We use cookies to understand how you use our site and to improve your experience. This includes personalizing content and advertising. To learn more, click here. By continuing to use our site, you accept our use of cookies. Cookie Policy.

Features Partner Sites Information LinkXpress hp
Sign In
Advertise with Us
LGC Clinical Diagnostics

BECKMAN COULTER, INC.

Beckman Coulter develops, manufactures and markets laboratory systems, reagents, centrifugation, lab automation, elec... read more Featured Products: More products

Download Mobile App




Monocyte Distribution Width Evaluated as a Sepsis Indicator

By LabMedica International staff writers
Posted on 01 Jul 2021
Print article
Image: The DxH 900 hematology analyzer enables the high-volume laboratory to achieve RBC, PLT and WBC differentials through near native-state cellular characterization (Photo courtesy of Beckman Coulter)
Image: The DxH 900 hematology analyzer enables the high-volume laboratory to achieve RBC, PLT and WBC differentials through near native-state cellular characterization (Photo courtesy of Beckman Coulter)
Most current automated hematology analyzers have enhanced cell counting functions including the addition of new cell types such as nucleated red blood cells or immature granulocytes, making it possible to obtain a precise quantification of peripheral blood cells in pathological conditions.

Cellular analysis technologies are able to explore qualitative aspects of leukocytes (white blood cells, WBCs) and provide numerous additional parameters, indicating functional information for each leukocyte type, the so-called cell population data (CPD). Since sepsis represents a life-threatening condition, without characteristic signs or symptoms, early detection for timely and appropriate management is crucial to patient survival.

Medical Laboratorians at the University-Hospital of Padova (Padova, Italy) evaluated the diagnostic accuracy and prognostication of monocyte distribution width (MDW) in sepsis for patients admitted to Intensive Care Units (ICU). The scientists conducted a prospective observational study during the hospitalization of 506 adult patients admitted to the ICU. MDW was evaluated in 2,367 consecutive samples received for routine complete blood counts (CBC) performed once a day and every day during the study. Sepsis was diagnosed according to Sepsis-3 criteria and patients enrolled were classified in the following groups: no sepsis, sepsis, and septic shock. There were 346 men and 160 women, aged from 18 to 89 years (median 68 years) in the study.

Complete blood count (CBC) and MDW were analyzed using the UniCel DxH 900 (Beckman Coulter, Inc, Brea, CA, USA). At the same time, 2,128 samples were determined for C-reactive protein (CRP) and 2,035 samples for procalcitonin (PCT), as part of the clinical examination. Serum CRP was determined using a nephelometric/turbidimetric technique of the Dimension Vista System (Siemens Healthcare GmbH, Milan, Italy). PCT was determined using chemiluminescence immunoassay (CLIA) technology with paramagnetic microparticle solid phase of the LIAISONs BRAHMS PCTs II GEN System (DiaSorin, Saluggia, Italy).

The investigators reported that MDW values were significantly higher in patients with sepsis or septic shock in comparison to those within the no sepsis group: median 26.23, 28.97, and 21.99 respectively. ROC analysis demonstrated that AUC is 0.785 with a sensitivity of 66.88% and specificity of 77.79% at a cut-off point of 24.63. In patients that developed an ICU-acquired sepsis MDW showed an increase from 21.33 to 29.19. MDW increase was not affected by the etiology of sepsis, even in patients with COVID-19. In sepsis survivors a decrease of MDW values were found from the first time to the end of their stay: median from 29.14 to 25.67.

The authors concluded that MDW, a parameter that reflects a change in circulating monocytes volume in response to pro-inflammatory signals from infectious organisms referred to as pathogen-associated molecular patterns, can have potential clinical applications for early sepsis detection in hospital and ICU settings. The study was published on the July, 2021 issue of the journal Clinical Chemistry and Laboratory Medicine.

Related Links:
University-Hospital of Padova
Beckman Coulter
Siemens Healthcare
DiaSorin


Gold Member
Blood Gas Analyzer
GEM Premier 7000 with iQM3
Automated Blood Typing System
IH-500 NEXT
New
Chemistry Analyzer
MS100
New
Thyroxine ELISA
T4 ELISA

Print article

Channels

Clinical Chemistry

view channel
Image: The new saliva-based test for heart failure measures two biomarkers in about 15 minutes (Photo courtesy of Trey Pittman)

POC Saliva Testing Device Predicts Heart Failure in 15 Minutes

Heart failure is a serious condition where the heart muscle is unable to pump sufficient oxygen-rich blood throughout the body. It ranks as a major cause of death globally and is particularly fatal for... Read more

Immunology

view channel
Image: Under a microscope, DNA repair is visible as bright green spots (“foci”) in the blue-stained cell DNA. Orange highlights actively growing cancer cells (Photo courtesy of WEHI)

Simple Blood Test Could Detect Drug Resistance in Ovarian Cancer Patients

Every year, hundreds of thousands of women across the world are diagnosed with ovarian and breast cancer. PARP inhibitors (PARPi) therapy has been a major advancement in treating these cancers, particularly... Read more

Microbiology

view channel
Image: HNL Dimer can be a novel and potentially useful clinical tool in antibiotic stewardship in sepsis (Photo courtesy of Shutterstock)

Unique Blood Biomarker Shown to Effectively Monitor Sepsis Treatment

Sepsis remains a growing problem across the world, linked to high rates of mortality and morbidity. Timely and accurate diagnosis, along with effective supportive therapy, is essential in reducing sepsis-related... Read more
Copyright © 2000-2024 Globetech Media. All rights reserved.