RESUMEN
PURPOSE: To assess the role of muscle composition and radiomics in predicting allograft rejection in lung transplant. MATERIAL AND METHODS: The last available HRCT before surgery of lung transplant candidates referring to our tertiary center from January 2010 to February 2020 was retrospectively examined. Only scans with B30 kernel reconstructions and 1 mm slice thickness were included. One radiologist segmented the spinal muscles of each patient at the level of the 11th dorsal vertebra by an open-source software. The same software was used to extract Hu values and 72 radiomic features of first and second order. Factor analysis was applied to select highly correlating features and then their prognostic value for allograft rejection was investigated by logistic regression analysis (level of significance p < 0.05). In case of significant results, the diagnostic value of the model was computed by ROC curves. RESULTS: Overall 200 patients had a HRCT prior to the transplant but only 97 matched the inclusion criteria (29 women; mean age 50.4 ± 13 years old). Twenty-one patients showed allograft rejection. The following features were selected by the factor analysis: cluster prominence, Imc2, gray level non-uniformity normalized, median, kurtosis, gray level non-uniformity, and inverse variance. The radiomic-based model including also Hu demonstrated that only the feature Imc2 acts as a predictor of allograft rejection (p = 0.021). The model showed 76.6% accuracy and the Imc2 value of 0.19 demonstrated 81% sensitivity and 64.5% specificity in predicting lung transplant rejection. CONCLUSION: The radiomic feature Imc2 demonstrated to be a predictor of allograft rejection in lung transplant.
Asunto(s)
Trasplante de Pulmón , Columna Vertebral , Humanos , Femenino , Adulto , Persona de Mediana Edad , Estudios Retrospectivos , Biomarcadores , Músculos , AloinjertosRESUMEN
Numerous studies examine how LGBTQ life differs between large, cosmopolitan cities like San Francisco and other, less prominent cities. Nevertheless, most of this research is done through case studies of one or a handful of LGBTQ communities, making it unclear how unique the large hubs of LGBTQ life truly are. This study leverages nationally complete data from the U.S. Gayellow Pages, a historical listing of local LGBTQ organizations, to evaluate how the organizational response of LGBTQ communities to the AIDS crisis-arguably the most prolific era of organizational creation in LGBTQ history-differed between large hubs and other cities. Findings make clear the risks of generalizing about LGBTQ life from large hubs alone. Although AIDS stimulated the creation of health-related and social movement organizations in large hubs, AIDS was more strongly associated with organizational creation outside of rather than within large hubs. The types of organizations created due to AIDS tended to be more varied outside of rather than within large hubs as well. These differences highlight the value of decentering the large hubs of LGBTQ life as units of analysis in the study of sexuality and space.
RESUMEN
The endosymbiosis of proto-mitochondrial prokaryotes (PMP) into proto-eukaryotic host-cells was a major advance in eukaryotic evolution. The nature of the initial relationship remains the subject of controversy. Various conceptual models have been proposed, but none has definitive support. We construct a model of inter-species interactions based upon well-established respiratory pathways, describing the respective energy gain of host-cell and PMP resulting from varying levels of cooperation. The model demonstrates conflicting evolutionary strategies ("Prisoner's Dilemmas") in the interspecies molecular transfers. Nevertheless, we show that coercion and iterated, multilevel selection on both species encourage endosymbiosis. Mutualism is favored if host-cells are significantly more effective than PMPs at gathering food. Otherwise, an unambiguous asymmetry between host-cell and PMP benefits implies that the initial relationship consisted of the host-cell deriving a reproductive advantage at the PMPs' expense-a cellular version of farming. Other initial relationships such as oxygen-detoxification mutualism and parasitism are not strongly supported by the model. We compare the model behavior with experiments on mutant human mitochondria and find the model predicts proliferation rates consistent with that data. We derive from the evolutionary dynamics counter-intuitive therapeutic targets for two human hereditary mitochondrial disorders that reflect the ongoing effect of short-term selection at the mitochondrial level.