Comparação entre as concentrações de tetraciclina no plasma, líquido sinovial e leite de vacas com doença do casco, submetidas às administrações intravenosa e intravenosa regional e sua implicação na presença de resíduos no leite / Comparision among tetracycline concentrations in plasma, synovial fluid and milk in cows with lameness in foot, subjected to intravenous and regional intravenous administration and their implications in the presence of residues in milk

Cláudia Esteban

26 August 2003

O presente trabalho visa desenvolver métodos que permitam determinar as concentrações de tetraciclina, por Cromatografia Líquida de Alta Eficiência, no plasma e líquido sinovial, além de analisar as concentrações correspondentes em leite de gado leiteiro em lactação submetidos aos tratamentos intravenoso e intravenoso regional. Desta forma, objetivando determinar a depuração da tetracic1ina no organismo dos animais tratados, a concentração do fármaco no sítio de ação e a quantidade residual em leite, as amostras biológicas foram colhidas e quantificadas em diferentes tempos pré e pós-administração do fármaco. Os métodos analíticos validados apresentaram linearidade, limite de detecção, quantificação, exatidão, precisão e recuperação adequados à quantificação do antibiótico nas matrizes biológicas estudadas. As amostras de leite de animais tratados com o medicamento por via intravenosa regional, não apresentaram resíduos após 120h da administração do fármaco. O mesmo ocorreu plasma e líquido sinovial após 48 h. Através da administração via intravenosa do medicamento foram observados resíduos no leite em todos os tempos avaliados, ao passo que no plasma e líquido sinovial, a presença do princípio ativo não foi detectada após 72 horas pós-tratamento. / The purpose of the present work is to develop methods which allow the determination of tetracycline by High Pressure Liquid Chromatography in serum, synovial fluid, as well as analyze the corresponding milk concentrations in milk cows subjected to intravenous and regional intravenous treatment. Therefore, aiming to determine the clearance of tetracycline in the body of the treated animals, the concentration of the active principle in the action site and the residual quantity in milk, biological matrices were collected at different times. The validated analytical methods depicted suitable linearity, detection and quantification limits, accuracy, precision and recovery, allowing the quantification of the antibiotic in the studied biological matrices. In relation to the milk samples from animals treated with the drug by regional intravenous via, they did not present residues of tetracycline after 120 h post-administration. The values were also null for both serum and synovial fluid after 48 h. Through regional intravenous drug administration, milk residues were observed in all the evaluated times whereas for serum and synovial fluid, the presence of the active principle was not detected after 72h post-treatment.

Administração intravenosa

Administração intravenosa regional

Contaminação de alimentos

Leite (Análise qualitativa)

Líquido sinovial

Plasma

Resíduos em leite

Tetraciclina

Toxicologia de alimentos

Food contamination

Food toxicology

Intravenous administration

Milk (Qualitative analysis)

Milk residues

Regional intravenous administration

Serum

Synovial fluid

Tetracycline

Estudo temporal dos colágenos (I, III, IV e V) e produtos de glicação avançada na sinóvia em modelo experimental de diabetes em ratos / Study of temporal collagens (I, III, IV and V) and advanced glycation end products synovium in experimental model of diabetes in rats

Priscila Cristina Andrade

20 June 2018

Introdução: Diabetes Mellitus é caracterizada por hiperglicemia crônica, e este aumento excessivo de glicose circulante pode gerar danos vasculares e microvasculares pela deposição de produtos de gliclação avançada (AGE), principalmente em estruturas com alta vascularização, como é o caso da sinóvia. Por todas estas razões, o presente estudo estabeleceu, de maneira temporal, o processo de acomentimento sinovial, através do grau de remodelamento e as proteínas envolvidas neste processo, tido como o gatilho na lesão da articulação do joelho. Foram utilizados ratos wistar (n=60), divididos em três grupos, conforme tempo de indução ( 7, 30 e 60 dias), cada grupo era composto de 10 animais diabéticos, induzido por estreptozotocina (35mg/kg de peso) e 10 animais controle, recebendo infusão do mesmo volume de solução salina, após o tempo estipulado os animais foram sacrificados e a sinóvia coletada para as análises propostas. Análise morfológica através de colorações de hematoxilina-eosina para análise do perfil celular do tecido sinovial e Picrosírius para avaliação da histoarquitetura das fibras colágenas. A quantificação das fibras colágenas foi realizada pela coloração do Picrosírius em microscópio de luz polarizada e a caracterização e distribuição de seus tipos por imunofluorescência, para quantificação total da proteina de colágeno foi realizado a medição da 4-hidroxiprolina (HPO). Os produtos de glicação avançada foram analisados e quantificados por imufluorescência. A detecção e quantificação da imunoexpressão de marcadores bioquímicos como ET-1, TGF-B e IL17 foi realizado por método estereológico de contagem de pontos em reticulo, e como método de confirmação dos achados imunohistoquimicos foi realizado análise de expressão gênica dos Colágenos I,III, e V alfa- 1, alfa-2), por Reação de Transcrição Reversa com amplificação por PCR em Tempo Real (qRT-PCR). Resultados: Foi observado modificação da estrutura sinovial de forma temporal, acometendo inicialmente os vasos subsinoviais e tecidos adjacentes a ele, isso foi observado em tanto em análise morfológica como confirmado em quantificação por Picro em luz polarizada, as modificações se mostraram significantes nos grupos de 30 e 60 dias, quando comparado ao respectivo grupo controle, houve aumento do colágeno total, através do Picrosirius, como por dosagem de HOP. Os resultados foram confirmados por imunofluorescência com o aumento progressivo do COLI e diminuição de COLIII e COLV, o RAGE e AGE também tiveram sua expressão aumentada conforme a evolução no tempo de indução dos animais. Em análise da expressão de outras proteínas foi possível observar a detecção da ET-1 e da IL-17 nos animais diabéticos em comparação ao controle, houve também expressão significativa do TGF-B quando comparado ao respectivo controle. Na análise da expressão gênica foi possível observar aumento do COLV inicialmente, principalmente da cadeia alfa 2, do COLIII e COLI, confirmando achados histomorfométricos. Conclusão: O tecido sinovial demonstra remodelamento precoce ao redor dos vasos, essa mediação envolve o COL1 e os produtos de glicação avançada. Esta alteração no tecido sinovial pode ser responsável por desencadear o acometimento articular no diabetes mellitus / Introduction: Diabetes Mellitus is characterized by chronic hyperglycemia, and this excessive increase of circulating glucose can cause vascular and microvascular damage by the deposition of advanced glycation products (AGE), especially in structures with high vascularization, as is the case of synovium. For all these reasons, the present study established, in a temporal way, the process of synovial concomitance, through the degree of remodeling and the proteins involved in this process, considered as the trigger in the lesion of the knee joint. Wistar rats (n = 60), divided into three groups, according to induction time (7, 30 and 60 days), each group consisted of 10 diabetic animals, induced by streptozotocin (35 mg / kg body weight) and 10 animals control, receiving infusion of the same volume of saline solution, after the stipulated time the animals were sacrificed and the synovium collected for the proposed analyzes. Morphological analysis using hematoxylineosin staining for analysis of the cellular profile of the synovial tissue and Picrosírius for evaluation of the histoarchitecture of the collagen fibers. The quantification of the collagen fibers was performed by the Picrosírius staining in a polarized light microscope and the characterization and distribution of its types by immunofluorescence, the measurement of 4-hydroxyproline (HPO) was performed for the total quantification of the collagen protein. Advanced glycation products were analyzed and quantified by impuluorescence. The detection and quantification of the immunoexpression of biochemical markers such as ET- 1, TGF-B and IL17 was performed by stereological method of reticule dot counting, and as a method of confirming the immunohistochemical findings, the analysis of the collagen I, III , and V alpha-1, alpha-2), by Reverse Transcription Reaction with Real-Time PCR Amplification (qRT-PCR). Results: Modification of the synovial structure was observed temporally, initially affecting subsynovial vessels and tissues adjacent to it, this was observed in both morphological analysis and confirmed in quantification by Picro in polarized light, the modifications were significant in the groups of 30 and 60 days, when compared to the respective control group, there was increase of the total collagen, through Picrosirius, as per HOP dosage. The results were confirmed by immunofluorescence with progressive increase of COLI and decrease of COLIII and COLV, RAGE and AGE also had their expression increased as the evolution in the induction time of the animals. In the analysis of the expression of other proteins it was possible to observe the detection of ET-1 and IL-17 in diabetic animals in comparison to the control, there was also significant expression of TGF-B when compared to the respective control. In the analysis of the gene expression it was possible to observe an increase of the COLV initially, mainly of the alpha 2 chain, of the COLIII and COLI, confirming histomorphometric findings. Conclusion: Synovial tissue demonstrates early remodeling around vessels, this mediation involves COL1 and advanced glycation products. This change in synovial tissue may be responsible for triggering joint involvement in diabetes mellitus

Células endoteliais

Colágeno

Diabetes mellitus experimental

Líquido sinovial

Membrana sinovial

Produtos finais de glicação avançada

Transtornos da articulação

Advanced glycation end products

Articulation disorders

Collagen

Diabetes mellitus experimental

Endothelial cells

Synovial fluid

Synovial membrane

Nanophysical analysis to study evolution of vascular and articular inflammatory pathologies / Analyse nano physique pour étudier l’évolution des pathologies inflammatoires vasculaires et articulaires

Mirea, Dragoş Alexandru

21 December 2011

Les pathologies inflammatoires vasculaires (PV) et articulaires (PA) représentent aujourd'hui la cause principale de la mortalité et d’invalidité dans les pays industrialisés. Comme les causes exactes favorisant leur apparition restent inconnues, le présent travail a proposé de nouvelles méthodes physiques susceptibles de détecter les premiers stades inflammatoires en utilisant des marqueurs spécifiques et d'étudier les changements mécaniques et structuraux subis par les tissus vasculaires et le liquide synovial (LS). Les PV peuvent être détectées en utilisant les examens IRM. Afin d’améliorer l’efficacité des agents de contraste IRM ceux-ci peuvent être greffés avec des anticorps. En utilisant la Spectroscopie de Force (SF), un mode de la Microscopie à Force Atomique, l’affinité établie entre un nouvel anticorps, le Fucoidan, et le marqueur spécifique P-Selectine a été analysé. L’étude sur PV a été finalisée en utilisant les mêmes techniques SF en mesure d’indentation afin de connaitre les changements de propriétés mécaniques entre les tissus vasculaires sains et pathologiques. Les modifications dans la dynamique du LS déclenchées par l'une des molécules incapables de réagir selon leur fonctionnalité peuvent conduire aux PA. Aussi la technique SF a été utilisée pour étudier le comportement de chaque composant moléculaire du LS. Il a été prouvé l’affinité de ces composants pour les bicouches lipidiques (BL), fréquemment rencontrées dans le corps humain. L’étude a été complétée par l’analyse des changements intervenant dans la dynamique des BL en présence/absence des composants principaux de LS. Les investigations ont été réalisées par un test de Récupération de Fluorescence Après Photoblanchiment. Enfin un test tribologique a été conduit pour étudier la variation du coefficient de frottement entre les BL et les composants du LS / As vascular (VP) and articular (AP) inflammatory pathologies represent nowadays the principal cause of mortality and disability in industrialized countries, the exact causes favoring their occurrence remain still unknown. The present work aimed at proposing new physical methods to detect the early inflammatory stages through recognition of specific markers and to study the structural and mechanical changes undergone by pathological vascular tissues and synovial fluid (SF). Vascular pathologies can be detected through contrasted MRI pictures. In order to improve the capacity of contrast agents to target specific markers they can be antibody-grafted. Atomic Force Microscopy’s mode Force Spectroscopy (AFM-FS) was used to evaluate the affinity between the Fucoidan as a new antibody, and the P-Selectin vascular inflammatory marker, for capacity to target that marker. Further study of VP used the FS techniques for nanoindentation to study changes in mechanical properties between healthy and pathological vascular tissues. Modifications in SF’s dynamics triggered by one of the molecular component not fulfilling its role may lead to AP. To investigate this issue, each of the main SF’s molecular components had their affinity tested versus the ever-present lipid bilayers using AFM-FS techniques. Furthermore changes in lipid bilayers’ dynamics in the presence/absence of the main SF components were analyzed by Fluorescence Recovery After Photobleaching technique. Finally a tribological test was performed to study the variation of the friction coefficient between the lipid bilayers and SF’s main components

Microscopie à Force Atomique

Spectroscopie de Force

Athérosclérose

Liquide synovial

Arthrose

Pathologies inflammatoires

Bicouches lipidiques

Atomic Force Microscopy

Force Spectroscopy

Atherosclerosis

Synovial Fluid

Osteoarthritis

Inflammatory Pathologies

Lipid bilayers

612.014

Rheo-NMR studies of viscoelastic secondary flows in ducts of non-circular cross-section

Schroeder, Christian Berthold Karl

07 May 2012

The existence of hydrodynamically developed, laminar Viscoelastic Secondary Flows (VSFs) of non-Newtonian fluids in straight ducts of non-circular cross-section was proposed in the 1950's. VSFs have since been observed sporadically, and only once with a velocimetric technique. Using axial and transverse full flow-field velocity-position raster maps made with Rheological Nuclear Magnetic Resonance (Rheo-NMR), Newtonian and non-Newtonian fluid flows were quantified in Hagen-Poiseuille and Power Law contexts, over more than two orders of magnitude of flow rate, in ducts of circle, square, triangle, and pentagon cross-section. VSF was reliably and repeatedly observed to occur at between one part in 130 and one part in 600 of the primary axial flow velocity. Velocity measurements ranged from <10 µm/s to approximately 30 cm/s, suggesting a velocity dynamic range >3E4 without optimization. To obtain VSF flow direction information, a novel flow directional phantom was developed and characterized. Aqueous solutions of Polyethylene Oxide (PEO), Viscarin GP-109NF, Viscarin GP-209NF (V209), Hyaluronan (HA) in a Phosphate-Buffered Saline-like solvent, and an aqueous Polyethylene Glycol/PEO-based Boger fluid were investigated. Axial data was corroborated with related data gathered by an independent method. Basic simulations corroborated the VSF observations. Duct hydraulic diameters (>= 1.6 mm) approached the micro-channel regime. VSF detections in HA --- synovial fluid's principal component --- and V209 were novel, as were observations of some artifacts which were subsequently characterized and corrected. The detection of VSF in HA represents the first experimental evidence suggesting that its second normal stress (N_2) is comparable to that of better-characterized fluids. In the first application of a new VSF-based method, a particular Boger fluid's constant viscosity and, in the square duct, its lack of VSF were used with established criteria to suggest that the fluid's N_2 approached zero. The development of a rudimentary, but versatile and inexpensive home-built velocimetric spectrometer is detailed, as are several new components. An exhaustive VSF literature review is included. The remarkable transverse velocimetric ability of Rheo-NMR in both optically opaque and transparent system is highlighted, suggesting that perhaps the technique might represent, in both micro-channels and conventional ducts, the gold-standard in flow velocimetry.

Chemické a mechanické procesy v synoviálních tekutinách - modelování, analýza, počítačové simulace / Biochemical and mechanical processes in synovial fluid - modeling, analysis and computational simulations

Pustějovská, Petra

January 2012

vi Title: Biochemical and mechanical processes in synovial fluid - modeling, mathematical analysis and computational simulations Author: Petra Pustějovská (petra.pustejovska@karlin.mff.cuni.cz) Department: Matematický ústav UK, Univerzita Karlova v Praze Institut für Angewandte Mathematik, Universität Heidelberg Supervisors: prof. RNDr. Josef Málek CSc., DSc. (malek@karlin.mff.cuni.cz) Matematický ústav UK, Univerzita Karlova v Praze, Prof. Dr. Dr. h.c. mult. Willi Jäger (jaeger@iwr.uni-heidelberg.de) Institut für Angewandte Mathematik, Universität Heidelberg Abstract: Synovial fluid is a polymeric liquid which generally behaves as a viscoelastic fluid due to the presence of polysaccharide molecules called hyaluronan. In this thesis, we study the biological and biochemical properties of synovial fluid, its complex rheology and interaction with synovial membrane during filtration process. From the mathematical point of view, we model the synovial fluid as a viscous incompressible fluid for which we develop a novel generalized power-law fluid model wherein the power-law exponent depends on the concentration of the hyaluronan. Such a model is adequate to describe the flows of synovial fluid as long as it is not subjected to instantaneous stimuli. Moreover, we try to find a suitable linear viscoelastic model...

Molekuly "DASH systému" v lokálních a systémových patogenetických procesech revmatoidní artritidy / "DASH molecues" in local and systemic pathogenetic processes of rehumatoid arthritis

Šromová, Lucie

January 2015

The biological half-life of several pro-inflammatory mediators involved in the pathogenesis of rheumatoid arthritis (RA) is controlled by molecules exhibiting dipeptidyl peptidase-IV (DPP-IV)-like enzymatic activity (Dipeptidyl peptidase-IV activity and/or structure homologues- DASH). The aim of this thesis was to identify the molecular source of the DPP-IV-like enzymatic activity in the peripheral blood and synovial fluid in patients with rheumatoid arthritis as compared to control patients with osteoarthritis (OA), and to evaluate the association of DPP-IV with the disease activity. We found that the main source of the DPP-IV-like enzyme activity in the plasma and in the synovial fluid in patients with RA is the canonical DPP-IV. DPP-IV-like enzymatic activity and canonical DPP-IV were also detected on the cell surface of blood and synovial fluid mononuclear cells. Significantly lower DPP-IV-like enzymatic activity and DPP-IV expression in the synovial fluid mononuclear cells was found in RA as opposed to OA patients. In the synovial fluid of RA patients there was also a negative correlation between the concentration of the pro-inflammatory DPP-IV substrate SDF (stromal cell-derived factor-1 and the proportion of the DPP-IV+ T cells. The blood plasma DPP-IV-like enzymatic activity and...

Fonctionnement tribologique des articulations synoviales pathologiques : Rôle des interfaces phospholipidiques / Tribological operation of pathological synovial joints : Role of phospholipidic interfaces

Corneci, Magdalena Carla

21 September 2012

Afin d’améliorer l’efficacité des traitements des pathologies articulaires, en tenant compte de leur complexité et de leur ampleur, des études récentes ont mis en évidence le rôle des assemblages lipidiques associés à la structure discontinue du fluide synovial dans le contrôle du fonctionnement tribologique articulaire. Ceci à conduit à la mise au point d’un modèle tribologique ex vivo (thèse AM Sfarghiu, 2006), proposant un « motif élémentaire » de la biolubrification articulaire, constitué de l’empilement d’interfaces phospholipidiques et de couches aqueuses. En utilisant ce modèle, l’objectif de ce travail a été d’étudier l’évolution des interfaces phospholipidiques du fluide synovial en présence de pathologies. Pour ce faire, une méthodologie nano-bio-tribologique alliant des analyses biochimiques, physicochimiques, nano-mécaniques et tribologiques a été utilisée. Les résultats de ces analyses montrent : l’influence de la faible rugosité des surfaces frottantes caractérisant les stades précoces des pathologies et celle des propriétés des interfaces phospholipidiques (liées à la variation de leur composition) sur la résistance mécanique, l’évolution au cours du frottement et la dégradation in situ des assemblages lipidiques des fluides synoviaux pathologiques. Le comportement des assemblages lipidiques est accentué par l’action des enzymes associées aux pathologies. Par conséquent, le fonctionnement articulaire dépend de la résistance mécanique des interfaces phospholipidiques et pour obtenir des coefficients de frottement très bas, l’accommodation de vitesse doit s’effectuer au niveau des couches d’hydratation qui entourent les ions présents dans la couche aqueuse. Ces résultats permettront de comprendre à court terme l’évolution des interfaces phospholipidiques dans les pathologies articulaires et, à plus long terme le bon enchaînement cause/conséquence responsable d’une pathologie articulaire afin de développer des traitements plus efficaces, ciblés et non prothétiques. / In order to improve the effectiveness of joint diseases’ treatments, given their complexity and magnitude, recent studies have highlighted the role of lipid assemblies associated with the discontinuous structure of the synovial fluid (SF) in the tribological performance of joint operation. Thus, an ex vivo tribological model (AM Sfarghiu, PhD thesis, 2006) providing a "basic pattern" for joint biolubrification was developed. It consists of the stack of phospholipidic interfaces and aqueous layers. Using this model, the objective of this work was to study the evolution of phospholipidic interfaces of SF within pathological state. Therefore, a nano-bio-tribological methodology combining biochemical, physicochemical, nano-mechanical and tribological analysis was used. The results of these analyses show: the influence of even small rubbing surfaces’ roughness characteristics of early stage illness and that of phospholipidic interfaces’ properties (related to their composition change) on the mechanical strength, changes in friction and in situ degradation of lipidic assemblies of pathological SF. The tribological operation is highlighted by enzymes’ associated with diseases. Thus, joint operation depends on the mechanical strength of phospholipidic interfaces and to obtain very low friction coefficients, velocity accommodation must be done at the level of hydration layers surrounding ions in the aqueous solution. These results would therefore allow better understanding of the evolution of phospholipidic interfaces in joint diseases and of the proper cause/consequence sequence responsible for a joint disease in order to develop more effective, targeted and non prosthetic treatments.

Biosciences

Biomécanique

Nano-bio-tribologie

Analyse lipidomique

Articulation synovial pathologique

Fluide synovial

Assemblage lipidique

Lubrification par couche

Triplet bio-tribologique

Modèle ex vivo

Phospholipides

Coefficient de rétrodiffusion

Microscopie optique en fluorescence

Microscopie de Force Atomique

Biosciences

Biomechanics

Nanobiotribology

Lipidomics

Pathological synovial joint

Synovial fluid

Lipids assemblies

Lubrication layers

Biotribological triplets

Ex vivo model

Phospholipids

Frictions

Fluorescence optical microscopy

Atomic force microscopie

571.407 2