Global ETD Search

51	Geração de harmônicos de pulsos laser de femtossegundo pela técnica de conversão de frequência em capilares preenchidos com gases nobres / Harmonics generation of femtosecond laser pulses by the technique of frequency conversion in noble gas filled capillaries Siqueira, Jonathas de Paula 26 June 2012 (has links) O propósito principal desta tese foi a implementação e estudo da geração de pulsos laser de femtossegundos em comprimentos de onda curtos (ultravioleta profundo, ultravioleta de vácuo e ultravioleta extremo) pela técnica de conversão de frequência em capilar preenchido com gás nobre. Esta técnica de conversão de frequência tem feito diversas contribuições nas últimas décadas para o avanço da geração de pulsos laser ultracurtos nesta região espectral. O desenvolvimento de tais fontes de luz coerente possui importantes implicações nos estudos de espectroscopia resolvida no tempo em átomos, moléculas e materiais. Através da implementação da técnica de conversão de frequência com casamento de fase em capilar preenchido com gás argônio, foi possível a obtenção de pulsos de femtossegundos centrados em 260 nm e 195 nm utilizando um sistema laser amplificado Ti: safira (780 nm, 1.5 mJ, 43 fs, 1 KHz). Estes comprimentos de onda correspondem, respectivamente, aos terceiro e quarto harmônicos da frequência fundamental do laser utilizado. Pulsos centrados em 260 nm com excelente perfil espacial, energias da ordem de microjoules e durações temporais tão curtas quanto 18 fs, possibilitadas pela recompressão por um par de prismas, foram obtidos, os quais possuem grande aplicabilidade em estudos de espectroscopia não linear e resolvida no tempo. Pulsos ultracurtos centrados em 195 nm também foram obtidos. Uma investigação da influência da modulação da fase espectral do pulso laser em 780 nm sobre a geração de harmônicos através do processo do mistura de quatro ondas, também foi realizada. Desta forma, foi implementado um sistema de controle de formato de pulso laser de femtossegundo na configuração 4f baseado em um modulador espacial de luz de cristal líquido com o objetivo de modular a fase espectral dos pulsos laser em 780 nm. Este sistema de controle de formato de pulso foi então integrado ao sistema de geração de pulsos ultracurtos no ultravioleta profundo através do processo de mistura de ondas já implementado. Este estudo teve como objetivo, a obtenção da modulação indireta da fase espectral de pulsos em 260 nm através da transferência de fase espectral modulada de pulsos em 780 nm. Resultados iniciais interessantes foram obtidos utilizando uma fase espectral do tipo degrau com amplitude radianos, indicando a correta implementação do sistema. A obtenção de pulsos laser de femtossegundos no ultravioleta profundo com fase espectral modulada é de grande interesse para realização de experimentos de controle coerente nesta região espectral e também para estudos básicos de como a transferência de fase espectral ocorre para diferentes processos ópticos não lineares. Experimentos de geração de altos harmônicos pela técnica de conversão de frequência com casamento de fase em capilar preenchido com gás nobre, utilizando pulsos laser de femtossegundos em 400nm e 800nm, foram realizados durante estágio na Universidade do Colorado, EUA. Neste estudo, utilizando pulsos em 400nm, foi obtido um aumento maior que uma ordem de grandeza na região espectral em torno de 60eV em comparação com o fluxo de harmônicos gerados, nesta mesma região de energia, com pulsos centrados em 800nm. Por fim, através da experiência adquirida durante este estágio, foi desenvolvido e implementado em nosso laboratório um sistema de geração de altos harmônicos na região do ultravioleta extremo, baseado na técnica de conversão em capilar preenchido com gás argônio. Harmônicos de alta ordem na região de energia de 40ev (31nm) foram obtidos, tendo sido demonstrada a conversão sob condição de casamento de fase. Utilizando pulsos de femtossegundos em 780nm, a ordem máxima do harmônico observada foi igual a 27 (28.9nm, 42.9eV), devido a limitação da faixa espectral do monocromador utilizado em nossos experimentos. A implementação deste sistema torna disponível no Grupo de Fotônica, uma fonte de luz coerente no ultravioleta extremo, cujas propriedades únicas já tem sido amplamente exploradas em uma variedade de estudos de ciência básica e aplicada. / The main purpose of this thesis was the implementation and study of femtosecond laser pulses generation at short wavelengths (deep ultraviolet, vacuum ultraviolet end extreme ultraviolet) by the technique of frequency conversion in a hollow fiber filled with a noble gas. This frequency conversion technique has made several contributions in the last decades to improve the generation of ultrashort laser pulses in this spectral region. The development of such coherent light sources has important implications on ultrafast time-resolved spectroscopic study of atoms, molecules and materials. Through the implementation of the technique of phase matched frequency conversion in a gas filled hollow fiber using argon, it was possible to obtain femtosecond pulses centered at 260 nm and 195 nm using a Ti: sapphire amplified laser (780 nm, 1.5 mJ, 43 fs, 1 KHz). These wavelengths corresponds, respectively, to the third and fourth harmonics of the laser fundamental frequency. Pulses centered at 260 nm with excellent spatial profile, energies on the order of microjoules and temporal durations down to 18 fs, trough the compression by a prism pair, were obtained, which have wide applicability in nonlinear and time resolved optical spectroscopic studies. Ultrashort pulses at 195 nm where also obtained. An investigation of the influence of the spectral phase modulation of the laser pulses at 780 nm on the four-wave mixing nonlinear process for harmonic generation was also performed. In this way, a femtosecond pulse shaper based on a liquid crystal spatial light modulator in the 4f configuration was implemented in order to modulate the spectral phase of femtosecond pulses at 780 nm. This pulse shaper was then integrated to the system for generation of ultrashort pulses in the deep ultraviolet through the wave mixing process already implemented. This study aimed to obtain the indirect modulation of the 260 nm pulses spectral phase through the transfer of modulated spectral phase from pulses at 780 nm. Interesting initial results were obtained using a -step spectral phase, indicating the correct implementation of the system. The achievement of femtosecond pulses with modulated spectral phase in the deep ultraviolet is of great interest to perform coherent control studies in this spectral range and also for basic studies of how the spectral phase transfer occurs with different nonlinear optical laser processes. High-harmonic generation experiments based in the phase-matched frequency conversion in noble gas filled hollow fiber technique, using femtosecond pulses at 400 nm and 800 nm, were carried out during a internship at University of Colorado, USA. In this study, using pulses at 400 nm, an increase higher than one order of magnitude was obtained in the spectral region of 60 eV compared to harmonics generated, in this same region, with pulses at 800 nm. Finally, through the experience obtained during this internship, were carried out in our laboratory the development and implementation of a high harmonic generation system, based on the frequency conversion in a hollow fiber filled with argon gas. High harmonics with energies around 40eV (31nm) were obtained, and the conversion under phase-matched condition was demonstrated. Using pulses centered at 780nm, the highest harmonic order measured was 27 (28.9nm, 42.9eV), due to the spectral range limitation of monochromator used in our experiments. With the implementation of this system, becomes available at the Photonics Group a coherent light source at extreme ultraviolet wavelengths, which the unique properties have been already widely explored on a diversity of fundamental studies in basic and applied science. Capilares preenchidos com gases Conversão paramétrica de frequência Geração de altos harmônicos High-harmonic generation Modulação da fase espectral Parametric frequency conversion Pulsos de femtossegundo Spectral phase modulation
52	Monolithic separation media synthesized in capillaries and their applications for molecularly imprinted networks Courtois, Julien January 2006 (has links) <p>The thesis describes the synthesis of chromatographic media using several different approaches, their characterizations and applications in liquid chromatography. The steps to achieve a separation column for a specific analyte are presented. The main focus of the study was the design of novel molecularly imprinted polymers.</p><p>Attachment of monolithic polymeric substrates to the walls of fused silica capillaries was studied in Paper I. With a broad literature survey, a set of common methods were tested by four techniques and ranked by their ability to improve anchoring of polymers. The best procedure was thus used for all further studies.</p><p>Synthesis of monoliths in capillary columns was studied in Paper II. With the goal of separating proteins without denaturation, various monoliths were polymerized in situ using a set of common monomers and cross-linkers mixed with poly(ethylene glycol) as porogen. The resulting network was expected to present “protein-friendly pores”. Chemometrics were used to find and describe a set of co-porogens added to the polymerization cocktails in order to get good porosity and flow-through properties.</p><p>Assessment of the macroporous structure of a monolith was described in Paper III. An alternative method to mercury intrusion porosimetry was proposed. The capillaries were embedded in a stained resin and observed under transmission electron microscope. Images were then computed to determine the pore sizes.</p><p>Synthesis of molecularly imprinted polymers grafted to a core mono-lith in a capillary was described in Paper IV. The resulting material, imprinted with local anaesthetics, was tested for its chromatographic performance. Similar imprinted polymers were characterized by microcalorimetry in Paper V. Finally, imprinted monoliths were also synthesized in a glass tube and further introduced in a NMR rotor to describe the interactions between stationary phase and template in Paper VI.</p> bupivacaine etching phosphorylated tyrosine poly(ethylene glycol) silanization transmission electron microscopy fused silica capillaries isothermal titration calorimetry local anæsthetic molecularly imprinted polymer monolith nuclear magnetic resonance Analytical chemistry Analytisk kemi
53	Monolithic separation media synthesized in capillaries and their applications for molecularly imprinted networks Courtois, Julien January 2006 (has links) The thesis describes the synthesis of chromatographic media using several different approaches, their characterizations and applications in liquid chromatography. The steps to achieve a separation column for a specific analyte are presented. The main focus of the study was the design of novel molecularly imprinted polymers. Attachment of monolithic polymeric substrates to the walls of fused silica capillaries was studied in Paper I. With a broad literature survey, a set of common methods were tested by four techniques and ranked by their ability to improve anchoring of polymers. The best procedure was thus used for all further studies. Synthesis of monoliths in capillary columns was studied in Paper II. With the goal of separating proteins without denaturation, various monoliths were polymerized in situ using a set of common monomers and cross-linkers mixed with poly(ethylene glycol) as porogen. The resulting network was expected to present “protein-friendly pores”. Chemometrics were used to find and describe a set of co-porogens added to the polymerization cocktails in order to get good porosity and flow-through properties. Assessment of the macroporous structure of a monolith was described in Paper III. An alternative method to mercury intrusion porosimetry was proposed. The capillaries were embedded in a stained resin and observed under transmission electron microscope. Images were then computed to determine the pore sizes. Synthesis of molecularly imprinted polymers grafted to a core mono-lith in a capillary was described in Paper IV. The resulting material, imprinted with local anaesthetics, was tested for its chromatographic performance. Similar imprinted polymers were characterized by microcalorimetry in Paper V. Finally, imprinted monoliths were also synthesized in a glass tube and further introduced in a NMR rotor to describe the interactions between stationary phase and template in Paper VI. bupivacaine etching phosphorylated tyrosine poly(ethylene glycol) silanization transmission electron microscopy fused silica capillaries isothermal titration calorimetry local anæsthetic molecularly imprinted polymer monolith nuclear magnetic resonance Analytical chemistry Analytisk kemi
54	Geração de harmônicos de pulsos laser de femtossegundo pela técnica de conversão de frequência em capilares preenchidos com gases nobres / Harmonics generation of femtosecond laser pulses by the technique of frequency conversion in noble gas filled capillaries Jonathas de Paula Siqueira 26 June 2012 (has links) O propósito principal desta tese foi a implementação e estudo da geração de pulsos laser de femtossegundos em comprimentos de onda curtos (ultravioleta profundo, ultravioleta de vácuo e ultravioleta extremo) pela técnica de conversão de frequência em capilar preenchido com gás nobre. Esta técnica de conversão de frequência tem feito diversas contribuições nas últimas décadas para o avanço da geração de pulsos laser ultracurtos nesta região espectral. O desenvolvimento de tais fontes de luz coerente possui importantes implicações nos estudos de espectroscopia resolvida no tempo em átomos, moléculas e materiais. Através da implementação da técnica de conversão de frequência com casamento de fase em capilar preenchido com gás argônio, foi possível a obtenção de pulsos de femtossegundos centrados em 260 nm e 195 nm utilizando um sistema laser amplificado Ti: safira (780 nm, 1.5 mJ, 43 fs, 1 KHz). Estes comprimentos de onda correspondem, respectivamente, aos terceiro e quarto harmônicos da frequência fundamental do laser utilizado. Pulsos centrados em 260 nm com excelente perfil espacial, energias da ordem de microjoules e durações temporais tão curtas quanto 18 fs, possibilitadas pela recompressão por um par de prismas, foram obtidos, os quais possuem grande aplicabilidade em estudos de espectroscopia não linear e resolvida no tempo. Pulsos ultracurtos centrados em 195 nm também foram obtidos. Uma investigação da influência da modulação da fase espectral do pulso laser em 780 nm sobre a geração de harmônicos através do processo do mistura de quatro ondas, também foi realizada. Desta forma, foi implementado um sistema de controle de formato de pulso laser de femtossegundo na configuração 4f baseado em um modulador espacial de luz de cristal líquido com o objetivo de modular a fase espectral dos pulsos laser em 780 nm. Este sistema de controle de formato de pulso foi então integrado ao sistema de geração de pulsos ultracurtos no ultravioleta profundo através do processo de mistura de ondas já implementado. Este estudo teve como objetivo, a obtenção da modulação indireta da fase espectral de pulsos em 260 nm através da transferência de fase espectral modulada de pulsos em 780 nm. Resultados iniciais interessantes foram obtidos utilizando uma fase espectral do tipo degrau com amplitude radianos, indicando a correta implementação do sistema. A obtenção de pulsos laser de femtossegundos no ultravioleta profundo com fase espectral modulada é de grande interesse para realização de experimentos de controle coerente nesta região espectral e também para estudos básicos de como a transferência de fase espectral ocorre para diferentes processos ópticos não lineares. Experimentos de geração de altos harmônicos pela técnica de conversão de frequência com casamento de fase em capilar preenchido com gás nobre, utilizando pulsos laser de femtossegundos em 400nm e 800nm, foram realizados durante estágio na Universidade do Colorado, EUA. Neste estudo, utilizando pulsos em 400nm, foi obtido um aumento maior que uma ordem de grandeza na região espectral em torno de 60eV em comparação com o fluxo de harmônicos gerados, nesta mesma região de energia, com pulsos centrados em 800nm. Por fim, através da experiência adquirida durante este estágio, foi desenvolvido e implementado em nosso laboratório um sistema de geração de altos harmônicos na região do ultravioleta extremo, baseado na técnica de conversão em capilar preenchido com gás argônio. Harmônicos de alta ordem na região de energia de 40ev (31nm) foram obtidos, tendo sido demonstrada a conversão sob condição de casamento de fase. Utilizando pulsos de femtossegundos em 780nm, a ordem máxima do harmônico observada foi igual a 27 (28.9nm, 42.9eV), devido a limitação da faixa espectral do monocromador utilizado em nossos experimentos. A implementação deste sistema torna disponível no Grupo de Fotônica, uma fonte de luz coerente no ultravioleta extremo, cujas propriedades únicas já tem sido amplamente exploradas em uma variedade de estudos de ciência básica e aplicada. / The main purpose of this thesis was the implementation and study of femtosecond laser pulses generation at short wavelengths (deep ultraviolet, vacuum ultraviolet end extreme ultraviolet) by the technique of frequency conversion in a hollow fiber filled with a noble gas. This frequency conversion technique has made several contributions in the last decades to improve the generation of ultrashort laser pulses in this spectral region. The development of such coherent light sources has important implications on ultrafast time-resolved spectroscopic study of atoms, molecules and materials. Through the implementation of the technique of phase matched frequency conversion in a gas filled hollow fiber using argon, it was possible to obtain femtosecond pulses centered at 260 nm and 195 nm using a Ti: sapphire amplified laser (780 nm, 1.5 mJ, 43 fs, 1 KHz). These wavelengths corresponds, respectively, to the third and fourth harmonics of the laser fundamental frequency. Pulses centered at 260 nm with excellent spatial profile, energies on the order of microjoules and temporal durations down to 18 fs, trough the compression by a prism pair, were obtained, which have wide applicability in nonlinear and time resolved optical spectroscopic studies. Ultrashort pulses at 195 nm where also obtained. An investigation of the influence of the spectral phase modulation of the laser pulses at 780 nm on the four-wave mixing nonlinear process for harmonic generation was also performed. In this way, a femtosecond pulse shaper based on a liquid crystal spatial light modulator in the 4f configuration was implemented in order to modulate the spectral phase of femtosecond pulses at 780 nm. This pulse shaper was then integrated to the system for generation of ultrashort pulses in the deep ultraviolet through the wave mixing process already implemented. This study aimed to obtain the indirect modulation of the 260 nm pulses spectral phase through the transfer of modulated spectral phase from pulses at 780 nm. Interesting initial results were obtained using a -step spectral phase, indicating the correct implementation of the system. The achievement of femtosecond pulses with modulated spectral phase in the deep ultraviolet is of great interest to perform coherent control studies in this spectral range and also for basic studies of how the spectral phase transfer occurs with different nonlinear optical laser processes. High-harmonic generation experiments based in the phase-matched frequency conversion in noble gas filled hollow fiber technique, using femtosecond pulses at 400 nm and 800 nm, were carried out during a internship at University of Colorado, USA. In this study, using pulses at 400 nm, an increase higher than one order of magnitude was obtained in the spectral region of 60 eV compared to harmonics generated, in this same region, with pulses at 800 nm. Finally, through the experience obtained during this internship, were carried out in our laboratory the development and implementation of a high harmonic generation system, based on the frequency conversion in a hollow fiber filled with argon gas. High harmonics with energies around 40eV (31nm) were obtained, and the conversion under phase-matched condition was demonstrated. Using pulses centered at 780nm, the highest harmonic order measured was 27 (28.9nm, 42.9eV), due to the spectral range limitation of monochromator used in our experiments. With the implementation of this system, becomes available at the Photonics Group a coherent light source at extreme ultraviolet wavelengths, which the unique properties have been already widely explored on a diversity of fundamental studies in basic and applied science. Capilares preenchidos com gases Conversão paramétrica de frequência Geração de altos harmônicos Modulação da fase espectral Pulsos de femtossegundo High-harmonic generation Parametric frequency conversion Spectral phase modulation
55	Efeitos sequenciais do treinamento aeróbio sobre a microcirculação muscular esquelética, cardíaca e renal em ratos hipertensos espontâneos / Sequential effects of aerobic training on microcirculation of skeletal muscle, heart and kidney in hypertensive spontaneously rats Tatiana Pereira Alves 13 March 2014 (has links) Estudos demonstram que o treinamento aeróbio é capaz de reduzir a razão parede/luz (RP/L) de arteríolas musculares esqueléticas e reduzir a pressão arterial média, PAM (em hipertensos), além de causar bradicardia de repouso e aumentar a densidade de capilares e vênulas (em hipertensos e normotensos) após 13 semanas de treinamento. Investigamos em ratos normotensos (WKY, Wistar Kyoto) e hipertensos espontâneos (SHR) as alterações estruturais da microcirculação muscular esquelética, cardíaca e renal, relacionando-as aos valores de PAM e frequência cardíaca (FC) em diferentes fases de um protocolo de treinamento. Para tal, WKY e SHR (2 meses de idade) foram submetidos ao protocolo de treinamento físico de baixa intensidade por tempos crescentes (semanas 0, 1, 2, 4, 8 e 12) ou mantiveram-se sedentários (semanas 0 e 12). Ao final de cada tempo de estudo foram mensurados de modo direto a PAM e a FC e coletados coração, rim e músculos temporal, sóleo e gastrocnêmio. Realizou-se análise da RP/L e quantificação de capilares e vênulas (através do ácido periódico de Schiff). O treinamento aeróbio aumentou a densidade capilar e venular de WKY e SHR (apenas em territórios exercitados e com maior magnitude nos hipertensos), em seguida causou redução da razão parede/luz das arteríolas musculares esqueléticas (apenas em SHR, precocemente e em maior magnitude em territórios exercitados) e só então reduziu a PAM de SHR e a FC de WKY e SHR. A partir dos resultados obtidos, podemos dizer que alterações estruturais da microcirculação antecedem a melhora dos níveis pressóricos de hipertensos e ainda, são capazes de proporcionar melhoras vasculares aos normotensos / Previous observations have shown that aerobic training reduce the wall/lumen ratio (RW/L) of skeletal muscle arterioles and reduce mean arterial pressure (MAP) in hypertensive rats, cause bradycardia, and increase capillary and venular density also in hypertensive and normotensive rats after 13 weeks of training. We investigated simultaneously the time-course changes of arterioles remodeling, MAP, HR and capillary and venular density during the development of low-intensity exercise protocol. Normotensive rats (WKY, Wistar Kyoto) and spontaneously hypertensive (SHR), two-months old were submitted to aerobic training protocol (weeks 0, 1, 2, 4, 8 and 12) or remained sedentary (weeks 0 and 12). In each study time were measured the MAP and HR and collected heart, kidney, temporalis, soleus and gastrocnemius muscles to analyze the RW/L and quantificate capillaries and venules (by Periodic Acid-Schiff staining). Aerobic training increased capillary and venular density of WKY and SHR (only in exercised territories), caused a reduction of the RW/L of skeletal muscle arterioles (only in SHR, early and in greater magnitude in exercised territories) and only then reduced MAP of SHR and HR of WKY and SHR. The structural changes of microcirculation preceded improvement of blood pressure levels in hypertensive rats and provided vascular improvements to normotensive rats Arteríolas Capilares Condicionamento físico animal Frequência cardíaca Hipertensão Microcirculação Pressão arterial Ratos Teste de esforço Vênulas Arterial pressure Arterioles Capillaries Exercise test Heart hate Hypertension Microcirculation Physical conditioning animal Rats Venules
56	Nutrition and Vascular Supply of Retinal Ganglion Cells during Human Development Rutkowski, Paul, May, Christian Albrecht 19 December 2016 (has links) Purpose: To review the roles of the different vascular beds nourishing the inner retina [retinal ganglion cells (RGCs)] during normal development of the human eye, using our own tissue specimens to support our conclusions. Methods: An extensive search of the appropriate literature included PubMed, Google scholar, and numerous available textbooks. In addition, choroidal and retinal NADPH-diaphorase stained whole mount preparations were investigated. Results: The first critical interaction between vascular bed and RGC formation occurs in the sixth to eighth month of gestation leading to a massive reduction of RGCs mainly in the peripheral retina. The first 3 years of age are characterized by an intense growth of the eyeball to near adult size. In the adult eye, the influence of the choroid on inner retinal nutrition was determined by examining the peripheral retinal watershed zones in more detail. Conclusion: This delicately balanced situation of RGC nutrition is described in the different regions of the eye, and a new graphic presentation is introduced to combine morphological measurements and clinical visual field data. info:eu-repo/classification/ddc/610 ddc:610
57	The role of pericytes in the regulation of retinal microvasculature dynamics in health and disease Villafranca-Baughman, Deborah 12 1900 (has links) No description available. Visual system Retina Neurovascular coupling Pericyte Capillaries Blood flow Ischemia Vascular impairment Live imaging 2-photon microscopy Système visuel Rétine Couplage neurovasculaire Péricyte Capillaires Circulation sanguine Ischémie Déficience vasculaire Imagerie en direct Microscopie à 2 photons
58	Chemosensitive Neurons of the Locus Coeruleus and the Nucleus Tractus Solitarius: Three Dimensional Morphology and Association with the Vasculature Graham, Cathy D. 03 September 2014 (has links) No description available. Physiology Neurosciences Biomedical Research Morphology chemosensitive morphology central chemosensitivity NTS chemoreceptor CO2 sensor vasculature blood vessels capillaries blood brain barrier pH blood gases
59	Sexual Dimorphism of Glomerular Capillary Morphology in Rats Coker, Zackarias 01 May 2023 (has links) (PDF) Chronic kidney disease (CKD) progresses faster in males than females; however, the underlying mechanisms remain poorly understood. Sex differences in glomerular capillary morphology has been hypothesized to contribute, in part, to the increased susceptibility to hypertension-induced renal injury and CKD progression in males, but this has not been investigated. The goal of the present study was to assess glomerular capillary morphology in male vs. female rats with intact kidneys and after uninephrectomy (UNX). We hypothesized that glomerular capillary radii (RCAP) and length (LCAP) would be greater in male rats. Male (n=4) and female (n=4) with intact kidneys and UNX (n=4 males, n=4 females) provided a 0.4% NaCl diet and water ad libitum. Kidneys were perfusion-fixed, the left kidney was excised, and a 3 mm transverse section through the midline of the kidney was selected for further processing. Multiple 1 mm3 cubes were randomly excised from the left, middle, and right regions of the outer cortex, embedded in EPONTM, sectioned (1 μm), and stained with toluidine blue. Four glomeruli from each region were randomly selected for stereological analysis. Glomerular tuft volume (VG), RCAP, and LCAP were assessed. In rats with intact kidneys, no significant sex differences were observed in VG, RCAP, or LCAP. VG, RCAP, and LCAP were significant greater in both male and female rats with UNX vs. respective rats with intact kidneys. In rats with UNX, males exhibited a significantly greater VG and LCAP, but not RCAP, as compared to females despite no significant differences in relative kidney weight. These data indicate that males exhibit greater compensatory increases in LCAP following UNX. The greater capillary length may lead to reduced podocyte density, a well-known mechanism that increases the susceptibility to CKD progression. Rats Chronic Kidney Disease Glomerular Capillaries Kidneys End Stage Renal Disease Podocytes Animal Experimentation and Research Animals Animal Structures Cardiovascular System Fluid Dynamics Human and Clinical Nutrition Male Urogenital Diseases Medical Biophysics Medical Physiology Other Physiology Physics Reproductive and Urinary Physiology Urogenital System Urology

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