|
|
Effect of 3D printing technology on the properties of model femur segment
Nečas, Aleš ; Svatík, Juraj (referee) ; Jančář, Josef (advisor)
This bachelor thesis deals with the development of a biodegradable 3D anatomical model of the femur segment and the influence of 3D printing technology on tensile strength and tensile modulus of elasticity of 3D standardized tensile test bodies (ASTM_D_638_IV) made from PLA, nylon, acrylonitrile butadiene styrene (ABS), acrylonitrile styrene acrylate (ASA), polymethyl methacrylate (PMMA), polyethylene terephthalate glycol (PETG), and resin. For each material, bodies with body thickness of 1 mm, 2 mm, and 3 mm were 3D printed. Next, a PLA simplified femur segment model was created to determine the most suitable layer thickness for body printing in terms of its compressive strength and compressive modulus of elasticity. The thickness of the printed layer of 0.1 mm was chosen as the mechanically most suitable and was subsequently used in the production of a PLA anatomical model of the femur segment which was 3D printed in 3 variants differing in the density of the filling of the internal structures in the area of compact and cancellous bone tissue of real bone. Then, the compressive strength of these models was determined and compared. The PLA anatomical model of the femur segment was developed according to CT images of real bone with the purpose of its potential use in medicine as a bone tissue replacement in large femoral defects. However, before it can be used in medicine, further research is needed.
|
|
|
Use of biological materials for tissue substitution in plastic surgery
Měšťák, Ondřej ; Sukop, Andrej (advisor) ; Brychta, Pavel (referee) ; Dražan, Luboš (referee)
Užití biologických materiálů k náhradě tkání v plastické chirurgii ! Abstrakt v angličtině Background: Biological meshes are biomaterials consisted of extracellular matrix and used in surgery particularly for hernia treatment or thoracic wall reconstruction. They are capable of vascularization, that decreases risk of infection, expecially when used in contaminated fields. This study compared the strength of incorporation and biocompatibility of two porcine-derived grafts (cross-linked and non-cross-linked) in a rat hernia model. In addition, we hypothesized that combination of extracellular matrices with autologous mesenchymal stem cells used for hernia repair would result in increased vascularization and increased strength of incorporation. Methods: Standardized 2 x 4 cm fascial defect was created in 42 Wistar rats and repaired with a cross-linked or a non-cross-linked graft either enriched or non-enriched with stem cells. The rats were sacrificed 3, 6 and 12 months later. The strength of incorporation, vascularization, cellular invasion, foreign body reaction and capsule formation were evaluated. Results: Comparison of stem cell enriched and non-enriched groups showed no significant differences in the capsule thickness, foreign body reaction, cellularization or vascularization. In the non-cross-linked...
|
|
|
Multipotent mesenchymal stromal cells in orthopedic: Potentiation of bone healing
Stehlík, David ; Trč, Tomáš (advisor) ; Janíček, Pavel (referee) ; Sedmera, David (referee)
The aim of the thesis was development of an innovative treatment of bone defects. Human multipotent mesenchymal stromal cells (MSC) play a crucial role in bone healing. Clinical applications of MSC require large amount of cells, which could be obtained by autologous expansion of MSC harvested from bone marrow. As a first step, the standard protocol of MSC expansion based on αMEM medium and fetal bovine serum (FBS) was used. Experiments replacing FBS by pooled human serum (HS) in the culture medium concluded in patenting of a new MSC cultivation protocol (EU 1999250, CR 301141). This one-step cultivation protocol and xenogeneic protein-free cultivation medium is based on CellGro® for Hematopoietic Cells' Medium, HS, human recombinant growth factors, dexamethasone, insulin and ascorbic acid. The preclinical in vitro and in vivo experiments with MSC from both expansion protocols were carried out. Fibrillar polylactic scaffolds were seeded with MSC, cultured, differentiated and implanted in immunodeficient mice (NOD/LtSz-Rag1-). Bone-like mineralized tissue containing vessels was observed. The MSC cultured according to patented method were classified as Advanced-therapy Medicinal Product and has to fulfil the European Medicines Agency regulations to enter the clinical trials. Nevertheless the use of MSC seems...
|
|
|
Histomorphological Changes in Normal and Pathological Cartilage Tissues and after their Experimental and Clinical Transplantation
Kaňa, Radim ; Nečas, Emanuel (advisor) ; Slípka, Jaroslav (referee) ; Ludvíková, Marie (referee)
1 Abstract Introduction Autologous transplants of the cartilage tissue from the pinna is commonly used in reconstructive surgery of the nasal skeleton. The present study used animal models to elucidate responses of the auricular cartilage to its damage or transplantation to ectopic sites. Histomorphological analysis of changes observed in auricular cartilage including immunohistochemical study of different isoforms of actin and S-100 proteins was performed. Human articular cartilage prepared by in vitro cultivation using artificial scaffolds was also studied after its transplantation. Aims of the study The aim was to study histological changes and expression of chondrocytic markers (α- SMA and S-100 proteins) in intact, artificially traumatised, or in a human auricular cartilage cultivated in culture medium. An attempt to grow human auricular cartilage chondrocytes implanted in vitro into various types of three dimensional scaffolds aimed at testing chondrocyte survival and phenotype both in the culture and after transplantation to immunodeficient mice. A human auricular cartilage transplanted into the nasal skeleton of patients during a reconstruction surgery should be submitted to a histomorphological examination. Research assumed also comparison of the auricular cartilage responses to a damage,...
|
|
|
Preparation and characterization of nanostructured resorbable substitutes for accelerated skin healing
Kacvinská, Katarína ; Muchová, Johana (referee) ; Vojtová, Lucy (advisor)
Spolu s narastajúcimi nárokmi na kvalitu liečby v oblasti popálenin a plastickej chirurgie existuje možnosť ako uplatniť nové technologické riešenie na liečbu porúch s celkovou stratou kožnej vrstvy. Diplomová práca sa zaoberá prípravou nanoštrukturovaného, dvojvrstvového skafoldu pre využitie v tkánivovom inžinierstve, ktorý nahrádza kožnú časť dermis (dolná porézna vrstva) a bazálnu membránu (horná a tenká nanovlákenná vrstva). Zákaldom dolnej pórovitej vrstvy je kolagén, charakterizovaný v prítomnosti ďalších polysacharidových aditív: chitosan, vápenatá soľ oxidovanej celulózy (CaOC), sodná soľ karboxymetylcelulózy (NaCMC). Zároveň prídavok dopamínu a fibroblastového rastového faktoru (FGF), s cieľom zlepšiť biomechanické vlastnosti, regulovať a podporovať hojenie kože. Tenká nanovlákenná vrstva je zložená zo želatíny, polycaprolaktónu (PCL) a CaOC. Sú navrhnuté dva rôzne mechnizmy prípravy skafoldu, ktoré sa odlišujú sa v prítomnosti sieťovaných a nesieťovaných nanovláken. Skafoldy boli charakterizované z hľadiska biomechanických, štruktúrnych vlastností a in vitro. Vrchná nanovlákenná vrstva poskytuje mechanickú podporu, ktorá je výrazne zvýšená prítomnosťou polydopamínu (PDA). Test botnania poréznej vrstvy skafoldu ukázal na dostatočne veľké póry, umožňujúce filtráciu buniek. Táto botnatosť bola znížená v prítomnosti PDA, ktorý má zároveň významný vplyv na časové predĺženie degrádácie v prítomnosti kolagenázy a lyzozýmu. Spolu s FGF výrazne podporil proliferizáciu a životaschopnosť myších fibroblastov. Nanoštrukturovaný, dvojvrstvový skafold má potenciál pre budúce aplikácie pri hojení rán, kedže sa vyznačuje dobrými mechanickými vlastnosťami a umožňuje bunkám adherovať, proliferovať a formovať extra celulárny matrix.
|
|
|
Effect of bioceramic additives on morphology, physical and biological properties of collagen scaffolds for bone tissue engineering
Klieštiková, Nikola ; Poláček, Petr (referee) ; Brtníková, Jana (advisor)
Diplomová práce se zabývá přípravou trojrozměrných porézních kolagenových kompozitních nosičů pro tkáňové inženýrství kostí a studiem vlivu přídavku biokeramických částic na morfologické, biomechanické a biologické vlastnosti. Teoretická část popisuje biomateriály a biokeramické částice používané pro nosiče v tkáňové inženýrství kostí a jejich metody výroby. Pokud jde o experimentální část, byly vzorky připraveny metodou lyofilizace. Testovaným materiálem byl kolagen typu I z prasečího a hovězího zdroje, který byl kombinován s hydroxyapatitem a směsí -fosforečnanu vápenatého s -fosforečnanem vápenatým v poměrech 1 : 1, 1 : 2 a 2 : 1. Byl hodnocen vliv rozpustnosti a velikosti částic na morfologii, mechaniku a biokompatibilitu nosičů. Přidání biokeramických částic změnilo morfologii vzorků. Velikost pórů se snížila, zatímco pórovitost byla ve všech testovaných vzorcích téměř stejná. Biokeramické částice také způsobily, že kolagenová matrice nosičů byla méně hydrofilní, a navíc dokázaly stabilizovat nosiče proti působení enzymatické degradace. Biomechanické vlastnosti vzorků byly testovány v suchém i mokrém stavu. V suchém stavu dosáhl nejvyšší pevnosti v tlaku čistý bovinní kolagenový nosič, naopak v hydratovaném stavu, dosáhly nejvyšší hodnoty vzorky obsahující biokeramické částice. Žádný ze vzorků nebyl cytotoxický a nejvhodnější prostředí pro buněčnou adhezi a proliferaci bylo v čistém bovinním kolagenovém nosiči a také v kolagenovém kompozitním nosiči s poměrem HAp : -TCP : 1 : 1.
|
|
|
Modulation of interactions between interleukins and their receptors
Nepokojová, Tereza ; Schneider, Bohdan (advisor) ; Obšilová, Veronika (referee)
Scaffolds are proteins with high conformational stability, allowing us to implement multiple mutations into specific parts of the protein. Even with these mutations, the structural integrity of the protein is maintained as well as its physical-chemical properties. These mutations give the specific scaffold new properties. In most cases it is the binding specificity towards previously chosen target. The biggest advantages of scaffolds are their small size, stability, low-cost manufacturing, and easiness of preparation. Scaffold utilized in this thesis is unique for having two binging surfaces designed on which it can be mutated. Each of those two surfaces can be separately mutated to develop a binging site for two different proteins. In our case these mutations led to binding two nonidentical receptors of a human cytokine. Mutations are made with a use of yeast display, one of the methods of directed evolution. The main focus of this thesis is changing an expression system of the binding proteins from the yeast system to a bacterial one, their production and purification followed by characterization of those binding proteins using biophysical methods. These methods were used to evaluate structural and thermal stability, and binding affinity to both receptors of the beforementioned binding proteins....
|
|
|
Multipotent mesenchymal stromal cells in orthopedic: Potentiation of bone healing
Stehlík, David ; Trč, Tomáš (advisor) ; Janíček, Pavel (referee) ; Sedmera, David (referee)
The aim of the thesis was development of an innovative treatment of bone defects. Human multipotent mesenchymal stromal cells (MSC) play a crucial role in bone healing. Clinical applications of MSC require large amount of cells, which could be obtained by autologous expansion of MSC harvested from bone marrow. As a first step, the standard protocol of MSC expansion based on αMEM medium and fetal bovine serum (FBS) was used. Experiments replacing FBS by pooled human serum (HS) in the culture medium concluded in patenting of a new MSC cultivation protocol (EU 1999250, CR 301141). This one-step cultivation protocol and xenogeneic protein-free cultivation medium is based on CellGro® for Hematopoietic Cells' Medium, HS, human recombinant growth factors, dexamethasone, insulin and ascorbic acid. The preclinical in vitro and in vivo experiments with MSC from both expansion protocols were carried out. Fibrillar polylactic scaffolds were seeded with MSC, cultured, differentiated and implanted in immunodeficient mice (NOD/LtSz-Rag1-). Bone-like mineralized tissue containing vessels was observed. The MSC cultured according to patented method were classified as Advanced-therapy Medicinal Product and has to fulfil the European Medicines Agency regulations to enter the clinical trials. Nevertheless the use of MSC seems...
|
|
|
Analysis of structural changes of nanofiber scaffolds in relation with their relative extension
Morávek, Martin ; Lopot, František (advisor) ; Hadraba, Daniel (referee)
The goal of this thesis was to find a suitable method for evaluating structural changes of scaffolds as influenced by external mechanical pressure and to verify the validity of hypothesis which assumes a change of directionality of fibers and also thinning of fibers according to the stretching of a scaffold. Assumptions formulated in these three hypothesis were tested on a scaffold with a plasma surface treatment and without any plasma surface treatment. To examine structural changes an electrone microscope was used to observe the surface of scaffolds. Incurred photos were then processed with the help of automatic software picture analysis and observed data were statisticly evaluated. The result of this experiment is a description of used method which can be used in future for larger studies. It was found that by the effect of external mechanical pressure fibers of examinated scaffolds turn in the direction of the pull. It has also been found that the average thickness of fibers didn't change. Results of this work give insight into the evaluation of structural changes of scaffolds when pressured by an external mechanical power and open possibilities for deeper and more exact research in this field. Key words: scaffold, picture analysis, fiber directionality, fiber thickness.
|
|
|
Scaffold hopping-based exploration of chemical space
Mikeš, Marek ; Hoksza, David (advisor) ; Krivák, Radoslav (referee)
This work is based on the Molpher SW project, which is client-server application aiding exploration of chemical space between two input molecules. Aim of master thesis was modify the current version of program to manage scaffold hopping technique. This technique represents molecule in a simplified way. The simpler molecule is called scaffold. First of all there was need to define seve- ral levels of granularity and for each level define morphing operators. Server was modified with respect for parallelization. Experimental exploration of chemical space with and without the new feature is part of this work too. Powered by TCPDF (www.tcpdf.org)
|
guest ::
