Macitentan Improves Risk Categorization for Liver Transplant Mortality in Patients With Portopulmonary Hypertension: A PORTICO Study Post Hoc Analysis.

confidence interval

interquartile range

liver transplantation

left ventricular end diastolic pressure

Model for End‐Stage Liver Disease

mean pulmonary arterial pressure

mean right arterial pressure

odds ratio

pulmonary arterial hypertension

pulmonary artery wedge pressure

portopulmonary hypertension

pulmonary vascular resistance

standard deviation

To the Editor:

Portopulmonary hypertension (PoPH) is a form of pulmonary arterial hypertension (PAH) associated with portal hypertension, usually caused by liver cirrhosis. Prognosis is poor for patients with PoPH, and 5‐year survival from diagnosis is significantly lower compared with patients who have idiopathic or heritable PAH.( ) LT can be a lifesaving option for patients with cirrhosis and PoPH,( ) but pretransplant and posttransplant outcomes depend on their cardiopulmonary hemodynamics. Indeed, by the time patients with PoPH have Model for End‐Stage Liver Disease (MELD) scores high enough to be listed for LT, their cardiopulmonary hemodynamics may be too severely impaired for them to withstand the procedure.

The mPAP and PVR are the key hemodynamic parameters used to guide the decision to perform LT. Specifically, mPAP has been associated with the risk of LT perioperative mortality in patients with PoPH, with values ≥50 mm Hg associated with a 100% mortality rate and those ranging from ≥35 to <50 mm Hg with PVR ≥250 dyn/second/cm5 associated with a 50% mortality rate.( ) No deaths were reported for patients with mPAP values <35 mm Hg or for patients with mPAP values ≥35 to <50 mm Hg, but with PVR <250 dyn/second/cm5.( ) Given this, the International Liver Transplant Society guidelines recommend that PoPH patients with mPAP >35 mm Hg initiate PAH‐targeted therapy to improve their hemodynamics prior to LT and state that mPAP values ≥45 mm Hg are an absolute contraindication for LT.( )

In the United States, a MELD exception rule (based on mPAP and PVR) was introduced for patients with PoPH to address the fact that the MELD score alone does not appropriately reflect the candidate’s medical urgency for LT. This exception allows PoPH patients demonstrating adequate hemodynamic response to PAH therapy (posttreatment mPAP <35 mm Hg and PVR <400 dyn/second/cm5) to be ranked higher on the transplant waiting list than their calculated MELD score would ordinarily allow. Similar MELD exception rules have also been implemented in a number of other countries. However, it has been reported that even for PoPH patients with an approved MELD exception, the overall mortality rate is approximately 23% while awaiting transplant, and PVR has been identified as an independent predictor of wait‐list mortality.( )

The recently completed PORTICO study evaluated the effects of macitentan, an endothelin receptor antagonist, in PoPH patients and was the first randomized controlled trial of a PAH therapy specifically conducted in this patient population.( ) In the PORTICO study, macitentan treatment resulted in improvements in PVR and mPAP as compared with placebo, and was well tolerated by most patients, with similar overall and hepatic safety profiles to those observed in trials of macitentan in patients with other PAH etiologies.( ) We conducted this post hoc analysis to evaluate the implications of the hemodynamic changes obtained during macitentan treatment with respect to patients' risk of LT perioperative and wait‐list mortality.

Patients and Methods

PORTICO (clinicaltrials.gov, NCT02382016) was a multicenter, double‐blind, placebo‐controlled, prospective study that explored the efficacy and safety of macitentan in patients with PoPH.( ) The study has been described in detail elsewhere.( ) Briefly, adults with confirmed PoPH were randomized to receive blinded treatment with either 10 mg of macitentan or placebo for 12 weeks, followed by 12 weeks of open‐label treatment with macitentan. Patients with severe hepatic impairment, defined as Child‐Pugh class C liver disease or a MELD score ≥19, were excluded from the study. Patients could be receiving a stable dose of background PAH therapy (phosphodiesterase type 5 inhibitor, soluble guanylate cyclase stimulator, or inhaled prostanoid).

Exploratory post hoc analyses were conducted on the full analysis set (all randomized participants) for the double‐blind treatment period. Changes were analyzed descriptively by treatment group using shift tables from baseline to week 12 for the following patient data:

Perioperative mortality risk, as determined by mPAP and PVR: low risk, mPAP <35 mm Hg or 35 mm Hg ≤ mPAP < 45 mm Hg with PVR < 240 dyn/second/cm5; intermediate risk, 35 mm Hg ≤ mPAP < 45 mm Hg with PVR ≥ 240 dyn/second/cm5; and high risk (contraindication to LT), mPAP ≥45 mm Hg.( , )

LT wait‐list mortality risk category based on PVR criteria from DuBrock et al.( ): low risk, PVR ≤450 dyn/second/cm5; and high risk, PVR >450 dyn/second/cm5.

An exact logistic regression with factors for treatment and risk category at baseline was used to compute the odds ratio (OR), 95% confidence interval (CI), and P value (macitentan versus placebo) for improvement to a better risk category at week 12. The number of patients improving from ineligible to eligible for LT MELD exception (mPAP <35 mm Hg and PVR <400 dyn/second/cm5) from baseline to week 12 are reported by treatment group.

Results

A total of 85 participants were randomized to receive either macitentan (n = 43) or placebo (n = 42). Baseline demographics and disease characteristics are shown in Table 1.( ) With respect to perioperative mortality risk, 7 patients were classified as low risk (macitentan, n = 3; placebo, n = 4), 36 as intermediate risk (macitentan, n = 15; placebo, n = 21), and 42 as high risk (macitentan, n = 25; placebo, n = 17) at baseline. For wait‐list mortality risk, 30 patients were classified as low risk (macitentan, n = 13; placebo, n = 17), and 55 were classified as high risk (macitentan, n = 30; placebo, n = 25) at baseline (Tables 1 and 2).

Table 1

Baseline Demographics and Disease Characteristics of All Patients in the PORTICO Study

	Macitentan (n = 43)	Placebo (n = 42)	Total (n = 85)
Sex, male	22 (51)	22 (52)	44 (52)
Age, years	58.0 ± 8.7	59.0 ± 9.5	58.5 ± 9.1
PAH therapy	27 (63)	27 (64)	54 (64)
Hemodynamic characteristics
PVR, dyn/second/cm5	552.4 ± 192.8	521.7 ± 163.3	537.2 ± 178.4
mPAP, mm Hg	46.4 ± 7.9	43.8 ± 8.5	45.1 ± 8.3
mRAP, mm Hg	7.3 ± 3.7	6.7 ± 3.6	7.0 ± 3.7
PAWP/LVEDP, mm Hg	9.3 ± 3.0	9.8 ± 2.8	9.5 ± 2.9
Cardiac index, L/minute/m2	3.1 ± 0.8	2.9 ± 0.8	3.0 ± 0.8
Cardiac output, L/minute	5.8 ± 1.6	5.6 ± 1.7	5.7 ± 1.7
Time since portal hypertension diagnosis, months	23 (5‐80)	31 (4‐69)	25 (5‐76)
MELD score*, †	8.5 ± 2.1	8.4 ± 2.0	8.5 ± 2.0
Hepatic venous pressure gradient † , ‡	9.8 ± 3.6	9.5 ± 4.2	9.6 ± 3.9
Cause of portal hypertension
Cirrhosis alcoholic	24 (56)	18 (43)	42 (49)
Hepatitis C	9 (21)	8 (19)	17 (20)
Cirrhosis alcoholic + viral hepatitis	3 (7)	8 (19)	11 (13)
Metabolic causes	2 (5)	5 (12)	7 (8)
Autoimmune hepatitis	3 (7)	1 (2)	4 (5)
Biliary cirrhosis primary	1 (2)	1 (2)	2 (2)
Hepatitis B	0	1 (2)	1 (1)
Other ‡	1 (2)	0	1 (1)
LT perioperative mortality risk category
Low §	3 (7)	4 (10)	7 (8)
Intermediate	15 (35)	21 (50)	36 (42)
High	25 (58)	17 (40)	42 (49)
LT wait‐list mortality risk category
Low	13 (30)	17 (40)	30 (35)
High	30 (70)	25 (60)	55 (65)

Data are given as n (%), median (IQR), and mean ± SD. There were no significant (P = not significant) differences between groups for any of the baseline parameters.

MELD score was calculated post hoc based on the relevant available information (macitentan, n = 42; placebo, n = 42).

Macitentan, n = 28; placebo, n = 27.

Other category included 1 patient with cryptogenic cirrhosis.

Macitentan: 2 patients with mPAP <35 mm Hg and 1 patient with mPAP between ≥35 and <45 mm Hg with PVR < 240 dyn/second/cm5. Placebo: 4 patients with mPAP <35 mm Hg.

Reproduced from Sitbon, et al. Lancet Resp Med 2019;7:594‐604, Copyright (2019), with permission from Elsevier.

Table 2

Change From Baseline to Week 12 in LT Perioperative and Wait‐List Mortality Risk Categories

Baseline Risk Category	n	Week 12 Risk Category				Patients Improved	OR for Improvement (95% CI)*	P Value
		Low Risk	Intermediate Risk	High Risk	Missing		Macitentan:placebo
Change from baseline to week 12 in LT perioperative mortality risk category
Macitentan (n = 43)							4.9 (1.6‐17.7)	0.004
Low risk	3	2 (5)	0 † , ‡	0 † , ‡	1 (2)
Intermediate risk	15	7 (16) *, †	6 (14)	0 † , ‡	2 (5)	20 (47)
High risk	25	4 (9) *, †	9 (21) *, †	11 (26)	1 (2)
Placebo (n = 42)
Low risk	4	2 (5)	2 (5) † , ‡	0 † , ‡	0
Intermediate risk	21	3 (7) *, †	13 (31)	5 (12) † , ‡	0	6 (14)
High risk	17	0 *, †	3 (7) *, †	13 (31)	1 (2)
Change from baseline to week 12 in LT wait‐list mortality risk category
Macitentan (n = 43)							10.5 (2.4‐66.8)	0.001
Low risk	13	11 (26)	—	1 (2) † , ‡	1 (2)	18 (42)
High risk	30	18 (42) *, †	—	9 (21)	3 (7)
Placebo (n = 42)						3 (7)
Low risk	17	14 (33)	—	3 (7) † , ‡	0
High risk	25	3 (7) *, †	—	21 (50)	1 (2)

Data are given as n (%) unless otherwise noted. Numbers in bold are patients who improved risk categorization from baseline to week 12. LT perioperative mortality risk categories: low, mPAP <35 mm Hg or mPAP between ≥35 and <45 mm Hg with PVR <240 dyn/second/cm5; intermediate, mPAP between ≥35 and <45 mm Hg with PVR ≥240 dyn/second/cm5; and high, mPAP ≥45 mm Hg. LT wait‐list mortality risk categories: low, PVR ≤450 dyn/second/cm5; high, PVR >450 dyn/second/cm5.

OR in favor of macitentan‐treated patients.

Improved from baseline.

Worsened from baseline.

After 12 weeks, 20 (47%) macitentan‐treated and 6 (14%) placebo‐treated patients had improved their risk category for LT perioperative mortality (Table 2; Fig. 1), and the OR for improvement in risk category was 4.9 (95% CI, 1.6‐17.7; P = 0.004) in favor of patients on macitentan. At week 12, 11 (26%) macitentan‐treated and 3 (7%) placebo‐treated patients had transitioned to the low‐risk category for LT perioperative mortality (Table 2). Of these, patients achieving mPAP <35 mm Hg included 6 (14%) in the macitentan arm and 3 (7%) in the placebo arm; 5 (12%) patients in the macitentan arm and 0 in the placebo arm achieved 35 mm Hg ≤ mPAP < 45 mm Hg with PVR <240 dyn/second/cm5.

Fig. 1

Percentage of patients with improved perioperative and wait‐list mortality risk categorization at week 12 versus baseline.

For wait‐list mortality risk, 18 (42%) macitentan‐treated and 3 (7%) placebo‐treated patients who were in the high‐risk wait‐list mortality group at baseline had moved to the low‐risk group by the end of week 12 (Table 2; Fig. 1). The OR for improvement in risk category was 10.5 (95% CI, 2.4‐66.8; P = 0.001) in favor of patients on macitentan.

Based on mPAP and PVR, patients who would not have been eligible for an LT MELD exception at baseline but who achieved eligibility criteria at week 12 included 6 (14%) macitentan‐treated and 2 (5%) placebo‐treated patients.

Discussion

Results from the PORTICO study showed that treatment of PoPH with macitentan leads to an improvement in mPAP and PVR without adversely affecting liver function.( ) Both of these are linked to LT perioperative and wait‐list mortality risk in this patient population. A variety of therapies have been used and reported to improve mPAP in patients with PoPH. However, the potential beneficial effects of such therapies have been based largely on retrospective studies and successful outcomes, with the limitations inherent to these types of studies hindering the ability to draw strong conclusions. Data from this post hoc analysis reveal the extent of these hemodynamic changes was enough to reduce the potential LT perioperative mortality risk category of almost half, and the wait‐list mortality risk category of over 40%, of patients receiving macitentan treatment.

In PORTICO, patients with MELD ≥19 or Child‐Pugh class C liver disease were excluded, yet the mean mPAP was 45.1 mm Hg,( ) indicating severe PoPH. In this context, it is worth noting that 64% of patients were already receiving PAH treatment at the start of the study. At baseline, almost half of the patients in PORTICO had mPAP values ≥45 mm Hg, which would prevent them from being considered for future LT without effective PAH treatment. In addition, it is conceivable that without management of their PAH, patients with less impaired hemodynamics at baseline would experience substantial further PAH progression by the time they were in need of LT, thus increasing their likelihood of being contraindicated for the procedure and/or increasing their risk of wait‐list and perioperative mortality.

The LT wait‐list mortality for PoPH patients granted a MELD exception is approximately 23%, with a median time on the waiting list of almost 1 year (344 days) and a quarter of patients remaining on the waiting list for 2 years or more.( ) Given that 1‐ and 2‐year survival for patients with PoPH has been reported at 85% and 67%, respectively,( , ) it is an important clinical goal to improve hemodynamics with targeted and efficacious treatments to reduce the risk of wait‐list mortality and enable LT.

One limitation of the current work is the post hoc nature of these analyses. Because the PORTICO study was not designed to investigate these endpoints, the required sample size was not determined. However, PORTICO has the strength of the data being obtained in the only double‐blind, prospective, randomized controlled trial performed in patients with PoPH and that it used objective hemodynamic parameters as endpoint measures. With respect to the wait‐list mortality analysis, the PVR cutoff of 450 dyn/second/cm5 was chosen based on survival analyses presented in the article by DuBrock et al.( ) The authors chose this cutoff value because it was the median initial PVR of patients in that study,( ) and as such, it is somewhat arbitrary. Despite this, the value is, in fact, close to the median baseline PVR of 491 dyn/second/cm5 observed in PORTICO. Finally, our data show that macitentan improves LT wait‐list and perioperative mortality risk based on established hemodynamic thresholds. However, further studies are required to establish if this translates into improvements in mortality in the real‐world setting.

Conclusions

In conclusion, on the basis of hemodynamic criteria, treatment with macitentan significantly improved patients' risk category for LT perioperative mortality and markedly decreased the number of patients in the high‐risk category for wait‐list mortality. Macitentan was generally well tolerated in PORTICO and did not lead to further adverse liver conditions in this hepatically impaired population.