Renata Wilk scite author profile

The latest findings indicate the huge therapeutic potential of stem cells in regenerative medicine, including the healing of chronic wounds. Main stem cell types involved in wound healing process are: epidermal and dermal stem cells, mesenchymal stem cells (MSCs), endothelial progenitor cells (EPCs) and hematopoietic stem cells (HSCs). In the therapy of chronic wounds, they can be administrated either topically or using different matrix like hydrogels, scaffolds, dermal substitutes and extracellular matrix (ECM) derivatives. Stem cells are proven to positively influence wound healing by different direct and indirect mechanisms including residing cells stimulation, biomolecules release, inflammation control and ECM remodelling. MSCs are especially worth mentioning as they can be easily derived from bone-marrow or adipose tissue. Apart from traditional approach of administering living stem cells to wounds, new trends have emerged in recent years. Good healing results are obtained using stem cell secretome alone, for example exosomes or conditioned media. There are also attempts to improve healing potential of stem cells by their co-culture with other cell types as well as by their genetic modifications or pretreatment using different chemicals or cell media. Moreover, stem cells have been tested for novel therapeutic purposes like for example acute burns and have been used in experiments on large animal models including pigs and sheep. In this review we discuss the role of stem cells in skin wound healing acceleration. In addition, we analyse possible new strategies of stem cells application in treatment of chronic wounds.

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What would you like to print? Students' opinions on the use of 3D printing technology in medicine

Wilk

Likus

Hudecki

et al. 2020

PLoS ONE

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Background Recent advances in 3D printing technology, and biomaterials are revolutionizing medicine. The beneficiaries of this technology are primarily patients, but also students of medical faculties. Taking into account that not all students have full, direct access to the latest advances in additive technologies, we surveyed their opinion on 3D printing and education in this area. The research aimed to determine what knowledge about the use of 3D printing technology in medicine, do students of medical faculties have. Methods The research was carried out in the form of a questionnaire among 430 students of the Medical University of Silesia in Katowice (Poland) representing various fields of medicine and health sciences. The questions included in the survey analyzed the knowledge of the respondents for 3D printing technology and the opportunities it creates in medicine. Results The results indicate that students do have knowledge about 3D printing obtained mainly from the internet. They would be happy to deepen their knowledge at specialized courses in this field. Students appreciated the value of 3D printing in order to obtain accurate anatomical models, helpful in learning. However, they do not consider the possibility of complete abandonment of human cadavers in the anatomy classes. Their knowledge includes basic information about current applications of 3D printing in medicine, but not in all areas. However, they have no ethical doubts regarding the use of 3D printing in any form. The vast majority of students deemed it necessary to incorporate information regarding 3D printing technology into the curriculum of different medical majors.

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Thyroid Hormone Inhibits Aromatase Activity in Porcine Thecal Cells Cultured Alone and in Coculture with Granulosa Cells

Gregoraszczuk

Słomczyńska²,

Wilk³

1998

Thyroid

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We cultured porcine thecal and granulosa cells alone or in coculture to define whether thyroid hormone affects aromatase activity in porcine ovarian cells. Dispersed cells were cultured with 10(-9) M triiodothyronine (T3) for 24 hours. Testosterone (final concentration 10(-7) M) was added as aromatase substrate for granulosa cells (Gc) cultured alone. Thecal (Th) androgens serve as a substrate for estradiol secretion by Th cells cultured alone and in coculture with Gc. At the end of the preincubation time, the culture media was removed and replaced with fresh media containing 100 ng follicle stimulating hormone (FSH) or 10(-3) M 8-bromo-cyclic adenosine monophosphate (8-Br-cAMP). After overnight incubation, the culture media was analyzed for estradiol production by radioimmunoassay (RIA). T3 inhibited basal, FSH-stimulated, and 8brcAMP-stimulated estradiol production in all culture conditions. T3 inhibited cAMP analogue 8-Br-cAMP and FSH-induced aromatase activity to a similar extent, thus suggesting that the inhibitory effect of T3 is downstream of cAMP formation. In the second part of the experiment a rabbit polyclonal antibody against human placental cytochrome P-450arom was used to confirm the effect of T3 on aromatase protein in Th and Gc. Pretreatment of Th and Gc with T3 markedly decreased immunostaining for aromatase in both types of cells, suggesting a direct effect of T3 on this enzyme.

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Chemoprevention of Head and Neck Cancers: Does It Have Only One Face?

Siemianowicz

Likus

Dorecka

et al. 2018

BioMed Research International

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Head and neck squamous cell cancer (HNSCC) represents a significant burden worldwide. Chemoprevention of HNSCC is a means of cancer control with a use of drugs or natural agents in order to hinder or delay the cancer development. The purpose of this article is to review mechanism of action of different chemopreventive agents' groups and results of most important researches concerning them. The safety issues of HNSCC chemoprevention are also discussed. In case of HNSCC there is currently no agent, which would give positive result in the third phase of clinical trials. Promising results of preclinical trials are not always confirmed by further tests. Main problems are low effectiveness, high toxicity, and lack of highly specificity biomarkers for monitoring the research. New trials concerning many agents, as well as novel technologies for provision of pharmaceutical forms of them, including drug nanocarriers, are currently underway, which gives hope for finding the perfect chemopreventive agent formula.

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Composite Nanofibers Containing Multiwall Carbon Nanotubes as Biodegradable Membranes in Reconstructive Medicine

et al. 2019

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We have tested titanium (Ti) plates that are used for bone reconstruction in maxillofacial surgery, in combination with five types of novel long-resorbable biomaterials: (i) PCL0—polycaprolactone without additives, (ii) PCLMWCNT—polycaprolactone with the addition of multiwall carbon nanotubes (MWCNT), (iii) PCLOH—polycaprolactone doped with multiwall carbon nanotubes (MWCNT) containing –OH hydroxyl groups, (iv) PCLCOOH—polycaprolactone with the addition of multiwall carbon nanotubes (MWCNT) containing carboxyl groups, and (v) PCLTI—polycaprolactone with the addition of Ti nanoparticles. The structure and properties of the obtained materials have been examined with the use of Scanning Electron Microscopy (SEM), Transmission Electron Microscopy (TEM), Raman spectroscopy, Fourier transform infrared spectroscopy (FTIR), and/or X-ray powder diffraction (XRD). Titanium BR plates have been covered with: (i) PCL0 fibers (PCL0BR—connection plates), (ii) PCLMWCNT fibers (PCLMWCNTBR—plates), (iii) PCLOH fibers (PCLOHBR—plates), (iv) PCLCOOH (PCLCOOHBR—plates), (v) PCLTI fiber (PCLTIBR—connection plates). Such modified titanium plates were exposed to X-ray doses corresponding to those applied in head and neck tumor treatment. The potential leaching of toxic materials upon the irradiation of such modified titanium plates, and their effect on normal human dermal fibroblasts (NHDF) have been assessed by MTT assay. The presented results show variable biological responses depending on the modifications to titanium plates.

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Renata Wilk

Novel trends in application of stem cells in skin wound healing

What would you like to print? Students' opinions on the use of 3D printing technology in medicine

Thyroid Hormone Inhibits Aromatase Activity in Porcine Thecal Cells Cultured Alone and in Coculture with Granulosa Cells

Chemoprevention of Head and Neck Cancers: Does It Have Only One Face?

Composite Nanofibers Containing Multiwall Carbon Nanotubes as Biodegradable Membranes in Reconstructive Medicine

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