Computerized prediction of intensive care unit discharge after cardiac surgery: development and validation of a Gaussian processes model

<p>Abstract</p> <p>Background</p> <p>The intensive care unit (ICU) length of stay (LOS) of patients undergoing cardiac surgery may vary considerably, and is often difficult to predict within the first hours after admission. The early clinical evolution of a cardiac surgery patient might be predictive for his LOS. The purpose of the present study was to develop a predictive model for ICU discharge after non-emergency cardiac surgery, by analyzing the first 4 hours of data in the computerized medical record of these patients with Gaussian processes (GP), a machine learning technique.</p> <p>Methods</p> <p>Non-interventional study. Predictive modeling, separate development (n = 461) and validation (n = 499) cohort. GP models were developed to predict the probability of ICU discharge the day after surgery (classification task), and to predict the day of ICU discharge as a discrete variable (regression task). GP predictions were compared with predictions by EuroSCORE, nurses and physicians. The classification task was evaluated using aROC for discrimination, and Brier Score, Brier Score Scaled, and Hosmer-Lemeshow test for calibration. The regression task was evaluated by comparing median actual and predicted discharge, loss penalty function (LPF) ((actual-predicted)/actual) and calculating root mean squared relative errors (RMSRE).</p> <p>Results</p> <p>Median (P25-P75) ICU length of stay was 3 (2-5) days. For classification, the GP model showed an aROC of 0.758 which was significantly higher than the predictions by nurses, but not better than EuroSCORE and physicians. The GP had the best calibration, with a Brier Score of 0.179 and Hosmer-Lemeshow p-value of 0.382. For regression, GP had the highest proportion of patients with a correctly predicted day of discharge (40%), which was significantly better than the EuroSCORE (p < 0.001) and nurses (p = 0.044) but equivalent to physicians. GP had the lowest RMSRE (0.408) of all predictive models.</p> <p>Conclusions</p> <p>A GP model that uses PDMS data of the first 4 hours after admission in the ICU of scheduled adult cardiac surgery patients was able to predict discharge from the ICU as a classification as well as a regression task. The GP model demonstrated a significantly better discriminative power than the EuroSCORE and the ICU nurses, and at least as good as predictions done by ICU physicians. The GP model was the only well calibrated model.</p

Impact of a computer-generated alert system on the quality of tight glycemic control

PURPOSE: To assess the impact of a computer-generated blood glucose (BG) alert, generated by a Patient Data Management System (PDMS) and superimposed on a paper-based guideline, on tight glycemic control (TGC) in the intensive care unit (ICU). METHODS: TGC in the Leuven University Hospitals is performed by nurses using a paper-based guideline that allows anticipative, intuitive decision-making. An electronic alert was implemented on 1 August 2007 in which a pop-up appears in the PDMS at the following BG thresholds: >180, >110, 60-80, 40-60 and <40 mg/dl. The impact of this electronic alert was assessed by a sequential cohort study: the mean BG, the glycemic penalty index (GPI), the hyperglycemic index (HGI), the number of hypoglycemic events, the standard deviation (SD) of the BG time series and the number of BG measurements were compared in all adults admitted 6 months before ('pre-alert group', n = 729) and after ('alert group', n = 644) the implementation of the electronic alert. RESULTS: The alert resulted in a reduction of mean BG (112 vs. 110 mg/dl, p = 0.002), GPI (20 vs. 19, p = 0.029) and HGI (10 vs. 9 mg/dl, p = 0.004), without increasing BG sampling (median 25 measurements/patient in both groups, p = 0.776). The alert reduced the proportion of patients experiencing an episode of hypoglycemia from 6.5 to 4.0% (p = 0.043). The SD of the BG time series was not affected (28 mg/dl in both groups, p = 0.566). CONCLUSION: A computer-generated alert was able to statistically significantly improve the quality of TGC in ICU patients without increasing the need for blood sampling.status: publishe

Synopsis van het Belgische arbeidsrecht : collectief arbeidsrecht

Begin jaren negentig van de vorige eeuw werd de syllabus van Marc Rigaux bewerkt tot een tweedelig handboek dat onder de titel Algemene beginselen van het Belgisch arbeidsrecht op de markt werd gebracht. In 1999 werd er voor een andere uitgever gekozen en werden de teksten samengevoegd tot één boekdeel onder de naam Synopsis van het Belgische arbeidsrecht. Normaliter wordt het boek om de drie jaar geüpdatet. Nu hebben we zes jaar gewacht. Er was – onder andere door politieke impasses – weinig te melden. Voor deze zevende editie werd ervoor geopteerd om opnieuw te splitsen. We beginnen met het deel “collectief arbeidsrecht”, een materie die vrij stabiel is gebleven. De interuniversitaire equipe werd herschikt. Nieuw bloed was nodig, want de oude garde verdwijnt langzaam maar zeker. Aan de vorm werd nauwelijks geraakt. We speelden met het idee om de bibliografieën te schrappen. Vanuit het werk- veld kregen we echter signalen dat dit soort van informatie wordt gewaardeerd. Google maakt sommige verwijzingen, bijvoorbeeld naar websites van organisa- ties en overheidsinstellingen, overbodig zodat hierin wel is gewied. De auteurs hebben vooral de nadruk willen leggen op de facetten die in hun colle- ges uitgebreid aan bod komen, i.e. thema’s waarmee het gros van de studenten na hun afstuderen relatief vaak worden geconfronteerd. Dit is met andere woorden geen werk waarin de lezer alles kan terugvinden, maar een basisdocumentatie met bijna uitsluitend verwijzingen naar Belgische rechtsleer. Namens het auteurscollectief, Patrick Humblet 1 juni 202