Effect of red blood cell preservation solution on serum agglutination reaction of specific patients / 中国输血杂志

【Objective】 To explore the precautions of pre-transfusion examination in patients with antibodies to erythrocyte protective solution, discrepant ABO blood typing results, and positive unexpected antibodies, so as to ensure the safety of blood transfusion. 【Methods】 The screen cells were divided into two groups according to the presence or absence of washing reagent red blood cells in normal saline. One group had untreated forward typing cells, antibody screening cells and identification panel, and the other group had saline-washed reverse typing cells, antibody screening cells and identification panel. The experiments were carried out by microcolumn gel method, saline medium method and polyamine method to analyze the effect of red blood cell preservation solution on serum agglutination reaction of specific patients. 【Results】 Among the 8 patients, forward typing was AB (+ ) in 1 patient, B (+ ) in 4, and A(+ ) in 3, and the reverse typing were interfered. The plasma of 8 patients agglutinated with unwashed reverse typing cells (saline tube method), screen cells and identification panels (saline tube method plus cassette method), while not agglutinated with the polybrene method. The interference was eliminated as using washed reverse typing cells (salinetube method), screen cells and identification panels (saline tube method plus cassette method). 【Conclusion】 The erythrocyte preservation solution affected patients’ blood group typing, but not affected the outcome of blood transfusion as no adverse reactions occurred.

Generation and immunogenicity evaluation of Senecavirus A virus-like particles / 生物工程学报

To develop Senecavirus A (SVA) virus-like particles (VLPs), a recombinant prokaryotic expression plasmid pET28a-SVA-VP031 was constructed to co-express SVA structural proteins VP0, VP3 and VP1, according to the genomic sequence of the field isolate CH-FJ-2017 after the recombinant proteins were expressed in E .coli system, and purified by Ni+ ion chromatographic method. The SVA VLPs self-assemble with a high yield in vitro buffer. A typical VLPs with an average diameter of 25-30 nm which is similar to native virions by using TEM detection. Animals immunized by SVA VLPs shown that the VLPs induced high titers neutralizing antibodies in Guinea pigs. This study indicated that the VLPs produced with co-expressing SVA structural proteins VP0, VP3 and VP1 in prokaryotic system is a promising candidate and laid an important foundation for the development of a novel SVA VLPs vaccine.