REACTIVE HYPEREMIA IN CAT MESENTERY CAPILLARIES

Pollock, George Paul, 1938-

January 1975

No description available.

Hyperemia.

Mesentery.

Cats.

Validation of Rat Mesentery Culture Model for Time-Lapse Drug Evaluation and Cell Lineage Studies

January 2017

acase@tulane.edu / An emerging need in the microcirculation research is the development of biomimetic angiogenesis models that recapitulate the complexity of a real tissue. Angiogenesis, defined as the growth of new vessels from pre-existing vessels, involves multiple cell types, such as endothelial and perivascular cells, in a multi-system setting since blood vessel networks are usually accompanied by lymphatic and nervous systems. Therefore, a need exists for a model of angiogenesis from intact microvascular networks that more closely reflects an in vivo scenario for the investigation of underlying mechanisms and the pre-clinical development of therapies. While other approaches have proven useful in identifying mechanistic signaling information, they are often limited in their complexity and capability to mimic physiologically relevant scenarios in one way or another and do not fully recapitulate the in vivo scenario. The first aim of this study was to demonstrate the ability for time-lapse comparisons of microvascular networks in angiogenesis scenarios to investigate the fate of vascular islands and investigate the endothelial cell plasticity. We developed a time-lapse angiogenesis model based on our previously introduced rat mesentery model. We demonstrated that time-lapse rat mesentery culture model is a powerful tool to study multi-cell, multi-system dynamics in microvascular networks. For the second aim of this study, we used the method developed in aim one to establish rat mesentery culture model as a novel anti-angiogenic drug screening tool. Using time-lapse model enabled tissue-specific comparisons before and after drug treatment to investigate its effects on entire microvascular networks. Validation of this method for anti-angiogenic drug testing was demonstrated using known angiogenesis inhibitor. Next, we showcased a potential application of the model for evaluating unknown effects of drug repositioning based on FDA-approved drug combinations. The results demonstrated the ability to identify concentration-dependent effects in an intact network scenario. The objective of the third aim was to showcase the capability of the rat mesentery culture model to study stem cell fate. We developed a protocol to deliver mesenchymal stem cells to mesentery tissues and culture for a period of time in a controlled environment. We confirmed the perivascular location of a subset of stem cells within capillaries, with morphologies resembling pericytes, and expressing pericyte markers. We also demonstrated that tracking stem cells within the microvascular networks is possible using the rat mesentery culture model. Furthermore, we reported a high variability in perivascular incorporation among cells from different donors. This work establishes for the first time, to the best of our knowledge, an ex vivo model to look at microvascular networks before and after growth. We confirmed, for the first time, vascular island incorporation as a new mode of angiogenesis using a novel method for time-lapse imaging of microvascular networks ex vivo. The results also establish this method for drug testing and stem cell tracking in a microvascular setting. / 1 / Mohammad Sadegh Azimi

Mesentery

Microcirculation and Angiogenesis

Pericyte and Endothelial Cell

Caractérisation expérimentale du mésentère humain et approches de modélisation de l’abdomen soumis à un impact / Experimental characterization of the human mesentery and modelling approaches to the abdomen subjected to an impact

Bourdin, Xavier

13 July 2011

Bien que les organes creux (intestins, etc.) puissent être lésés lors d’accidents automobiles, les recherches biomécaniques passées se sont principalement intéressées aux organes pleins. Deux axes de recherche ont été explorés dans cette étude : - le comportement mécanique du mésentère humain, qui est le principal moyen de fixité de l’intestin grêle, a été caractérisé lors d’essais de traction sur échantillons. Le mésentère s’est comporté comme un matériau anisotrope sensible à la vitesse de déformation. Des valeurs de raideur et déformation à rupture ont été proposées. - les effets des conditions aux limites entre organes sur les réponses interne et externe de l’abdomen ont été étudiés par simulation. Des modélisations permettant ou non le glissement entre un solide représentant les intestins, les organes pleins et la cavité abdominale ont été implémentées dans trois modèles éléments finis qui ont été soumis à des impacts correspondant à une étude de la littérature. Les relations force-déflexion, et les cinématiques internes et externes étaient très similaires pour les trois modèles. Les déformations prédites dans un mésentère très simplifié étaient supérieures aux déformations à rupture obtenues expérimentalement sur échantillons. Toutefois, aucune lésion du mésentère n’était décrite dans l’étude de référence. Ce résultat pourrait remettre en cause la représentation des intestins par un solide unique typiquement utilisée dans les modèles existants ainsi que celle du mésentère utilisée dans cette étude. En l’absence de données internes sur les organes et le mésentère lors d’un choc, il est difficile de savoir comment ces modélisations devraient évoluer. / While hollow organs (intestines, etc.) can be injured during automotive accidents, past biomechanical research were largely focused on solid organs. Two research topics were developed in the current study: - the mechanical response of the human mesentery – which is the main attach point of the small intestines – was characterized during tensile tests conducted on samples. The mesentery behaved like an anisotropic strain rate sensitive material. Stiffness and failure strain values were proposed. - the effects of the boundary conditions between organs on the internal and external response of the abdomen were studied using simulations. Different modelling approaches allowing or not sliding between a solid component representing the intestines, the solid organs and the abdominal cavity were implemented in three finite element models that were subjected impacts derived from a literature study. The relationship between force and deflection, and the internal and external kinematics were very similar for all models. The strains predicted in a very simplified mesentery were larger than the failure strains observed in testing. However, no mesenteric injuries were described in the reference study. This questions both the choice of a single solid component for the intestines typically used existing finite element models and the simplified representation of the mesentery of the current study. In the absence of internal data on organ and mesenteric kinematics during an impact, it is difficult to define which strategy should be used in future modelling efforts.

Abdomen

Choc

Mésentère

Propriétés mécaniques

Abdomen

Impact

Mesentery

Mechanical properties

Splenic neurohormonal modulation of renal and mesenteric hemodynamics in portal hypertension

Hamza, Shereen M.

January 2009

Thesis (Ph.D.)--University of Alberta, 2009. / A thesis submitted to the Faculty of Graduate Studies and Research in partial fulfillment of the requirements for the degree of Doctor of Philosophy, Department of Physiology. Title from pdf file main screen (viewed on August 16, 2009). Includes bibliographical references.

L'intestin traumatique : de l'approche clinique à l'analyse biomécanique / Intestinal trauma : from clinical experience to biomechanical analysis

Bège, Thierry

19 December 2014

Les lésions traumatiques de l’intestin sont responsables d’une part importante de la morbidité et de la mortalité consécutives aux lésions traumatiques abdominales. Elles sont pourtant mal connues. Les mécanismes à l’origine de ces blessures sont mal compris alors qu’un rôle paradoxalement négatif de l’usage de la ceinture de sécurité automobile est suspecté. En pratique clinique, le diagnostic précoce reste difficile, alors qu’une relation directe entre le délai diagnostic et le pronostic a été établi. Les règles de prise en charge thérapeutique ne sont pas consensuelles. Concernant la recherche, les quelques données de la littérature sur le comportement mécanique de l’intestin n’ont été obtenues qu’en condition quasi-statique ne reflétant pas les conditions d’un traumatisme. Le présent travail fait le lien entre données cliniques et travaux de recherche. Il apporte des connaissances pratiques sur un certain nombre de questions: quelles sont les situations à risque de chirurgie ? Comment se crée une lésion traumatique intestinale par décélération? Quelles sont les propriétés mécaniques de l’intestin qui dépendent de la cinétique du traumatisme ? Quelles sont les données anthropométriques et issues de l’imagerie médicale qui expliquent la variabilité de l’anatomie de l’intestin et de son mésentère ? Ces travaux serviront de base pour l’élaboration de modèles numériques d’hommes virtuels personnalisés et bio-fidèles utilisables dans le cadre de la traumatologie virtuelle. Ces outils de simulation numérique permettront de valider nos hypothèses sur le processus traumatique et participeront à l’amélioration des moyens de prévention de ces lésions traumatiques. / Traumatic injuries of the intestine are responsible for a significant proportion of the morbidity and mortality in blunt abdominal trauma. Nevertheless they are known very badly. The mechanisms involved are poorly understood despite the fact that a negative effect in the use of car seat belts is suspected. In clinical everyday practice, early diagnosis is often difficult, whereas a direct relationship between diagnosis delay and prognosis has been established. No consensus from academic society is available to help the therapeutic management. Regarding biomechanical research, the few data on the mechanical behavior of the intestine were obtained only in quasi-static condition and so does not reflect the conditions of trauma. The present work creates the link between clinical and research work. It provides practical knowledge on a number of questions: what situations are at risk of surgery? How intestinal injury occurs during traumatic deceleration? What are the mechanical properties of the intestine that depend on the velocity of trauma? What are the anthropometric data from medical imaging that explain the variability of the intestinal and mesenteric anatomy? This work constitutes the basis for the further development of numerical bio-faithful models of humans that could be used in virtual trauma applications. These numerical simulation tools will validate our assumptions about the traumatic process and will participate in the improvement of prevention means.

Traumatisme

Intestin

Mésentère

Chirurgie

Propriétés biomécaniques

Traction

Trauma

Injury

Intestine

Mesentery

Surgery

Biomechanical properties

Traction

Evaluation of an Organic Mineral Complex on the Development of Cardiovascular Disease Risk Following a 10-week High-Fat Diet

January 2020

abstract: According to the World Health Organization, obesity has nearly tripled since 1975 and forty-one million children under the age of 5 are overweight or obese (World Health Organization, 2018). Exercise is a potential intervention to prevent obesity-induced cardiovascular complications as exercise training has been shown to aid nitric oxide (NO) production as well as preserving endothelial function in obese mice (Silva et al., 2016). A soil-derived organic mineral compound (OMC) has been shown to lower blood sugar in diabetic mice (Deneau et al., 2011). Prior research has shown that, while OMC did not prevent high fat diet (HFD)-induced increases in body fat in male Sprague-Dawley rats, it was effective at preventing HFD-induced impaired vasodilation (M. S. Crawford et al., 2019). Six-weeks of HFD has been shown to impair vasodilation through oxidative-stress mediated scavenging of NO as well as upregulation of inflammatory pathways including inducible nitric oxide synthase (iNOS) and cyclooxygenase (Karen L. Sweazea et al., 2010). Therefore, the aim of the present study was to determine whether OMC alters protein expression of iNOS and endothelial NOS (eNOS) in the vasculature of rats fed a control or HFD with and without OMC supplementation. Six-week old male Sprague-Dawley rats were fed either a standard chow diet (CHOW) or a HFD composed of 60% kcal from fat for 10 weeks. The rats were administered OMC at doses of 0 mg/mL (control), 0.6 mg/mL, or 3.0 mg/mL added to their drinking water. Following euthanasia with sodium pentobarbital (200 mg/kg, i.p.), mesenteric arteries and the surrounding perivascular adipose tissue were isolated and prepared for Western Blot analyses. Mesenteric arteries from HFD rats had more uncoupled eNOS (p = 0.006) and iNOS protein expression (p = 0.027) than rats fed the control diet. OMC was not effective at preventing the uncoupling of eNOS or increase in iNOS induced by HFD. Perivascular adipose tissue (PVAT) showed no significant difference in iNOS protein expression between diet or OMC treatment groups. These findings suggest that OMC is not likely working through the iNOS or eNOS pathways to improve vasodilation in these rats, but rather, appears to be working through another mechanism. / Dissertation/Thesis / Masters Thesis Biology 2020

Biology

Physiology

Cellular biology

eNOS

High Fat Diet

iNOS

Mesentery

Metabolic Syndrome

Obesity

Estudo dos efeitos do 17Îbeta-estradiol sobre a microcirculação em modelo de morte encefálica em ratos machos / Effects of 17beta-estradiol in the male rat microcirculation on a sudden brain death model

Vieira, Roberta Figueiredo

26 March 2018

INTRODUÇÃO: A morte encefálica (ME) associa-se à instabilidade hemodinâmica, disfunção microvascular e inflamação, comprometendo a viabilidade dos órgãos para o transplante. O hormônio 17beta-estradiol caracteriza-se por seus efeitos protetores vasculares e propriedades antiinflamatórias. OBJETIVO: Neste estudo investigou-se os efeitos do 17beta- estradiol, como modulador da microcirculação, em modelo de indução rápida de morte encefálica em ratos machos. MÉTODOS: Ratos Wistar machos foram submetidos à indução rápida de morte encefálica através da insuflação intracraniana do cateter de Fogarty. Os animais foram randomizados em 3 grupos: ratos falso-operados, apenas trepanados (FO, n=11); ratos submetidos à ME (ME, n=11); ratos tratados com 17beta-estradiol (280 ug/Kg, iv) 60 minutos após a indução da ME (E2, n=11). Os experimentos foram realizados decorridos 180 minutos após a ME. A perfusão e o fluxo sanguíneo na microcirculação mesentérica foram avaliados através das técnicas de microscopia intravital e fluxometria a laser. A expressão gênica relativa da sintase endotelial do óxido nítrico (eNOS) e da endotelina-1, no mesentério e pulmão, foi avaliada por técnica de PCR (polymerase chain reaction) em tempo real. A expressão proteica de eNOS, endotelina-1, P-selectina, molécula de adesão intercelular (ICAM)-1, molécula de adesão vascular (VCAM)-1 e molécula de adesão da plaqueta/célula endotelial (PECAM)-1 foi determinada por técnica de imunohistoquímica. As alterações histopatológicas pulmonares foram analisadas por técnica histomorfométrica. A expressão da sintase induzível do óxido nítrico (iNOS) no pulmão foi determinada por técnica de imunohistoquímica. Citocinas, quimiocinas, corticosterona e 17beta-estradiol foram quantificados por enzima-imunoensaio (ELISA). RESULTADOS: O grupo ME apresentou redução da porcentagem de microvasos perfundidos ( < 30 um) no mesentério comparado ao grupo FO e ao grupo E2, decorridos 180 minutos (p=0,0117), sem alterações no fluxo sanguíneo mesentérico (p=0,3692). Houve aumento na expressão proteica (p < 0,0001) e gênica (p=0,0009) de eNOS no mesentério no grupo E2. Não houve diferenças na expressão proteica e gênica da endotelina-1 entre os grupos. A expressão de ICAM-1 nos microvasos mesentéricos aumentou no grupo ME (p < 0,0001) e a expressão de VCAM-1 foi reduzida no grupo E2 (p=0,0008). Não houve diferenças significativas na expressão de P-selectina entre os grupos (p=0,0675). As análises histopatológicas do pulmão demonstraram aumento do edema (p < 0,0001) e hemorragia (p < 0,0001) no grupo ME comparado aos grupos FO e E2, sem diferenças no número de células inflamatórias (células polimorfonucleares: p=0,4033; células linfomononucleares: p=0,5003). A expressão de iNOS no tecido pulmonar aumentou no grupo ME comparado aos grupos FO e E2 (p < 0,0001). A expressão proteica de eNOS no pulmão diminuiu nos ratos ME e aumentou nos ratos E2 (p=0,0002). A expressão proteica de endotelina-1 no pulmão assim como a expressão gênica pulmonar de eNOS e endotelina-1 não diferiram entre os grupos. Com relação à expressão de moléculas de adesão na microcirculação pulmonar observou-se que os níveis de ICAM-1 não diferiram entre os grupos (p=0,4550); os níveis de VCAM-1 reduziram-se no grupo E2 (p < 0,0001); níveis de PECAM-1 foram reduzidos nos ratos ME (p=0,0037). Observou-se aumento das concentrações séricas de TNF-alfa (p=0,0004) e redução de VEGF sérico (p=0,0380) nos ratos ME. Houve redução das concentrações séricas de CINC-1 (p=0,0020) e aumento de MCP- 1 (p=0,0094) no grupo E2. CONCLUSÃO: O tratamento com o 17beta-estradiol foi efetivo em restaurar a perfusão mesentérica e reduzir a lesão pulmonar associadas à morte encefálica. Sugere-se que o estradiol, como modulador microcirculatório, possa contribuir para a preservação dos órgãos destinados ao transplante / BACKGROUND: Brain death (BD) is associated with hemodynamic instability, microvascular dysfunction and inflammation, which compromise the viability of the organs for transplantation. The hormone 17?-estradiol is known to display vascular protective effects and anti-inflammatory properties. OBJECTIVE: This study aimed to investigate the effects of 17beta-estradiol, as a microcirculatory modulator, in a sudden onset BD model in male rats. METHODS: Male Wistar rats underwent rapid onset BD by inflating a Fogarty catheter in the intracranial space. Rats were randomly divided in three groups: sham-operated rats submitted to trepanation only (SH, n=11); rats submitted to BD (BD, n=11); and rats treated with 17beta-estradiol (E2, 280 ug/kg, iv) 60 min after BD (E2, n=11). Experiments were performed 180 min thereafter. Laser Doppler flowmetry and intravital microscopy were used to evaluate mesenteric microvascular alterations. Gene expression of endothelial nitric oxide synthase (eNOS) and endothelin-1 in the mesentery and lungs were measured by real-time polymerase chain reaction. Protein expression of eNOS, endothelin-1, Pselectin, intercellular adhesion molecule (ICAM)-1, vascular cell adhesion molecule (VCAM)-1, and platelet/endothelial cell adhesion molecule (PECAM)-1 was investigated by immunohistochemistry. Lung histopathological changes were evaluated by histomorphometry and tissue expression of inducible nitric oxide synthase (iNOS) by immunohistochemistry. Cytokines, chemokines, 17beta- estradiol, and corticosterone were measured by enzyme-linked immunosorbent assay. RESULTS: The proportion of mesenteric perfused small vessels ( < 30 um diameter) was reduced in BD rats compared to SH and E2 rats at 180 min (p=0.0117), without changes in mesenteric blood flow (p=0.3692). Protein expression of eNOS was increased in E2 group (p < 0.0001), as well gene expression of eNOS (p=0.0009). There were no differences in protein and gene expression of endothelin-1 between groups. The expression of ICAM-1 on mesenteric vessels was increased in BD group (p < 0.0001) and expression of VCAM-1 was reduced in E2 rats (p=0.0008). There were no differences in the expression of P-selectin between groups (p=0.0675). Lung histopathological analyses showed increased edema (p < 0.0001) and hemorrhage (p < 0.0001) in BD group compared to SH and E2 groups, without differences in the number of inflammatory cells (polymorphonuclear cells: p=0.4033; lymphomononuclear cells: p=0.5003). The expression of iNOS on lung tissue was increased in BD group, compared with SH and E2 groups (p < 0.0001). Lung protein expression of eNOS decreased in BD rats, and increased in E2 rats (p=0.0002). Protein expression of lung endothelin-1 as well as gene expression of lung eNOS and endothelin-1 did not differ among groups. Regarding the expression of adhesion molecules on lung microcirculation, it was observed that ICAM-1 levels did not differ between groups (p=0.4550); levels of VCAM-1 decreased in E2 group (p < 0.0001); PECAM-1 levels were reduced in BD rats (p=0.0037). BD rats showed increased levels of TNF-alpha (p=0.0004), and a reduction in the levels of VEGF (p=0,0380) in the serum. BD-E2 rats exhibited reduced CINC-1 levels (p=0.0020) and increased levels of MCP-1 (p=0,0094) in the serum. CONCLUSION: Data presented showed that 17beta-estradiol treatment was effective in restoring mesenteric perfusion and reducing lung injury in braindead rats. Estradiol, as a microcirculatory modulator, is a promise therapy to improve organs viability to transplant

Brain death

Estradiol

Estradiol

Inflamação

Lung, Inflammation

Mesentério

Mesentery

Microcirculação

Microcirculation

Morte encefálica

Pulmão

Ratos Wistar

Wistar rats

Estudo dos efeitos do 17Îbeta-estradiol sobre a microcirculação em modelo de morte encefálica em ratos machos / Effects of 17beta-estradiol in the male rat microcirculation on a sudden brain death model

Roberta Figueiredo Vieira

26 March 2018

INTRODUÇÃO: A morte encefálica (ME) associa-se à instabilidade hemodinâmica, disfunção microvascular e inflamação, comprometendo a viabilidade dos órgãos para o transplante. O hormônio 17beta-estradiol caracteriza-se por seus efeitos protetores vasculares e propriedades antiinflamatórias. OBJETIVO: Neste estudo investigou-se os efeitos do 17beta- estradiol, como modulador da microcirculação, em modelo de indução rápida de morte encefálica em ratos machos. MÉTODOS: Ratos Wistar machos foram submetidos à indução rápida de morte encefálica através da insuflação intracraniana do cateter de Fogarty. Os animais foram randomizados em 3 grupos: ratos falso-operados, apenas trepanados (FO, n=11); ratos submetidos à ME (ME, n=11); ratos tratados com 17beta-estradiol (280 ug/Kg, iv) 60 minutos após a indução da ME (E2, n=11). Os experimentos foram realizados decorridos 180 minutos após a ME. A perfusão e o fluxo sanguíneo na microcirculação mesentérica foram avaliados através das técnicas de microscopia intravital e fluxometria a laser. A expressão gênica relativa da sintase endotelial do óxido nítrico (eNOS) e da endotelina-1, no mesentério e pulmão, foi avaliada por técnica de PCR (polymerase chain reaction) em tempo real. A expressão proteica de eNOS, endotelina-1, P-selectina, molécula de adesão intercelular (ICAM)-1, molécula de adesão vascular (VCAM)-1 e molécula de adesão da plaqueta/célula endotelial (PECAM)-1 foi determinada por técnica de imunohistoquímica. As alterações histopatológicas pulmonares foram analisadas por técnica histomorfométrica. A expressão da sintase induzível do óxido nítrico (iNOS) no pulmão foi determinada por técnica de imunohistoquímica. Citocinas, quimiocinas, corticosterona e 17beta-estradiol foram quantificados por enzima-imunoensaio (ELISA). RESULTADOS: O grupo ME apresentou redução da porcentagem de microvasos perfundidos ( < 30 um) no mesentério comparado ao grupo FO e ao grupo E2, decorridos 180 minutos (p=0,0117), sem alterações no fluxo sanguíneo mesentérico (p=0,3692). Houve aumento na expressão proteica (p < 0,0001) e gênica (p=0,0009) de eNOS no mesentério no grupo E2. Não houve diferenças na expressão proteica e gênica da endotelina-1 entre os grupos. A expressão de ICAM-1 nos microvasos mesentéricos aumentou no grupo ME (p < 0,0001) e a expressão de VCAM-1 foi reduzida no grupo E2 (p=0,0008). Não houve diferenças significativas na expressão de P-selectina entre os grupos (p=0,0675). As análises histopatológicas do pulmão demonstraram aumento do edema (p < 0,0001) e hemorragia (p < 0,0001) no grupo ME comparado aos grupos FO e E2, sem diferenças no número de células inflamatórias (células polimorfonucleares: p=0,4033; células linfomononucleares: p=0,5003). A expressão de iNOS no tecido pulmonar aumentou no grupo ME comparado aos grupos FO e E2 (p < 0,0001). A expressão proteica de eNOS no pulmão diminuiu nos ratos ME e aumentou nos ratos E2 (p=0,0002). A expressão proteica de endotelina-1 no pulmão assim como a expressão gênica pulmonar de eNOS e endotelina-1 não diferiram entre os grupos. Com relação à expressão de moléculas de adesão na microcirculação pulmonar observou-se que os níveis de ICAM-1 não diferiram entre os grupos (p=0,4550); os níveis de VCAM-1 reduziram-se no grupo E2 (p < 0,0001); níveis de PECAM-1 foram reduzidos nos ratos ME (p=0,0037). Observou-se aumento das concentrações séricas de TNF-alfa (p=0,0004) e redução de VEGF sérico (p=0,0380) nos ratos ME. Houve redução das concentrações séricas de CINC-1 (p=0,0020) e aumento de MCP- 1 (p=0,0094) no grupo E2. CONCLUSÃO: O tratamento com o 17beta-estradiol foi efetivo em restaurar a perfusão mesentérica e reduzir a lesão pulmonar associadas à morte encefálica. Sugere-se que o estradiol, como modulador microcirculatório, possa contribuir para a preservação dos órgãos destinados ao transplante / BACKGROUND: Brain death (BD) is associated with hemodynamic instability, microvascular dysfunction and inflammation, which compromise the viability of the organs for transplantation. The hormone 17?-estradiol is known to display vascular protective effects and anti-inflammatory properties. OBJECTIVE: This study aimed to investigate the effects of 17beta-estradiol, as a microcirculatory modulator, in a sudden onset BD model in male rats. METHODS: Male Wistar rats underwent rapid onset BD by inflating a Fogarty catheter in the intracranial space. Rats were randomly divided in three groups: sham-operated rats submitted to trepanation only (SH, n=11); rats submitted to BD (BD, n=11); and rats treated with 17beta-estradiol (E2, 280 ug/kg, iv) 60 min after BD (E2, n=11). Experiments were performed 180 min thereafter. Laser Doppler flowmetry and intravital microscopy were used to evaluate mesenteric microvascular alterations. Gene expression of endothelial nitric oxide synthase (eNOS) and endothelin-1 in the mesentery and lungs were measured by real-time polymerase chain reaction. Protein expression of eNOS, endothelin-1, Pselectin, intercellular adhesion molecule (ICAM)-1, vascular cell adhesion molecule (VCAM)-1, and platelet/endothelial cell adhesion molecule (PECAM)-1 was investigated by immunohistochemistry. Lung histopathological changes were evaluated by histomorphometry and tissue expression of inducible nitric oxide synthase (iNOS) by immunohistochemistry. Cytokines, chemokines, 17beta- estradiol, and corticosterone were measured by enzyme-linked immunosorbent assay. RESULTS: The proportion of mesenteric perfused small vessels ( < 30 um diameter) was reduced in BD rats compared to SH and E2 rats at 180 min (p=0.0117), without changes in mesenteric blood flow (p=0.3692). Protein expression of eNOS was increased in E2 group (p < 0.0001), as well gene expression of eNOS (p=0.0009). There were no differences in protein and gene expression of endothelin-1 between groups. The expression of ICAM-1 on mesenteric vessels was increased in BD group (p < 0.0001) and expression of VCAM-1 was reduced in E2 rats (p=0.0008). There were no differences in the expression of P-selectin between groups (p=0.0675). Lung histopathological analyses showed increased edema (p < 0.0001) and hemorrhage (p < 0.0001) in BD group compared to SH and E2 groups, without differences in the number of inflammatory cells (polymorphonuclear cells: p=0.4033; lymphomononuclear cells: p=0.5003). The expression of iNOS on lung tissue was increased in BD group, compared with SH and E2 groups (p < 0.0001). Lung protein expression of eNOS decreased in BD rats, and increased in E2 rats (p=0.0002). Protein expression of lung endothelin-1 as well as gene expression of lung eNOS and endothelin-1 did not differ among groups. Regarding the expression of adhesion molecules on lung microcirculation, it was observed that ICAM-1 levels did not differ between groups (p=0.4550); levels of VCAM-1 decreased in E2 group (p < 0.0001); PECAM-1 levels were reduced in BD rats (p=0.0037). BD rats showed increased levels of TNF-alpha (p=0.0004), and a reduction in the levels of VEGF (p=0,0380) in the serum. BD-E2 rats exhibited reduced CINC-1 levels (p=0.0020) and increased levels of MCP-1 (p=0,0094) in the serum. CONCLUSION: Data presented showed that 17beta-estradiol treatment was effective in restoring mesenteric perfusion and reducing lung injury in braindead rats. Estradiol, as a microcirculatory modulator, is a promise therapy to improve organs viability to transplant

Estradiol

Inflamação

Mesentério

Microcirculação

Morte encefálica

Pulmão

Ratos Wistar

Brain death

Estradiol

Lung, Inflammation

Mesentery

Microcirculation

Wistar rats

Efeitos da ventilação mecânica e pressão positiva no final da expiração sobre a microcirculação mesentérica em ratos Wistar / Effects of mechanical ventilation and positive end-expiratory pressure on mesenteric microcirculation in Wistar rats

Aikawa, Priscila

03 September 2009

Ventilação mecânica (MV) com pressão positiva no final da expiração (PEEP) melhora a oxigenação sanguínea e oferta de oxigênio aos tecidos no tratamento da insuficiência respiratória aguda. No entanto, a pressão intratorácica elevada pode alterar o fluxo sanguíneo no mesentério que pode contribuir para complicações gastrointestinais durante a VM. Investigamos os efeitos da PEEP sobre as interações leucócito-endotélio durante a VM em ratos com pulmões normais e sem administração de fluido (Fase I) e os efeitos do volume corrente baixo (LTV) e pentoxifilina (PTX) sobre a microcirculação mesentérica (Fase II). O protocolo e resultados da Fase I são os seguintes: 44 ratos Wistar machos (~240g) foram anestesiados com pentobarbital (I.P., 50mg.kg-1) e com isoflurane inalatório (1.5-2%) após instrumentação, e aleatoriamente divididos em (1) INTACTO (somente anestesia), (2) PEEP0 (PEEP=0 cmH2O), (3) PEEP5 (PEEP=5 cmH2O), e (4) PEEP10 (PEEP=10 cmH2O). Os grupos PEEP foram submetidos à traqueostomia e VM com volume corrente de 10 ml.kg-1, frequência respiratória de 70 rpm e fração inspirada de oxigênio de 1. Após 2-h de VM, realizamos laparotomia mediana e avaliamos as interações leucócito-endotélio por meio de microscopia intravital e inflamação pumonar por meios histológicos. Não observamos alterações significantes na pressão sanguínea arterial média (PAM) entre os grupos ao longo do estudo. A pressão traqueal do grupo PEEP5 foi menor comparada com os grupos PEEP0 e PEEP10 (11, 15, e 16 cmH2O, respectivamente; p<0.05). Após 2-h de VM, não houve diferenças significantes entre os grupos INTACTO, PEEP0 e PEEP5 no número de leucócitos rollers (118±9, 127±14 e 147±26 células/10minutos, respectivamente), aderidos (3±1, 3±1 e 4±2 células/100m de comprimento de vênula, respectivamente), e migrados (2±1, 2±1 e 2±1 células/5,000m2, respectivamente) no mesentério. No entanto, PEEP10 aumentaram (p<0.05) o número de leucócitos rollers (188±15 células/10minutos), aderidos (8±1 células/100m de vênula) e migrados (12±1 células/5,000 m2). Observamos inflamação pulmonar nos grupos PEEP0 e PEEP10. O protocolo e resultados da Fase II são os seguintes: 57 ratos Wistar machos (~253g) foram anestesiados com pentobarbital (I.P., 50 mg.kg-1), submetidos a traqueostomia, anestesia inalatória com isoflurane (1.5-2%), VM com PEEP de 10 cmH2O, fração inspirada de oxigênio de 0,21, e aleatoriamente divididos em (1) LTV (7 ml.kg-1), (2) volume corrente elevado (HTV, 10 ml.kg-1), e (3) PTX (HTV+ PTX, 25 mg.kg-1). Nós registramos a PAM, mecânica respiratória e gases sanguíneos arteriais no basal e após 2-h de VM. Realizamos laparotomia mediana e avaliamos as interações leucócito-endotélio no mesentério, fluxo de artéria mesentérica (FAM), mecânica respiratória e inflamação pulmonar. Não observamos diferenças entre os grupos no basal e após 2-h em PAM (113±15 vs 109± 6 mmHg). Após 2-h de VM, o FAM foi similar em todos os grupos (12.4±2.6 ml.min-1). A pressão traqueal foi menor no grupo LTV (11.2±1.6 cmH2O) comparada com HTV (14.7±1.1 cmH2O) e PTX (14.1±2.4 cmH2O). Em todos os grupos a VM aumentou a elastância pulmonar (~22%, p<0.05) e diminuiu a resistência de vias aéreas (~10%, p<0.05). LTV e PTX apresentaram valores similares de leucócitos aderidos (5±2 e 6±4 células/100m de vênula, respectivamente), e migrados (1±1 e 2±1 células/5,000m2, respectivamente). Contrariamente, HTV aumentou o número de aderidos (14±4 leucócitos/100m de vênula, p<0.05) e migrados (9±3 células/5,000m2, p<0.05) no mesentério. O grupo HTV apresentou infiltrado neutrofílico e edema pulmonar. Em conclusão, nosso estudo mostrou que a pressão intratorácica elevada é prejudicial para a microcirculação mesentérica e pulmões no modelo experimental de ratos com pulmões normais e pressão sanguínea sistêmica estável, LTV previne alterações microcirculatórias e pulmonares, e a administração precoce de PTX atenua as interações leucócito-endotélio no mesentério e inflamação pulmonar durante a VM. Esses achados podem ter relevância na compreensão das complicações induzidas pela VM e prognóstico. / Mechanical ventilation (MV) with positive end expiratory pressure (PEEP) improves blood oxygenation and tissue oxygen delivery during treatment of acute respiratory failure. However, high intrathoracic pressure may alter blood flow at mesentery, which may contribute to gastrointestinal complications during MV. We investigated the effects of PEEP on mesenteric leukocyte-endothelial interactions during MV in rats with normal lungs and without fluid administration (Phase I) and the effects of low-tidal volume (LTV) and pentoxifylline (PTX) on mesenteric microcirculation (Phase II). The protocol and results of Phase I are the following: 44 male Wistar rats (~240g) were anesthetized with pentobarbital (I.P., 50mg.kg-1) and inhaled isoflurane (1.5-2%) after instrumentation, and randomly divided in (1)NAIVE (only anesthesia), (2) PEEP0 (PEEP=0 cm H2O), (3) PEEP5 (PEEP=5 cmH2O), and (4) PEEP10 (PEEP=10 cmH2O). PEEP groups were submitted to tracheostomy and MV with tidal volume of 10 ml.kg-1, respiratory rate of 70 rpm and inspired oxygen fraction of 1. After 2-hrs of MV, we performed a median laparotomy and evaluated leukocyte-endothelial interactions at the mesentery and lung inflammation by histology. We did not observe significant changes mean arterial blood pressure (MABP) among groups throughout the study. Tracheal pressure in PEEP5 was lower compared with PEEP0 and PEEP10 groups (11, 15, and 16 cmH2O, respectively; p<0.05). After 2-hrs of MV, there were no differences among NAIVE, PEEP0 e PEEP5 groups in the number of rollers (118±9, 127±14 and 147±26 cells/10 minutes, respectively), adherent leukocytes (3±1, 3±1 and 4±2 cells/100 m venule, respectively), and migrated leukocytes (2±1, 2±1 and 2±1 cells/5,000 m2, respectively) at the mesentery. However, PEEP10 increased (p<0.05) the number of rolling (188±15 cells/10min), adherent (8±1 cells/100 m) and migrated leukocytes (12±1 cells/5,000 m2). We observed lung inflammation in PEEP0 and PEEP10 groups. The protocol and results of Phase II are the following: 57 male Wistar rats (~253g) were anesthetized with pentobarbital (I.P.,50 mg.kg-1), submitted to tracheostomy, inhaled anesthesia with isoflurane (1.5-2%), MV with PEEP of 10 cmH2O, inspired oxygen fraction of 0.21, and randomly divided in (1) LTV (7 ml.kg-1), (2) High-tidal volume (HTV, 10 ml.kg-1), and (3) PTX (HTV+ PTX, 25 mg.kg-1). We registered MABP, respiratory mechanics and arterial blood gases at baseline and after 2-hrs of MV. We performed a median laparotomy and evaluated leukocyte-endothelial interactions, mesenteric artery flow (MAF), respiratory mechanics and lung inflammation. We did not observe significant differences among groups at baseline and after 2-hrs in MABP (113±15 vs 109± 6 mmHg). After 2-hrs, MAF was similar in all groups (12.4±2.6 ml.min-1). Tracheal pressure was lower in LTV (11.2±1.6 cmH2O) compared with HTV (14.7±1.1 cmH2O) and PTX (14.1±2.4 cmH2O). In all groups MV increased pulmonary elastance (22%, p<0.05) and decreased airway resistance (10%, p<0.05). LTV and PTX presented similar values of adherent (5±2 and 6±4 cells/100m venule, respectively), and migrated leukocytes (1±1 and 2±1 cells/5,000m2, respectively). On the contrary, HTV increased the number of adherent (14±4 leukocytes/100m venule, p<0.05) and migrated leukocytes (9±3 cells/5,000m2, p<0.05) in the mesentery. HTV presented lung neutrophil infiltration and edema. In conclusion, our study showed that high intrathoracic pressure is harmful to mesenteric microcirculation and lungs in the experimental model of rats with normal lungs and stable systemic blood pressure, LTV prevents microcirculatory and pulmonary alterations, and early administration of PTX attenuates leukocyte-endothelial interactions at the mesentery and lung inflammation during MV. These findings may have relevance for complications MV-induced and outcome.

Artificial ventilation

Leucócitos

Leukocytes

Mesentério

Mesentery

Microcirculação

Microcirculation

Migração e rolagem de leucócitos

Migration and rolling

Pentoxifilina

Pentoxifylline

Ratos Wistar

Respiração artificial

Respiração com pressão positiva

Respiration with positive pressure

Wistar rats

Efeitos da ventilação mecânica e pressão positiva no final da expiração sobre a microcirculação mesentérica em ratos Wistar / Effects of mechanical ventilation and positive end-expiratory pressure on mesenteric microcirculation in Wistar rats

Priscila Aikawa

03 September 2009

Ventilação mecânica (MV) com pressão positiva no final da expiração (PEEP) melhora a oxigenação sanguínea e oferta de oxigênio aos tecidos no tratamento da insuficiência respiratória aguda. No entanto, a pressão intratorácica elevada pode alterar o fluxo sanguíneo no mesentério que pode contribuir para complicações gastrointestinais durante a VM. Investigamos os efeitos da PEEP sobre as interações leucócito-endotélio durante a VM em ratos com pulmões normais e sem administração de fluido (Fase I) e os efeitos do volume corrente baixo (LTV) e pentoxifilina (PTX) sobre a microcirculação mesentérica (Fase II). O protocolo e resultados da Fase I são os seguintes: 44 ratos Wistar machos (~240g) foram anestesiados com pentobarbital (I.P., 50mg.kg-1) e com isoflurane inalatório (1.5-2%) após instrumentação, e aleatoriamente divididos em (1) INTACTO (somente anestesia), (2) PEEP0 (PEEP=0 cmH2O), (3) PEEP5 (PEEP=5 cmH2O), e (4) PEEP10 (PEEP=10 cmH2O). Os grupos PEEP foram submetidos à traqueostomia e VM com volume corrente de 10 ml.kg-1, frequência respiratória de 70 rpm e fração inspirada de oxigênio de 1. Após 2-h de VM, realizamos laparotomia mediana e avaliamos as interações leucócito-endotélio por meio de microscopia intravital e inflamação pumonar por meios histológicos. Não observamos alterações significantes na pressão sanguínea arterial média (PAM) entre os grupos ao longo do estudo. A pressão traqueal do grupo PEEP5 foi menor comparada com os grupos PEEP0 e PEEP10 (11, 15, e 16 cmH2O, respectivamente; p<0.05). Após 2-h de VM, não houve diferenças significantes entre os grupos INTACTO, PEEP0 e PEEP5 no número de leucócitos rollers (118±9, 127±14 e 147±26 células/10minutos, respectivamente), aderidos (3±1, 3±1 e 4±2 células/100m de comprimento de vênula, respectivamente), e migrados (2±1, 2±1 e 2±1 células/5,000m2, respectivamente) no mesentério. No entanto, PEEP10 aumentaram (p<0.05) o número de leucócitos rollers (188±15 células/10minutos), aderidos (8±1 células/100m de vênula) e migrados (12±1 células/5,000 m2). Observamos inflamação pulmonar nos grupos PEEP0 e PEEP10. O protocolo e resultados da Fase II são os seguintes: 57 ratos Wistar machos (~253g) foram anestesiados com pentobarbital (I.P., 50 mg.kg-1), submetidos a traqueostomia, anestesia inalatória com isoflurane (1.5-2%), VM com PEEP de 10 cmH2O, fração inspirada de oxigênio de 0,21, e aleatoriamente divididos em (1) LTV (7 ml.kg-1), (2) volume corrente elevado (HTV, 10 ml.kg-1), e (3) PTX (HTV+ PTX, 25 mg.kg-1). Nós registramos a PAM, mecânica respiratória e gases sanguíneos arteriais no basal e após 2-h de VM. Realizamos laparotomia mediana e avaliamos as interações leucócito-endotélio no mesentério, fluxo de artéria mesentérica (FAM), mecânica respiratória e inflamação pulmonar. Não observamos diferenças entre os grupos no basal e após 2-h em PAM (113±15 vs 109± 6 mmHg). Após 2-h de VM, o FAM foi similar em todos os grupos (12.4±2.6 ml.min-1). A pressão traqueal foi menor no grupo LTV (11.2±1.6 cmH2O) comparada com HTV (14.7±1.1 cmH2O) e PTX (14.1±2.4 cmH2O). Em todos os grupos a VM aumentou a elastância pulmonar (~22%, p<0.05) e diminuiu a resistência de vias aéreas (~10%, p<0.05). LTV e PTX apresentaram valores similares de leucócitos aderidos (5±2 e 6±4 células/100m de vênula, respectivamente), e migrados (1±1 e 2±1 células/5,000m2, respectivamente). Contrariamente, HTV aumentou o número de aderidos (14±4 leucócitos/100m de vênula, p<0.05) e migrados (9±3 células/5,000m2, p<0.05) no mesentério. O grupo HTV apresentou infiltrado neutrofílico e edema pulmonar. Em conclusão, nosso estudo mostrou que a pressão intratorácica elevada é prejudicial para a microcirculação mesentérica e pulmões no modelo experimental de ratos com pulmões normais e pressão sanguínea sistêmica estável, LTV previne alterações microcirculatórias e pulmonares, e a administração precoce de PTX atenua as interações leucócito-endotélio no mesentério e inflamação pulmonar durante a VM. Esses achados podem ter relevância na compreensão das complicações induzidas pela VM e prognóstico. / Mechanical ventilation (MV) with positive end expiratory pressure (PEEP) improves blood oxygenation and tissue oxygen delivery during treatment of acute respiratory failure. However, high intrathoracic pressure may alter blood flow at mesentery, which may contribute to gastrointestinal complications during MV. We investigated the effects of PEEP on mesenteric leukocyte-endothelial interactions during MV in rats with normal lungs and without fluid administration (Phase I) and the effects of low-tidal volume (LTV) and pentoxifylline (PTX) on mesenteric microcirculation (Phase II). The protocol and results of Phase I are the following: 44 male Wistar rats (~240g) were anesthetized with pentobarbital (I.P., 50mg.kg-1) and inhaled isoflurane (1.5-2%) after instrumentation, and randomly divided in (1)NAIVE (only anesthesia), (2) PEEP0 (PEEP=0 cm H2O), (3) PEEP5 (PEEP=5 cmH2O), and (4) PEEP10 (PEEP=10 cmH2O). PEEP groups were submitted to tracheostomy and MV with tidal volume of 10 ml.kg-1, respiratory rate of 70 rpm and inspired oxygen fraction of 1. After 2-hrs of MV, we performed a median laparotomy and evaluated leukocyte-endothelial interactions at the mesentery and lung inflammation by histology. We did not observe significant changes mean arterial blood pressure (MABP) among groups throughout the study. Tracheal pressure in PEEP5 was lower compared with PEEP0 and PEEP10 groups (11, 15, and 16 cmH2O, respectively; p<0.05). After 2-hrs of MV, there were no differences among NAIVE, PEEP0 e PEEP5 groups in the number of rollers (118±9, 127±14 and 147±26 cells/10 minutes, respectively), adherent leukocytes (3±1, 3±1 and 4±2 cells/100 m venule, respectively), and migrated leukocytes (2±1, 2±1 and 2±1 cells/5,000 m2, respectively) at the mesentery. However, PEEP10 increased (p<0.05) the number of rolling (188±15 cells/10min), adherent (8±1 cells/100 m) and migrated leukocytes (12±1 cells/5,000 m2). We observed lung inflammation in PEEP0 and PEEP10 groups. The protocol and results of Phase II are the following: 57 male Wistar rats (~253g) were anesthetized with pentobarbital (I.P.,50 mg.kg-1), submitted to tracheostomy, inhaled anesthesia with isoflurane (1.5-2%), MV with PEEP of 10 cmH2O, inspired oxygen fraction of 0.21, and randomly divided in (1) LTV (7 ml.kg-1), (2) High-tidal volume (HTV, 10 ml.kg-1), and (3) PTX (HTV+ PTX, 25 mg.kg-1). We registered MABP, respiratory mechanics and arterial blood gases at baseline and after 2-hrs of MV. We performed a median laparotomy and evaluated leukocyte-endothelial interactions, mesenteric artery flow (MAF), respiratory mechanics and lung inflammation. We did not observe significant differences among groups at baseline and after 2-hrs in MABP (113±15 vs 109± 6 mmHg). After 2-hrs, MAF was similar in all groups (12.4±2.6 ml.min-1). Tracheal pressure was lower in LTV (11.2±1.6 cmH2O) compared with HTV (14.7±1.1 cmH2O) and PTX (14.1±2.4 cmH2O). In all groups MV increased pulmonary elastance (22%, p<0.05) and decreased airway resistance (10%, p<0.05). LTV and PTX presented similar values of adherent (5±2 and 6±4 cells/100m venule, respectively), and migrated leukocytes (1±1 and 2±1 cells/5,000m2, respectively). On the contrary, HTV increased the number of adherent (14±4 leukocytes/100m venule, p<0.05) and migrated leukocytes (9±3 cells/5,000m2, p<0.05) in the mesentery. HTV presented lung neutrophil infiltration and edema. In conclusion, our study showed that high intrathoracic pressure is harmful to mesenteric microcirculation and lungs in the experimental model of rats with normal lungs and stable systemic blood pressure, LTV prevents microcirculatory and pulmonary alterations, and early administration of PTX attenuates leukocyte-endothelial interactions at the mesentery and lung inflammation during MV. These findings may have relevance for complications MV-induced and outcome.

Leucócitos

Mesentério

Microcirculação

Migração e rolagem de leucócitos

Pentoxifilina

Ratos Wistar

Respiração artificial

Respiração com pressão positiva

Artificial ventilation

Leukocytes

Mesentery

Microcirculation

Migration and rolling

Pentoxifylline

Respiration with positive pressure

Wistar rats