Human cytomegalovirus seropositivity is associated with reduced patient survival during sepsis

BACKGROUND

Sepsis is one of the leading causes of death. Treatment attempts targeting the immune response regularly fail in clinical trials. As HCMV latency can modulate the immune response and changes the immune cell composition, we hypothesized that HCMV serostatus affects mortality in sepsis patients.

METHODS

We determined the HCMV serostatus (i.e., latency) of 410 prospectively enrolled patients of the multicenter SepsisDataNet.NRW study. Patients were recruited according to the SEPSIS-3 criteria and clinical data were recorded in an observational approach. We quantified 13 cytokines at Days 1, 4, and 8 after enrollment. Proteomics data were analyzed from the plasma samples of 171 patients.

RESULTS

The 30-day mortality was higher in HCMV-seropositive patients than in seronegative sepsis patients (38% vs. 25%, respectively; p = 0.008; HR, 1.656; 95% CI 1.135-2.417). This effect was observed independent of age (p = 0.010; HR, 1.673; 95% CI 1.131-2.477). The predictive value on the outcome of the increased concentrations of IL-6 was present only in the seropositive cohort (30-day mortality, 63% vs. 24%; HR 3.250; 95% CI 2.075-5.090; p < 0.001) with no significant differences in serum concentrations of IL-6 between the two groups. Procalcitonin and IL-10 exhibited the same behavior and were predictive of the outcome only in HCMV-seropositive patients.

CONCLUSION

We suggest that the predictive value of inflammation-associated biomarkers should be re-evaluated with regard to the HCMV serostatus. Targeting HCMV latency might open a new approach to selecting suitable patients for individualized treatment in sepsis.

[Heparin-induced thrombocytopenia type II (HIT II) : A medical-economic view]

BACKGROUND

In the context of inpatient and increasingly ambulatory thrombosis prophylaxis, heparins have been recognised as standard therapy for decades. In addition to the therapeutic benefit, therapy with heparins also entails the risk of undesirable side effects, such as bleeding and thrombocytopenia. Heparin-induced thrombocytopenia (HIT II) is deemed a serious side effect.

AIM

In the following work, HIT II is subjected to a medico-economic consideration (treatment, pharmaceuticals, subsequent costs due to possible complications) and, with regard to a possible HIT II prophylaxis, aspects of increasingly respected patient safety are also considered.

METHODS

In the context of a literature search the active ingredients argatroban and danaparoid, which are approved for HIT II treatment, were evaluated.

RESULTS

HIT II - especially in combination with thromboembolic complications - represents a medical-economic burden for the hospital. Although this is only an orientation guide, it shows that HIT II syndrome is not adequately cost-covered by the G‑DRG system. An early thrombosis prophylaxis with argatroban/danaparoid for HIT II risk patients should therefore be taken into account for medical-related as well as patient safety-relevant aspects. According to experience, the pharmaceutical supply for these medically needed products (anticoagulants) should be ensured for reasons of patient safety.

CONCLUSION

The risk of an immunological response to heparin therapy is known. Within the context of increased patient safety, thrombosis prophylaxis should be issued with a risk-adjusted prophylaxis.

Intracellular detection of macrophage migration inhibitory factor in peripheral blood leukocytes

The oxidoreductase MIF is currently discussed as a new promising target of immunomodulatory therapy in patients with severe sepsis. An increasing body of evidence attributes an important role especially to intracellular MIF for regulation of endotoxin responsiveness as well as regulation of nuclear transcription factors. Up to now, measurement of MIF relied on ELISA techniques, lacking the ability to directly measure intracellular MIF and distinguish between different leukocyte subpopulations. Therefore, we developed a sensitive and robust flow cytometry-based method to reliably detect intracellular levels of MIF. This method can readily be applied in cultured cells as well as in subsets of human leukocytes in whole blood. Intracellular MIF content of whole-blood leukocyte subsets is detected simultaneously, and is individually determined for T-lymphocytes, B-lymphocytes, macrophages, and granulocytes, respectively. When tested in an ex vivo whole-blood stimulation system using PMA/Ionomycin the intracellular MIF content doubled in CD3+ T-lymphocytes and increased threefold in CD14+ macrophages. Baseline intracellular MIF levels of different leukocyte subpopulations were quantified in 22 healthy blood donors. Baseline intracellular MIF levels in T-lymphocytes are twice as high compared to those in B-lymphocytes and macrophages.

Increase of nestin-immunoreactive neural precursor cells in the dentate gyrus of pediatric patients with early-onset temporal lobe epilepsy

A considerable potential for neurogenesis has been identified in the epileptic rat hippocampus. Here, we explore this feature in human patients suffering from chronic mesial temporal lobe epilepsy. Immunohistochemical detection of the neurodevelopmental antigen nestin was used to detect neural precursor cells, and cell-type specific markers were employed to study their histogenetic origin and potential for neuronal or glial differentiation. The ontogenetic regulation of nestin-positive precursors was established in human control brains (week 19 of gestation-15 years of age). A striking increase of nestin-immunoreactive cells within the hilus and dentate gyrus could be observed in a group of young patients with temporal lobe epilepsy (TLE) and surgical treatment before age 2 years compared to adult TLE patients and controls. The cellular morphology and regional distribution closely resembled nestin-immunoreactive granule-cell progenitors transiently expressed during prenatal human hippocampus development. An increased Ki-67 proliferation index and clusters of supragranular nestin-immunoreactive cells within the molecular layer of the dentate gyrus were also noted in the group of young TLE patients. Confocal studies revealed colocalization of nestin and the betaIII isoform of tubulin, indicating a neuronal fate for some of these cells. Vimentin was consistently expressed in nestin-immunoreactive cells, whereas cell lineage-specific markers, i.e., glial fibrillary acidic protein, MAP2, neurofilament protein, NeuN, or calbindin D-28k failed to colocalize. These findings provide evidence for increased neurogenesis in pediatric patients with early onset of temporal lobe epilepsy and/or point towards a delay in hippocampal maturation in a subgroup of patients with TLE.

Cellular pathology of hilar neurons in Ammon's horn sclerosis

In addition to functionally affected neuronal signaling pathways, altered axonal, dendritic, and synaptic morphology may contribute to hippocampal hyperexcitability in chronic mesial temporal lobe epilepsies (MTLE). The sclerotic hippocampus in Ammon's horn sclerosis (AHS)-associated MTLE, which shows segmental neuronal cell loss, axonal reorganization, and astrogliosis, would appear particularly susceptible to such changes. To characterize the cellular hippocampal pathology in MTLE, we have analyzed hilar neurons in surgical hippocampus specimens from patients with MTLE. Anatomically well-preserved hippocampal specimens from patients with AHS (n = 44) and from patients with focal temporal lesions (non-AHS; n = 20) were studied using confocal laser scanning microscopy (CFLSM) and electron microscopy (EM). Hippocampal samples from three tumor patients without chronic epilepsies and autopsy samples were used as controls. Using intracellular Lucifer Yellow injection and CFLSM, spiny pyramidal, multipolar, and mossy cells as well as non-spiny multipolar neurons have been identified as major hilar cell types in controls and lesion-associated MTLE specimens. In contrast, none of the hilar neurons from AHS specimens displayed a morphology reminiscent of mossy cells. In AHS, a major portion of the pyramidal and multipolar neurons showed extensive dendritic ramification and periodic nodular swellings of dendritic shafts. EM analysis confirmed the altered cellular morphology, with an accumulation of cytoskeletal filaments and increased numbers of mitochondria as the most prominent findings. To characterize cytoskeletal alterations in hilar neurons further, immunohistochemical reactions for neurofilament proteins (NFP), microtubule-associated proteins, and tau were performed. This analysis specifically identified large and atypical hilar neurons with an accumulation of low weight NFP. Our data demonstrate striking structural alterations in hilar neurons of patients with AHS compared with controls and non-sclerotic MTLE specimens. Such changes may develop during cellular reorganization in the epileptogenic hippocampus and are likely to contribute to the pathogenesis or maintenance of temporal lobe epilepsy.