Jakub Nicpoń

The carbon dioxide laser: an alternative surgery technique for the treatment of common cutaneous tumors in dogs

BackgroundTumors of the skin and subcutaneous tissue are the largest group of canine neoplasms. Total excision is still the most effective method for treatment of these skin tumors. For its universal properties the carbon dioxide (CO2) laser appears to be an excellent surgical instrument in veterinary surgery. Laser techniques are alternatives to traditional methods for the surgical management of tumors. The aim of this study was to compare various types of laser techniques in skin oncologic surgery: excision, ablation and mixed technique and to suggest which technique of CO2 laser procedure is the most useful in particular case of tumors in dogs.FindingsThe study was performed on 38 privately-owned dogs with total number of 40 skin tumors of different type removed by various CO2 laser operation techniques from 2010–2013. The treatment effect was based on the surgical wound evaluation, the relative time of healing and possible local recurrence of the tumor after 3 months post surgery. Local recurrence was observed in two cases. The study showed that in 30 cases time needed for complete resection of lesions was less than 10 minutes. Time of healing was longer than 12 days in 6 cases (42.8%) with tumor excision and in 14 cases (87.5%) where excision with ablation technique was performed.ConclusionsThe advantages of the CO2 laser surgery were better hemostasis, precision of working, non-contact dissection, less instruments at the site of operation and minimum traumatization of the surrounding tissues.

The production and distribution of IL-6 and TNF-α in subcutaneous adipose tissue and their correlation with serum concentrations in Welsh ponies with equine metabolic syndrome

A main symptom of equine metabolic syndrome (EMS) in ponies is pathological obesity characterized by abnormal accumulation of fat deposits and inflammation. In this study, we analyzed the expression of two pro-inflammatory cytokines, interleukin-6 (IL-6) and tumor necrosis factor-alpha (TNF-α), in subcutaneous adipose tissue and the correlation with serum concentrations in peripheral blood of Welsh ponies. Based on clinical examination findings, the animals were divided into two groups: ponies affected with EMS (n = 8) and obese ponies (n = 8). The adipose tissue was examined using immunohistochemical analysis while concentrations IL-6 and TNF-α were measured using enzyme-linked immunosorbent assays (ELISAs). Additionally, histological characterization of the adipose tissue was performed. The results obtained showed that IL-6 expression in adipose tissue biopsies derived from animals with EMS was enhanced while TNF-α levels of both groups were comparable. Compared to the obese ponies, EMS animals also had significantly elevated levels of serum IL-6 and TNF-α. Histological analysis revealed macrophage infiltration and fibrosis in adipose tissue preparations from the EMS group. These data suggest that IL-6 may play a key role in the course of EMS in Welsh ponies. Our findings also demonstrated that analysis of pro-inflammatory cytokines levels in serum may serve as an additional tool for diagnosing EMS.

Comparison of behavior, morphology and morphometry of equine and canine adipose derived mesenchymal stem cells in culture

Estudios recientes han revelado propiedades pluripotentes del tejido graso aislado de celulas madre mesenquimales. Estas celulas se utilizan con exito como factor terapeutico para muchos trastornos locomotores, siendo aun mas eficaz que las celulas madre de medula osea. Aisladas y cultivadas, AD-MSC se observaron, fotografiaron y midieron comparar celulas de dos especies diferentes.

Equine metabolic syndrome impairs adipose stem cells osteogenic differentiation by predominance of autophagy over selective mitophagy.

Adipose‐derived mesenchymal stem cells (ASC) hold great promise in the treatment of many disorders including musculoskeletal system, cardiovascular and/or endocrine diseases. However, the cytophysiological condition of cells, used for engraftment seems to be fundamental factor that might determine the effectiveness of clinical therapy. In this study we investigated growth kinetics, senescence, accumulation of oxidative stress factors, mitochondrial biogenesis, autophagy and osteogenic differentiation potential of ASC isolated from horses suffered from equine metabolic syndrome (EMS). We demonstrated that EMS condition impairs multipotency/pluripotency in ASCs causes accumulation of reactive oxygen species and mitochondria deterioration. We found that, cytochrome c is released from mitochondria to the cytoplasm suggesting activation of intrinsic apoptotic pathway in those cells. Moreover, we observed up‐regulation of p21 and decreased ratio of Bcl‐2/BAX. Deteriorations in mitochondria structure caused alternations in osteogenic differentiation of ASCEMS resulting in their decreased proliferation rate and reduced expression of osteogenic markers BMP‐2 and collagen type I. During osteogenic differentiation of ASCEMS, we observed autophagic turnover as probably, an alternative way to generate adenosine triphosphate and amino acids required to increased protein synthesis during differentiation. Downregulation of PGC1α, PARKIN and PDK4 in differentiated ASCEMS confirmed impairments in mitochondrial biogenesis and function. Hence, application of ASCEMS into endocrinological or ortophedical practice requires further investigation and analysis in the context of safeness of their application.

The effects of the DNA methyltranfserases inhibitor 5‐Azacitidine on ageing, oxidative stress and DNA methylation of adipose derived stem cells

Human adipose tissue is a great source of adult mesenchymal stem cells (MSCs) which are recognized from their ability to self‐renew and differentiation into multiple lineages. MSCs have promised a vast therapeutic potential in treatment many diseases including tissue injury and immune disorders. However, their regenerative potential profoundly depends on patients’ age. Age‐related deterioration of MSC is associated with cellular senescence mainly caused by increased DNA methylation status, accumulation of oxidative stress factors and mitochondria dysfunction. We found that DNA methyltransferase (DNMT) inhibitor i.e. 5‐Azacytidine (5‐AZA) reversed the aged phenotype of MSCs. Proliferation rate of cells cultured with 5‐AZA was increased while the accumulation of oxidative stress factors and DNA methylation status were decreased. Simultaneously the mRNA levels of TET proteins involved in demethylation process were elevated in those cells. Moreover, cells treated with 5‐AZA displayed reduced reactive oxygen species (ROS) accumulation, ameliorated superoxide dismutase activity and increased BCL‐2/BAX ratio in comparison to control group. Our results indicates that, treating MSCs with 5‐AZA can be justified therapeutic intervention, that can slow‐down and even reverse aged‐ related degenerative changes in those cells.

Chondrogenic potential of canine articular cartilage derived cells (cACCs)

Abstract In the present paper, the potential of canine articular cartilage-derived cells (cACCs) for chondrogenic differentiation was evaluated. The effectiveness of cACCs’ lineage commitment was analyzed after 14 days of culture in chondorgenic and non-chondrogenic conditions. Formation of proteoglycan-rich extracellular matrix was assessed using histochemical staining – Alcian Blue and Safranin-O, while elemental composition was determined by means of SEM-EDX. Additionally, ultrastructure of cACCs was evaluated using TEM. The expression of genes involved in chondrogenesis was monitored with quantitative Real Time PCR. Results obtained indicate that the potential of cACCs for cartilagous extracellular matrix formation may be maintained only in chondrogenic cultures. The formation of specific chondro-nodules was not observed in a non-chondrogenic culture environment. The analysis of cACCs’ ultrastructure, both in non-chondrogenic and chondrogenic cultures, revealed well-developed rough endoplasmatic reticulum and presence of mitochondria. The cACCs in chondrogenic medium shed an increased number of microvesicles. Furthermore, it was shown that the extracellular matrix of cACCs in chondrogenic cultures is rich in potassium and molybdenum. Additionally, it was determined that gene expression of collagen type II, aggrecan and SOX-9 was significantly increased during chondrogenic differentiation of cACCs. Results obtained indicate that the culture environment may significantly influence the cartilage phenotype of cACCs during long term culture.

Scanning X-Ray Electron Microscopy (SEM-EDX) as a Therapeutic Tool in the Diagnosis of Equine Metabolic Syndrome (EMS)

Equine metabolic syndrome (EMS) is a disease entity characterized by a set of clinical sings such as significant obesity, increased insulin and glucose level and development of laminitis. This syndrome occurs more frequently in draft and/or pony horses. The diagnosis process of EMS is difficult and still not fully recognized. The screening tests, recommended for proper recognition of EMS, can be affected by external factors such as pain and/or stress. Moreover diagnosis poses life threatening situation for the patient. Searching for an appropriate and noninvasive method for the assessment of EMS symptoms, the authors decided to evaluate the usefulness of SEM-EDX technique. This analytical method was used to determinate chemical composition of hairs collected form healthy and EMS horses. Comparison of Pb, Cr, Ca and Fe content revealed statistically significant differences between investigated groups of animals. Basing on the obtained results authors recommend SEM-EDX method as an adjunctive diagnostics tool in equine metabolic syndrome (EMS) diagnosis.