This Review covers the steps required to create high-quality image-based profiles from high-throughput microscopy images.
Imaging flow cytometry combines the high-throughput capabilities of conventional flow cytometry with single-cell imaging. Here we demonstrate label-free prediction of DNA content and quantification of the mitotic cell cycle phases by applying supervised machine learning to morphological features extracted from brightfield and the typically ignored darkfield images of cells from an imaging flow cytometer. This method facilitates non-destructive monitoring of cells avoiding potentially confounding effects of fluorescent stains while maximizing available fluorescence channels. The method is effective in cell cycle analysis for mammalian cells, both fixed and live, and accurately assesses the impact of a cell cycle mitotic phase blocking agent. As the same method is effective in predicting the DNA content of fission yeast, it is likely to have a broad application to other cell types.
The results demonstrate an association between EBV reactivation and disease activity in MS patients over time, and suggest that EBV might play an indirect role in MS as an activator of the underlying disease process.
We investigate the effects of phase noise and particle loss on the dynamics of a Bose-Einstein condensate in an optical lattice. Starting from the many-body master equation, we discuss the applicability of generalized mean-field approximations in the presence of dissipation as well as methods to simulate quantum effects beyond mean-field by including higher-order correlation functions. It is shown that localized particle dissipation leads to surprising dynamics, as it can suppress decay and restore the coherence of a Bose-Einstein condensate. These effects can be applied to engineer coherent structures such as stable discrete breathers and dark solitons.Comment: 7 pages, 6 figur
IntroductionThe risk of transfusion-transmitted hepatitis B virus (HBV) infection has been reduced by screening all blood donations for HBV surface antigen (HBsAg) since 1970. It was generally accepted that the disappearance of HBsAg indicates the clearance of HBV. Meanwhile, many reports on positive findings for HBV DNA in the liver and blood of HBsAg-negative individuals positive for antibodies against HBV core antigen (anti-HBc) and/or HBsAg (anti-HBs) have been published. 1-8 Blum et al described, in a patient with HBsAg-negative chronic hepatitis who was positive for anti-HBc, anti-HBs, and antibodies against HBe antigen (anti-HBe), a latent HBV infection in hepatocytes with extrachromosomal presence of a full-length viral genome. 9 Michalak et al demonstrated the long-term persistence of HBV DNA in serum and peripheral blood mononuclear cells of patients up to 70 months after complete clinical, biochemical, and serologic recovery from acute viral hepatitis. 10 Rehermann et al showed that traces of HBV were often detectable in the blood for many years after clinical recovery from acute hepatitis, despite the presence of serum antibodies and HBV-specific cytotoxic T lymphocytes (CTLs). 11 These findings suggest that sterilizing immunity to HBV frequently fails to occur and that traces of virus can maintain the CTL response for decades, apparently creating a negative feedback loop that keeps the virus under control, perhaps for life. This was supported by Pasquetto et al, who showed that cytoplasmic HBV nucleocapsids and their cargo of replicative DNA intermediates survive CTL-induced apoptosis of hepatocytes in vitro, 12 and by other groups that demonstrated ongoing viral replication in the liver tissue of patients and healthy individuals after loss of HBsAg. [13][14][15] Furthermore, reactivation of apparently cured HBV infection has been described under chemotherapy or immunomodulating therapy after renal and bone marrow transplantation, and in some of these cases a reverse seroconversion from anti-HBs to HBsAg has been observed. [16][17][18][19] The residual risk of posttransfusion HBV infection has been calculated by several groups in the United States and Germany on the basis of HBV incidence data and the duration of the early window period until HBsAg becomes detectable to be 1:63 000 and less than 1:100 000 blood donations, respectively. 20,21 It has been shown that blood donations of HBsAg-and anti-HBs-negative but anti-HBc-positive HBV carriers can cause posttransfusion hepatitis B. 22;23 Thus, Mosley et al suggested that anti-HBc screening of blood donations might prevent HBV transmission from HBsAgnegative blood donors and that donors positive for anti-HBs as well should be considered noninfectious for HBV. 24 The feasibility of routine polymerase chain reaction (PCR) screening of blood donations in a blood bank setting has been shown by Roth et al. 25 In Germany, the Paul Ehrlich Institute (PEI, Langen, Germany), the institute that defines German Drug Law and is responsible for specific regulati...
Viremia of newly seropositive donors may be an important reason for the residual risk of TT-CMV despite leukoreduction. Furthermore, transfusion of WBC-reduced blood components from seronegative donors could imply a greater risk of TT-CMV than transfusion of WBC-reduced blood from donors who have been seropositive for at least 1 year, because window-phase donations but no reactivation could be detected in this study.
The seroprevalence of HEV was 6.8%, and the annual incidence 0.35%. HEV RNA was detectable in several seroconverting donors, without evidence for HEV transmission in the only traceable recipient. Since neither ALT nor anti-HEV IgM testing correlate with the presence of HEV RNA, HEV nucleic acid testing currently provides the only method for the prevention of TT-HEV infection. However, before implementation, more data about clinical relevance of TT-HEV infections and infectious dose of HEV are required.
Although human musical performances represent one of the most valuable achievements of mankind, the best musicians perform imperfectly. Musical rhythms are not entirely accurate and thus inevitably deviate from the ideal beat pattern. Nevertheless, computer generated perfect beat patterns are frequently devalued by listeners due to a perceived lack of human touch. Professional audio editing software therefore offers a humanizing feature which artificially generates rhythmic fluctuations. However, the built-in humanizing units are essentially random number generators producing only simple uncorrelated fluctuations. Here, for the first time, we establish long-range fluctuations as an inevitable natural companion of both simple and complex human rhythmic performances. Moreover, we demonstrate that listeners strongly prefer long-range correlated fluctuations in musical rhythms. Thus, the favorable fluctuation type for humanizing interbeat intervals coincides with the one generically inherent in human musical performances.
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