Adaptive fabrication of biofunctional decellularized extracellular matrix niche towards complex engineered tissues

Li, Zhaoying

January 2017

Recreating organ-specific microenvironments of the extracellular matrix (ECM) in vitro has been an ongoing challenge in biofabrication. In this study, I present a biofunctional ECM-mimicking protein scaffold with tunable biochemical, mechanical and topographical properties. This scaffold, formed by microfibres, displays three favorable characteristics as a cell culture platform: high-loading of key ECM proteins, single-layered mesh membrane with controllable mesh size, and flexibility for supporting a range of cell culture configurations. Decellularized extracellular matrix (dECM) powder was used to fabricate this protein scaffold, as a close replicate of the chemical composition of physiological ECM. The highest dECM concentration in the solidified protein scaffold was 50 wt%, with gelatin consisting the rest. In practice, a high density of dECM-laden nano- to microfibres was directly patterned on a variety of substrates to form a single layer of mesh membrane, using the low-voltage electrospinning patterning (LEP) method. The smallest fibre diameter was measured at 450 nm, the smallest mesh size of the membrane was below 1 μm, and the thickness of the membrane was estimated to be less than 2 μm. This fabrication method demonstrated a good preservation of the key ECM proteins and growth factors, including collagen IV, laminin, fibronectin, VEGF and b-FGF. The integrated fibrous mesh exhibited robust mechanical properties, with tunable fibril Young’s modulus for over two orders of magnitude in the physiological range (depending on the dECM concentration). Combining this mesh membrane with 3D printing, a cell culture device was constructed. Co-culture of human glomerulus endothelial cells and podocytes was performed on this device, to simulate the blood-to-urine interface in vitro. Good cell attachment and viability were demonstrated, and specific cell differentiation and fibronectin secretion were observed. This dECM-laden protein scaffold sees the potential to be incorporated into a glomerulus-on-chip model, to further improve the physiological relevance of in vitro pathological models.

Células-tronco mesenquimais e plasma rico em plaquetas em cardiomiopatia dilatada não isquêmica induzida com doxorrubicina em coelhos Nova Zelândia

Mörschbächer, Priscilla Domingues

January 2012

A insuficiência cardíaca é a doença crônica com maior impacto na sobrevida e qualidade de vida dos pacientes. Apesar do constante desenvolvimento de novas estratégias de tratamento, esta doença continua atingindo altos índices de mortalidade. O coração adulto tem capacidade de regeneração limitada e há grande evidência experimental de que os transplantes de células-tronco poderiam ser uma abordagem eficiente na recuperação do miocárdio lesado. Contudo, a maioria dos estudos são realizados em cardiomiopatias isquêmicas, existindo poucos estudos na cardiomiopatia dilatada (CMD). Em função disto, este trabalho foi realizado com o objetivo de avaliar a regeneração do miocárdio em coelhos com CMD induzida pela doxorrubicina, por meio do uso de células-tronco mesenquimais (MSC) obtidas de tecido adiposo, associadas ou não com plasma rico em plaquetas (PRP). Foram utilizadas 40 coelhas, Nova Zelândia, e um coelho macho doador das MSCs derivadas do tecido adiposo. As coelhas foram divididas em dois grupos: CMD induzida pela doxorrubicina e o grupo saudável. Cada grupo foi subdividido conforme o tratamento recebido: solução fisiológica, MCSs, PRP e MSCs associadas ao PRP. Os subgrupos receberam o tratamento por injeção diretamente no miocárdio no ventrículo esquerdo mediante toracoscopia vídeo assistida. Os coelhos foram avaliados por exames de ecocardiograma, eletrocardiograma, troponina I, no dia da chegada, após a indução da CMD e 15 dias após o recebimento das terapias. Nesta última avaliação, foi realizada a eutanásia e coletado o coração para análise histológica. Foi observado que após a indução, a troponina I se elevou, o segmento QRS visto no eletrocardiograma, aumentou e, no ecocardiograma, as frações de ejeção (FE) e encurtamento (FS) diminuíram e o diâmetro sistólico do ventrículo esquerdo (VEs) aumentou, em todos os animais avaliados. Após os tratamentos, o subgrupo MSCs obtiveram os melhores resultados em todas as análises citadas. Houve menor elevação da troponina I, o segmento QRS diminuiu, as FS e FE aumentaram e o VEs diminuiu. No exame histopatógico, analisado pela coloração de hematoxicilina-eosina, constatou-se que o subgrupo MSCs apresentou menos lesões, e nos subgrupos MSCs associadas com PRP, solução fisiológica e PRP as lesões aumentaram gradualmente, respectivamente. Os resultados sugerem que o uso das MSCs melhoraram a função cardíaca em coelhos com cardiomiopatia dilatada e que há necessidade de mais estudos no uso de PRP no miocárdio. / Heart failure is a chronic disease with major impact on survival and quality of patient’s life. Despite the constant development of new treatment strategies, this disease still affects high mortality rates. The adult heart has limited ability to regenerate and there is experimental evidence that large transplants of stem cells could be an effective approach in the recovery of injured myocardium. However, most studies are performed in ischemic cardiomyopathy, there are few studies in dilated cardiomyopathy. Because of this, this study aimed at evaluating the regeneration of the myocardium in rabbits with dilated cardiomyopathy induced by doxorubicin through the use of mesenchymal stem cell (MSC) derived from adipose tissue, associated or not with platelet-rich plasma (PRP). 40 New Zealand rabbits were utilized and a male rabbit donor MSCs derived from adipose tissue. The rabbits were divided into two groups: dilated cardiomyopathy doxorubicin-induced and the healthy group. Each group was divided according to treatment received: saline, MSCs, PRP and MSCs associated with PRP. The subgroups receiving treatment through an injection directly into the myocardium of the left ventricle through video-assisted thoracoscopy. The rabbits were evaluated by echocardiogram, electrocardiogram, troponin I, on the day of arrival, after induction of dilated cardiomyopathy and 15 days after receipt of therapies. This last evaluation, euthanasia was performed and the hearts collected for histological analysis. It was observed that after induction the troponin I increased, the QRS segment, seen on the electrocardiogram, increased, and, in echocardiography, the ejection and shortening fractions decreased, and left ventricular systolic diameter increased in all animals evaluated. After treatments, the subgroup MSCs have the best results in all tests cited. There was a lower elevation of troponin I, decreased QRS segment, the ejection and shortening fractions increased and left ventricular systolic diameter decreased. On examination histologic, analyzed by hematoxylin-eosin staining, the subgroup found that MSCs had fewer injuries, and in the subgroups MSCs associated with PRP, PRP and saline lesions gradually increased, respectively. The results suggest that the use of MSCs improved cardiac function in rabbits with dilated cardiomyopathy and that there is need for more studies on the use of PRP in the myocardium.

Coelhos : Cirurgia veterinaria

Cardiomiopatia dilatada

Eletrocardiograma

Terapia celular

Cardiology

Cell therapy

Troponin I

Echocardiography

Electrocardiogram

Scaffold

Development of an ECM-mimetic, Electrospun Hydrogel Scaffold for Soft Tissue Repair Application

January 2014

abstract: The objective of this research is to develop a biocompatible scaffold based on dextran and poly acrylic acid (PAA) with the potential to be used for soft tissue repair. In this thesis, physical and chemical properties of the scaffold were investigated. The scaffolds were made using electrospinning and cross-linked under high temperature. After heat treatment, Scanning Electron Microscope (SEM) was used to observe the structures of these scaffolds. Fourier transform infrared spectroscopy (FTIR) was used to measure the cross-linking level of scaffold samples given different times of heat treatment by detecting and comparing the newly formed ester bonds. Single-walled carbon nanotubes (SWCNT) were added to enhance the mechanical properties of dextran-PAA scaffolds. Attachment of NIH-3T3 fibroblast cells to the scaffold and the response upon implantation into rabbit vaginal tissue were also evaluated to investigate the performance of SWCNT dextran-PAA scaffold. SEM was then used to characterize morphology of fibroblast cells and rabbit tissues. The results suggest that SWCNT could enhance cell attachment, distribution and spreading performance of dextran-PAA scaffold. / Dissertation/Thesis / Masters Thesis Bioengineering 2014

Biomedical engineering

Medicine

Materials Science

Carbon Nanotubes

ECM

Electrospinning

Pelvic Organ Prolapse

Scaffold

Soft Tissue

Células-tronco mesenquimais e plasma rico em plaquetas em cardiomiopatia dilatada não isquêmica induzida com doxorrubicina em coelhos Nova Zelândia

Mörschbächer, Priscilla Domingues

January 2012

A insuficiência cardíaca é a doença crônica com maior impacto na sobrevida e qualidade de vida dos pacientes. Apesar do constante desenvolvimento de novas estratégias de tratamento, esta doença continua atingindo altos índices de mortalidade. O coração adulto tem capacidade de regeneração limitada e há grande evidência experimental de que os transplantes de células-tronco poderiam ser uma abordagem eficiente na recuperação do miocárdio lesado. Contudo, a maioria dos estudos são realizados em cardiomiopatias isquêmicas, existindo poucos estudos na cardiomiopatia dilatada (CMD). Em função disto, este trabalho foi realizado com o objetivo de avaliar a regeneração do miocárdio em coelhos com CMD induzida pela doxorrubicina, por meio do uso de células-tronco mesenquimais (MSC) obtidas de tecido adiposo, associadas ou não com plasma rico em plaquetas (PRP). Foram utilizadas 40 coelhas, Nova Zelândia, e um coelho macho doador das MSCs derivadas do tecido adiposo. As coelhas foram divididas em dois grupos: CMD induzida pela doxorrubicina e o grupo saudável. Cada grupo foi subdividido conforme o tratamento recebido: solução fisiológica, MCSs, PRP e MSCs associadas ao PRP. Os subgrupos receberam o tratamento por injeção diretamente no miocárdio no ventrículo esquerdo mediante toracoscopia vídeo assistida. Os coelhos foram avaliados por exames de ecocardiograma, eletrocardiograma, troponina I, no dia da chegada, após a indução da CMD e 15 dias após o recebimento das terapias. Nesta última avaliação, foi realizada a eutanásia e coletado o coração para análise histológica. Foi observado que após a indução, a troponina I se elevou, o segmento QRS visto no eletrocardiograma, aumentou e, no ecocardiograma, as frações de ejeção (FE) e encurtamento (FS) diminuíram e o diâmetro sistólico do ventrículo esquerdo (VEs) aumentou, em todos os animais avaliados. Após os tratamentos, o subgrupo MSCs obtiveram os melhores resultados em todas as análises citadas. Houve menor elevação da troponina I, o segmento QRS diminuiu, as FS e FE aumentaram e o VEs diminuiu. No exame histopatógico, analisado pela coloração de hematoxicilina-eosina, constatou-se que o subgrupo MSCs apresentou menos lesões, e nos subgrupos MSCs associadas com PRP, solução fisiológica e PRP as lesões aumentaram gradualmente, respectivamente. Os resultados sugerem que o uso das MSCs melhoraram a função cardíaca em coelhos com cardiomiopatia dilatada e que há necessidade de mais estudos no uso de PRP no miocárdio. / Heart failure is a chronic disease with major impact on survival and quality of patient’s life. Despite the constant development of new treatment strategies, this disease still affects high mortality rates. The adult heart has limited ability to regenerate and there is experimental evidence that large transplants of stem cells could be an effective approach in the recovery of injured myocardium. However, most studies are performed in ischemic cardiomyopathy, there are few studies in dilated cardiomyopathy. Because of this, this study aimed at evaluating the regeneration of the myocardium in rabbits with dilated cardiomyopathy induced by doxorubicin through the use of mesenchymal stem cell (MSC) derived from adipose tissue, associated or not with platelet-rich plasma (PRP). 40 New Zealand rabbits were utilized and a male rabbit donor MSCs derived from adipose tissue. The rabbits were divided into two groups: dilated cardiomyopathy doxorubicin-induced and the healthy group. Each group was divided according to treatment received: saline, MSCs, PRP and MSCs associated with PRP. The subgroups receiving treatment through an injection directly into the myocardium of the left ventricle through video-assisted thoracoscopy. The rabbits were evaluated by echocardiogram, electrocardiogram, troponin I, on the day of arrival, after induction of dilated cardiomyopathy and 15 days after receipt of therapies. This last evaluation, euthanasia was performed and the hearts collected for histological analysis. It was observed that after induction the troponin I increased, the QRS segment, seen on the electrocardiogram, increased, and, in echocardiography, the ejection and shortening fractions decreased, and left ventricular systolic diameter increased in all animals evaluated. After treatments, the subgroup MSCs have the best results in all tests cited. There was a lower elevation of troponin I, decreased QRS segment, the ejection and shortening fractions increased and left ventricular systolic diameter decreased. On examination histologic, analyzed by hematoxylin-eosin staining, the subgroup found that MSCs had fewer injuries, and in the subgroups MSCs associated with PRP, PRP and saline lesions gradually increased, respectively. The results suggest that the use of MSCs improved cardiac function in rabbits with dilated cardiomyopathy and that there is need for more studies on the use of PRP in the myocardium.

Coelhos : Cirurgia veterinaria

Cardiomiopatia dilatada

Eletrocardiograma

Terapia celular

Cardiology

Cell therapy

Troponin I

Echocardiography

Electrocardiogram

Scaffold

Modélisation biomécanique et étude de la fonctionnalisation d’un implant personnalisé de reconstruction mandibulaire en titane poreux / Biomechanical modelization and fonctionalization analysis of a patient-specific porous titanium implant for mandibular reconstruction

Schouman, Thomas

15 December 2016

Plusieurs études rapportent l’intérêt de structures poreuses synthétiques reproduisant la micro-architecture osseuse pour obtenir une régénération des pertes de substance osseuses. La fusion laser sélective de titane permet de fabriquer des implants poreux aux propriétés mécaniques très proches de celles de l’os et au potentiel d’ostéointégration élevé. Néanmoins, la recolonisation osseuse des pores de ces implants peut être limitée par leurs propriétés élastiques que nous considérons surdimensionnées. Nous avons mis au point une étude expérimentale chez la brebis afin d’évaluer l’influence des propriétés élastiques de ces implants, utilisés dans des pertes de substance mandibulaires, sur leur recolonisation osseuse. Des implants poreux et contrôles permettant une reprise intégrale de la sollicitation mécanique ont été développés. Deux groupes de six brebis ont été équipés d’implants poreux et d’implants contrôles controlatéraux de raideur variable. La régénération osseuse au sein des implants a été évaluée par caractérisation mécanique des interfaces os–implant et par la mesure du volume osseux néoformé à partir d’acquisitions micro-CT. Les implants poreux ont permis une meilleure régénération osseuse que les implants contrôles. Les implants poreux à la raideur la plus basse ont montré une régénération osseuse significativement plus élevée que les autres implants poreux. Un modèle en éléments finis a été développé afin d’optimiser la fixation des implants et la transmission des contraintes aux interfaces os-implant. / Several articles report on the regeneration of bone defects using synthetic porous structures mimicking bone micro-architecture. Porous implants exhibiting mechanical properties close to that of bone tissue with enhanced osseointegration ability can be manufactured by means of selective laser melting of titanium. However, bone growth into the pores of such implant could be limited due to oversized elastic properties. We implemented an experimental study with ewes to assess the influence of the overall stiffness of these implants on bone ingrowth in critical-size mandibular defects. Fully load-bearing porous and control implants of varying overall stiffness were developed and implanted in two groups of six ewes. Bone ingrowth was assessed by mechanical characterization of bone-implant interfaces and by the measurement of the newly formed bone volume using micro-CT imaging. Higher bone ingrowth was identified in porous implants compared to control implants. Low-stiffness porous implants exhibited significantly higher bone ingrowth as compared to porous implants with stiffness closer to that of the missing bone. A finite elements model was developed to improve bone fixation of the implant and load transfer through the bone-implant interfaces.

Substituts osseux

Implant poreux

Ingénierie tissulaire

Bone subtitute

Porous titanium scaffold

Bone tissue engineering

The Use of Synthetic Mixture Based Libraries to Identify Hit Compounds for ESKAPE Pathogens, Leishmaniasis, and Inhibitors of Palmitoylation

Giulianotti, Marcello

06 April 2016

The goal of this work is to demonstrate the utility of using systematically formatted mixture based libraries as part of the drug discovery processes. While there are a number of different valid approaches for identifying hit and tool compounds, systematically formatted mixture based libraries, such as those described in this study, offer the ability to develop a significant amount of structure activity relationship data from the testing of very few samples. In support of this claim a review of recent developments in the area of systematically formatted mixture based libraries as well as three case studies are presented. The three case studies provide the detailed approach and results obtained from using systematically formatted mixture based libraries in programs focused on identifying broad spectrum antibiotics, therapeutics to treat leishmaniasis, and inhibitors of palmitoylation. In each of these three cases approximately 200 samples were utilized to survey millions of compounds in order to develop a series of hit and tool compounds as well as significant structure-activity relationship (SAR) data around the compounds identified. This information will be utilized in future studies to potentially uncover novel mechanisms of action for treating infections and diseases as well as developing therapeutics to treat the patients affect by them. So while systematically formatted mixture based libraries are not the only option for identifying hit or tool compounds they do provide a very efficient method that can be adapted to a variety of assay formats and therefor should be considered when conducting a screening campaign.

Positional Scanning Libraries

Scaffold Ranking

Structure Activity Relationship

Tool Compounds

Chemistry

Multivalent Carbohydrates : Synthesis And Studies Of Cluster Glycosides On Photoswitchable And Dendritic Scaffolds

Srinivas, Oruganti

07 1900

No description available.

Carbohydrates

Glycosides

Scaffolds

Multivalent Glycoclusters

Multivalent Carbohydrates

Azobenzene Scaffold

Cluster Glycosldes

Multivalent Sugar Ligands

Organic Chemistry

Characterization of a Degradable Polar Hydrophobic Ionic Polyurethane Using a Monocyte/Endothelial Cell Co-culture (in vitro) and a Subcutaneous Implant Mouse Model (in vivo)

McDonald, Sarah M.

January 2011

A degradable/polar/hydrophobic/ionic (D-PHI) polyurethane with properties intended to promote tissue regeneration in a small diameter peripheral artery vascular graft was evaluated for cell biocompatibility and growth. Films were cast in polypropylene 96 well plates for monocyte/endothelial cell (EC) co-culture in vitro studies and porous scaffold discs were implanted in an in vivo subcutaneous mouse model. After 7 days in culture the co-culture demonstrated cell adhesion and growth, low esterase activity (a measure of degradative potential and cell activation), no detectable release of pro-inflammatory cytokine (tumour necrosis factor -α) but measurable anti-inflammatory interleukin (IL)-10. The EC and the co-culture expressed the EC biomarker CD31, whereas the monocyte monoculture did not. Cytokine array analysis of the in vivo characterization of D-PH supported an anti-inflammatory phenotype of cells at the site of the implant. Levels of IL-6 significantly decreased over time while IL-10 was significantly higher at 6 weeks post implant. TNF-α levels did not change significantly from 24 hours onwards, however the trend was towards lesser amounts following the initial time point. Histological analysis of the explanted scaffolds showed excellent tissue ingrowth and vascularization. A live/dead stain showed that the cells infiltrating the scaffolds were viable. Both the in vitro and in vivo results of this thesis indicate that D-PHI is a good candidate material for tissue engineering a peripheral artery vascular graft.

vascular graft

degradable polyurethane

endothelial cell

monocyte

macrophage

co-culture

scaffold implant

Evaluation of an Enhanced (Sialyl Lewis-X) Collagen Matrix for Neovascularization and Myogenesis in a Mouse Model of Myocardial Infarction

Sofrenovic, Tanja

January 2012

In cardiovascular disease the repair response is insufficient to restore blood flow, leading to the death of muscle and loss of tissue function. Therefore, strategies to augment the endogenous cell response and its effects may help improve tissue recovery and function. In this study we explored the use of tissue-engineered collagen matrices for augmenting endogenous regenerative processes after myocardial infarction. Treatment with the sLeX-collagen matrix reduced inflammation and apoptosis and had a positive regenerative effect on the infarcted mouse heart, through improved vascular density and possibly enhanced cardiomyogenesis. Additionally, we investigated the effects of cryopreservation on generating circulating angiogenic cells (CACs) from peripheral blood mononuclear cells (PBMCs), as a potential source of stem cells that could be used in combination with our collagen scaffold. Our findings show that despite PBMCs experiencing phenotypic changes after cryopreservation, they may still be used to generate the same therapeutic CACs as freshly procured PBMCs.

Myocardial Infarction

Collagen Scaffold

Vasculogenesis

Cryopreservation

Peripheral Blood Mononuclear Cells

Circulating Angiogenic Cells

The influence of rewording and gesture scaffolds on the ability of first graders with low language skill to solve arithmetic word problems

Samelson, Vicki Marie

01 May 2009

Purpose: This study examined the relationship between arithmetic word problem solving skill in first graders and 1) their oral language skill, 2) their nonverbal understanding of mathematical sets, and 3) rewording and gesture scaffolds designed to help the children access both the linguistic and the nonverbal content of Compare 6 word problems. Method: Two groups of first graders (15 with good oral language skill and 15 with low oral language skill) solved a matched set of verbal and nonverbal arithmetic problems, followed by three types of Compare word problems. Twenty first graders with low oral language skill (9 with low normal language (LN) and 11 with a diagnosis of language impairment (LI)) then solved orally-presented Compare 6 word problems under 4 scaffold conditions: 1) traditional wording, 2) traditional wording + gesture, 3) rewording, and 4) rewording + gesture. Results: Children with low oral language skill had greater difficulty solving orally-presented arithmetic word problems than their peers with good language skill, but performed comparably on a nonverbal arithmetic task. Using proportion of problems solved correctly, rewording Compare 6 word problems was facilitative for the LN group but not for the LI group. Changing the problem wording from a Compare 6 to a Compare 3, by using `more than' instead of `fewer than' and by eliminating pronoun anaphora, resulted in comparable performance to rewording that also included a rationale, optional verbs and placing the question first. The gesture scaffold was marginally significant for both groups. Conclusions: The LI group did not benefit from implicitly-presented rewording or gesture scaffolds; the LN group did benefit from the rewording scaffold. The gesture scaffold was marginally facilitative despite the finding that children with low oral language skill were able to access nonverbal information in a nonverbal arithmetic task. Empirical and anecdotal evidence suggested that, for a number of these children, rewording and gesture scaffolds altered their mental model of the word problem structure. This altered representation resulted in the use of different solution strategies. The new strategies, however, were not always correct. Implications for classroom intervention and suggestions for future research are discussed.

arithmetic word problems

gesture

language impairment

rewording

scaffold

Speech and Hearing Science