Pulmonary vascular pressure profiles in broilers selected for susceptibility to pulmonary hypertension syndrome: age and sex comparisons.

Broilers that are susceptible to pulmonary hypertension syndrome (PHS, ascites) have an elevated pulmonary arterial pressure (PAP) when compared with PHS-resistant broilers. Two distinctly different syndromes, pulmonary arterial hypertension and pulmonary venous hypertension (PVH), both are associated with increases in PAP. Pulmonary arterial hypertension occurs when the right ventricle must elevate the PAP to overcome increased resistance to flow through restrictive pulmonary arterioles upstream from the pulmonary capillaries. In contrast, PVH is commonly caused by increased downstream (postcapillary) resistance. The sites of resistance to pulmonary blood flow are deduced by making contemporaneous measurements of the PAP and the wedge pressure (WP) and calculating the transpulmonary pressure gradient (TPG) (TPG = PAP - WP). We obtained PAP and WP values from 8-, 12-, 16-, 20-, and 24-wk-old anesthetized male and female broilers from a PHS-susceptible line. Pressures were recorded as a catheter was advanced through a wing vein to the pulmonary artery and onward until the WP was obtained. In addition to sex and age comparisons of vascular pressure gradients, the data also were pooled to obtain 3 cohorts for broilers having the lowest PAP values (n = 52; range: 12 to 22.9 mmHg), intermediate PAP values (n = 63; range: 23 to 32.9 mmHg), and highest PAP values (n = 62; range: 33 to 62 mmHg) independent of age or sex. Within each of the age, sex, and PAP cohort comparisons, broilers with elevated PAP consistently exhibited the hemodynamic characteristics of pulmonary arterial hypertension (elevated PAP and TPG combined with a normal WP) and not PVH (elevated PAP and WP combined with a normal or reduced TPG). Susceptibility to PHS can be attributed primarily to pulmonary arterial hypertension associated with increased precapillary (arteriole) resistance.

[1]  N. Anthony,et al.  Transpulmonary pressure gradient verifies pulmonary hypertension is initiated by increased arterial resistance in broilers. , 2008, Poultry science.

[2]  N. Anthony,et al.  Divergent selection for ascites incidence in chickens. , 2007, Poultry science.

[3]  G. Erf,et al.  An inadequate pulmonary vascular capacity and susceptibility to pulmonary arterial hypertension in broilers. , 2007, Poultry science.

[4]  A. Olkowski Pathophysiology of heart failure in broiler chickens: structural, biochemical, and molecular characteristics. , 2007, Poultry science.

[5]  G. Dorn,et al.  Decompensation of cardiac hypertrophy: cellular mechanisms and novel therapeutic targets. , 2007, Physiology.

[6]  R. Wideman,et al.  Evaluation of the serotonin receptor blocker methiothepin in broilers injected intravenously with lipopolysaccharide and microparticles. , 2006, Poultry science.

[7]  G. Erf,et al.  Pulmonary hypertension triggered by lipopolysaccharide in ascites-susceptible and -resistant broilers is not amplified by aminoguanidine, a specific inhibitor of inducible nitric oxide synthase. , 2006, Poultry science.

[8]  G. Erf,et al.  Influence of aminoguanidine, an inhibitor of inducible nitric oxide synthase, on the pulmonary hypertensive response to microparticle injections in broilers. , 2006, Poultry science.

[9]  R. Benza,et al.  Pulmonary Hypertension Out of Proportion to Left Heart Disease , 2006 .

[10]  G. Erf,et al.  Immune modulation of the pulmonary hypertensive response to bacterial lipopolysaccharide (endotoxin) in broilers. , 2004, Poultry science.

[11]  J. Balog Ascites Syndrome (Pulmonary Hypertension Syndrome) in Broiler Chickens: Are We Seeing the Light at the End of the Tunnel? , 2003 .

[12]  D. Chemla,et al.  Haemodynamic evaluation of pulmonary hypertension , 2002, European Respiratory Journal.

[13]  G. Erf,et al.  Intravenous micro-particle injections and pulmonary hypertension in broiler chickens: acute post-injection mortality and ascites susceptibility. , 2002, Poultry science.

[14]  R. Speich,et al.  Clinical classification of pulmonary hypertension. , 2004, Journal of the American College of Cardiology.

[15]  R. Wideman Pathophysiology of heart/lung disorders: pulmonary hypertension syndrome in broiler chickens , 2001 .

[16]  R. Wideman,et al.  Pulmonary wedge pressures confirm pulmonary hypertension in broilers is initiated by an excessive pulmonary arterial (precapillary) resistance. , 2001, Poultry science.

[17]  R. Wideman,et al.  Cardio-pulmonary function in preascitic (hypoxemic) or normal broilers inhaling ambient air or 100% oxygen. , 2000, Poultry science.

[18]  R. Wideman,et al.  Venous blood pressure in broilers during acute inhalation of five percent carbon dioxide or unilateral pulmonary artery occlusion. , 1999, Poultry science.

[19]  R. Wideman Cardiac output in four-, five-, and six-week-old broilers, and hemodynamic responses to intravenous injections of epinephrine. , 1999, Poultry science.

[20]  J. Newman,et al.  Pulmonary vasoconstriction induced by mitral valve obstruction in sheep. , 1998, Journal of applied physiology.

[21]  H. Classen,et al.  Left atrio-ventricular valve degeneration, left ventricular dilation and right ventricular failure: A possible association with pulmonary hypertension and aetiology of ascites in broiler chickens. , 1998, Avian pathology : journal of the W.V.P.A.

[22]  R. Wideman,et al.  Cardio-pulmonary function during acute unilateral occlusion of the pulmonary artery in broilers fed diets containing normal or high levels of arginine-HCl. , 1996, Poultry science.

[23]  C. Duran,et al.  Immediate and long-term effect of mitral balloon valvotomy on severe pulmonary hypertension in patients with mitral stenosis. , 1996, American heart journal.

[24]  G. Pesti Nutrient requirements of poultry , 1995 .

[25]  R. Wideman,et al.  Changes in pulmonary arterial and femoral arterial blood pressure upon acute exposure to hypobaric hypoxia in broiler chickens. , 1995, Poultry science.

[26]  R. Julian Ascites in poultry. , 1993, Avian pathology : journal of the W.V.P.A.

[27]  J. Reeves,et al.  The relationship between rapid growth and pulmonary hemodynamics in the fast-growing broiler chicken. , 1989, The American review of respiratory disease.

[28]  A. Guthrie,et al.  Broiler pulmonary hypertension syndrome. II. The direct measurement of right ventricular and pulmonary artery pressures in the closed chest domestic fowl. , 1987, The Onderstepoort journal of veterinary research.

[29]  A. Hernández Hypoxic ascites in broilers: a review of several studies done in Colombia. , 1987, Avian diseases.

[30]  M. Quinton,et al.  The relationship of right ventricular hypertrophy, right ventricular failure, and ascites to weight gain in broiler and roaster chickens. , 1987, Avian diseases.

[31]  F. Huchzermeyer,et al.  Pulmonary hypertension syndrome associated with ascites in broilers , 1986, Veterinary Record.

[32]  T. Hakim,et al.  Wedge pressure in large vs. small pulmonary arteries to detect pulmonary venoconstriction. , 1985, Journal of applied physiology.

[33]  A. H. Sillau,et al.  Pulmonary hypertension and the smooth muscle of the pulmonary arterioles in chickens at high altitude , 1982 .

[34]  A. Valenzuela,et al.  High altitude induced pulmonary hypertension and right heart failure in broiler chickens. , 1974, Research in veterinary science.

[35]  E. L. Besch,et al.  Effect of chronic hypoxia on the pulmonary arterial blood pressure of the chicken. , 1968, The American journal of physiology.

[36]  A. H. Smith,et al.  Effect of polycythemia and chronic hypoxia on heart mass in the chicken. , 1967, Journal of applied physiology.