D-dimer testing: A narrative review.

D-dimer containing species are soluble fibrin degradation products derived from plasmin-mediated degradation of cross-linked fibrin, i.e., 'D-dimer'. D-dimer can hence be considered a biomarker of in vivo activation of both coagulation and fibrinolysis, the leading clinical application in daily practice of which is ruling out venous thromboembolism (VTE). D-dimer has been further evaluated for assessing the risk of VTE recurrence and helping define optimal duration of anticoagulation treatment in VTE, for diagnosing disseminated intravascular coagulation (DIC), and for screening those at enhanced risk of VTE. D-dimer assays should however be performed as intended by regulatory agencies, as their use outside these indications might make them a laboratory-developed test (LDT). This narrative review is aimed at: (1) reviewing the definition of D-dimer, (2) discussing preanalytical variables affecting D-dimer measurement, (3) reviewing and comparing the assays performance and some postanalytical variables (e.g., different units and age-adjusted cutoffs), and (4) discussing the interest of D-dimer measurement across different clinical settings, including pregnancy, cancer, and coronavirus disease 2019 (COVID-19).

FebriDx for rapid screening of patients with suspected COVID-19 upon hospital admission: systematic literature review and meta-analysis.

A systematic literature review and meta-analysis was undertaken of the lateral flow-based FebriDx immunoassay for triaging patients with suspected coronavirus disease 2019 (COVID-19) upon admission to healthcare facilities. An electronic search was conducted in Scopus and Medline using the keywords 'FebriDx' AND 'COVID-19' OR 'SARS-CoV-2', with no language or date (i.e. up to 4th February 2022) limits, selecting studies where FebriDx was used for triaging patients with suspected COVID-19 in acute care settings, and reporting sufficient data to construct a 2×2 table. Five studies were included in the final analysis, totalling 2309 patients. The pooled diagnostic sensitivity and specificity were 0.91 [95% confidence interval (CI) 0.88-0.93] and 0.92 (95% CI 0.90-0.93), whilst the area under the curve, accuracy and kappa statistics were 0.971 (95% CI 0.962-0.980), 91.4% (95% CI 90.2-92.5%) and 0.762 (95% CI 0.731-0.793), respectively, thus reflecting substantial agreement with reference molecular testing techniques. Negative and positive predictive values were 0.974 (95% CI 0.966-0.981) and 0.742 (95% CI 0.711-0.770), respectively. This pooled analysis demonstrated that FebriDx has clinical value for rapid screening of patients with suspected COVID-19 in acute care settings, especially in regions with high viral circulation in which the pre-test probability is high, and enables prioritization for confirmatory laboratory testing.

Acoustofluidic interferometric device for rapid single-cell physical phenotyping.

High-throughput single-cell analysis based on physical properties (such as morphology or mechanics) is emerging as a powerful tool to inform clinical research, with a great potential for translation towards diagnosis. Here we present a novel microfluidic approach adopting acoustic waves to manipulate and mechanically stimulate single cells, and interferometry to track changes in the morphology and measure size, deformability, and refractive index of non-adherent cells. The method is based on the integration within the acoustofluidic channel of a low-finesse Fabry-Perot resonator, providing very high sensitivity and a speed potentially suitable to obtain the high-throughput necessary to handle the variability stemming from the biological diversity of single cells. The proposed approach is applied to a set of different samples: reference polystyrene beads, algae and yeast. The results demonstrate the capability of the acoustofluidic interferometric device to detect and quantify optomechanical properties of single cells with a throughput suitable to address label-free single-cell clinical analysis.

Photon thermalization and a condensation phase transition in an electrically pumped semiconductor microresonator.

We report on an experimental study of photon thermalization and condensation in a semiconductor microresonator in the weak-coupling regime. We measure the dispersion relation of light and the photon mass in a single-wavelength, broad-area resonator. The observed luminescence spectrum is compatible with a room-temperature, thermal-equilibrium distribution. A phase transition, identified by a saturation of the population at high energies and a superlinear increase of the occupation at low energy, takes place when the phase-space density is of order unity. We explain our observations by Bose-Einstein condensation of photons in equilibrium with a particle reservoir and discuss the relation with laser emission.

Healthcare indicators associated with COVID-19 death rates in the European Union.

OBJECTIVES: Identification of environmental and hospital indicators that may influence coronavirus disease 2019 (COVID-19) mortality in different countries is essential for better management of this infectious disease. STUDY DESIGN: Correlation analysis between healthcare system indicators and COVID-19 mortality rate in Europe. METHODS: For each country in the European Union (EU), the date of the first diagnosed case and the crude death rate for COVID-19 were retrieved from the John Hopkins University website. These data were then combined with environmental, hospital and clinical indicators extracted from the European Health Information Gateway of the World Health Organization. RESULTS: The COVID-19 death rate in EU countries (mean 1.9 ± 0.8%) was inversely associated with the number of available general hospitals, physicians and nurses. Significant positive associations were also found with the rate of acute care bed occupancy, as well as with the proportion of population who were aged older than 65 years, overweight or who had cancer. Total healthcare expenditure, public sector health expenditure and the number of hospital and acute care beds did not influence COVID-19 death rate. CONCLUSIONS: Some common healthcare system inadequacies, such as limited numbers of general hospitals, physicians and nurses, in addition to high acute care bed occupancy, may be significant drivers of nationwide COVID-19 mortality rates in EU countries.

Association between lower plasma adiponectin levels and higher plasma thrombin generation parameters in men with type 2 diabetes: role of plasma triglycerides.

OBJECTIVE: Previous studies showed a significant association between lower plasma adiponectin levels and higher risk of adverse cardiovascular outcomes in patients with and without type 2 diabetes mellitus (T2DM). Presently, it is uncertain whether lower plasma adiponectin levels are associated with greater plasma thrombin generation in patients with T2DM. PATIENTS AND METHODS: We studied 82 middle-aged men with non-insulin-treated T2DM [mean age ± SD: 64.1 ± 8 years; median duration of diabetes: 12.5 (inter-quartile range 6-19) years; mean hemoglobin A1c 7.0 ± 0.7%], consecutively attending our diabetes outpatient service over a 6-month period. Using the newly developed fully automated thrombin generation analyzer ST Genesia®, we measured the plasma parameters lag time (LT), time to peak (TP), peak height (PH) and endogenous thrombin potential (ETP) in all participants. RESULTS: In univariable linear regression analyses, lower plasma adiponectin levels were significantly associated with higher plasma thrombin generation parameters, as reflected by higher values of PH (Pearson's r coefficient = - 0.228, p = 0.039) and EPT (r = - 0.293, p = 0.007). Plasma adiponectin levels were not significantly associated with other thrombin generation parameters (LT and TP). Notably, the significant associations of plasma adiponectin levels with thrombin PH and EPT values persisted after adjustment for age and adiposity measures, but they were lost after additional adjustment for plasma triglycerides. CONCLUSION: Our findings show for the first time the existence of a significant association between lower levels of plasma adiponectin and greater plasma thrombin generation (as assessed by the ST Genesia® analyzer) in men with non-insulin-treated T2DM, which appears to be largely mediated by plasma triglycerides.

Management of the thrombotic risk associated with COVID-19: guidance for the hemostasis laboratory.

Coronavirus disease 2019 (COVID-19) is associated with extreme inflammatory response, disordered hemostasis and high thrombotic risk. A high incidence of thromboembolic events has been reported despite thromboprophylaxis, raising the question of a more effective anticoagulation. First-line hemostasis tests such as activated partial thromboplastin time, prothrombin time, fibrinogen and D-dimers are proposed for assessing thrombotic risk and monitoring hemostasis, but are vulnerable to many drawbacks affecting their reliability and clinical relevance. Specialized hemostasis-related tests (soluble fibrin complexes, tests assessing fibrinolytic capacity, viscoelastic tests, thrombin generation) may have an interest to assess the thrombotic risk associated with COVID-19. Another challenge for the hemostasis laboratory is the monitoring of heparin treatment, especially unfractionated heparin in the setting of an extreme inflammatory response. This review aimed at evaluating the role of hemostasis tests in the management of COVID-19 and discussing their main limitations.