Sylwia Szotek scite author profile

From the histological point of view, fascia lata is a dense connective tissue. Although extracellular matrix is certainly the most predominant fascia’s feature, there are also several cell populations encountered within this structure. The aim of this study was to describe the existence and characteristics of fascia lata cell populations viewed through a transmission electron microscope. Special emphasis was placed on telocytes as a particular interstitial cell type, recently discovered in a wide variety of tissues and organs such as the heart, skeletal muscles, skin, gastrointestinal tract, uterus and urinary system. The conducted study confirmed the existence of a telocyte population in fascia lata samples. Those cells fulfil main morphological criteria of telocytes, namely, the presence of very long, thin cell processes (telopodes) extending from a relatively small cell body. Aside from telocytes, we have found fibroblasts, mast cells and cells with features of myofibroblastic differentiation. This is the first time it has been shown that telocytes exist in human fascia. Currently, the exact role of those cells within the fascia is unknown and definitely deserves further attention. One can speculate that fascia lata telocytes likewise telocytes in other organs may be involved in regeneration, homeostasis and intracellular signalling.

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FT‐Raman spectroscopic study of thoracic aortic wall subjected to uniaxial stress

Hanuza

Mączka

Gąsior-Głogowska

et al. 2009

J Raman Spectroscopy

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The combination of Fourier transform-Raman spectroscopy and uniaxial tensile tests (in MTS Synergie 100 testing machine) was used to investigate microstructural changes in the secondary protein structure of the aortic wall under different levels of stress. The spectroscopic analysis clearly shows differing tension thresholds for material excised in two directions: circumferential and longitudinal. This is confirmed by the results of macroscopic mechanical analyses. The application of strain does not lead to any noticeable change in the bandwidths of the Raman bands. The stress-controlled Raman band analysis shows that the modes at 938 cm −1 assigned as C α -C of the α-helix, 1660 cm −1 amide I (the unordered structure of elastin) and 1668 cm −1 amide I (the collagen triple helix) undergo wavenumber shifting, but the bands at 1004 cm −1 assigned to the phenyl ring breathing mode and 2940 cm −1 to the ν (CH 3 ) and ν (CH 2 ) modes are not affected during the elastic behaviour. A clear correlation between Raman band shifting and the level of mechanical stress has been established. Elastin alone participates in the transmission of low stresses in the circumferential direction, whereas both elastin and collagen take part in the transmission of physiological and higher stresses.

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Qualitative and quantitative assessment of collagen and elastin in annulus fibrosus of the physiologic and scoliotic intervertebral discs

Kobielarz

Szotek

Głowacki³

et al. 2016

Journal of the Mechanical Behavior of Biomedical Materials

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Morphological features of fascia lata in relation to fascia diseases

Szotek

Dawidowicz²,

Eyden

et al. 2016

Ultrastructural Pathology

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Fascia lata is an important element of the fascial system, which forms the continuum of connective tissue throughout the body. This deep fascia envelops the entire thigh and hip area and its main function is to transmit mechanical forces generated by the musculoskeletal system of the lower extremities. Fascia lata is also known as a useful and easily harvested graft material. Despite its crucial role in lower extremity biomechanics and wide-ranging applications in plastic and reconstructive surgery, both the structure of fascia lata and particularly the cells populating this tissue are relatively unexplored and therefore poorly understood. The aim of this study was to characterize the main cell populations encountered within human fascia lata and to try to understand their role in health and diseases. Pathologically unchanged human fascia lata was obtained post mortem from adult males. The specimens were analyzed under light, electron, and confocal microscopy. On the basis of different visualization techniques, we were able to characterize in detail the cells populating human fascia lata. The main cells found were fibroblasts, fibrocytes, mast cells, cells showing myoid differentiation, nerve cells, and most interestingly, telocytes. Our results supplement the formerly inadequate information in the literature regarding the cellular components of deep fascial structure, may contribute to a better understanding of the pathogenesis of fascial disorders and improve fascia lata application as a graft material.

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Telocytes of Fascial Structures

Dawidowicz¹,

Matysiak

Szotek

et al. 2016

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Currently, the exact role of telocytes within fascial structures is unknown. The morphology, distribution and behaviour of fascial telocytes as well as the mutual relationship between telocytes and other cellular fascia constituents should be definitely a subject of further studies. It will contribute to better understanding of the role of the fascial system in health and diseases, may shed light on the regeneration potential of these tissues and may help to find targets for future treatments for locomotor disorders, including fascial diseases. Last but not least, confirmation of the presence of telocytes within fascia may contribute to optimise the use of fascia as a graft material.

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Mechanical Properties of the Cerebrum: Application in Neurosurgical Procedures

Kobielarz

Szotek

Kuropka

et al. 2011

Strain

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The development of robotics technology, especially the emergence of automatic surgical tools and robots, as well as the rapid advances in virtual reality techniques, require closer examination of the mechanical properties of the brain and its tissues at moderate and slow loading velocities corresponding to the strain rates of surgical procedures. In order to obtain comprehensive information about the mechanical properties of the brain, non‐destructive instrumented indentation was performed on the adult ovine cerebrum under various conditions, i.e. (i) in four measuring regions (consistent with the frontal and parietal lobes of both cerebral hemispheres) and (ii) at three loading velocities. The shear and elastic moduli show loading velocity dependence and weak regional dependence. The mean shear and elastic moduli of the ovine brain’s frontal lobe are higher than those of its parietal lobe. In addition, the left lobe is insensibly stiffer than the right lobe at each of the loading velocities.

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Biomechanical effect of rapid mucoperiosteal palatal tissue expansion with the use of osmotic expanders

Wysocki¹,

Kobus

Szotek

et al. 2011

Journal of Biomechanics

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Sylwia Szotek

FT-Raman spectroscopic study of human skin subjected to uniaxial stress

Electron microscopy of human fascia lata: focus on telocytes

FT‐Raman spectroscopic study of thoracic aortic wall subjected to uniaxial stress

Qualitative and quantitative assessment of collagen and elastin in annulus fibrosus of the physiologic and scoliotic intervertebral discs

Morphological features of fascia lata in relation to fascia diseases

Telocytes of Fascial Structures

Mechanical Properties of the Cerebrum: Application in Neurosurgical Procedures

Biomechanical effect of rapid mucoperiosteal palatal tissue expansion with the use of osmotic expanders

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