Ontology-based specification and generation of search queries for post-market surveillance.

BACKGROUND: The vigilant observation of medical devices during post-market surveillance (PMS) for identifying safety-relevant incidents is a non-trivial task. A wide range of sources has to be monitored in order to integrate all accessible data about the safety and performance of a medical device. PMS needs to be supported by an efficient search strategy and the possibility to create complex search queries by domain experts. RESULTS: We use ontologies to support the specification of search queries and the preparation of the document corpus, which contains all relevant documents. In this paper, we present (1) the Search Ontology (SON) v2.0, (2) an Excel template for specifying search queries, and (3) the Search Ontology Generator (SONG), which generates complex queries out of the Excel template. Based on our approach, a service-oriented architecture was designed, which supports and assists domain experts during PMS. Comprehensive testing confirmed the correct execution of all SONG functions. The applicability of our method and of the developed tools was evaluated by domain experts. The test persons concordantly rated our solution after a short period of training as highly user-friendly, intuitive and well applicable for supporting PMS. CONCLUSIONS: The Search Ontology is a promising domain-independent approach to specify complex search queries. Our solution allows advanced searches for relevant documents in different domains using suitable domain ontologies.

High prevalence of anaemia among African migrants in Germany persists after exclusion of iron deficiency and erythrocyte polymorphisms.

OBJECTIVES: Haematological parameters differ between individuals of African and European ancestry. However, respective data of first-generation African migrants are virtually absent. We assessed these in Ghanaian migrants living in Berlin, compared them with reference data from Germany and Ghana, and estimated the role of iron deficiency (ID) and erythrocyte polymorphisms in anaemia. METHODS: A total of 576 Ghanaians (median age, 45 years) were analysed. Blood counts were performed, haemoglobinopathies and glucose-6-phosphate dehydrogenase (G6PD) deficiency were genotyped, and concentrations of ferritin and C-reactive protein were measured to define ID. RESULTS: Most individuals had resided in Germany for more than a decade (median, 18 years). By WHO definition, anaemia was present in 30.9% of females and 9.4% of males. Median haemoglobin (Hb) levels were lower than among Germans (women, -0.8 g/dl, men, -0.7 g/dl). However, applying reference values from Ghana, only 1.9% of the migrants were considered anaemic. Alpha-thalassaemia, Hb variants and G6PD deficiency were observed in 33.9%, 28.3% and 23.6%, respectively. ID was highly prevalent in women (32.0%; men, 3.9%). The population fraction of anaemia cases attributable to ID was 29.0% (alpha-thalassaemia, 13.6%; G6PD deficiency, 13.5%). Nevertheless, excluding ID, alpha-thalassaemia, G6PD deficiency and sickle cell disease, anaemia prevalence remained high (women, 18.4%; men, 6.5%), and was also high when applying uncensored thresholds proposed for African Americans (females, 19.3%; males, 7.8%). CONCLUSIONS: Iron deficiency and erythrocyte polymorphisms are common among first-generation Ghanaian migrants but explain only part of the increased prevalence of anaemia. Common Hb thresholds for the definition of anaemia may not be appropriate for this group.

Matrix metalloproteinase-9 polymorphism 1562 C > T (rs3918242) associated with protection against placental malaria.

Phagocytosis of malaria pigment (hemozoin) induces increased activity of matrix metalloproteinase (MMP)-9, an endopeptidase involved in cytokine regulation. In this study, we examined whether a common functional MMP-9 promoter polymorphism (rs3918242) affects Plasmodium falciparum infection in pregnancy. Eighteen percent of Ghanaian primiparae carried the minor T allele. It was associated with reduced odds of placental hemozoin and of placental as well as peripheral blood parasitemia. The results indicate that a common MMP-9 polymorphism protects against placental malaria indicating that this endopeptidase is involved in susceptibility to P. falciparum.

Reduced prevalence of placental malaria in primiparae with blood group O.

BACKGROUND: Blood group O protects African children against severe malaria and has reached high prevalence in malarious regions. However, its role in malaria in pregnancy is ambiguous. In 839 delivering Ghanaian women, associations of ABO blood groups with Plasmodium falciparum infection were examined. METHODS: Plasmodium falciparum infection was diagnosed in placental blood samples by microscopy and PCR assays. Present or past infection was defined as the detection of parasitaemia or haemozoin by microscopy, or a positive PCR result. Blood groups were inferred from genotyping rs8176719 (indicating the O allele) and rs8176746/rs8176747 (distinguishing the B allele from the A allele). RESULTS: The majority of women had blood group O (55.4%); present or past P. falciparum infection was seen in 62.3% of all women. Among multiparae, the blood groups had no influence on P. falciparum infection. In contrast, primiparae with blood group O had significantly less present or past infection than women with non-O blood groups (61.5 vs 76.2%, P = 0.007). In multivariate analysis, the odds of present or past placental P. falciparum infection were reduced by 45% in blood group O primiparae (aOR, 0.55 [95% CI, 0.33-0.94]). CONCLUSIONS: The present study shows a clear protective effect of blood group O against malaria in primiparae. This accords with findings in severe malaria and in vitro results. The data underline the relevance of host genetic protection among primiparae, i.e. the high-risk group for malaria in pregnancy, and contribute to the understanding of high O allele frequencies in Africa.

No association of the p53 codon 72 polymorphism with malaria in Ghanaian primiparae and Rwandan children.

The p53 protein is a key cell-signaling mediator integrating host responses to various types of stress. A common polymorphism of the encoding TP53 gene (codon 72, Pro > Arg, rs1042522) is associated with susceptibility to virus-related and other cancers. The p53 has also been shown to be central for successful Plasmodium liver stage infection. We examined whether the polymorphism is associated with P. falciparum infection in Ghanaian primiparae and Rwandan children. The allele frequency of TP53 codon 72 Arg was 0.30 among 314 Ghanaian primiparae and 0.31 among 545 Rwandan children, respectively, and it was not associated with infection prevalence or parasite density. This does not exclude p53 to be of pathophysiological relevance in malaria but argues against a major respective role of the TP53 codon 72 polymorphism.

Expression of interleukin-6 family receptors in NK92 cells is regulated by cytokines and not through direct interaction with Plasmodium falciparum-infected erythrocytes.

A balanced proinflammatory cytokine response to Plasmodium ssp. infection is crucial to control the disease outcome. To elucidate the effect of cytokines and Plasmodium falciparum-infected erythrocytes on the regulation of interleukin (IL)-6 receptor (IL-6R), ciliary neurotrophic factor alpha (CNTFR-α) and glycoprotein (gp)130 in natural killer (NK) cells in the context of malaria, we assessed their gene expression and surface expression in NK92 cells. P. falciparum alone did not alter gene expression of the investigated receptors in NK92 cells. Analysis revealed a low effect of IL-6 on IL-6R surface expression in NK92 cells. However, at transcriptional level, a downregulation of IL-6R was observed following IL-6 stimulation. Thus, IL-6 might act within a negative feedback loop to terminate signal transduction by downregulating IL-6R expression. Additionally, we observed that IL-6R and CNTFR-α surface expression were regulated by a combination of IL-2, 12, and 18, and gp130 was influenced by interferon-α. Our results show that the IL-6 family receptors in NK92 cells are not directly influenced by P. falciparum. However, cytokines usually derived from accessory cells during malaria episodes may regulate IL-6 receptor signaling pathways. This finding encourages future studies in a more physiological context and with primary cells isolated from humans with and without malaria.

An ATP2B4 polymorphism protects against malaria in pregnancy.

Polymorphisms of ATP2B4 encoding an ubiquitous Ca(2+) pump protect against severe childhood malaria. We assessed the influence of a main polymorphism (rs10900585) on malaria among 834 delivering Ghanaian women. In homozygous primiparae, the odds of placental Plasmodium falciparum infection were reduced by 64%. No influence of the polymorphism on parasite density, low birth weight, or preterm delivery was discernible. However, malarial anemia was greatly reduced in primiparous carriers of the variant allele, paralleling the reduced impact of malaria on hemoglobin levels in this group. A common ATP2B4 polymorphism protects against malaria in pregnancy and related maternal anemia, suggesting ATP2B4 variant associated protection not to be limited to severe childhood malaria.

Interplay of host and infectious agents.

In this group we would like to answer the question why people show a different response against certain pathogens. In many infections the course of the disease can range from asymptomatic carriage to the severest forms even death. In the past we have analysed candidate genes and their role in the course of malaria and could detect some polymorphisms influencing infectious diseases in the genes encoding NOS2, MBL2, IFNa, FCN2, and receptors for IFNg and IFNa. Having worked initially mainly on malaria we broadened our spectrum also to other infectious diseases like hepatitis B, Leprosy, schistosomiasis. Here we give a short overview about ongoing projects.