the pre-analytical modification of serum miRNAs did not disturb the usefulness of RBC-derived miRNAs as biomarkers of hemolytic diseases. [ABSTRACT FROM AUTHOR]

Published

2021