Your search keyword '"Andrea Heinzle"' showing total 23 results

1. A Host-Directed Approach to the Detection of Infection in Hard-to-Heal Wounds

Author

Michael Burnet, Daniel G. Metcalf, Scarlet Milo, Clemens Gamerith, Andrea Heinzle, Eva Sigl, Kornelia Eitel, Marieke Haalboom, and Philip G. Bowler

Subjects

wound, infection, hard-to-heal, chronic, inflammation, neutrophil, Medicine (General), R5-920

Abstract

Wound infection is traditionally defined primarily by visual clinical signs, and secondarily by microbiological analysis of wound samples. However, these approaches have serious limitations in determining wound infection status, particularly in early phases or complex, chronic, hard-to-heal wounds. Early or predictive patient-derived biomarkers of wound infection would enable more timely and appropriate intervention. The observation that immune activation is one of the earliest responses to pathogen activity suggests that immune markers may indicate wound infection earlier and more reliably than by investigating potential pathogens themselves. One of the earliest immune responses is that of the innate immune cells (neutrophils) that are recruited to sites of infection by signals associated with cell damage. During acute infection, the neutrophils produce oxygen radicals and enzymes that either directly or indirectly destroy invading pathogens. These granular enzymes vary with cell type but include elastase, myeloperoxidase, lysozyme, and cathepsin G. Various clinical studies have demonstrated that collectively, these enzymes, are sensitive and reliable markers of both early-onset phases and established infections. The detection of innate immune cell enzymes in hard-to-heal wounds at point of care offers a new, simple, and effective approach to determining wound infection status and may offer significant advantages over uncertainties associated with clinical judgement, and the questionable value of wound microbiology. Additionally, by facilitating the detection of early wound infection, prompt, local wound hygiene interventions will likely enhance infection resolution and wound healing, reduce the requirement for systemic antibiotic therapy, and support antimicrobial stewardship initiatives in wound care.

Published

2022

2. Fast Blue RR—Siloxane Derivatized Materials Indicate Wound Infection Due to a Deep Blue Color Development

Author

Doris Schiffer, Gregor Tegl, Robert Vielnascher, Hansjoerg Weber, Rainer Schoeftner, Herfried Wiesbauer, Eva Sigl, Andrea Heinzle, and Georg M. Guebitz

Subjects

immobilization, Fast Blue RR, alkoxysilane derivatized Fast Blue RR, myeloperoxidase, infection detection, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85

Abstract

There is a strong need for simple and fast methods for wound infection determination. Myeloperoxidase, an immune system-derived enzyme was found to be a suitable biomarker for wound infection. Hence, alkoxysilane-derivatized Fast Blue RR was immobilized via simple hydrolytic polymerization. The resulting enzyme-responsive siloxane layers were incubated with myeloperoxidase, wound fluid or hemoglobin. The reaction was monitored via HPLC measurements and the color development quantified spectrophotometrically. Myeloperoxidase was indeed able to oxidize immobilized Fast Blue RR leading to a blue colored product. No conversion was detected in non-infected wound fluids. The visible color changes of these novel materials towards blue enable an easy distinction between infected and non-infected wound fluids.

Published

2015

3. Feasibility of collecting wound fluid during ongoing negative pressure wound therapy by the use of an additional container - A prospective observational study

Author

Christina Helene Wolfsberger, Emanuel Maitz, Philipp Schmachtl, Sonja Winkler, Daniel Luschnig, Eva Sigl, Andrea Heinzle, Clemens Gamerith, Alexandru‐Cristian Tuca, and Michael V. Schintler

Subjects

Wound Healing, Feasibility Studies, Humans, Surgery, Dermatology, Longitudinal Studies, Prospective Studies, Middle Aged, Negative-Pressure Wound Therapy, Aged

Abstract

Negative-pressure-wound-therapy is commonly used in clinical routine for wound management. Aim of the present study was to assess the feasibility and safety of using an additional container to collect wound fluid during ongoing negative-pressure-wound-therapy. In this present prospective observational study, patients with negative-pressure-wound-therapy were included. An additional container was inserted in the connecting tube between the wound and the vacuum generating device. The following 3 days, the container was changed daily and replaced by a new one. Further safety outcome parameters were assessed. A questionnaire was answered by the responsible surgeon. Twenty-two patients with negative-pressure-wound-therapy with a median (IQR) age of 58.5 (53.0-70.0) years were included in the present study. In median, the duration of negative-pressure-wound-therapy was 5.0 (4.6-5.5) days. In mean ± SD the collected volume of the wound fluid in millilitres (mL) was on day one 7 ± 4 on day two 8 ± 7 and 10 ± 11 on day three. In one patient, there was0.1 mL of clear water in the additional container. No safety concerns due to the additional container were observed. This study demonstrates that collecting wound fluid during ongoing negative-pressure-wound-therapy over a time period of 3 days is feasible and safe. No safety concerns were observed.

Published

2021

4. Wound swab and wound biopsy yield similar culture results

Author

Roland J. Beuk, Rob Klont, Job van der Palen, Miriam H.E. Blokhuis-Arkes, Georg M. Guebitz, Marieke Haalboom, and Andrea Heinzle

Subjects

medicine.medical_specialty, Microbiological culture, biology, medicine.diagnostic_test, business.industry, Pseudomonas aeruginosa, Skin flora, Dermatology, Gold standard (test), biology.organism_classification, medicine.disease_cause, Clinical Practice, 030207 dermatology & venereal diseases, 03 medical and health sciences, 0302 clinical medicine, Wound biopsy, Staphylococcus aureus, Biopsy, Medicine, Surgery, 030212 general & internal medicine, business

Abstract

The question remains whether wound swabs yield similar culture results to the traditional gold standard, biopsies. Swabs are not invasive and easy to perform. However, they are believed to capture microorganisms from the surface rather than microorganisms that have invaded tissue. Several studies compared swabs and biopsies using different populations and sampling methods, complicating the ability to draw conclusions for clinical practice. This study aimed to compare swab and biopsy in clinical practice, by including a variety of wounds and using standard sampling and culture procedures. Swabs (Levine technique) and biopsies were taken for microbiological culture in a standardized manner from the same location of one wound for each patient. Statistical analyses were performed to determine overall agreement, and observed agreement and kappa for specific microorganisms. A variety of wounds of 180 patients from different healthcare facilities in The Netherlands were included. Skin flora was more frequently cultured from swabs, resulting in similar recovery rates when excluding skin flora (1.34 vs 1.35). Swabs were able to identify all microorganisms cultured from biopsies in 131 wounds (72.8%) wounds. Most frequently identified organisms were Staphylococcus aureus, Pseudomonas aeruginosa, and beta-haemolytic streptococci species. Observed agreement and kappa for these organisms varied between 87.2 and 97.8% and 0.73 and 0.85, respectively. This study demonstrates that swabs and biopsies tend to yield the same culture results when taken from the same location. For frequently occurring microorganisms, agreement between the two methods was even higher. Therefore, there seems to be no direct need for invasive biopsy in clinical practice.

Published

2018

5. Elevated wound fluid pH correlates with increased risk of wound infection

Author

Daniel G. Metcalf, Eva Sigl, Clemens Gamerith, Philip G Bowler, Marieke Haalboom, Michael Burnet, and Andrea Heinzle

Subjects

medicine.medical_specialty, Gastroenterology, 030207 dermatology & venereal diseases, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Internal medicine, medicine, chemistry.chemical_classification, biology, integumentary system, business.industry, Elastase, 030208 emergency & critical care medicine, Wound infection, Enzyme assay, n/a OA procedure, Increased risk, Enzyme, chemistry, Myeloperoxidase, biology.protein, Wound fluid, Surgery, Lysozyme, business

Abstract

Introduction There is no definitive method to determine infection status in non-healing wounds. Measurement of wound pH might be a promising indicator of infection as it is relatively easy to perform, provides objective results within a few seconds, and is inexpensive. The aim of this investigation was to determine if wound pH could be a potential indicator of early or established infection in non-healing wounds. Methods We explored the relationship between wound pH and two indicators of wound infection: expert clinical judgement and elevated neutrophil-derived enzyme activity. Data was used from 120 wound samples previously collected at Medisch Spectrum Twente hospital. Results With increasing wound pH, there was also an increase in the proportion of infected wounds as determined by expert clinical judgement. In addition, increases in the activities of myeloperoxidase, elastase and lysozyme were also associated with elevated pH. Conclusions The strength of the relationship between wound pH and clinical judgement or enzyme activities observed in this study is not sufficient to promote the use of elevated pH alone as an indicator for wound infection. However, the use of pH in combination with other indicators for wound infection, such as elevated neutrophil enzyme activity, warrants further research.

Published

2019

6. Myeloperoxidase-responsive materials for infection detection based on immobilized aminomethoxyphenol

Author

Gregor Tegl, Georg M. Guebitz, Alexandra Herrero-Rollett, Andrea Heinzle, Robert Vielnascher, Hansjörg Weber, Doris Schiffer, and Eva Sigl

Subjects

0301 basic medicine, chemistry.chemical_classification, biology, Substrate (chemistry), Bioengineering, Applied Microbiology and Biotechnology, Wound infection, Infected wound, Colorimetry (chemical method), Infection detection, 030207 dermatology & venereal diseases, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Enzyme, Biochemistry, chemistry, Myeloperoxidase, biology.protein, Biotechnology, Peroxidase

Abstract

There is a strong need for simple and fast diagnostic tools for the detection of wound infection. Immune system-derived enzymes like myeloperoxidase are efficient biomarkers for wound infection that emerge in the early stage infection process. In this study, 5-amino-2-methoxyphenol was functionalized with alkoxysilane to allow visual detection of MPO on carrier materials, for example, in test strips. Indeed, MPO activity was visually detectable in short time in wound background. Oxidation of the substrate was followed spectrophotometrically and proved via HPLC. LC-ESI TOF and NMR analyses unveiled the reaction mechanism and a dimeric reaction product responsible for the visualization of MPO activity. The substrate specificity and sensitivity toward MPO detection was proved and tests with infected wound fluids were successfully performed. The study demonstrates the suitability of the novel MPO substrate for the detection of wound infection and the covalent immobilization on diagnostic carrier materials. Biotechnol. Bioeng. 2016;113: 2553-2560. © 2016 Wiley Periodicals, Inc.

Published

2016

7. Wound swab and wound biopsy yield similar culture results

Author

Marieke, Haalboom, Miriam H E, Blokhuis-Arkes, Roland J, Beuk, Rob, Klont, Georg, Guebitz, Andrea, Heinzle, and Job, van der Palen

Subjects

Adult, Aged, 80 and over, Male, Microbiological Techniques, Biopsy, Colony Count, Microbial, Reproducibility of Results, Middle Aged, Staphylococcal Infections, Unnecessary Procedures, Specimen Handling, Predictive Value of Tests, Wound Infection, Humans, Female, Pseudomonas Infections, Acinetobacter Infections, Aged

Abstract

The question remains whether wound swabs yield similar culture results to the traditional gold standard, biopsies. Swabs are not invasive and easy to perform. However, they are believed to capture microorganisms from the surface rather than microorganisms that have invaded tissue. Several studies compared swabs and biopsies using different populations and sampling methods, complicating the ability to draw conclusions for clinical practice. This study aimed to compare swab and biopsy in clinical practice, by including a variety of wounds and using standard sampling and culture procedures. Swabs (Levine technique) and biopsies were taken for microbiological culture in a standardized manner from the same location of one wound for each patient. Statistical analyses were performed to determine overall agreement, and observed agreement and kappa for specific microorganisms. A variety of wounds of 180 patients from different healthcare facilities in The Netherlands were included. Skin flora was more frequently cultured from swabs, resulting in similar recovery rates when excluding skin flora (1.34 vs 1.35). Swabs were able to identify all microorganisms cultured from biopsies in 131 wounds (72.8%) wounds. Most frequently identified organisms were Staphylococcus aureus, Pseudomonas aeruginosa, and beta-haemolytic streptococci species. Observed agreement and kappa for these organisms varied between 87.2 and 97.8% and 0.73 and 0.85, respectively. This study demonstrates that swabs and biopsies tend to yield the same culture results when taken from the same location. For frequently occurring microorganisms, agreement between the two methods was even higher. Therefore, there seems to be no direct need for invasive biopsy in clinical practice.

Published

2017

8. Fast Blue RR—Siloxane Derivatized Materials Indicate Wound Infection Due to a Deep Blue Color Development

Author

Georg M. Guebitz, Rainer Schoeftner, Eva Sigl, Hansjoerg Weber, Doris Schiffer, Andrea Heinzle, Robert Vielnascher, Herfried Wiesbauer, and Gregor Tegl

Subjects

lcsh:Technology, High-performance liquid chromatography, Hydrolysis, chemistry.chemical_compound, General Materials Science, lcsh:Microscopy, Fast blue, lcsh:QC120-168.85, Chromatography, lcsh:QH201-278.5, integumentary system, biology, lcsh:T, Communication, infection detection, Wound infection, alkoxysilane derivatized Fast Blue RR, myeloperoxidase, Fast Blue RR, Blue colored, chemistry, Polymerization, lcsh:TA1-2040, Myeloperoxidase, Siloxane, immobilization, biology.protein, lcsh:Descriptive and experimental mechanics, lcsh:Electrical engineering. Electronics. Nuclear engineering, lcsh:Engineering (General). Civil engineering (General), lcsh:TK1-9971

Abstract

There is a strong need for simple and fast methods for wound infection determination. Myeloperoxidase, an immune system-derived enzyme was found to be a suitable biomarker for wound infection. Hence, alkoxysilane-derivatized Fast Blue RR was immobilized via simple hydrolytic polymerization. The resulting enzyme-responsive siloxane layers were incubated with myeloperoxidase, wound fluid or hemoglobin. The reaction was monitored via HPLC measurements and the color development quantified spectrophotometrically. Myeloperoxidase was indeed able to oxidize immobilized Fast Blue RR leading to a blue colored product. No conversion was detected in non-infected wound fluids. The visible color changes of these novel materials towards blue enable an easy distinction between infected and non-infected wound fluids.

Published

2015

9. Enzyme-responsive polymers for microbial infection detection

Author

Andrea Heinzle, Gregor Tegl, Eva Sigl, Philip G Bowler, Michael Burnet, Daniel G. Metcalf, Georg M. Guebitz, and Doris Schiffer

Subjects

chemistry.chemical_classification, Proteases, Polymers, Chemistry, Hydrolysis, Point-of-Care Systems, Proteins, Polymer, Infections, Enzymes, Pathology and Forensic Medicine, Microbiology, Infection detection, Biopolymers, Early Diagnosis, Immune system, Enzyme, Biochemistry, Polysaccharides, Proteolysis, Genetics, Humans, Molecular Medicine, Platelet concentrate, Molecular Biology

Abstract

There is a pressing need for point-of-care diagnostics indicating early stages of infection. Polymers can respond to enzymes secreted by microorganisms or released by the human immune system. This provokes either a direct color reaction or release of dyes, allowing early-stage detection of wound infections and contamination of medical devices. Conventional methods for the detection of infection indicators are based on slow, laboratory-based procedures and, consequently, do not allow a timely assessment. In contrast, polymer-based materials offer real-time responses in point-of-care devices that, in turn, allow therapists to amend treatment before the infection has become firmly established. The use of protein, polysaccharide and mixed polymer systems provides a sensitive means to detect the low levels of proteases and glycosyl hydrolases produced on initiation of infection in the clinical setting. These polymers can be easily fabricated into various forms that can be directly applied in diagnostic devices.

Published

2015

10. Biomarkers for infection: enzymes, microbes, and metabolites

Author

Gregor Tegl, Eva Sigl, Doris Schiffer, Georg M. Guebitz, and Andrea Heinzle

Subjects

chemistry.chemical_classification, Bacteria, Point-of-Care Systems, General Medicine, Hydrogen-Ion Concentration, Biology, Bioinformatics, Ph changes, Applied Microbiology and Biotechnology, Wound infection, Enzymes, Microbiology, Infection detection, Immune system, Enzyme, chemistry, Wound Infection, Humans, Wounds and Injuries, Wound fluid, Delayed healing, Biomarkers, Severe complication, Biotechnology

Abstract

Wound infection is a severe complication causing delayed healing and risks for patients. Conventional methods of diagnosis for infection involve error-prone clinical description of the wound and time-consuming microbiological tests. More reliable alternatives are still rare, except for invasive and unaffordable gold standard methods. This review discusses the diversity of new approaches for wound infection determination. There has been progress in the detection methods of microorganisms, including the assessment of the diversity of the bacterial community present in a wound, as well as in the elaboration of specific markers. Another interesting strategy involves the quantification of enzyme activities in the wound fluid secreted by the immune system as response to infection. Color-changing substrates for these enzymes consequently have been shown to allow detection of an infection in wounds in a fast and easy way. Promising results were also delivered in measuring pH changes or detecting enhanced amounts of volatile molecules in case of infection. A simple and effective infection detection tool is not yet on the market, but innovative ideas pave the way for the investigation of fast and easy point-of-care devices.

Published

2015

11. Rapid enzyme analysis as a diagnostic tool for wound infection: Comparison between clinical judgment, microbiological analysis, and enzyme analysis

Author

Miriam H.E. Blokhuis-Arkes, Marieke Haalboom, Andrea Heinzle, Eva Sigl, Georg M. Guebitz, Roland J. Beuk, and Job van der Palen

Subjects

chemistry.chemical_classification, Pathology, medicine.medical_specialty, integumentary system, biology, business.industry, Elastase, Dermatology, Clinical judgment, Wound infection, Gastroenterology, chemistry.chemical_compound, Enzyme, chemistry, Predictive value of tests, Internal medicine, Myeloperoxidase, medicine, biology.protein, Surgery, Positive test, Lysozyme, business

Abstract

In clinical practice, diagnosis of wound infection is based on the classical clinical signs of infection. When infection is suspected, wounds are often swabbed for microbiological culturing. These methods are not accurate (clinical judgment in chronic wounds) or provide results after several days (wound swab). Therefore, there is an urgent need for an easy-to-use diagnostic tool for fast detection of wound infection, especially in chronic wounds. This study determined the diagnostic properties of the enzymes myeloperoxidase, human neutrophil elastase (HNE), lysozyme and cathepsin-G in detecting wound infection when compared to wound swabs. Both chronic and acute wounds of 81 patients were assessed through clinical judgment, enzyme analysis and wound swab. Three promising enzyme models for detecting wound infection were identified. A positive test was defined as: at least one enzyme positive after 30 minutes (model 1), lysozyme and HNE positive after 30 minutes (model 2), myeloperoxidase positive after 5 minutes, and HNE or lysozyme positive after 30 minutes (model 3). All models were significant (p≤0.001). There was no correlation between clinical judgment and wound swab, indicating the need for novel diagnostic systems. Enzyme analysis is fast, easy to use and superior to clinical judgment when compared to wound swabs.

Published

2015

12. An electrochemical sensor for fast detection of wound infection based on myeloperoxidase activity

Author

Daniel Harrich, Eva Sigl, Andrea Heinzle, Martin Hajnsek, Barbara Binder, Job van der Palen, Vanessa Verient, Georg M. Guebitz, Daniel Koller, Frank Sinner, and Doris Schiffer

Subjects

Hypochlorous acid, Amperometry, chemistry.chemical_compound, Diagnosis, Materials Chemistry, Glucose oxidase, Electrical and Electronic Engineering, Hydrogen peroxide, Instrumentation, biology, integumentary system, Sensor system, Metals and Alloys, Substrate (chemistry), Condensed Matter Physics, Myeloperoxidase Wound infection, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Electrochemical gas sensor, chemistry, Biochemistry, Myeloperoxidase, biology.protein, Wound healing, Biosensor

Abstract

a b s t r a c t Infection can lead to severe complications during wound healing. We have developed an electrochemical sensor for fast and simple detection of wound infection based on the quantification of myeloperoxidase activity as a marker for infection. Applicability of the enzyme was confirmed with a correlation study with silver standard wound diag- nostics. Significant higher enzyme activities comparing non infected and infected wound fluids were determined (P = 0.01). To eliminate supplemental substrate addition, the chlorination activity of the enzyme - the formation of hypochlorous acid (HOCl) from chloride and hydrogen peroxide - was investi- gated in different wound fluids and correlated with the peroxidation activity measurements. Significant activity differences were likewise obtained (P = 0.01). Based on this we constructed an electrochemical hydrogen peroxide sensor system for the quantification of chlorination activity in wound fluids. Fur- thermore, immobilized glucose oxidase was integrated into the system to provide hydrogen peroxide required by myeloperoxidase. Infected wound fluids were indeed identified by using the sensor system quantifying the consumption of hydrogen peroxide consumed by myeloperoxidase. Thereby, immobilized glucose oxidase was shown to produce enough hydrogen peroxide for the myeloperoxidase reaction from glucose present in wound fluids. There is a strong need for a simple but effective sensor system to determine infections in wounds. This sensor measuring hydrogen peroxide consumption could effectively identify infected wound fluids based on the myeloperoxidase activity.

Published

2015

13. In vitro diagnostics for early detection of bacterial wound Infection

Author

Eva Sigl, Georg M. Guebitz, Andrea Heinzle, and Gregor Tegl

Subjects

Bacterial colonization, business.industry, Treatment modality, Risk of infection, Immunology, Medicine, Early detection, Colonization, business, Wound infection, Impaired wound healing, Infection detection

Abstract

A high risk of infection is also reported for chronic wounds, an issue predominantly affecting immune-suppressed people. As a consequence of manifestation of wound infection, wounds fail to heal. This greatly complicates the treatment modalities and life of the patients. The infection progress strongly correlates with the interaction of invading bacteria with the wound environment. This process is divided into four sections, namely, contamination, colonization, critical colonization and infection, whereby impaired wound healing is considered to start at the stage of critical bacterial colonization. This chapter discusses the promising methods available for microbial infection detection divided in direct bacterial detection and indirect infection detection. It describes the advantages and disadvantages of the available detection systems are elucidated and future perspectives in early detection of bacterial wound infection. The need of point-of-care (PoC) diagnostics for infection detection drives research to innovation in online measurement tools that provide fast information on the infection status.

Published

2017

14. Bioresponsive polymers for the detection of bacterial contaminations in platelet concentrates

Author

Clemens Gamerith, Thomas Wagner, Ulrike Gewessler, Elisabeth Hulla-Gumbsch, Laurent Ducoroy, Konstantin Schneider, Michael Gehrer, Andrea Heinzle, Georg M. Guebitz, and Eva Sigl

Subjects

Blood Platelets, Male, Staphylococcus aureus, Proteases, Glycidyl methacrylate, Chromatography, Chemistry, Microorganism, Color reaction, Caseins, Bioengineering, General Medicine, Contamination, Bacterial growth, chemistry.chemical_compound, Casein, Proteolysis, Epoxy Compounds, Humans, Methacrylates, Organic chemistry, Female, Platelet, Molecular Biology, Biotechnology

Abstract

Bacterial contamination of platelet concentrates (PCs) can lead to fatal transfusion transmitted diseases and is the most abundant infectious risk in transfusion medicine. The storage conditions of PCs provide a good environment for bacterial growth. The detection of these contaminations at an early stage is therefore important to avoid the transfusion of contaminated samples. In this study, bioresponsive polymer (BRP) systems were used for the detection of microorganisms in PCs. The backbone of the polymer consisted of labelled protein (casein), which was demonstrated to be degraded by pure proteases as models and by extracellular enzymes released by contaminating microorganisms. The concomitant colour change was easily visible to the naked eye. To enhance stability, the protein was cross-linked with glycidyl methacrylate (GMA). The cross-linked polymer was easier to handle but was less sensitive than the non-cross-linked material. A contamination of a PC with 10CFU/mL S. aureus was detectable after 24 hours. The visible colour reaction was quantified as a ΔE value according to the CIELab concept. A ΔE value of 21.8 was already reached after 24 hours. Hence, this simple but effective system could prevent transfusion of a contaminated PC.

Published

2014

15. Assessment of infection in chronic wounds based on the activities of elastase, lysozyme and myeloperoxidase

Author

Georg M. Guebitz, Eva Sigl, Miriam H.E. Blokhuis-Arkes, J. van der Palen, Doris Schiffer, and Andrea Heinzle

Subjects

Male, Population, Dermatology, Standard procedure, chemistry.chemical_compound, Humans, Prospective Studies, education, Aged, Peroxidase, education.field_of_study, biology, Elastase, Infection detection, chemistry, Case-Control Studies, Myeloperoxidase, Chronic Disease, Immunology, Wound Infection, biology.protein, Female, Muramidase, Lysozyme, Leukocyte Elastase, Biomarkers

Abstract

Infection in wounds affects about 2% of the population in developed countires at least once in their lifetime, and the lack of tools for its rapid diagnosis is still a problem 1. Standard procedures of infection detection include the judgement of the classical clinical signs, the detection of signals specific to secondary wounds, or the quantification of the microbial load 2–5. The determination of the microbial load is a time-consuming standard procedure, although the presence of microbes per se is not indicative of infection 2.

Published

2015

16. Novel protease-based diagnostic devices for detection of wound infection

Author

Doris Schiffer, Georg Gübitz, Ingrid K. Haaksman, H. B. M. Lenting, Eva Sigl, Nicole Ellen Papen-Botterhuis, Barbara Binder, Michael Schintler, Konstantin Schneider, and Andrea Heinzle

Subjects

Protease, integumentary system, biology, Chemistry, medicine.medical_treatment, Elastase, Dermatology, Matrix metalloproteinase, medicine.disease_cause, Enzyme assay, Microbiology, Staphylococcus aureus, medicine, biology.protein, Gelatinase, Surgery, Zymography, Wound healing

Abstract

A gelatinase-based device for fast detection of wound infection was developed. Collective gelatinolytic activity in infected wounds was 23 times higher (p ≤ 0.001) than in noninfected wounds and blisters according to the clinical and microbiological description of the wounds. Enzyme activities of critical wounds showed 12-fold elevated enzyme activities compared with noninfected wounds and blisters. Upon incubation of gelatin-based devices with infected wound fluids, an incubation time of 30 minutes led to a clearly visible dye release. A 32-fold color increase was measured after 60 minutes. Both matrix metalloproteinases and elastases contributed to collective gelatinolytic enzyme activity as shown by zymography and inhibition experiments. The metalloproteinase inhibitor 1,10-phenanthroline (targeting matrix metalloproteinases) and the serine protease inhibitor phenylmethlysulfonyl fluoride (targeting human neutrophil elastase) inhibited gelatinolytic activity in infected wound fluid samples by 11-37% and 60-95%, respectively. Staphylococcus aureus and Pseudomonas aeruginosa, both known for gelatinase production, were isolated in infected wound samples. © 2013 by the Wound Healing Society.

Published

2013

17. Myeloperoxidase-responsive materials for infection detection based on immobilized aminomethoxyphenol

Author

Doris, Schiffer, Gregor, Tegl, Robert, Vielnascher, Hansjoerg, Weber, Alexandra, Herrero-Rollett, Eva, Sigl, Andrea, Heinzle, and Georg M, Guebitz

Subjects

Guaiacol, Wound Infection, Humans, Reproducibility of Results, Biocompatible Materials, Colorimetry, Adsorption, Biosensing Techniques, Sensitivity and Specificity, Biomarkers, Peroxidase

Abstract

There is a strong need for simple and fast diagnostic tools for the detection of wound infection. Immune system-derived enzymes like myeloperoxidase are efficient biomarkers for wound infection that emerge in the early stage infection process. In this study, 5-amino-2-methoxyphenol was functionalized with alkoxysilane to allow visual detection of MPO on carrier materials, for example, in test strips. Indeed, MPO activity was visually detectable in short time in wound background. Oxidation of the substrate was followed spectrophotometrically and proved via HPLC. LC-ESI TOF and NMR analyses unveiled the reaction mechanism and a dimeric reaction product responsible for the visualization of MPO activity. The substrate specificity and sensitivity toward MPO detection was proved and tests with infected wound fluids were successfully performed. The study demonstrates the suitability of the novel MPO substrate for the detection of wound infection and the covalent immobilization on diagnostic carrier materials. Biotechnol. Bioeng. 2016;113: 2553-2560. © 2016 Wiley Periodicals, Inc.

Published

2016

18. Lysozyme-responsive polymer systems for detection of infection

Author

Clemens Gamerith, Michael Burnet, Job van der Palen, Miriam H.E. Blokhuis-Arkes, Vanessa Verient, Daniel Luschnig, Eva Sigl, Andrea Heinzle, Georg M. Guebitz, and Doris Schiffer

Subjects

Environmental Engineering, Chemistry, Wound infection, Size-exclusion chromatography, Biomedical application, Lysozyme, Bioengineering, Responsive polymer, Microbiology, chemistry.chemical_compound, Membrane, Environment-responsive biopolymers, Color changes, Diethylaminoethyl cellulose, Diagnosis, Centrifugation, Biotechnology

Abstract

There is a strong need for new point-of-care systems for the detection of wound infection. Overseen infections in chronic wounds induce severe complications, such as delayed healing and high risks for the patients, while time-consuming common gold and silver standard methods for infection assessment cannot be implemented in home care units. This study demonstrates for the first time the between correlation of lysozyme activity and silver-standard microbiological evaluation of wounds. Significantly higher (eightfold increase; p < 0.001) lysozyme activity in infected wounds was in accordance with increasing bacterial burden of infected wound fluids. Moreover, a two-layer membrane-based test system was developed providing visible results on infection in a short time (30 min) while avoiding any intermediate steps such as centrifugation. In the first layer of the system, a size exclusion membrane (1.2-8 μm cut-off) retained labeled peptidoglycane while allowing only smaller fragments resulting from lysozyme hydrolysis to pass through. These fragments were then captured in a second layer, an anion-exchanging diethylaminoethyl cellulose membrane, resulting in clearly visible color changes. Colorimetric measurements demonstrated significant differences (p < 0.001) and sixfold higher delta E values between infected and noninfected wound fluids. This system allows a quick and straightforward determination of the status of a wound. The colorimetric readout indicates the increased lysozyme activity in infected wound fluid.

Published

2015

19. Rapid enzyme analysis as a diagnostic tool for wound infection: Comparison between clinical judgment, microbiological analysis, and enzyme analysis

Author

Miriam H E, Blokhuis-Arkes, Marieke, Haalboom, Job, van der Palen, Andrea, Heinzle, Eva, Sigl, Georg, Guebitz, and Roland, Beuk

Subjects

Male, Microbiological Techniques, Wound Healing, Cathepsin G, Reproducibility of Results, Clinical Enzyme Tests, Anti-Bacterial Agents, Specimen Handling, Predictive Value of Tests, Chronic Disease, Wound Infection, Humans, Female, Muramidase, Practice Patterns, Physicians', Serpins, Aged, Netherlands, Peroxidase

Abstract

In clinical practice, diagnosis of wound infection is based on the classical clinical signs of infection. When infection is suspected, wounds are often swabbed for microbiological culturing. These methods are not accurate (clinical judgment in chronic wounds) or provide results after several days (wound swab). Therefore, there is an urgent need for an easy-to-use diagnostic tool for fast detection of wound infection, especially in chronic wounds. This study determined the diagnostic properties of the enzymes myeloperoxidase, human neutrophil elastase (HNE), lysozyme and cathepsin-G in detecting wound infection when compared to wound swabs. Both chronic and acute wounds of 81 patients were assessed through clinical judgment, enzyme analysis and wound swab. Three promising enzyme models for detecting wound infection were identified. A positive test was defined as: at least one enzyme positive after 30 minutes (model 1), lysozyme and HNE positive after 30 minutes (model 2), myeloperoxidase positive after 5 minutes, and HNE or lysozyme positive after 30 minutes (model 3). All models were significant (p≤0.001). There was no correlation between clinical judgment and wound swab, indicating the need for novel diagnostic systems. Enzyme analysis is fast, easy to use and superior to clinical judgment when compared to wound swabs.

Published

2014

20. Novel protease-based diagnostic devices for detection of wound infection

Author

Andrea, Heinzle, Nicole E, Papen-Botterhuis, Doris, Schiffer, Konstantin P, Schneider, Barbara, Binder, Michael, Schintler, Ingrid K, Haaksman, Herman B, Lenting, Georg M, Gübitz, and Eva, Sigl

Subjects

Microbiological Techniques, Bacteria, Wound Infection, Humans, Reproducibility of Results, Equipment Design, Peptide Hydrolases

Abstract

A gelatinase-based device for fast detection of wound infection was developed. Collective gelatinolytic activity in infected wounds was 23 times higher (p ≤ 0.001) than in noninfected wounds and blisters according to the clinical and microbiological description of the wounds. Enzyme activities of critical wounds showed 12-fold elevated enzyme activities compared with noninfected wounds and blisters. Upon incubation of gelatin-based devices with infected wound fluids, an incubation time of 30 minutes led to a clearly visible dye release. A 32-fold color increase was measured after 60 minutes. Both matrix metalloproteinases and elastases contributed to collective gelatinolytic enzyme activity as shown by zymography and inhibition experiments. The metalloproteinase inhibitor 1,10-phenanthroline (targeting matrix metalloproteinases) and the serine protease inhibitor phenylmethlysulfonyl fluoride (targeting human neutrophil elastase) inhibited gelatinolytic activity in infected wound fluid samples by 11-37% and 60-95%, respectively. Staphylococcus aureus and Pseudomonas aeruginosa, both known for gelatinase production, were isolated in infected wound samples.

Published

2012

21. Signal enhancement in polysaccharide based sensors for infections by incorporation of chemically modified laccase

Author

Franz Kaufmann, Konstantin Schneider, Eva Sigl, Teresa Flock, Verena Schenk, Georg M. Guebitz, Ulrike Gewessler, and Andrea Heinzle

Subjects

Coumaric Acids, Size-exclusion chromatography, Bioengineering, Biosensing Techniques, Peptidoglycan, Trametes hirsuta, Infections, Polyethylene Glycols, Substrate Specificity, Gel permeation chromatography, chemistry.chemical_compound, Polysaccharides, PEG ratio, Humans, Molecular Biology, Laccase, Chromatography, biology, Chemistry, Hydrogels, General Medicine, biology.organism_classification, Biochemistry, Carboxymethylcellulose Sodium, Self-healing hydrogels, PEGylation, Methacrylates, Biotechnology

Abstract

Bioresponsive polymers (BRPs) allow the detection of potentially pathogenic microorganisms. Here, peptidoglycan and cellulose based hydrogels were constructed with potential for diagnosis of wound infection or, for example, Aspergillosis, respectively. These systems respond to extracellular enzymes from microbes or enzymes secreted from the human immune system in case of infection. Laccases as ‘enhanzymes’ were incorporated into these devices for signal and stability enhancement when compared to simple dye release based systems. To retain the enhanzymes within the BRPs, they were either PEGylated laccase (Laccase_PEG) to increase size or methacrylated laccase (Laccase_MA) to allow covalent attachment to the polysaccharide matrices. PEGylation of Trametes hirsuta laccase led to a fivefold increase in size to 270 kDa according to size exclusion chromatography (SEC). Likewise, successful methacrylation of the laccase was demonstrated by using reversed phase chromatography while SEC analysis proved covalent attachment of the enzyme to the methacrylated polysaccharide matrix. Upon incubation of peptidoglycan based BRPs with fluid from infected wounds, the difference to controls was four times higher for Laccase_PEG based signalling when compared to simple dye release. Similarly, the control signals (i.e. leaching) were considerably reduced in case of Laccase_MA incorporated in crosslinked peptidoglycan (PG) and carboxymethylcellulose (CMC) hydrogels for signalling. In addition, Laccase_MA catalysed colour formation enhanced the signal dramatically with factors between 100- and 600-fold. Laccase_MA was demonstrated to oxidise silica gel immobilised ferulic acid incorporated into the BRP with clearly visible colour changes of 4.5 Δ E units according the CIELab concept upon incubation by trigger enzymes as well as infected wound fluids.

Published

2011

22. Rapid enzyme analyses as a diagnostic tool for wound infection

Author

Andrea Heinzle, J. van der Palen, Eva Sigl, J. Beuk, Georg M. Guebitz, Miriam H.E. Blokhuis-Arkes, and Marieke Haalboom

Subjects

medicine.medical_specialty, business.industry, General surgery, medicine, business, Wound infection, Surgery

Abstract

De abstractprijs is tijdens het 6e Jaarcongres V&VN VS gewonnen door Miriam Blokhuis en haar team en werd uitgereikt door dr. Erik de Laat, voorzitter van de Stichting Ondersteuning Wetenschap Verpleegkundig Specialisten (OWVS).

Published

2014

23. Novel diagnostic devices for rapid detection of wound infection

Author

Andrea Heinzle, Doris Schiffer, Eva Sigl, Elisabeth Hulla, Georg M. Guebitz, Ulrike Gewessler, Barbara Binder, Konstantin Schneider, Antonio Francesko, K. Greimel, and Michael Schintler

Subjects

Pathology, medicine.medical_specialty, business.industry, Medicine, Bioengineering, General Medicine, business, Molecular Biology, Wound infection, Rapid detection, Biotechnology

Published

2012