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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Morfoanatomia de órgãos reprodutivos de cinco espécies de malpighiaceae

Souto, Letícia Silva [UNESP] 17 February 2011 (has links) (PDF)
Made available in DSpace on 2014-06-11T19:32:56Z (GMT). No. of bitstreams: 0 Previous issue date: 2011-02-17Bitstream added on 2014-06-13T21:05:16Z : No. of bitstreams: 1 souto_ls_dr_botib.pdf: 9317690 bytes, checksum: 3e85c4a8912908b6da4810da133b17a0 (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / A família Malpighiaceae possui 1.200 espécies e 66 gêneros, com importância para as formações florestais e savânicas do Velho e do Novo Mundo. A origem monofilética da família é incontestável, entretanto seus táxons intrafamiliares ainda são bastante controversos e considerados artificiais por diversos autores. A morfologia floral de Malpighiaceae é bastante homogênea, mas os frutos possuem extrema diversidade, ocorrendo pericarpos deiscentes ou indeiscentes, carnosos ou secos. Embora caracteres morfológicos dos frutos sejam usados na delimitação de táxons dentro de Malpighiaceae, recentes estudos moleculares indicam a ocorrência de caracteres carpológicos homoplásticos. Assim, estudos minuciosos sobre os frutos da família têm grande potencial taxonômico. Além disso, a vascularização floral pode revelar passos evolutivos, anteriores à morfologia floral atual das espécies. Desta forma, a presente proposta tem como objetivos: 1) descrever, ontogeneticamente, a estrutura dos frutos e sementes de quatro espécies de Malpighiaceae, abrangendo os gêneros Janusia, Mascagnia e Tetrapterys; 2) caracterizar a anatomia floral das espécies do item anterior e de Camarea linearifolia, com ênfase em sua vascularização, buscando correlacionar esses aspectos com o significado evolutivo e ecológico das flores de Malpighiaceae; 3) relatar a esporogênese e gametogênese feminina de Janusia occhionii, investigando a provável ocorrência de apomixia. A vascularização floral encontrada nas espécies segue o padrão geral de número de traços vasculares, com exceção de M. cordifolia, onde a sépala aglandular recebe um traço vascular, mas compartilha os traços laterais das sépalas adjacentes, os quais se bifurcam. No ovário, não é emitido traço dorsal de carpelo, ocorrendo um complexo de procâmbio e meristema fundamental; M. cordifolia, possui conação entre... / The family Malpighiaceae includes 1,200 species and 66 genera and has been important for forests and savannas from the Old and the New World. Its monophyletic origin is unquestionable; however, its intrafamilial taxa have still been controversial and considered artificial by several authors. The flower morphology of Malpighiaceae is quite homogeneous, but fruits present extreme diversity, with dehiscent or indehiscent, fleshy or dry pericarps. Although morphological traits of fruits have been used to delimit taxa within Malpighiaceae, recent molecular studies have indicated the occurrence of carpological homoplastic traits. Thus, detailed studies on Malpighiaceae fruits have great taxonomic potential. Furthermore, flower vascularization can reveal evolution steps prior to the current flower morphology of the species. Thus, the present work aimed to: 1) describe, ontogenetically, the structure of fruits and seeds from four Malpighiaceae species, including the genera Janusia, Mascagnia and Tetrapterys; 2) characterize the flower anatomy of such species and Camarea linearifolia, highlighting their vasculature, in order to correlate these aspects with the evolutive and ecological meaning of Malpighiaceae flowers; 3) report female sporogenesis and gametogenesis in Janusia occhionii, investigating the probable occurrence of apomixis. The flower vasculature observed in the species follows the general pattern as to number of vascular traces, except for M. cordifolia, in which the non-glandular sepal receives one vascular trace but shares the lateral traces from adjacent sepals that bifurcate. In the ovary, the dorsal carpel trace is not emitted, occurring a complex of procambium and ground meristem; M. cordifolia presented conated glands from the anterior and adjacent sepals. In T. chamaecerasifolia and Janusia species, the anterior sepal lost their glands probably by reduction... (Complete abstract click electronic access below)
12

Distribution and Morphology of CGRP-IR Axons in Flat-Mounts of Whole Rat Hearts and Whole Male/Female Mouse Atria

Bendowski, Kohlton T 01 January 2024 (has links) (PDF)
The distribution of nociceptive axons has not been fully determined in the whole rat and mouse heart. Previous anatomical studies have relied on sectioned tissue, which disrupts the organization of nerves and makes it more difficult to study their pattern, and most studies only used male tissues. We addressed this in the following two studies. First, flat-mounts of the right and left atria and ventricles, and the interventricular septum in rats were immunohistochemically labeled for calcitonin gene-related peptide (CGRP). Tissues were imaged with a high-quality microscope to generate complete montages and detailed images. We found that 1) CGRP-IR axons extensively innervated all regions of the atrial walls and the walls of the great vessels including the sinoatrial (SA) node region, auricles, atrioventricular (AV) node region, superior/inferior vena cava, left pre-caval vein, and pulmonary veins. 2) CGRP-IR axons formed varicose terminals around individual neurons in some cardiac ganglia. 3) Varicose CGRP-IR axons innervated the blood vessels. 4) CGRP-IR axons extensively innervated the right/left ventricular walls and interventricular septum. Second, flat-mount preparations of the left and right atria of male and female mice were labeled for CGRP, imaged, and digitally traced. The results show that 1) Large nerve bundle entry points and regional concentration of CGRP-IR axons were similar in both sexes. 2) The detailed distribution of nerves was digitized and mapped using sophisticated software and was similar between sexes. 3) Nerve density in the SA/AV node regions was not significantly different. 4) Morphometric parameters of varicosities in the auricle, SA/AV node regions was not significantly different between sexes. The distribution of CGRP-IR axons in the whole rat heart and the male/female mouse atria was shown for the first time at the single-cell/axon/varicosity resolution. Future studies will quantify the differences in CGRP-IR axon innervation between disease models, and other species.
13

Modulation of endothelial cell characteristics by pericytes

Martin, Ashley Diane January 1998 (has links)
No description available.
14

Morfoanatomia de órgãos reprodutivos de cinco espécies de malpighiaceae /

Souto, Letícia Silva. January 2011 (has links)
Orientador: Denise Maria Trombert Oliveira / Banca: Juliana Marzinek / Banca: Maria das Graças Sajo / Banca: Sandra Maria Carmello-Guerreiro / Banca: Silvia Rodrigues Machado / Resumo: A família Malpighiaceae possui 1.200 espécies e 66 gêneros, com importância para as formações florestais e savânicas do Velho e do Novo Mundo. A origem monofilética da família é incontestável, entretanto seus táxons intrafamiliares ainda são bastante controversos e considerados artificiais por diversos autores. A morfologia floral de Malpighiaceae é bastante homogênea, mas os frutos possuem extrema diversidade, ocorrendo pericarpos deiscentes ou indeiscentes, carnosos ou secos. Embora caracteres morfológicos dos frutos sejam usados na delimitação de táxons dentro de Malpighiaceae, recentes estudos moleculares indicam a ocorrência de caracteres carpológicos homoplásticos. Assim, estudos minuciosos sobre os frutos da família têm grande potencial taxonômico. Além disso, a vascularização floral pode revelar passos evolutivos, anteriores à morfologia floral atual das espécies. Desta forma, a presente proposta tem como objetivos: 1) descrever, ontogeneticamente, a estrutura dos frutos e sementes de quatro espécies de Malpighiaceae, abrangendo os gêneros Janusia, Mascagnia e Tetrapterys; 2) caracterizar a anatomia floral das espécies do item anterior e de Camarea linearifolia, com ênfase em sua vascularização, buscando correlacionar esses aspectos com o significado evolutivo e ecológico das flores de Malpighiaceae; 3) relatar a esporogênese e gametogênese feminina de Janusia occhionii, investigando a provável ocorrência de apomixia. A vascularização floral encontrada nas espécies segue o padrão geral de número de traços vasculares, com exceção de M. cordifolia, onde a sépala aglandular recebe um traço vascular, mas compartilha os traços laterais das sépalas adjacentes, os quais se bifurcam. No ovário, não é emitido traço dorsal de carpelo, ocorrendo um complexo de procâmbio e meristema fundamental; M. cordifolia, possui conação entre... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: The family Malpighiaceae includes 1,200 species and 66 genera and has been important for forests and savannas from the Old and the New World. Its monophyletic origin is unquestionable; however, its intrafamilial taxa have still been controversial and considered artificial by several authors. The flower morphology of Malpighiaceae is quite homogeneous, but fruits present extreme diversity, with dehiscent or indehiscent, fleshy or dry pericarps. Although morphological traits of fruits have been used to delimit taxa within Malpighiaceae, recent molecular studies have indicated the occurrence of carpological homoplastic traits. Thus, detailed studies on Malpighiaceae fruits have great taxonomic potential. Furthermore, flower vascularization can reveal evolution steps prior to the current flower morphology of the species. Thus, the present work aimed to: 1) describe, ontogenetically, the structure of fruits and seeds from four Malpighiaceae species, including the genera Janusia, Mascagnia and Tetrapterys; 2) characterize the flower anatomy of such species and Camarea linearifolia, highlighting their vasculature, in order to correlate these aspects with the evolutive and ecological meaning of Malpighiaceae flowers; 3) report female sporogenesis and gametogenesis in Janusia occhionii, investigating the probable occurrence of apomixis. The flower vasculature observed in the species follows the general pattern as to number of vascular traces, except for M. cordifolia, in which the non-glandular sepal receives one vascular trace but shares the lateral traces from adjacent sepals that bifurcate. In the ovary, the dorsal carpel trace is not emitted, occurring a complex of procambium and ground meristem; M. cordifolia presented conated glands from the anterior and adjacent sepals. In T. chamaecerasifolia and Janusia species, the anterior sepal lost their glands probably by reduction... (Complete abstract click electronic access below) / Doutor
15

Novel capillary defects in spinal muscular atrophy

Somers, Eilidh January 2015 (has links)
Spinal Muscular Atrophy (SMA) is an autosomal, recessive form of childhood motor neuron disease and the most common genetic cause of infant mortality in the western world. SMA displays the characteristic hallmarks of a motor neuron disease, including loss of motor neurons in the spinal cord and atrophy of skeletal muscles. However, mounting evidence suggests that multiple tissues and body systems, beyond the neuromuscular system, are affected in SMA. Previous studies have highlighted alterations in the vascular system in both SMA patients and in a variety of mouse models of the disease, reporting alterations in vessel structure and perfusion abnormalities in peripheral tissues. In this project a detailed morphological investigation of the capillary beds of skeletal muscle and the spinal cord, two of the key pathological tissues in SMA was undertaken. This work was conducted in the Smn-/-;SMN2, Smn-/-;SMN2tg/+ and Smn-/-;SMN2;Δ7 mouse models of SMA. Significant alterations in the form and extent of the skeletal muscle and spinal cord capillary bed in SMA mice were identified, the most striking of which being a reduction in capillary density in SMA tissue when compared to control littermate tissue. In skeletal muscle, this reduction in capillary density was found to be a postnatal phenomenon, which occurred independently of denervation, in a variety of phenotypically distinct muscles and in all three SMA mouse models investigated. In the spinal cord, the capillary defect was seen to develop in a similar postnatal pattern to that observed in skeletal muscle. Importantly, a reduction in capillary density was observed in the ventral horn of the spinal cord, which houses motor neuron cell bodies, a known pathological target in SMA. These motor neurons were seen to be surrounded by fewer capillaries than their control counterparts. Using an injectable marker of hypoxia, it was determined that the cells of the ventral horn of SMA spinal cords are hypoxic. This suggests that the capillary defect identified has a functional impact on the tissues it is observed in. Having established the presence of capillary defect in SMA tissue, the effect of potential SMA therapeutics on the capillary defect was then investigated. The effect of HDAC inhibitors, which have been successfully shown to increase the levels of the disease causing Smn protein, was investigated. Treatment with the HDAC inhibitor SAHA was found to ameliorate the capillary defect, significantly improving capillary density in SMA skeletal muscle. This implies that the capillary defect is related to Smn levels in tissue and is amenable to therapeutics which increase Smn levels. Having characterised the capillary defect in SMA tissues in detail, a selection of tools were then used to investigate the underlying mechanisms resulting in the defect. First, using primary cell cultures, the growth and morphology of the key cellular component of capillaries, the endothelial cell, was examined. While displaying reduced levels of the Smn protein, endothelial cells isolated from SMA tissues showed no difference in growth rate, morphology or endothelial cell marker expression when compared to endothelial cells isolated from control tissue. This suggests that the defects seen in SMA capillary beds are not the result of defects in the structure and growth of endothelial cells. Second, retinas from SMA mice were found to exhibit similar capillary defects to those observed in SMA skeletal muscle and spinal cord. Given the entirely postnatal development of the retinal capillary network, the retina was identified as a useful experimental preparation for the further investigation of the mechanisms underlying the capillary defect in SMA. In summary, this work highlights the incidence and importance of capillary defects in mouse models of spinal muscular atrophy.
16

The effect of ageing on perivascular adipose tissue function

Melrose, Heather January 2016 (has links)
Increasing age is the single biggest independent risk factor for cardiovascular disease, which is in turn the leading cause of morbidity and mortality worldwide. Ageing is associated with hypertension and metabolic changes which all increase the risk of the development of cardiovascular disease. In young, healthy individuals, perivascular adipose tissue (PVAT) secretes factors that can influence vascular contractility, exerting a net anti-contractile effect against numerous vasoconstrictors including the thromboxane A2 mimetic U46619 and α1-adrenoceptor phenylephrine. Whilst it is known that dysfunction in PVAT can contribute to obesity-related hypertension, little is known whether similar dysfunction occurs with ageing. In young Wistar rats, wire myography and pharmacological studies showed that the anti-contractile effect of PVAT in the presence of U46619 is dependent on both PVAT-derived nitric oxide and prostaglandins, whereas the anti-contractile effect in the presence of phenylephrine is nitric oxide independent. This finding was supported by Western blot experiments that showed increased phosphorylation of endothelial nitric oxide synthase (eNOS) in PVAT following U46619 incubation, but not phenylephrine. In the Wistar rat model of ageing used, wire myograph studies revealed that the PVAT anti-contractile effect in the presence of phenylephrine is preserved at 24 months of age, but in in the presence of U46619 is lost. Furthermore PVAT from aged animals had a deleterious effect on endothelial function, suggesting changes in its secreted factors. These changes are accompanied by alterations in the expression and activation of key enzymes in the nitric oxide synthesis pathway within the PVAT as measured by Western blot, as well as alterations in cardiometabolic phenotype including hypertension, hyperglycaemia and insulin resistance. Taken together these findings suggest that previously unidentified age-related PVAT dysfunction may contribute to age-related hypertension and thus may provide a potential therapeutic target for future study.
17

Bioengineered Liver Assembloids with Zonation

Savery, Tracy January 2021 (has links)
There are a number of pressing issues that the creation of a biomimetic liver culture may be able to solve including catching hepatic mal interactions that are currently missed in preclinical drug screening and offering an alternative solution in the shortage of organs for liver transplant. There are multiple hepatic models that have been created to overcome these issues. However, of the many considerations that need to be taken in the creation of a biomimetic liver model, many fail to capture the functional zone-patterning that is found in vivo. Here is detailed the creation of a hepatic assembloid model that incorporates zone-specific human pluripotent stem cell derived hepatocytes for the recapitulation of zone-patterning in the liver tissues. Use of our lab’s z-wire plate and PGS z-wire scaffold allows for the formation of elongated 3D tissues that resembles the overall morphology of the liver acinus and facilitate the spontaneous development of an aligned vascular-like network. Sustained hepatocyte-specific function in these tissues are promising indicators for application of the hepatic models in drug screening, disease modelling, and regenerative medicine. / Thesis / Master of Applied Science (MASc)
18

Anatomy, Evolution, and Functional Significance of Cephalic Vasculature in Archosauria

Sedlmayr, Jayc Clinton 02 August 2002 (has links)
No description available.
19

Existence of endothelial progenitor cells with self-renewal and clonogenic potential in normal human placenta and preeclampsia

Garbacea, Ioana Unknown Date
No description available.
20

Functional imaging of cancer using Optoacoustic Tomography

Tomaszewski, Michal Robert January 2019 (has links)
Poor oxygenation of solid tumours has been linked with resistance to chemo- and radio-therapy and poor patient outcomes. Measuring the functional status of the tumour vasculature, including blood flow fluctuations and changes in oxygenation is important in cancer staging and therapy monitoring. A robust method is needed for clinical non-invasive measurement of the oxygen supply and demand in tumours. Current clinically approved imaging modalities suffer high cost, long procedure times and limited spatio-temporal resolution. Optoacoustic tomography (OT) is an emerging clinical imaging modality that can provide static images of endogenous haemoglobin concentration and oxygenation. In this work, an integrated framework for quantitative analysis of functional imaging using OT is developed and applied in vivo with preclinical cancer models. Oxygen Enhanced (OE)-OT is established here to provide insight into tumour vascular function and oxygen availability in the tissue. Tracking oxygenation dynamics using OE-OT reveals significant differences between two prostate cancer models in nude mice with markedly different vascular function (PC3 & LNCaP), which appear identical in static OT. OE-OT metrics are shown to be highly repeatable and correlate directly on a per-tumour basis to tumour vascular maturity, hypoxia and necrosis, assessed ex vivo. Dynamic Contrast Enhanced (DCE) OT demonstrates the relationship between OE-OT response and tumour perfusion in vivo. Finally, the possibility of using OT data acquired at longer wavelengths to report on tumour water and lipid content is investigated, with a view to future providing intrinsically co-registered imaging of tumour oxygenation and cellular necrosis. These findings indicate that OE-OT holds potential for application in prostate cancer patients, to improve delineation of aggressive and indolent disease, while combined with DCE-OT, it may offer significant advantage for localised imaging of tumour response to vascular targeted therapies. Further work is needed to establish whether OT can provide a new method to detect tumour necrosis in vivo.

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