The Proinflammatory Environment in Potential Heart and Lung Donors: Prevalence and Impact of Donor Management and Hormonal Therapy

BACKGROUND: Brain stem death can elicit a potentially manipulable cardiotoxic proinflammatory cytokine response. We investigated the prevalence of this response, the impact of donor management with tri-iodothyronine (T3) and methylprednisolone (MP) administration, and the relationship of biomarkers to organ function and transplant suitability. METHODS: In a prospective randomized double-blinded factorially designed study of T3 and MP therapy, we measured serum levels of interleukin-1 and -6 (IL-1 and IL-6), tumor necrosis factor-alpha (TNF-alpha), C-reactive protein, and procalcitonin (PCT) levels in 79 potential heart or lung donors. Measurements were performed before and after 4 hr of algorithm-based donor management to optimize cardiorespiratory function and +/-hormone treatment. Donors were assigned to receive T3, MP, both drugs, or placebo. RESULTS: Initial IL-1 was elevated in 16% donors, IL-6 in 100%, TNF-alpha in 28%, CRP in 98%, and PCT in 87%. Overall biomarker concentrations did not change between initial and later measurements and neither T3 nor MP effected any change. Both PCT (P =0.02) and TNF-alpha (P =0.044) levels were higher in donor hearts with marginal hemodynamics at initial assessment. Higher PCT levels were related to worse cardiac index and right and left ventricular ejection fractions and a PCT level more than 2 ng x mL(-1) may attenuate any improvement in cardiac index gained by donor management. No differences were observed between initially marginal and nonmarginal donor lungs. A PCT level less than or equal to 2 ng x mL(-1) but not other biomarkers predicted transplant suitability following management. CONCLUSIONS: There is high prevalence of a proinflammatory environment in the organ donor that is not affected by tri-iodothyronine or MP therapy. High PCT and TNF-alpha levels are associated with donor heart dysfunction. (C) 2009 Lippincott Williams & Wilkins, Inc.

Regulation of Bone Marrow Stem Cells through Oscillatory Shear Stresses - A Heart Valve Tissue Engineering Perspective

Heart valve disease occurs in adults as well as in pediatric population due to age-related changes, rheumatic fever, infection or congenital condition. Current treatment options are limited to mechanical heart valve (MHV) or bio-prosthetic heart valve (BHV) replacements. Lifelong anti-coagulant medication in case of MHV and calcification, durability in case of BHV are major setbacks for both treatments. Lack of somatic growth of these implants require multiple surgical interventions in case of pediatric patients. Advent of stem cell research and regenerative therapy propose an alternative and potential tissue engineered heart valves (TEHV) treatment approach to treat this life threatening condition. TEHV has the potential to promote tissue growth by replacing and regenerating a functional native valve. Hemodynamics play a crucial role in heart valve tissue formation and sustained performance. The focus of this study was to understand the role of physiological shear stress and flexure effects on de novo HV tissue formation as well as resulting gene and protein expression. A bioreactor system was used to generate physiological shear stress and cyclic flexure. Human bone marrow mesenchymal stem cell derived tissue constructs were exposed to native valve-like physiological condition. Responses of these tissue constructs to the valve-relevant stress states along with gene and protein expression were investigated after 22 days of tissue culture. We conclude that the combination of steady flow and cyclic flexure helps support engineered tissue formation by the co-existence of both OSS and appreciable shear stress magnitudes, and potentially augment valvular gene and protein expression when both parameters are in the physiological range.

Effet du CP-3(iv), un ligand du récepteur CD36, sur le stress oxydatif suite à une ischémie cardiaque transitoire chez la souris

Le récepteur éboueur CD36 facilite l’internalisation des acides gras libres non estérifiés (AGNE) au niveau des tissus cardiaque et périphériques. Lors d’une ischémie-reperfusion du myocarde (MI/R), les dommages produits sont en partie liés à l’internalisation des AGNE et à la production d’espèces réactives de l’oxygène, contrairement à ce qui est observé chez des souris déficientes en CD36 (CD36-/-). Nous avons émis l’hypothèse selon laquelle le CP-3(iv), un ligand synthétique du récepteur CD36, exercerait un effet cardioprotecteur en réduisant la taille de la zone myocardique infarcie lors d’une ischémie transitoire du myocarde. Nos objectifs étaient 1) de déterminer l’effet cardioprotecteur du CP-3(iv) et 2) de définir son mécanisme. Pour cela, des études in vivo et ex vivo ont été faites. Des souris de type sauvage ont été traitées avec le CP-3(iv) (289 nmol/kg) par voie sous-cutanée pendant 14 jours avant d’être soumises à 30 minutes d’ischémie suivant la ligature de l’artère coronaire gauche descendante et de sa reperfusion pendant une période de 6 ou 48 heures. De plus, des coeurs isolés de souris ont été perfusés 30 minutes, suivi de 40 minutes à faible débit (10%) et de 30 minutes de reperfusion pendant laquelle le coeur est perfusé avec le CP-3(iv) à une concentration de 10-6 M. Nos travaux ont montré que l’effet cardioprotecteur d’un traitement préventif par le CP-3(iv) permet de diminuer la taille de l’infarctus et préserve l’hémodynamie cardiaque de façon dépendante du CD36 puisque cet effet est non visible chez les souris CD36-/-. De plus, le CP-3(iv) exerce non seulement un effet systémique, mais aussi un effet cardioprotecteur direct sur le coeur isolé.

Preservation of myocardial beta-adrenergic receptor signaling delays the development of heart failure after myocardial infarction.

When the heart fails, there is often a constellation of biochemical alterations of the beta-adrenergic receptor (betaAR) signaling system, leading to the loss of cardiac inotropic reserve. betaAR down-regulation and functional uncoupling are mediated through enhanced activity of the betaAR kinase (betaARK1), the expression of which is increased in ischemic and failing myocardium. These changes are widely viewed as representing an adaptive mechanism, which protects the heart against chronic activation. In this study, we demonstrate, using in vivo intracoronary adenoviral-mediated gene delivery of a peptide inhibitor of betaARK1 (betaARKct), that the desensitization and down-regulation of betaARs seen in the failing heart may actually be maladaptive. In a rabbit model of heart failure induced by myocardial infarction, which recapitulates the biochemical betaAR abnormalities seen in human heart failure, delivery of the betaARKct transgene at the time of myocardial infarction prevents the rise in betaARK1 activity and expression and thereby maintains betaAR density and signaling at normal levels. Rather than leading to deleterious effects, cardiac function is improved, and the development of heart failure is delayed. These results appear to challenge the notion that dampening of betaAR signaling in the failing heart is protective, and they may lead to novel therapeutic strategies to treat heart disease via inhibition of betaARK1 and preservation of myocardial betaAR function.

Enhanced engraftment and repairing ability of human adipose-derived stem cells, conveyed by pharmacologically active microcarriers continuously releasing HGF and IGF-1, in healing myocardial infarction in rats

International audience

A systems approach to cardiovascular health and disease with a focus on aortic wave dynamics

Cardiovascular diseases (CVDs) have reached an epidemic proportion in the US and worldwide with serious consequences in terms of human suffering and economic impact. More than one third of American adults are suffering from CVDs. The total direct and indirect costs of CVDs are more than $500 billion per year. Therefore, there is an urgent need to develop noninvasive diagnostics methods, to design minimally invasive assist devices, and to develop economical and easy-to-use monitoring systems for cardiovascular diseases. In order to achieve these goals, it is necessary to gain a better understanding of the subsystems that constitute the cardiovascular system. The aorta is one of these subsystems whose role in cardiovascular functioning has been underestimated. Traditionally, the aorta and its branches have been viewed as resistive conduits connected to an active pump (left ventricle of the heart). However, this perception fails to explain many observed physiological results. My goal in this thesis is to demonstrate the subtle but important role of the aorta as a system, with focus on the wave dynamics in the aorta.

The operation of a healthy heart is based on an optimized balance between its pumping characteristics and the hemodynamics of the aorta and vascular branches. The delicate balance between the aorta and heart can be impaired due to aging, smoking, or disease. The heart generates pulsatile flow that produces pressure and flow waves as it enters into the compliant aorta. These aortic waves propagate and reflect from reflection sites (bifurcations and tapering). They can act constructively and assist the blood circulation. However, they may act destructively, promoting diseases or initiating sudden cardiac death. These waves also carry information about the diseases of the heart, vascular disease, and coupling of heart and aorta. In order to elucidate the role of the aorta as a dynamic system, the interplay between the dominant wave dynamic parameters is investigated in this study. These parameters are heart rate, aortic compliance (wave speed), and locations of reflection sites. Both computational and experimental approaches have been used in this research. In some cases, the results are further explained using theoretical models.

The main findings of this study are as follows: (i) developing a physiologically realistic outflow boundary condition for blood flow modeling in a compliant vasculature; (ii) demonstrating that pulse pressure as a single index cannot predict the true level of pulsatile workload on the left ventricle; (iii) proving that there is an optimum heart rate in which the pulsatile workload of the heart is minimized and that the optimum heart rate shifts to a higher value as aortic rigidity increases; (iv) introducing a simple bio-inspired device for correction and optimization of aortic wave reflection that reduces the workload on the heart; (v) deriving a non-dimensional number that can predict the optimum wave dynamic state in a mammalian cardiovascular system; (vi) demonstrating that waves can create a pumping effect in the aorta; (vii) introducing a system parameter and a new medical index, Intrinsic Frequency, that can be used for noninvasive diagnosis of heart and vascular diseases; and (viii) proposing a new medical hypothesis for sudden cardiac death in young athletes.

Novos alvos terapêuticos na hipertensão pulmonar

Trabalho Final do Curso de Mestrado Integrado em Medicina, Faculdade de Medicina, Universidade de Lisboa, 2014

Efectos hemodinámicos en bloqueo caudal con bupivacaína en niños/as sometidos a cirugía de hemicuerpo inferior. Hospital José Carrasco Arteaga, Cuenca. Enero 2014 – julio 2015

Antecedentes: el bloqueo caudal con bupivacaína, es una técnica anestésica ampliamente utilizada en niños, debido a su fácil uso, que se realiza bajo anestesia general en plano superficial; sin embargo, puede haber fenómenos de cardiotoxicidad como taquicardia, además de neurotoxicidad como convulsiones, dependiendo de la dosis usada y comorbilidades asociadas. Objetivo: determinar los efectos hemodinámicos en bloqueo caudal con bupivacaína en niños/as sometidos a cirugía de hemicuerpo inferior. Hospital José Carrasco Arteaga de Cuenca, de enero del 2014 a julio del 2015. Antecedentes: el bloqueo caudal con bupivacaína, es una técnica anestésica ampliamente utilizada en niños, debido a su fácil uso, que se realiza bajo anestesia general en plano superficial; sin embargo, puede haber fenómenos de cardiotoxicidad como taquicardia, además de neurotoxicidad como convulsiones, dependiendo de la dosis usada y comorbilidades asociadas. Objetivo: determinar los efectos hemodinámicos en bloqueo caudal con bupivacaína en niños/as sometidos a cirugía de hemicuerpo inferior. Hospital José Carrasco Arteaga de Cuenca, de enero del 2014 a julio del 2015. Metodología: estudio descriptivo, retrospectivo, de corte transversal. Los datos fueron recolectados de los registros intraoperatorios del HJCA, ingresados en formularios y tabulados en el programa SPSS V.15, mediante frecuencia, media, y porcentajes. Se presentaron resultados por medio de tablas y gráficos, y cumpliendo con los objetivos planteados. Resultados: la edad frecuente estuvo entre 2 a 3 años, y media de 4,59 ± 3,1 años; peso frecuente entre 10 - 19 kilogramos, media de 18.3 ± 8,6 kg, sexo predominante fue masculino con 78%. La cirugía más frecuente: la circuncisión con 31,3 %. La modificación de la frecuencia cardiaca fue la disminución de hasta 10% en la mayoría de variables. Y la modificación de la presión arterial sistólica y diastólica fue la disminución entre 11 y 20%. Conclusiones: las variables hemodinámicas tuvieron similares comportamientos en relación con las características personales. La cirugía con mayor variación hemodinámica fue la orquidopexia; la cirugía más frecuente con bloqueo caudal fue la circuncisión, la dosis de bupivacaina más usado fue 2mg/kg

Regulation of bone marrow stem cells through oscillatory shear stresses - A heart valve tissue engineering perspective

Heart valve disease occurs in adults as well as in pediatric population due to age-related changes, rheumatic fever, infection or congenital condition. Current treatment options are limited to mechanical heart valve (MHV) or bio-prosthetic heart valve (BHV) replacements. Lifelong anti-coagulant medication in case of MHV and calcification, durability in case of BHV are major setbacks for both treatments. Lack of somatic growth of these implants require multiple surgical interventions in case of pediatric patients. Advent of stem cell research and regenerative therapy propose an alternative and potential tissue engineered heart valves (TEHV) treatment approach to treat this life threatening condition. TEHV has the potential to promote tissue growth by replacing and regenerating a functional native valve. Hemodynamics play a crucial role in heart valve tissue formation and sustained performance. The focus of this study was to understand the role of physiological shear stress and flexure effects on de novo HV tissue formation as well as resulting gene and protein expression. A bioreactor system was used to generate physiological shear stress and cyclic flexure. Human bone marrow mesenchymal stem cell derived tissue constructs were exposed to native valve-like physiological condition. Responses of these tissue constructs to the valve-relevant stress states along with gene and protein expression were investigated after 22 days of tissue culture. We conclude that the combination of steady flow and cyclic flexure helps support engineered tissue formation by the co-existence of both OSS and appreciable shear stress magnitudes, and potentially augment valvular gene and protein expression when both parameters are in the physiological range. ^

Prevalencia del síndrome de cementación ósea en pacientes de artroplastia de cadera, Hospital Universitario Mayor Méderi 2014

Resumen Introducción: Con el fin de estimar la prevalencia del síndrome de cementación ósea (SICO) en pacientes llevados a artroplastia de cadera cementada en el Hospital Universitario Mayor Méderi 2014. Materiales y métodos: Se realizó un estudio observacional, descriptivo, de corte transversal, se evaluaron los registros de historia clínica de los pacientes llevados a artroplastia cementada de cadera desde enero a diciembre de 2014. Se estimó la prevalencia del número total de casos de SICO sobre el total de intervenidos y la mortalidad del número de muertes intraoperatorias sobre el total de pacientes que desarrollaron el SICO. Resultados: Se encontraron 102 pacientes llevados a artroplastia cementada de cadera; 73,5% de género femenino, la mediana de edad fue 82 años, la prevalencia de SICO fue de 0,96 x 100 procedimientos y la mortalidad de 7,14 x 100 eventos (1 caso), el evento más frecuentemente relacionado fue las Perdida sanguínea < 300ml (p.valor: 0,006), el resto de diferencias entre los factores de riesgo reconocidos no fueron estadísticamente significativas. Discusión Se encontró una baja frecuencia del evento, con una muerte relacionada, se requieren estudios prospectivos para explorar desenlaces en el tiempo para la presentación de SICO y factores de riesgo adicionales. Palabras clave: "Hipotensión/Diagnóstico", "Prevalencia", "Artroplastia de Reemplazo de Cadera/Efectos Adversos", "Cementos Óseos/Efectos Adversos", "Complicaciones Postoperatorias/Etiología" y "Complicaciones Postoperatorias/Inducido Químicamente"

Curva de aprendizaje para ecografía cardiaca en residentes de primer y segundo año de medicina crítica de la universidad del rosario en el año 2016

La ecografía básica cardiaca (ECB) es una herramienta útil en la Unidad de Cuidados intensivos al facilitar la realización de ciertas intervenciones. No se ha definido el número de repeticiones necesarias para obtener un nivel de competencia adecuado. La evidencia encontrada indica un número mínimo de cincuenta repeticiones, para alcanzar cierto grado de habilidad.