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Rouquette C. Berche P. The pathogenesis of infection by Listeria monocytogenes Microbiologia. 12:245-58, 1996 Listeria monocytogenes is a Gram-positive bacterium responsible for severe infections in human and a large variety of animal species. It is a facultative intracellular pathogen which invades macrophages and most tissue cells of infected hosts where it can proliferate. The molecular basis of this intracellular parasitism has been to a large extent elucidated. The virulence factors, including internalin, listeriolysin O, phospholipases and a bacterial surface protein, ActA, are encoded by chromosomal genes organized in operons. Following internalisation into host cells, the bacteria escape from the phagosomal compartment and enter the cytoplasm. They then spread from cell to cell by a process involving actin polymerisation. In infected hosts, the bacteria cross the intestinal wall at Peyer's patches to invade the mesenteric lymph nodes and the blood. The main target organ is the liver, where the bacteria multiply inside hepatocytes. Early recruitment of polymorphonuclear cells lead to hepatocyte lysis, and thereby bacterial release This causes prolonged septicaemia, particularly in immunocompromised hosts, thus exposing the placenta and brain to infection. The prognosis of listeriosis depends on the severity of meningoencephalitis, due to the elective location of foci of infection in the brain stem (rhombencephalitis). Despite bactericidal antibiotic therapy, the overall mortality is still high (25 to 30%).

Performed after an unexpected, prolonged PT or APTT is encountered to determine if the problem stems from a factor deficiency or the presence of an inhibitor. To perform the test, the patients’ plasma is mixed with an equal volume of pooled normal plasma, and then a PT and APTT are performed off the mixture. If the addition of the pooled plasma brings the resultant values into normal range, then the pooled plasma contained factors the patient's sample was deficient in, and the patient has a factor deficiency. If the results are not “corrected” or brought back into normal range after the addition of pooled normal plasma, then an inhibitor may be present. The next step in the diagnostic sequence of events, if correction has occurred, is to perform a factor assay, to determine which specific factor is lacking.

Before learning to examine bone marrow microscopically, it is important to understand the basic structure and function of the bone marrow. The bone marrow is one of the largest organs in the body. The normal adult marrow on a daily basis produces approximately 2.5 billion red cells, 2.5 billion platelets and 1.5 billion granulocytes per kilogram of body weight. The main function of this organ is the formation and development of blood cells. Hematopoiesis begins in the yolk sac in the first weeks of embryonic life; stem cells from the yolk sac travel first to the liver and then to the spleen. These organs are the only blood forming sites during the first three months of fetal life. At the beginning of the fourth month the bone marrow begins its life-long function of cell production.

Specialists in cytogenetics detect chromosome abnormalities and genetic disorders. Cytogenetics counseling may only be performed by an individual licenses in the cytogenetics specialty at the director level. Specialists in molecular genetics analyze DNA and RNA to find disease-related genotypes, mutations, and phenotypes in order to detect or predict disease and identify carriers. Specialists in histocompatibility test to determine tissue compatibility, prevent infections, and investigate and post-transplant problems. Techniques include blood typing, HLA typing, HLA antibody screening, disease markers, flow cytometry, crossmatching, HLA antibody identification, lymphocyte immunophenotyping, immunosuppressive drug assays, allogenic, isogeneic and autologous bone marrow processing and storage, mixed lymphocyte culture, stem cell culture, cell mediated assays, and assays for the presence of cytokines. Specialists in andrology and embryology examine gametes and embryos, including production, morphology, number, and motility, to address issues of fertility and infertility.