Marina V. Savchuk scite author profile

Marina V. Savchuk

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18Citation Statements Given

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Tissue engineering of vascular/valvular equivalents on the base of the xenogeneic decellularized matrix

Savchuk¹

2014

Biopolym. Cell

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According to the WHO, in 2008 cardiovascular diseases claimed the lives of 17.5 million people (30 % of all diseases). Often the only option to save a patient's life is a replacing the injured part of an organ by the prosthesis. Aim. This research was aimed to produce biomodificated cardiovascular graft by decellularisation of porcine heart valve. Methods. Our method of decellularization permits to make morphologically and physically non-modified decellularised extracellular matrix. Results. The analysis of matrix shows a decrease of the total number of cells, preservation of the collagen and elastin fibers structure, and safety of physiological adhesion. Conclusions. The matrix can be used as a framework for the vessel-valvular tissue-engineering prosthesis after its recellularization by the recipient's autologous cells.

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Biotechnological Conditions of Valve Prostheses Creating by Tissue Engineering Method

Попандопуло¹,

Savchuk²,

Yudickiy³

2015

Biotechnol. acta

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Nowadays, definitive treatment for the end-stage organ failure is transplantation. Tissue engineering is an up to date solution to create the effective substitute of the defective organ. It involves the reconstitution of viable tissue with the use of autologous cells grown on connective tissue matrix, which has been acellularized before. Basis for the prothesis should be morphologically and physically nonmodified, so in case of making vessel-valvular biological prosthesises the decellularized extracellular matrix is the best variant. The xenogeneic extracellular matrix is economically and ethically more useful. The possibility of preservation of the morphological and chemical properties of matrix structure initiates the process of programmed cell death. In contrast to necrosis, which is a form of traumatic cell death that results from acute cellular injury, apoptosis doesn't cause the tissue damages. One of the ways of realizing the apoptosis is the usage of EDTA-chelate, which binds the Ca 2+ ions.

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Change in strain-strength indices of extracellular matrix after its decellularization

Попандопуло¹,

Savchuk²,

Yuditsky³

2014

Probl Cryobiol Cryomed

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Ткане-инженерные графты клапанов являются современным решением медицинской проблемы протезирования и способны стать полноценной заменой механическим клапанным протезам. Такие протезы основаны на использовании децеллюляризированного соединительнотканного матрикса. Целью данной работы было получение экстрацеллюлярного матрикса, близкого к нативному по морфологическим и физическим свойствам, после децеллюляризации для создания клапанно-сосудистого биологического графта. Физические и механические качества матрикса анализировали с помощью специального оборудования, способного имитировать кровяное давление в сосуде. Результаты исследований показали, что упругость и эластичность ткани сохранены и, следовательно, матрикс может быть использован в качестве каркаса для протеза. Ключевые слова: тканевая инженерия, графт, децеллюляризация, экстрацеллюлярный матрикс, прочность. Реферат: Тканинно-інженерні графти клапанів є сучасним рішенням медичної проблеми та здатні замінити механічні клапанні протези. Такі протези ґрунтуються на використанні децелюляризованого матриксу сполучної тканини. Метою даної роботи було отримання екстрацелюлярного матриксу, близького до нативного за морфологічними та фізичними якостями, для створення клапанно-судинного біологічного графту. Фізичні та механічні властивості аналізували за допомогою спеціального обладнання, яке здатне імітувати кров'яний тиск у судині. Результати дослідження показали, що пружність та еластичність тканини збережено й, таким чином, матрикс може бути використано у якості каркасу для протезу.

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Creation of 3D graft of cornea surface layers

Kavelina¹,

Попандопуло²,

Prokopyuk

et al. 2015

Probl Cryobiol Cryomed

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Marina V. Savchuk

Tissue engineering of vascular/valvular equivalents on the base of the xenogeneic decellularized matrix

Biotechnological Conditions of Valve Prostheses Creating by Tissue Engineering Method

Change in strain-strength indices of extracellular matrix after its decellularization

Creation of 3D graft of cornea surface layers

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