Detecção da microdeleção 7q11.23 por MLPA® e estudo clínico dos pacientes com síndrome de Williams-Beuren / Detection of the microdeletion 7q11.23 by MLPA® and clinical study of patients with Williams-Beuren syndrome

Honjo, Rachel Sayuri

30 May 2012

INTRODUÇÃO: A síndrome de Williams-Beuren (SWB) é uma doença genética causada por uma microdeleção na região 7q11.23 e caracterizada por dismorfismos faciais típicos, deficiência intelectual, comportamento hipersociável, cardiopatia congênita, principalmente a estenose aórtica supravalvar (EASV), e outras malformações variáveis. MÉTODOS: Foram avaliados 65 pacientes (40 do sexo masculino, 25 do sexo feminino), com idades entre 2 e 59 anos (mediana = 14 anos), com características clínicas sugestivas de SWB. Todos os pacientes eram filhos de pais normais. A técnica de Multiplex Ligation-dependent Probe Amplification® (MLPA®) foi usada com kit específico com sondas da região da SWB (MRC Holland). As sondas foram hibridadas ao DNA e os fragmentos ligados foram amplificados por PCR e analisados com software específico. RESULTADOS: A deleção de todas as sondas da região 7q11.23 testadas foi detectada por MLPA® em 55/65 pacientes. Um caso de deleção atípica, ou seja, menor que 1,5 Mb, foi observada em um paciente com quadro clínico parcial da síndrome. Os nove pacientes sem deleção tinham um diagnóstico clínico duvidoso da SWB. Dois pacientes tiveram MLPA® positivo para SWB embora apresentassem resultados de FISH negativos. Os achados clínicos dos pacientes com deleção típica foram: fácies típica (98,2%), atraso do desenvolvimento neuropsicomotor (98,2%), comportamento hipersociável (94,5%), hiperacusia (94,5%) e cardiopatia (81,8%). Dentre os pacientes com cardiopatia, 42,2% apresentavam EASV (isolada ou associada a outras anomalias cardíacas), 26,7% apresentavam estenose pulmonar e 31,1% apresentavam outras cardiopatias isoladas ou em associação. Outros achados dos pacientes com deleção foram: anormalidades geniturinárias (85,4%), escoliose (56,4%), baixa estatura (43,6%), hérnias inguinais e/ou umbilicais (36,4%), hipertensão arterial (36,4%, com 20% destes apresentando estenose de artérias renais), estrabismo (34,5%), microcefalia (30,9%), sinostose radioulnar (10,9%), hipotireoidismo (14,5%) e hipotireoidismo subclínico (7,3%). Hipercalcemia foi detectada em um paciente apenas. Outros dois pacientes apresentaram nefrocalcinose e um paciente apresentou hipercalciúria, com níveis de cálcio sérico normais. Três pacientes adolescentes foram a óbito por causas cardiovasculares, incluindo um caso de óbito após transplante cardíaco. CONCLUSÕES: A técnica de MLPA® foi eficaz na detecção da microdeleção na região 7q11.23 possibilitando a confirmação diagnóstica da SWB em 84,6% dos pacientes estudados. Além disso, foi possível detectar uma deleção menor atípica em um paciente com fenótipo parcial e confirmar o diagnóstico em dois pacientes com quadro clínico típico de SWB e resultados de FISH negativos. Portanto, o MLPA® constitui-se um método promissor na investigação diagnóstica da SWB. Por ser uma doença multissistêmica, a SWB exige cuidados multidisciplinares e acompanhamento específico a fim de se prevenir complicações / INTRODUCTION: Williams-Beuren syndrome (WBS) is a genetic disorder caused by a microdeletion in 7q11.23 region. It is characterized by typical facial dysmorphisms, mental retardation, hipersociable behavior, congenital heart disease, mainly supravalvular aortic stenosis (SVAS), and other variable congenital malformations. METHODS: 65 patients (40 males, 25 females), aged 2-59 years old (median = 14 years old), with clinical characteristics suggesting WBS, were evaluated. All patients had normal parents. Multiplex Ligation-dependent Probe Amplification® (MLPA®) was performed with a kit with probes in WBS region (MRC Holland). The probes were hybridized to the DNA and the ligated fragments were amplified by PCR and analyzed with specific software. RESULTS: The deletion for all tested probes in the 7q11.23 region was detected by MLPA® in 55/65 patients. One case of atypical deletion, smaller than 1.5 Mb, was observed in one patient with partial clinical picture of the syndrome. The nine patients without the deletion did not have a definitive clinical diagnosis of WBS. Two patients had positive MLPA® results even though they had negative FISH for WBS. The clinical characteristics of the patients with the typical deletion were: typical facies (98.2%), neuropsicomotor delay (98.2%), hypersociable behavior (94.5%), hyperacusis (94.5%) and congenital heart disease (81.8%). Among the patients with cardiac abnormalities, 42.2% had SVAS (isolated or not), 26.7% had pulmonary valve stenosis and 31.1% had other cardiac anomalies (isolated or grouped). Other findings in patients with deletion comprised: genitourinary abnormalities (85.4%), scoliosis (56.4%), short stature (43.6%), inguinal and/or umbilical hernias (36.4%), arterial hypertension (36.4%, with 20% of these presenting renal arteries stenosis), strabismus (34.5%), microcephaly (30.9%), radioulnar synostosis (10.9%), hypothyroidism (14.5%), and subclinical hypothyroidism (7.3%). Hypercalcaemia was detected in only one patient. Two other patients had nephrocalcinosis and one patient had hypercalciuria, with normal serum calcium levels. Three adolescents died due to cardiovascular problems, including one case that died after a cardiac transplantation. CONCLUSIONS: MLPA® was effective to detect the microdeletion in 7q11.23 region confirming the diagnosis of WBS in 84.6% of the patients. It was also possible to detect a small atypical deletion in one patient with partial phenotype and confirm the diagnosis in two patients with typical clinical characteristics of WBS and negative FISH results. Thus, MLPA® is a promising method in the diagnostic investigation of WBS. WBS is a multisystemic disorder and therefore requires multidisciplinary care and specific follow-up in order to prevent complications

Aortic stenosis supravalvular

Biologia molecular

Elastin

Elastina

Estenose aórtica supravalvular

Molecular Biology

Síndrome de Williams

Williams syndrome

Lipid membrane interaction with self-assembling cell-penetrating peptides / Interactions des membranes lipidiques avec des peptides pénétrateurs de cellules auto-assemblants

Walter, Vivien

12 September 2017

Les peptides pénétrateurs de cellule (CPP) sont des oligopeptides cationiques faisant parti des vecteurs les plus étudiés dans le cadre du développement du transport ciblé de médicament à l’intérieur de l’organisme. Les applications principales sont par exemple le traitement des cancers ou la thérapie génique. Néanmoins, certaines caractéristiques des CPPs rendent leur utilisation médicale compliquée, tels que leur manque de spécificité à l’égard des cellules cibles ou la perte de leurs propriétés pénétrantes lorsqu’un cargo moléculaire leur est greffé. L’une des solutions envisagées pour résoudre ces problèmes est le greffage sur des polypeptides di-blocs auto-assemblés basés sur de l’élastine (ELPBC), des systèmes développés par l’équipe d’Ashutosh Chilkoti à l’Université de Duke (USA). Des travaux précédents ont montré que ces macromolécules, que l’on appelle CPP-ELPBC, retrouvaient les propriétés pénétrantes du CPP même en présence d’un cargo et permettaient également d’induire une spécificité à l’encontre des cellules cancéreuses. En revanche, le mécanisme de pénétration de ces systèmes restait inconnu.Dans cette thèse, je me suis concentré sur l’étude du mécanisme de pénétration des CPP et des CPP-ELPBC au travers de membranes lipidiques modèles, et en particulier sur l’adsorption de ces molécules à la surface de vésicules unilamellaires géantes (GUV). Le développement d’une nouvelle méthode de quantification de la fluorescence en microscopie confocale m’a permis de réaliser des mesures simples de comptage de peptides à la surface des vésicules, ce qui m’a permis par la suite de procéder à des mesures thermodynamiques de l’adsorption des peptides. / Cell-penetrating peptides (CPP) are cationic oligopeptides currently investigated as potential vectors for targeted drug delivery design, for applications in cancer treatment and/or gene therapy. Nevertheless, some drawbacks make the CPP complex for medical applications, such as their lack of specificity toward target cells or the loss of their penetrating properties once they have been grafted with a molecular cargo. One of the solutions studied to overcome these issues is the binding of the CPP unit on a self-assembling elastin-like diblock polypeptide (ELPBC), a macromolecular system designed by the team of Ashutosh Chilkoti from Duke University (USA). While it has already been proven that these molecules, named CPP-ELPBC, recover the penetrating properties of the CPP despite the presence of a cargo and also induce a selectivity toward tumorous cells, the exact mechanism of translocation is still under debate.In this PhD thesis, I focused on the investigation of the translocation mechanism of the CPP and CPP-ELPBC using model lipid membranes, and specifically the adsorption of these molecules at the surface of giant unilamellar vesicles (GUV). The development of a new quantification method of fluorescence in confocal microscopy allowed me to directly count the peptides adsorbed on the surface of the GUVs, which I used to perform thermodynamic measurements on the peptide adsorption.

Lipides

Peptides pénétrateurs de cellules

Membranes modèles

Adsorption

Fluorescence

Microscopie confocale

Lipids

Cell-penetrating peptides

Model membranes

Adsorption

Fluorescence

Confocal microscopy

Elastin-like polypeptides

571.4

Biological Applications of Elastin- and Mussel-Inspired Polymers

Sydney E. Hollingshead (5929754)

03 January 2019

<div>Wounds are created in soft and hard tissue through surgery or disease. As the wound heals, the tissue is held in place using sutures or staples for soft tissue or plates, pins, or screws for hard tissues. These fixation methods inherently damage the surrounding healthy tissue. Surgical adhesives are a non-damaging alternative to these methods. In order to be effective, surgical adhesives must be biocompatible,</div><div>adhere strongly in a moist environment, and have mechanical properties similar to those of the native tissue.</div><div><br></div><div><div>To address the design criteria for surgical adhesives, we look to nature to find inspiration from compounds that provide these properties. Mussels use catechol-based</div><div>molecules to adhere to surfaces in wet and turbulent environments. Incorporating catechols into polymer systems can provide adhesion even in moist biological environments.</div><div>Mimics of elastomeric proteins from soft tissue can be used as backbones for soft and flexible adhesive systems. In particular, elastin-inspired proteins have a well-defined modular sequence that allows for a range of design choices. In this work, we explored the behavior of elastin- and mussel-inspired natural and synthetic polymers in biologically relevant environments.</div></div><div><br></div><div><div>First, the cytocompatibility of a catechol-containing poly(lactic acid) (cPLA) hard tissue adhesive was studied. The cPLA polymer was reacted with iron- or periodatebased</div><div>crosslinkers and compared to PLA. Fibroblasts grown directly on cPLA or cultured with leachate from cPLA had high viability but slower growth than cells on PLA. The periodate crosslinker was significantly cytotoxic, and cells grown on cPLA crosslinked with periodate had reduced metabolism and slowed growth. Cells grown on or in leachate from iron-crosslinked cPLA had similar viability, metabolism, and growth to cells on or in leachate from cPLA. The iron-crosslinked cPLA is a promising</div><div>cytocompatible adhesive for hard tissue applications.</div></div><div><br></div><div><div>Second, two elastin-like proteins (ELP) were developed that had pH-sensitive properties in solution and when crosslinked into hydrogels. Both ELPs had a large number of ionizable tyrosine and lysine residues, and one design also had a large number of ionizable histidine and aspartic acid residues. The stiffness of the hydrogels was maximized at pH values near the isoelectric point of the protein. The stoichometric ratio of crosslinker used affected hydrogel stiffness but did not significantly alter the pH-sensitivity of the gel. The crosslinked gel shrank when swelled at physiological pH. The pH-sensitive mechanical properties of hydrogels made from the two ELPs did not vary significantly. The tyrosine and lysine residues in one ELP were also</div><div>chemically blocked through acetylation to lower the isolectric point of the protein. The acetylated hydrogels had maximum stiffness at a pH near the isoelectric point of the acetylated ELP. The stiffness of both the native and acetylated gels were within the range of soft tissue. Through a combination of crosslinker ratio and chemical modification, the pH-responsive properties of the elastin-inspired hydrogels could be tuned.</div></div><div><br></div><div><div>Finally, adhesive proteins were created that were inspired by both elastin and mussels. An ELP was modified to include catechol groups (mELP). The ELP and mELP were optimized for adhesive use in a soft tissue system. A warm and humid environment was used to study the adhesion of these proteins on pig skin. Iron and (hydroxymethyl) phosphine crosslinkers increased the adhesive strength of both proteins, and periodate increased the adhesive strength of mELP. The adhesive strengths of the proteins were maximized when mELP was mixed with iron or when either protein were mixed with (hydroxymethyl)phosphine crosslinkers. These maximized adhesives were 12-17 times stronger than a commercially available sealant. In addition,</div><div>the iron and mELP adhesive formulation achieved high adhesive strengths even when cured for only ten minutes. This adhesive formula shows promise for adhesive</div><div>applications on soft tissue.</div></div>

Elastin-Like Polypeptide (ELP)

Mussel-Inspired Adhesion

L-3,4-dihydroxyphenylalanine (DOPA)

Surgical Adhesive

Hydrogel

pH-Sensitive

Smart materials.

Poly(Lactic Acid) (PLA)

Cytocompatibility

Estudo histomorfométrico comparativo do colágeno e elastina na pele abdominal humana após perda ponderal maciça / Histomorphometric comparative study of collagen and elastin in human abdominal skin of massive weight loss patient

Orpheu, Simone Cristina

27 March 2009

O aumento da prevalência da obesidade mórbida constitui um problema de saúde pública global. A obesidade mórbida pode ser definida por um índice de massa corpórea ( IMC ) superior a 35 Kg/ m²; vem acompanhada por diversas comorbidades e determina custos sócio-econômicos elevados. O único método efetivo a longo prazo no tratamento da obesidade mórbida, na atualidade, é a cirurgia bariátrica. Os procedimentos cirúrgicos para tratar a obesidade foram estimulados sobretudo pelo advento de técnicas videolaparoscópicas com menor morbidade pós-operatória e recuperação precoce. O sucesso operatório da cirurgia bariátrica representa perda de até 50% do excesso de peso dos pacientes em prazos variáveis de aproximadamente 24 meses. Após tal período, o processo de emagrecimento será refletido como excesso e flacidez cutânea generalizados e inicia-se a busca pela melhora da imagem corporal. A realização das cirurgias plásticas de contorno corporal exige ampla compreensão das peculiaridades clínicas desse paciente, e dos riscos de complicações, além de expectativas viáveis quanto aos resultados estéticos. Após as cirurgias de contorno corporal, passado o período pós-operatório recente, constata-se a manutenção de flacidez cutânea residual em graus variados. A obesidade interfere na qualidade dos componentes da pele humana. Entretanto, não há estudos específicos em relação à pele do paciente após perda ponderal maciça. Nesse estudo observacional histomorfométrico realizado entre 2006 e 2008, o autor avalia em biópsias de pele humana da região abdominal epigástrica e hipogástrica, o teor de colágeno e elastina em pacientes após perda ponderal maciça comparativamente a pacientes sem antecedentes de obesidade. Analisando a pele abdominal de mulheres não obesas ( controles epigástricos=15 e controles hipogástricos=25 ) e mulheres após tratamento dessa morbidade ( casos=40), verificou-se neste estudo com significância estatística aceita como p<0,05 que: a) na região epigástrica, o teor de colágeno foi superior no grupo controle em comparação ao grupo de casos; b) na região epigástrica, o teor de fibras elásticas foi superior nos casos; c) na região hipogástrica, não houve diferença estatisticamente significante no teor de colágeno entre os grupos estudados; d) na região hipogástrica, o teor de fibras elásticas foi superior no grupo controle / Morbid obesity is an increasing health problem and it is defined as a body mass index greater than 35 kg/m² with severe obesity related comorbidity or a body mass index greater than 40 kg/m² without comorbidity. The combined direct and indirect cost of obesity has been elevated. Bariatric surgery remains the only durable option for weight loss in the morbidly obese.Advanced laparoscopy procedures, as less invasive therapy, have contributed to fast recovery and acceptable perioperative morbidity. Results of bariatric surgery can reach about 50% of excess weight loss with a 2 year follow-up. As patients lose weight, they get laxity skin and their interest in body contouring surgery begins.Plastic surgery in massive weight loss patient demands attention to reduce risks and viable expectations concern to aesthetic results. However, after body contouring surgery, patients can keep up some laxity or folds of excess skin. Obesity changes the components of skin, but there arent definitive studies about skin in massive weight loss patients. In this histomorphometric comparative study, biopsies of human female abdominal skin were analysed in quantity of collagen and elastic fibers in controls (non obese patients, epigastric topography n=15 and hypogastric topography n=25 ) in comparison to massive weight loss patients (n=40). After statistical analyses with p<0,05 was demonstrated that: a)in epigastric topography, the quantity of collagen was higher in control group; b) in epigastric topography, the quantity of elastic fibers was higher in case group; c) in hypogastric topography, there werent diferences in the quantity of collagen between cases and controls; d) in hypogastric topography, the quantity of elastic fibers was higher in control group

Abdome

Abdomen

Bariatric surgery

Cirurgia bariátrica

Colágeno

Collagen

Elastin

Elastina

Lipectomia

Lipectomy

Morbid obesity

Obesidade mórbida

Pele/anatomia & histologia

Skin/anatomy&histology

Detecção da microdeleção 7q11.23 por MLPA® e estudo clínico dos pacientes com síndrome de Williams-Beuren / Detection of the microdeletion 7q11.23 by MLPA® and clinical study of patients with Williams-Beuren syndrome

Rachel Sayuri Honjo

30 May 2012

INTRODUÇÃO: A síndrome de Williams-Beuren (SWB) é uma doença genética causada por uma microdeleção na região 7q11.23 e caracterizada por dismorfismos faciais típicos, deficiência intelectual, comportamento hipersociável, cardiopatia congênita, principalmente a estenose aórtica supravalvar (EASV), e outras malformações variáveis. MÉTODOS: Foram avaliados 65 pacientes (40 do sexo masculino, 25 do sexo feminino), com idades entre 2 e 59 anos (mediana = 14 anos), com características clínicas sugestivas de SWB. Todos os pacientes eram filhos de pais normais. A técnica de Multiplex Ligation-dependent Probe Amplification® (MLPA®) foi usada com kit específico com sondas da região da SWB (MRC Holland). As sondas foram hibridadas ao DNA e os fragmentos ligados foram amplificados por PCR e analisados com software específico. RESULTADOS: A deleção de todas as sondas da região 7q11.23 testadas foi detectada por MLPA® em 55/65 pacientes. Um caso de deleção atípica, ou seja, menor que 1,5 Mb, foi observada em um paciente com quadro clínico parcial da síndrome. Os nove pacientes sem deleção tinham um diagnóstico clínico duvidoso da SWB. Dois pacientes tiveram MLPA® positivo para SWB embora apresentassem resultados de FISH negativos. Os achados clínicos dos pacientes com deleção típica foram: fácies típica (98,2%), atraso do desenvolvimento neuropsicomotor (98,2%), comportamento hipersociável (94,5%), hiperacusia (94,5%) e cardiopatia (81,8%). Dentre os pacientes com cardiopatia, 42,2% apresentavam EASV (isolada ou associada a outras anomalias cardíacas), 26,7% apresentavam estenose pulmonar e 31,1% apresentavam outras cardiopatias isoladas ou em associação. Outros achados dos pacientes com deleção foram: anormalidades geniturinárias (85,4%), escoliose (56,4%), baixa estatura (43,6%), hérnias inguinais e/ou umbilicais (36,4%), hipertensão arterial (36,4%, com 20% destes apresentando estenose de artérias renais), estrabismo (34,5%), microcefalia (30,9%), sinostose radioulnar (10,9%), hipotireoidismo (14,5%) e hipotireoidismo subclínico (7,3%). Hipercalcemia foi detectada em um paciente apenas. Outros dois pacientes apresentaram nefrocalcinose e um paciente apresentou hipercalciúria, com níveis de cálcio sérico normais. Três pacientes adolescentes foram a óbito por causas cardiovasculares, incluindo um caso de óbito após transplante cardíaco. CONCLUSÕES: A técnica de MLPA® foi eficaz na detecção da microdeleção na região 7q11.23 possibilitando a confirmação diagnóstica da SWB em 84,6% dos pacientes estudados. Além disso, foi possível detectar uma deleção menor atípica em um paciente com fenótipo parcial e confirmar o diagnóstico em dois pacientes com quadro clínico típico de SWB e resultados de FISH negativos. Portanto, o MLPA® constitui-se um método promissor na investigação diagnóstica da SWB. Por ser uma doença multissistêmica, a SWB exige cuidados multidisciplinares e acompanhamento específico a fim de se prevenir complicações / INTRODUCTION: Williams-Beuren syndrome (WBS) is a genetic disorder caused by a microdeletion in 7q11.23 region. It is characterized by typical facial dysmorphisms, mental retardation, hipersociable behavior, congenital heart disease, mainly supravalvular aortic stenosis (SVAS), and other variable congenital malformations. METHODS: 65 patients (40 males, 25 females), aged 2-59 years old (median = 14 years old), with clinical characteristics suggesting WBS, were evaluated. All patients had normal parents. Multiplex Ligation-dependent Probe Amplification® (MLPA®) was performed with a kit with probes in WBS region (MRC Holland). The probes were hybridized to the DNA and the ligated fragments were amplified by PCR and analyzed with specific software. RESULTS: The deletion for all tested probes in the 7q11.23 region was detected by MLPA® in 55/65 patients. One case of atypical deletion, smaller than 1.5 Mb, was observed in one patient with partial clinical picture of the syndrome. The nine patients without the deletion did not have a definitive clinical diagnosis of WBS. Two patients had positive MLPA® results even though they had negative FISH for WBS. The clinical characteristics of the patients with the typical deletion were: typical facies (98.2%), neuropsicomotor delay (98.2%), hypersociable behavior (94.5%), hyperacusis (94.5%) and congenital heart disease (81.8%). Among the patients with cardiac abnormalities, 42.2% had SVAS (isolated or not), 26.7% had pulmonary valve stenosis and 31.1% had other cardiac anomalies (isolated or grouped). Other findings in patients with deletion comprised: genitourinary abnormalities (85.4%), scoliosis (56.4%), short stature (43.6%), inguinal and/or umbilical hernias (36.4%), arterial hypertension (36.4%, with 20% of these presenting renal arteries stenosis), strabismus (34.5%), microcephaly (30.9%), radioulnar synostosis (10.9%), hypothyroidism (14.5%), and subclinical hypothyroidism (7.3%). Hypercalcaemia was detected in only one patient. Two other patients had nephrocalcinosis and one patient had hypercalciuria, with normal serum calcium levels. Three adolescents died due to cardiovascular problems, including one case that died after a cardiac transplantation. CONCLUSIONS: MLPA® was effective to detect the microdeletion in 7q11.23 region confirming the diagnosis of WBS in 84.6% of the patients. It was also possible to detect a small atypical deletion in one patient with partial phenotype and confirm the diagnosis in two patients with typical clinical characteristics of WBS and negative FISH results. Thus, MLPA® is a promising method in the diagnostic investigation of WBS. WBS is a multisystemic disorder and therefore requires multidisciplinary care and specific follow-up in order to prevent complications

Biologia molecular

Elastina

Estenose aórtica supravalvular

Síndrome de Williams

Aortic stenosis supravalvular

Elastin

Molecular Biology

Williams syndrome

Structural Modeling and Analysis of Structures in Aorta Images

Xu, Hai

2011 August 1900

Morphology change analysis of aorta images acquired from biological experiments plays a critical role in exploring the relationship between lamina thickness (LT), interlamellar distance (ILD) and fragmentation (furcation points) with respect to pathological conditions. An automated software tool now is available to extract elastic laminae (EL) and measure LT, ILD and fragmentation along their ridge lines in a fine detailed aspect. A statistical randomized complete block design (RCBD) and F-test were used to assess potential (non)-uniformity of LT and ILD along both radial and circumferential directions. Illustrative results for both normotensive and hypertensive thoracic porcine aorta revealed marked heterogeneity along the radial direction in nearly stress-free samples. Quantifying furcation point densities were also found that can offer new information about potential elastin fragmentation, particularly in response to increased loading due to hypertension. Furthermore, when biological scientists analyze the elastic lamina structure, how to automatically generate a macro-level geometric parameter mapping might greatly help them understand the over-all morphology changes of blood vessel cross section. In this dissertation, another automated system is designed to quickly locate more pronounced EL branches to construct layer level abstraction of LT/ILD measurements and transform the sparse pixel level information to dense normalized Virtual Layer Matrix (VLM). The system can automatically compute the EL orientations, identify pronounced ELs, transform the denoised LT measurement points onto a VLM and then provide statistics/segmentation analysis. By applying the k-means segmentation technique to VLMs of LT-ILD, one can easily delineate regions of normal vs. hypertrophic and/or hyperplasia LT-ILD measurements for cross-image references.

Vascular Elastin

Automated Histology

Quantitative Pathology

Discrete Radon Transform

Furcation Point Analysis

Randomized Complete Block Design

Virtual Layer Matrix

K-Means

Hypertension

Marfan Syndrome

Aging

Design and evaluation of scaffolds for arterial grafts using extracellular matrix based materials

Kumar, Vivek Ashok

02 November 2011

For small diameter (<6 mm) blood vessel replacements, lack of collaterals and vascular disease preclude homografts; while synthetic analogs, ePTFE, expanded polytetrafluoroethylene, and PET, polyethyleneterephathalate, are prone to acute thrombosis and restenosis. It is postulated that the hierarchical assembly of cell populated matrices fabricated from protein analogs provides a new design strategy for generating a structurally viable tissue engineered vascular graft. To this end, synthetic elastin and collagen fiber analogs offer a novel strategy for creating tissue engineered vascular grafts with mechanical and biological properties that match or exceed those of native vessels. This work details techniques developed for the fabrication of prosthetic vascular grafts from a series of extracellular matrix analogs composed of nanofibrous collagen matrices and elastin-mimetic proteins, with and without cells, and subsequent evaluation of their biocompatibility and mechanical properties. The work details the fabrication and mechanical analysis of vascular grafts made from aforementioned protein analogs. Subesequent studies detail seeding and proliferation of rodent mesenchymal stem cells on protein-based composites to recapitulate the media of native vasculature. Finally detailing in vivo biocompatibility and stability of tissue engineered vascular grafts.

Rat aortic interposition

Rat tail tendon

Vascular

Elastin

Collagen

Soft tissue

Blood vessels

Tissue engineering

Regenerative medicine

Arterial grafts

Tissue scaffolds

Incorporation of recombinant fibronectin into genetically engineered elastin-based polymers

Balderrama, Fanor Alberto

17 November 2009

Cardiovascular disease is the main cause of death in the United States. Many of these conditions require the grafting or bypassing of compromised blood vessels. To this effect, biological vascular grafts (autografts and allografts) are the first line of action. However, when the patient lacks vasculature suitable for grafting use, several synthetic grafting options are available. The search for an inert biomaterial for vascular grafts has proven to be unsuccessful. This makes the interaction taking place on the blood-biomaterial interface critical for the success of the grafts. This thesis introduces a new bio-inspired approach to tackle the mechanical and biological challenges of vascular material design. The hypothesis of this research is that recombinant fibronectin protein can be stably incorporated onto elastin-mimetic polymers to increase endothelialization. Recombinant elastin, designed to recreate the mechanical properties of natural elastin as a candidate material for vascular graft fabrication, was used as a model surface. Recombinant fibronectin-functionalized elastin-mimetic polymer displayed significant improvement in cell adhesion. Quantification of surface bound recombinant fibronectin verified the concentration dependence of this cell adhesive behavior. Modified elastin-mimetic polymer also demonstrated an enhanced ability to support endothelial cell proliferation. Furthermore, the stability of recombinant fibronectin-modified polymers was assessed. These studies provide the foundation for fabricating elastin-mimetic vascular grafts with improved endothelialization and subsequent biological performance.

Functionalization

Coating

Protein

Crosslinking

Genipin

HUVEC

Stability

Cell proliferation

Vascular graft

Elastin

FNIII7-10

Cell adhesion

Endothelialization

Endothelial

Fibronectins

Globulins

Biomedical materials

Vascular grafts

Recombinant elastin analogues as cell-adhesive matrices for vascular tissue engineering

Ravi, Swathi

23 August 2010

Biomimetic materials that recapitulate the complex mechanical and biochemical cues in load-bearing tissues are of significant interest in regenerative medicine and tissue engineering applications. Several investigators have endeavored to not only emulate the mechanical properties of the vasculature, but to also mimic the biologic responsiveness of the blood vessel in creating vascular substitutes. Previous studies in our lab generated the elastin-like protein polymer LysB10, which was designed with the capability of physical and chemical crosslinks, and was shown to display a range of elastomeric properties that more closely matched those of the native artery. While extensive validation of the mechanical properties of elastin-mimetic polymers has demonstrated their functionality in a number of tissue engineering applications, limited cell growth on the surfaces of the polymers has motivated further optimization for biological interaction. Recent biologically-inspired surface strategies have focused on functionalizing material surfaces with extracellular matrix molecules and bioactive motifs in order to encourage integrin-mediated cellular responses that trigger precise intracellular signaling processes, while limiting nonspecific biomaterial interactions. Consequently, this dissertation addresses three approaches to modulating cellular behavior on elastin-mimetic analogs with the goal of promoting vascular wall healing and tissue regeneration: genetic engineering of elastin-like protein polymers (ELPs) with cell-binding domains, biofunctionalization of elastin-like protein polymers via chemoselective ligation of bioactive ligands, and incorporation of matrix protein fibronectin for engineering of cell-seeded multilamellar collagen-reinforced elastin-like constructs. The synthesis of recombinant elastin-like protein polymers that integrate biologic functions of the extracellular matrix provides a novel design strategy for generating clinically durable vascular substitutes. Ultimately, the synthesis of model protein networks provides new insights into the relationship between molecular architecture, biomimetic ligand presentation, and associated cellular responses at the cell-material interface. Understanding how each of these design parameters affects cell response will contribute significantly to the rational engineering of bioactive materials. Potential applications for polymer blends with enhanced mechanical and biological properties include surface coatings on vascular grafts and stents, as well as composite materials for tissue engineered scaffolds and vascular substitutes.

Surface modification

Vascular tissue engineering

Biomaterials

Polypeptides

Elastin like protein polymers

Recombinant proteins

Regenerative medicine

Biomedical materials

Vascular grafts

Tissue engineering

Implants, Artificial

Polymers in medicine

Development of a tissue engineering strategy to create highly compliant blood vessels

Crapo, Peter Maughan

16 December 2008

Compliance mismatch is a significant hurdle to long-term patency in small-diameter arterial bypass grafts. Vascular tissue engineering has the potential to produce compliant, non-thrombogenic small-diameter grafts. However, current engineered grafts are relatively non-compliant, resulting in intimal hyperplasia and graft occlusion when subjected to arterial pressures. This research investigates the mechanical and biological properties of engineered constructs based on a biodegradable synthetic elastomer, poly(glycerol sebacate) (PGS). Several methods for fabricating porous PGS scaffolds in a tubular geometry were developed and compared. Adult baboon vascular cells were cultured in the scaffolds under various in vitro experimental conditions, including variations in initial cell seeding density, the type of scaffold used for culture, culture time, scaffold material, and hydrostatic pressure, and properties of the resultant constructs were compared. Scaffold fabrication using heat-shrinkable mandrels and glass tubes coated with hyaluronic acid significantly decreased tolerances of wall thickness and mechanical properties, improved handling, and decreased culture time required to reach luminal cellular confluence compared to scaffolds made with other fabrication techniques. Altering scaffold material from PGS to poly(lactide-co-glycolide) (PLGA), a benchmark biomaterial, did not affect scaffold yield, porosity, or luminal cellular confluence. Extracellular matrix (ECM) deposition increased with SMC-only culture time, and ECM deposition and remodeling during culture influenced construct compliance. Compared to PLGA scaffolds, PGS scaffolds promoted elastin crosslinking by SMCs and elastic tissue properties but attenuated collagen deposition. Hydrostatic pressure promoted ECM synthesis and deposition by SMCs and decreased construct compliance. Collagen and crosslinked elastin content in constructs correlated positively with construct burst pressure, and a negative correlation dependent on scaffold type was found between collagen content and construct compliance at low pressures. The systematic investigation of culture conditions in this research provides insights into the control of engineered blood vessel properties. The central hypothesis of this work, that grafts engineered from PGS scaffolds and adult vascular cells under biomimetic in vitro culture conditions can possess compliance comparable to autologous vessels, is true at pressures below 60 mmHg and demonstrates potential for PGS-based vascular tissue engineering. Overall, this work provides tools for engineering tubular soft tissues based on porous PGS scaffolds.

Tissue engineering

Small-diameter artery

Compliance

Elastin

Blood vessel

Poly(glycerol sebacate)

PGS

Tissue engineering

Blood-vessels

Blood vessel prosthesis

Vascular grafts