Portopulmonary Hypertension in Patients Undergoing Liver Transplantation: A Case Report ()
1. Introduction
The combination of pulmonary arterial hypertension with portal hypertension was initially reported in 1951 by Mantz and Craige, who had portal axis thrombosis with spontaneous portocaval shunt. The autopsy report showed that the patient had alteration in the pulmonary artery vasculature bed and a reduction in portal vein caliber [1,2].
This association was termed portopulmonary hypertension (PPH) in 1993 [2,3]. It has been classified as subgroup I in the classification of pulmonary hypertension in International Symposiums on Pulmonary Hypertension in 2003, Venice and in 2008, Dana Point [4].
The various forms of pulmonary arterial hypertension were grouped into Group I according to similarity to idiopathic pulmonary arterial hypertension in terms of histopathological, pathophysiological and therapeutic characteristics, characterized by lesions in the small distal pulmonary arteries (<500 μm in diameter), described as hypertrophy of the mean muscle layer, intimal proliferation that may appear as concentric or eccentric intimal fibrosis, thickening of the adventitia with moderate perivascular inflammatory infiltrates, formation of plexiform lesions and in situ thrombi. This results in progressive obstruction to pulmonary arterial flow from the right ventricle to the lungs, increased pulmonary arterial pressure and increased pulmonary vascular resistance [4].
The diagnosis of PPH is based on hemodynamic criteria, obtained by right heart catheterization: mean pulmonary arterial pressure (MPAP) > 25 mmHg, pulmonary vascular resistance (PVR) > 240 dynes∙s∙cm−5, and normal pulmonary artery occlusion pressure (PAOP) < 15 mmHg or transpulmonary pressure gradient (TPG) > 10 mmHg, the latter useful for differentiating status of volume overload where TPG < 10 mmHg. Diagnostic criteria were proposed by the European Respiratory SocietyEuropean Association for the Study of the Liver (ERSEASL) Task Force on Pulmonary-Hepatic Vascular Disorders (PHD), 2004 [5].
A classification of severity of PPH was proposed and based on MPAP: mild (25 to 34 mmHg); moderate (35 to 44 mmHg) and severe (≥45 mmHg) [5,6]. A moderate increase in MPAP may be found in more than 20% of patients with cirrhosis and pulmonary hypertension due to increased cardiac output (CO) and/or volume overload, despite lack of pulmonary vascular remodeling [5,7].
Data from prospective hemodynamic studies revealed that 2% to 6% of patients with portal hypertension develop PPH [8]. The prevalence in patients undergoing liver transplantation is quite conflicting, ranging from 3.5% to 8.5%, and some authors report more than 10% [9]. More recent studies using criteria from the current guidelines [5] have reported a prevalence rate of 5.3% (Krowka et al.) [10] and 4.6% (Raevens et al.) [11].
2. Case Presentation
Of 585 patients undergoing liver transplantation, 389 were analyzed from 1991 to 2012 at the UNICAMP Clinics Hospital. Inclusion criteria were: aged over 18 years, regardless of race or gender, with advanced liver disease and portal hypertension (diagnosis by abdominal ultrasound and upper digestive endoscopy). Exclusion criteria were: double graft, fulminant hepatitis, retransplant, hepatopulmonary syndrome, MPAP > 50 mmHg, with 2 cases diagnosed in the operating room after induction of anesthesia and patients with incomplete data. Of the 389 patients, 50 (12.9%) had MPAP > 25 mmHg, but only one patient (0.25%) met the diagnostic criteria in the current guidelines [5].
All patients received general anesthesia and orotracheal intubation (OTI), then underwent invasive monitoring by bilateral radial artery catheterization, right heart catheterization (RHC) with Swan-Ganz catheter (Edwards Lifesciences, Irvine California, USA), measuring the following hemodynamic data [12]: mean arterial pressure (MAP) (normal range = 77 - 97 mmHg), central venous pressure (CVP) (normal range = 4 - 8 mmHg), MPAP (normal range = 10 - 20 mmHg), PAOP (normal range = 5 - 15 mmHg), CO (normal range = 4 - 6 l/min) (by thermodilution, 3 saline injections), PVR (normal range = 50 - 150 dynes∙s∙cm−5), and TGP calculated by the formula:
TPG = MPAP – PAOP.
Mild PPH (MPAP between 25 and 34 mmHg) was diagnosed in a 43-year-old female patient with advanced stage liver disease and portal hypertension caused by primary biliary cirrhosis.
On pretransplant evaluation, the patient had normal transthoracic Doppler echocardiography (performed 6 months before liver transplantation); normal chest radiography and electrocardiogram (EKG); pulmonary function test (PFT) with mild obstructive pattern; ALT = 66 UI/L; AST = 118 UI/L; GGT = 449 UI/l; AP = 3079 UI/l; TB = 22.9 mg/dl; albumin = 2.9 mg/dl, INR =1.31, urea = 24 mg/dl; creatinine = 0.36 mg/dl; blood gas analysis: pH =7,43; pO2 = 84,5 mmHg; pCO2 = 30 mmHg; BE = −2.2; SatO2 = 96%; CTP score (Child-Turcotte-Pugh): class C (10 points) and MELD (Model End-Stage for Liver Disease) = 21 points.
The patient underwent liver transplantation (LT) using the piggy back technique.
The following hemodynamic data were present after induction of anesthesia: MAP = 80 mmHg, CVP = 3 mmHg, MPAP = 31 mmHg, PAOP = 11 mmHg, CO = 2.3 l/min, PVR = 696 dynes∙s∙cm−5, TPG = 20 mmHg, characterizing mild PPH.
The duration of cold ischemia was 990 minutes, warm ischemia was 165 minutes and surgery lasted 660 minutes. The patient received 27 units of packed red blood cells, 20 units of fresh frozen plasma, 20 units of platelet concentrates, 4 units of human albumin in the intraoperative period. In the intraoperative period, complication was arterial hypotension, requiring noradrenalin and dopamine.
In the postoperative period, she presented with primary graft failure. Alanine aminotransferase (ALT) level was 22,700 UI/L. The patient was not extubated and died on the second postoperative day.
3. Discussion
Portopulmonary hypertension is a condition characterized by increased pulmonary arterial pressure due to increased resistance to pulmonary blood flow in the setting of portal hypertension [10].
PPH affects adults and the mean patient age is 47 years (ranging from 30 to 60 years). It affects men and women [13]. A study by Kawut et al., showed a correlation with female sex, autoimmune hepatitis, without relation to hepatitis C virus and disease severity [14]. In our case, the patient was a 43-year old adult, presenting with biliary cirrhosis, unrelated to autoimmune hepatitis but related to CTP C score, and MELD 21 score, therefore related to the severity of disease.
Studies have demonstrated that increased MPAP may be found in more than 20% of patients with cirrhosis, or advanced liver disease, without increased pulmonary vascular resistance, due to an increased CO and/or volume overload [5,10]. In our study, 12.9% (n = 50) of the 389 patients undergoing LT had the such conditions: median (minimum-maximum), MAP = 80 (50 - 110) mmHg; CVP = 13 (5 - 36) mmHg; MPAP = 28 (26 - 44) mmHg; PAOP = 19 (4 - 29) mmHg; CO = 9 (2.1 - 16) l/min; PVR = 96 (33 - 696) dynes∙s∙cm−5; GTP = 10 (4 - 22) mmHg.
Therefore, MPAP may be increased without pulmonary vascular remodeling in the following conditions: hyperdynamic circulatory state. High flow circulatory state is a consequence of splanchnic vasodilatation caused by portal hypertension that results in high cardiac output and increased MPAP without increased pulmonary vascular resistance. MPAP may be normal or decreased [10]. An increase in central volume measured by pulmonary artery occlusion pressure evidences a deficient left ventricle and causes an increased MPAP [4].
Regarding analysis of the pretransplant tests, there was no correlation between the findings obtained, chest radiography, electrocardiogram, pulmonary function test and existence of PPH. Abnormalities found on radiography are usually due to volume overload. Sensitivity for findings such as right ventricular hypertrophy on EKG ranges from 25% to 40% [15,16]. Pilatis et al. correlated an abnormal result in PFT with the presence of ascites, without specific alterations for PPH [16]. Arterial blood gas analysis may show mild to moderate hypoxemia with decreased paCO2 [5,17] resulting in compensatory respiratory alkalosis, as shown by hypocapnea in the case report.
Transthoracic Doppler echocardiography is the noninvasive modality used for screening PPH. It is related to a sensitivity of 100%, specificity of 96%, positive predictive value of 59% and negative predictive value of 100% (for a cutoff value of right ventricular systolic pressure > 30 mmHg, compared to RHC), according to Colle et al. [18]. In our case, the patient had a normal result, which may have been related to the time in which the test was performed, absence of tricuspid regurgitation and operator experience. Previous studies showed that PPH is progressive and may develop within a short time (two to three months) [11].
Right heart catheterization is the gold standard for the diagnosis of PPH, allowing for the measurement of pressure, flow, volume and resistance [4,5,10]. Our patient was diagnosed with PPH in the operating room. It is recommended that the diagnosis should be made before liver transplantation, to initiate pulmonary vasodilator therapy before LT and achieve MPAP < 35 mmHg, resulting in lower patient morbidity and mortality [6,18].
The mortality rate after liver transplantation is 50%, if MPAP > 35 mmHg and 100% if MPAP ≥ 50 mmHg due to cardiopulmonary complications [6].
Although this was a case of mild PPH (MPAP = 31 mmHg), a pressure level that is not correlated with cardiopulmonary complication and death [19,20], the outcome was poor. There was massive bleeding in the intraoperative period, massive transfusion, primary graft failure, ALT = 22,700 UI/L and the patient died on the second postoperative day. According to the literature, massive transfusion increases the mortality risk, since the risk of mortality per unit of red blood cells transfused increases 6%, and for each 1000 UI/L of ALT the risk of mortality increases 24% [21].
4. Conclusion
Portopulmonary hypertension is a rare and severe complication of cirrhosis accompanied by portal hypertension, associated or not with liver disease. In the literature, data on the prevalence of this disorder in patients undergoing liver transplantation are quite conflicting due to the different diagnostic criteria for PPH used by authors.