ESDR365 - A human ex vivo burn model – its characterization and use for preclinical testing of innovative wound dressings

Author(s):  
Elisabeth Hofmann
2021 ◽  
Vol 141 (10) ◽  
pp. S212
Author(s):  
E. Hofmann ◽  
J.C. Holzer-Geißler ◽  
K. Tiffner ◽  
A. Eberl ◽  
T. Birngruber ◽  
...  

Pharmaceutics ◽  
2019 ◽  
Vol 11 (8) ◽  
pp. 389 ◽  
Author(s):  
Mónica C. Guadarrama-Acevedo ◽  
Raisa A. Mendoza-Flores ◽  
María L. Del Prado-Audelo ◽  
Zaida Urbán-Morlán ◽  
David M. Giraldo-Gomez ◽  
...  

Non-biodegradable materials with a low swelling capacity and which are opaque and occlusive are the main problems associated with the clinical performance of some commercially available wound dressings. In this work, a novel biodegradable wound dressing was developed by means of alginate membrane and polycaprolactone nanoparticles loaded with curcumin for potential use in wound healing. Curcumin was employed as a model drug due to its important properties in wound healing, including antimicrobial, antifungal, and anti-inflammatory effects. To determine the potential use of wound dressing, in vitro, ex vivo, and in vivo studies were carried out. The novel membrane exhibited the diverse functional characteristics required to perform as a substitute for synthetic skin, such as a high capacity for swelling and adherence to the skin, evidence of pores to regulate the loss of transepidermal water, transparency for monitoring the wound, and drug-controlled release by the incorporation of nanoparticles. The incorporation of the nanocarriers aids the drug in permeating into different skin layers, solving the solubility problems of curcumin. The clinical application of this system would cover extensive areas of mixed first- and second-degree wounds, without the need for removal, thus decreasing the patient’s discomfort and the risk of altering the formation of the new epithelium.


Author(s):  
Gabrielle S. Dijksteel ◽  
Magda M. W. Ulrich ◽  
Marcel Vlig ◽  
Peter H. Nibbering ◽  
Robert A. Cordfunke ◽  
...  

Abstract Background We investigated the efficacy of a synthetic antimicrobial peptide SAAP-148, which was shown to be effective against Methicillin-resistant Staphylococcus aureus (MRSA) on tape-stripped mice skin. Unexpectedly, SAAP-148 was not effective against MRSA in our pilot study using rats with excision wounds. Therefore, we investigated factors that might have contributed to the poor efficacy of SAAP-148. Subsequently, we optimised the protocol and assessed the efficacy of SAAP-148 in an adapted rat study. Methods We incubated 100 µL of SAAP-148 with 1 cm2 of a wound dressing for 1 h and determined the unabsorbed volume of peptide solution. Furthermore, 105 colony forming units (CFU)/mL MRSA were exposed to increasing dosages of SAAP-148 in 50% (v/v) human plasma, eschar- or skin extract or PBS. After 30 min incubation, the number of viable bacteria was determined. Next, ex vivo skin models were inoculated with MRSA for 1 h and exposed to SAAP-148. Finally, excision wounds on the back of rats were inoculated with 107 CFU MRSA overnight and treated with SAAP-148 for 4 h or 24 h. Subsequently, the number of viable bacteria was determined. Results Contrary to Cuticell, Parafilm and Tegaderm film, < 20% of peptide solution was recovered after incubation with gauze, Mepilex border and Opsite Post-op. Furthermore, in plasma, eschar- or skin extract > 20-fold higher dosages of SAAP-148 were required to achieve a 2-log reduction (LR) of MRSA versus SAAP-148 in PBS. Exposure of ex vivo models to SAAP-148 for 24 h resulted in a 4-fold lower LR than a 1 h or 4 h exposure period. Additionally, SAAP-148 caused a 1.3-fold lower mean LR at a load of 107 CFU compared to 105 CFU MRSA. Moreover, exposure of ex vivo excision wound models to SAAP-148 resulted in a 1.5-fold lower LR than for tape-stripped skin. Finally, SAAP-148 failed to reduce the bacterial counts in an adapted rat study. Conclusions Several factors, such as absorption of SAAP-148 by wound dressings, components within wound exudates, re-colonisation during the exposure of SAAP-148, and a high bacterial load may contribute to the poor antimicrobial effect of SAAP-148 against MRSA in the rat model.


2008 ◽  
Vol 36 (1) ◽  
pp. 25-32 ◽  
Author(s):  
Markus Frentz ◽  
Miriam Goss ◽  
Martin Reim ◽  
Norbert F. Schrage

The prediction of side-effects is a key issue in the REACH initiative on chemicals, in the production of cosmetics and in the preclinical testing of drugs. A new ex vivo test for repeated substance application is presented, that is able to identify corrosive and irritant effects on the eye by using crucial endpoints, such as cellular and morphological damage, and healing characteristics. The test is intended to replace the Draize eye test and to improve the preclinical testing of drugs and chemicals that are likely to come into direct contact with the cornea. The Ex Vivo Eye Irritation Test (EVEIT) is a self-healing system, involving living corneas obtained from abattoir rabbit eyes. The corneas are cultured in a similar way to the method used during the transplantation of corneal grafts. The corneas are exposed to multiple small, mechanical abrasions, and then test substances are repeatedly dropped onto the centres of the corneas. The test substances applied in this study were citrate-buffered hyaluronate eye drops and an artificial tear replacement, with increasing concentrations of up to 0.1% benzalkonium chloride. A dose-dependent inhibition of recovery and impairment of the lactate production mechanism in the cornea was observed with benzalkonium chloride treatment.


2020 ◽  
Vol 10 (1) ◽  
Author(s):  
Kristina Nešporová ◽  
Vojtěch Pavlík ◽  
Barbora Šafránková ◽  
Hana Vágnerová ◽  
Pavel Odráška ◽  
...  

Abstract Wound dressings with silver have been shown to be cytotoxic in vitro. However, the extrapolation of this cytotoxicity to clinical settings is unclear. We applied dressings with various forms of silver on porcine skin ex vivo and investigated silver penetration and DNA damage. We assessed antimicrobial efficacy, cytotoxicity to skin cells, and immune response induced by the dressings. All dressings elevated the DNA damage marker γ-H2AX and the expression of stress-related genes in explanted skin relative to control. This corresponded with the amount of silver in the skin. The dressings reduced viability, induced oxidative stress and DNA damage in skin cells, and induced the production of pro-inflammatory IL-6 by monocytes. The oxidative burst and viability of activated neutrophils decreased. The amount of silver released into the culture medium varied among the dressings and correlated with in vitro toxicity. However, antimicrobial efficiencies did not correlate strongly with the amount of silver released from the dressings. Antimicrobial efficiency and toxicity are driven by the form of silver and the construction of dressings and not only by the silver concentration. The damaging effects of silver dressings in ex vivo skin highlight the importance of thorough in vivo investigation of silver dressing toxicity.


2020 ◽  
Vol 38 (6_suppl) ◽  
pp. 151-151
Author(s):  
Mitchell Lawrence ◽  
David Clouston ◽  
Mark Frydenberg ◽  
Declan G. Murphy ◽  
Carmel Jo Pezaro ◽  
...  

151 Background: There are fewer preclinical models of prostate cancer compared to other common tumours. New models that represent the diverse features of castrate-sensitive and castration-resistant prostate cancer (CRPC) are required for thorough preclinical testing of novel treatments. Therefore, the goal of the Melbourne Urological Research Alliance (MURAL) is to develop patient-derived xenografts (PDXs) spanning the clinical trajectory of prostate cancer. Methods: We grafted >200 surgery, biopsy or rapid autopsy samples into testosterone-supplemented or castrated male NSG mice. Actively growing tumours were serially transplanted or grown as explants or organoids. PDXs were analysed using RNAseq, targeted genomic sequencing and histopathology review. Results: We previously reported 4 serially transplantable PDXs (Lawrence, et al., 2018, European Urology). Now we have established ~30 additional models spanning treatment naïve primary disease to CRPC. PDXs of CRPC were often from soft tissue metastases of patients who had failed docetaxel, cabazitaxel, enzalutamide, abiraterone and other contemporary treatments. Accordingly, they had diverse mechanisms of resistance, including AR mutations, genomic structural rearrangements, gene amplifications and expression of AR variants. In addition, several PDXs had AR-null phenotypes, including small cell prostate cancer. All PDXs closely reflected the genomic, transcriptomic and histopathological characteristics of the original patient tumours. As renewable sources of tissue, the PDXs could also be grown as ex vivo slice cultures and in vitro organoids, providing complementary models with different timescales and endpoints. Conclusions: We have developed a new collection of castrate-sensitive and castrate-resistant PDXs of prostate cancer, providing diverse tumours for preclinical testing of candidate treatments.


2019 ◽  
Vol 40 (Supplement_1) ◽  
Author(s):  
R Jabbour ◽  
T Owen ◽  
M Reinsch ◽  
P Pandey ◽  
B Wang ◽  
...  

Abstract Introduction The lack of efficacy of stem cell therapy for the treatment of heart failure may be related to the poor retention rates offered by existing delivery methods (intra-coronary/ intramyocardial). Tissue engineering strategies improve cell retention in small animal models but data regarding engineered heart tissue (EHT) patches large enough for human studies are lacking. Purpose To upscale EHT to a clinically relevant size and mature the patch in-vitro. Once matured to undergo preclinical testing in a rabbit model of myocardial infarction. Methods We developed an upscaled EHT patch (3cm x 2cm x 1.5mm) able to contain up to 50 million human induced pluripotent stem cell derived cardiomyocytes (hiPSC-CM; Fig A/B). Myocardial infarction model was performed by permanent ligation. Results The patches began to beat spontaneously within 3 days of fabrication and after 28 days of dynamic culture (Late EHTs) showed the development of several mature characteristics when compared to early patches (<14 days from fabrication). For example, late EHTs contained hiPSC-CMs which were more aligned (hiPSC-CM accumulative angle change: early 2702±778 degrees [n=4] vs late 922±186 [n=5], p=0.042); showed better contraction kinetics (early peak contraction amplitude 87.9±5.8a.u. versus late 952±304a.u.; p<0.001) and faster calcium transients (time to peak: early 200.8±8.8ms [n=5] vs late 147.7±10.2ms [n=6], p=0.004; time to 75% decay: early 274±9.7ms vs late 219.9±2.7ms, p=0.0003). We then tested the EHT patch in-vivo using a rabbit model (Fig C). Patches were applied to normal (n=5) or infarcted hearts (n=8). Sham operations used non-cellular fibrin patches (n=5). The mean fraction of troponin positive cells in the graft was 27.8±10.3% at 25.2±1.7 days relative to day 0 [n=5] and KU80 (human specific marker) staining confirmed that this was of human origin. CD31 (Fig D) and KU80 staining revealed that the grafts were well vascularized and that the vasculature was not human in origin (therefore were originating from the host). Ex-vivo optical mapping revealed evidence of electrical coupling between the graft and host at 2 weeks and preliminary experiments indicated that the patch improved left ventricular function when grafted onto infarcted hearts. Telemetry recordings in vivo and arrhythmia provocation protocols (ex vivo) indicated that the patch was not proarrhythmic. Figure 1. A/B) EHT Images; C) 20x troponin T (brown) of rabbit myocardium/EHT (2 weeks after grafting), blue counterstain = haematoxylin, red lines = EHT borders; D) 63x CD31 staining (brown) rabbit/EHT border zone (2 weeks after grafting), blue stain = haematoxylin, red lines = graft/host border zones. Conclusion We successfully upscaled hiPSC-CM derived EHT to a clinically relevant size and demonstrated feasibility and integration using a rabbit model of myocardial infarction. Tissue engineering strategies may be the preferred modality of cell delivery for future cardiac regenerative medicine studies.


2017 ◽  
Vol 137 (10) ◽  
pp. S311
Author(s):  
V. Pavlík ◽  
K. Nešporová ◽  
H. Vagnerova ◽  
Z. Brunova ◽  
V. Velebný

Frequenz ◽  
2018 ◽  
Vol 72 (3-4) ◽  
pp. 151-158 ◽  
Author(s):  
Oppelt Daniel ◽  
Korf Patrick ◽  
Adametz Julian ◽  
Groh Jannis ◽  
Vossiek Martin ◽  
...  

Abstract Millimeter-wave imaging is a promising technology for diagnosing skin burns, that may make it easier to assess and determine the burn depth in the near future. However, up to now, it has not yet been brought to clinical use due to the lack of clinical trails on patients and a millimeter-wave-aided classification of skin burns. In this paper, in a preliminary step, ex-vivo burned porcine skin is utilized to visualize and quantify skin that has been burned in different ways, and to access its effect on millimeter-wave images. For the first time, a 24 hour study of in-vivo human skin visualizes the effect of wound dressings using a fast imaging system operating at frequencies from 70 to 80 GHz. For validation, the effective relative permittivity of the skin and the dressings are measured using a open-ended coaxial probe. An analytical model is applied to calculate the reflection coefficient which are compared to the intensity of the millimeter-wave images to validate the model.


2021 ◽  
Author(s):  
Mariarosa Ruffo ◽  
Ortensia Ilaria Parisi ◽  
Marco Dattilo ◽  
Francesco Patitucci ◽  
Rocco Malivindi ◽  
...  

Abstract In diabetic patients, the presence of neuropathy, peripheral vascular diseases and ischemia, leads to the formation of foot ulcerations with a higher risk of infection because the normal response to bacterial infection is missing. In the aim to control and treat Diabetic Foot Ulcerations (DFUs), wound dressings able to absorb exudate, to prevent infections and to promote wound healing, are needed. For this reason, the aim of the present research was to synthetize a biocompatible hydrogel composed by Carboxymethylcellulose (HyDrO-DiAb) loaded with Silver nanoparticles (AgNPs) for the treatment of diabetic foot ulcer. In this study, AgNPs were obtained by a green synthesis and, then, were dissolved in CMC hydrogel that, after freeze drying process become a flexible and porous structure. The in vitro and in ex-vivo wound healing activity of the obtained HyDrO-DiAb hydrogel was evaluated.


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