Non-invasive Differential Diagnosis of Noisy Breathing Infants and Toddlers Based on Biomarker Profiles in Exhaled Breath and Nasal Mucus and Based on Breath Sound Analysis

Almost 50% of all children have at least 1 episode of noisy breathing before the age of 2 years and almost 25% of these children have more episodes of noisy breathing. The lack of an objective technique for diagnosing noisy breathing children often leads to overrated diagnosis of "wheezing", whereas there may be other noisy breathing phenotypes, like "rattling", that don't favor from the same therapeutic treatment. Presumably, different underlying pathophysiological mechanisms are involved with different biomarker profiles characteristic for different phenotypes. The goal of this study is to optimize the diagnosis of noisy breathing infants and toddlers. Children will be followed for a treatment period of 6 weeks and will visit the paediatrician 3 times (week 0, 3 and 6). During the consultations breath sound analysis will be performed and a breath sample and a nasal mucus will be collected to analyse biomarker profiles. Both methods for diagnosing noisy breathing infants are non-invasive and will be compared to the standard procedure of the paediatrician which consists of auscultation and palpation of the chest. An objective and non-invasive method for diagnosing noisy breathing infants and toddler will pave the way for more cost-effective and personalized prescription of therapies which will increase the quality of life of children with noisy breathing.

Start Date30 Oct 2018

Sponsor / Collaborator

Hasselt University

[+2]

NL-OMON46270

/ CompletedNot Applicable

Continuous measurements of vital signs, activity variables and exposure to air pollution in patients with COPD - Continuous measurements in COPD

Start Date27 Oct 2016

Sponsor / Collaborator

Vlaamse Instelling voor Technologisch Onderzoek NV

100 Clinical Results associated with Vlaamse Instelling voor Technologisch Onderzoek NV

0 Patents (Medical) associated with Vlaamse Instelling voor Technologisch Onderzoek NV

3,421

Literatures (Medical) associated with Vlaamse Instelling voor Technologisch Onderzoek NV

01 Aug 2025·Biosensors and Bioelectronics

Hybridization-based sensor with large dynamic range for detection of circulating tumor DNA in clinical samples

Article

Author: Froyen, Guy ; Hollanders, Karen ; Szymonik, Michal ; Maes, Brigitte ; Hooyberghs, Jef ; Wagner, Patrick ; Nelissen, Inge ; Stulens, Yannick ; Van Hoof, Rebekka

In a liquid biopsy approach, targeted mutation analysis of circulating tumor DNA (ctDNA) is a valuable tool for diagnosis, monitoring and personalization of therapy. The ctDNA usually makes up only a small fraction of the total circulating free DNA (cfDNA), and ctDNA often only differs from cfDNA at a single nucleotide. This sets strong requirements on the analytical performance of hybridization-based biosensors, which is the focus of this paper. We use clinical samples and apply the concept of wild-type target depletion. Along with this, we develop an accurate thermodynamic theory for the competitive hybridization and use it for selecting optimal experimental conditions and for data analysis. The result is a biosensor with improved quantification of ctDNA mutations, both the sensitivity and dynamic range are improved by an order of magnitude. As reference techniques, we used a clinically-validated real-time PCR assay and digital PCR for absolute quantification. Our approach can be applied to a broad range of hybridization-based biosensors, providing a robust and effective method to improve the performance of existing biosensors.

01 Jul 2025·Waste Management

Sustainable physical recycling of rigid PVC waste: A biobased solvent approach for the recovery of PVC, TiO2, and CaCO3

Article

Author: Geudens, Stijn ; Aerts, Annelore ; Gándara, Sandra Corderí ; Kuwaba, Tatsuhiro ; Vanbroekhoven, Karolien ; De Schrijver, Isabel ; Rubens, Maarten ; Elst, Kathy

For the first time, rigid polyvinyl chloride (PVC) waste has been successfully recycled using a dissolution-precipitation approach with biobased solvents. Hansen Solubility Parameter, HSP, predictions guided the systematic selection of solvents, while a modified HSP approach was developed to estimate the required non-solvent amounts for efficient polymer precipitation. Among the tested biobased solvents cyrene, γ-valerolactone (GVL) and 2-methyltetrahydrofuran demonstrated excellent dissolution performance, with water, methanol or isopropanol serving as effective non-solvents. The GVL-water system was the most efficient, requiring less than 10% non-solvent to achieve nearly complete separation and recovery of both the polymer and inorganic fraction without inducing polymer degradation. This optimized system was applied to a commercial PVC formulation for window frames, an end-of-life PVC window frame and a rigid PVC tube, achieving over 95% polymer recovery. Additionally, the process successfully removed more than 99% of inorganic fillers, enabling the selective purification and co-valorization of CaCO₃ or the valuable TiO₂.

01 May 2025·Environmental Research

Association between PFAS exposure and metabolic-related biomarkers in Spanish adolescents

Article

Author: Vela-Soria, Fernando ; Smagulova, Fatima ; Rodriguez-Carrillo, Andrea ; Fernández, Mariana F ; Freire, Carmen

BACKGROUNDPer- and polyfluoroalkyl substances (PFAS) exert endocrine disruptive effects on the endocrine-metabolic axis. Emerging knowledge suggests that kisspeptin may play a key role in these effects.OBJECTIVETo assess the cross-sectional association of blood PFAS concentrations with kisspeptin levels, KISS1 gene DNA methylation, and metabolic-related biomarkers in adolescent males from the Spanish INMA-Granada cohort.METHODSSeven PFAS and twelve biomarkers (glucose-GLU, total cholesterol-TC, triglycerides, LDL, HDL, ALP, AST, ALT, GGT, total bilirubin-BILT, direct bilirubin-BILD, and urea) were measured in plasma and serum, respectively, from 129 adolescent males (15-17 yrs). Systolic and diastolic blood pressure (SBP, DBP), pulse, z-scored body mass index, kisspeptin protein levels (n = 104) and whole blood KISS1 DNA methylation (n = 117) were determined. Linear regression models, weighted quantile sum (WQS), and Bayesian kernel machine (BKMR) were fit.RESULTSPFHpA was associated with lower GLU levels [% change per log-unit increase in plasma concentrations (95%CI) = -4.73 (-8.98;-0.28)], and PFUnDA with higher GLU, TC, and HDL levels. In models adjusted by kisspeptin level, PFOS was associated with higher SBP [3.42 (-0.12; 7.09)]. Additionally, PFNA and total PFAS concentrations were associated with higher kisspeptin levels [3.91 (0.55; 7.37) and 6.14 (0.47; 12.13), respectively]. Mixture models showed that combined PFAS exposure was associated with higher HDL, lower hepatic biomarkers (ALT, BILD) and higher kisspeptin levels.CONCLUSIONCertain PFAS (e.g. PFUnDA) and their mixture were associated with metabolic-related biomarkers, mainly GLU, HDL, and SBP. These associations may be influenced by kisspeptin levels. More studies are needed to verify these observations.

100 Deals associated with Vlaamse Instelling voor Technologisch Onderzoek NV

100 Translational Medicine associated with Vlaamse Instelling voor Technologisch Onderzoek NV

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