Pathophysiology and Management of Liver Cirrhosis PDF

Summary

This review explores the pathophysiology and management of liver cirrhosis, focusing on complications stemming from portal hypertension and acute-on-chronic liver failure (ACLF). It details the complications of cirrhosis, including ascites, variceal hemorrhage, and hepatic encephalopathy, and offers insights into the management of these and ACLF.

Full Transcript

TYPE Review
PUBLISHED 15 June 2023
DOI 10.3389/fmed.2023.1060073

Pathophysiology and
OPEN ACCESS management of liver cirrhosis:
from portal hypertension to
EDITED BY
Golo Ahlenstiel,
Western Sydney University, Australia

REVIEWED BY
Sith Siramolpiwat,
acute-on-chronic liver failure
Thammasat University, Thailand
Ashwani K. Singal,
University of South Dakota, United States Rakesh Kumar Jagdish1† , Akash Roy2† , Karan Kumar3 ,
*CORRESPONDENCE Madhumita Premkumar4 , Mithun Sharma5 , Padaki Nagaraja Rao5 ,
Anand V. Kulkarni
[email protected] Duvvur Nageshwar Reddy5 and Anand V. Kulkarni5*
1
†
These authors share first authorship Department of Hepatology, Gastroenterology and Liver Transplant Medicine, Metro Hospital, Noida,
India, 2 Department of Gastroenterology, Institute of Gastrosciences and Liver Transplantation, Apollo
RECEIVED 02 October 2022 Hospitals, Kolkata, India, 3 Department of Hepatology, Mahatma Gandhi Medical College and Hospital,
ACCEPTED 19 May 2023 Jaipur, India, 4 Department of Hepatology, Post Graduate Institute of Medical Education and Research
PUBLISHED 15 June 2023 (PGIMER), Chandigarh, India, 5 Department of Hepatology, Asian Institute of Gastroenterology (AIG)
CITATION Hospitals, Hyderabad, India
Jagdish RK, Roy A, Kumar K, Premkumar M,
Sharma M, Rao PN, Reddy DN and Kulkarni AV
(2023) Pathophysiology and management of
Cirrhosis transcends various progressive stages from compensation
liver cirrhosis: from portal hypertension to
acute-on-chronic liver failure. to decompensation driven by the severity of portal hypertension. The
Front. Med. 10:1060073. downstream effect of increasing portal hypertension severity leads to various
doi: 10.3389/fmed.2023.1060073
pathophysiological pathways, which result in the cardinal complications of
COPYRIGHT cirrhosis, including ascites, variceal hemorrhage, and hepatic encephalopathy.
© 2023 Jagdish, Roy, Kumar, Premkumar,
Sharma, Rao, Reddy and Kulkarni. This is an
Additionally, the severity of portal hypertension is the central driver for further
open-access article distributed under the terms advanced complications of hyperdynamic circulation, hepatorenal syndrome, and
of the Creative Commons Attribution License cirrhotic cardiomyopathy. The management of these individual complications has
(CC BY). The use, distribution or reproduction
in other forums is permitted, provided the
specific nuances which have undergone significant developments. In contrast to
original author(s) and the copyright owner(s) the classical natural history of cirrhosis and its complications which follows an
are credited and that the original publication in insidious trajectory, acute-on-chronic failure (ACLF) leads to a rapidly downhill
this journal is cited, in accordance with
accepted academic practice. No use,
course with high short-term mortality unless intervened at the early stages. The
distribution or reproduction is permitted which management of ACLF involves specific interventions, which have quickly evolved
does not comply with these terms. in recent years. In this review, we focus on complications of portal hypertension
and delve into an approach toward ACLF.

KEYWORDS

portal hypertension, liver cirrhosis, HVPG, acute-on-chronic liver failure, chronic liver
disease

1. Introduction
Cirrhosis is a major cause of morbimortality, constituting around 2.4% of global deaths
(1). The natural history of cirrhosis has a progressive and dynamic course transitioning from
a relatively stable state of compensated cirrhosis to an advanced stage of decompensated
cirrhosis (2). Central to the dynamics of the transition is the degree of portal hypertension
(PH) which serves as the primary driver of complications like the development of varices,
ascites, renal dysfunction, hepatic encephalopathy (HE), hyperdynamic circulation, and
cardiomyopathy (3, 4). While on the one hand, the stagewise progression of cirrhosis
with worsening of PH delineates the conventional natural history of cirrhosis, another
distinct syndrome marked by an acute deterioration of liver function with or without
extrahepatic organ failures known as acute-on-chronic liver failure (ACLF) has opened up
newer paradigms in PH over the last decade (5). This review explores newer insights into the
pathophysiology of PH in cirrhosis and ACLF.

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2. Basic pathophysiological measurement, although access to the procedure at all centers is
mechanisms of development of PH limited (11, 12). Patients with VH who have an HVPG > 20 mmHg
should be evaluated for an early transjugular portosystemic shunt
Central to the development of PH is the occurrence of (TIPSS) (13).
resistance at any point in the portal venous system, leading to
the effect of a pressure gradient. In patients with cirrhosis, this
resistance level is at the level of hepatic sinusoids, which arises 3.2. Risk factors for VH and risks associated
from a combination of structural (fibrosis, nodule formation) and with re-bleeding
functional alterations (6). The static or architectural changes
behind the development of PH are driven by alterations VH from esophageal varices or gastric varices can result in
in the interplay between hepatic stellate cells (HSCs) and high mortality (10–20% at 6 weeks) (3, 14). Other rare ectopic
liver sinusoidal endothelial cells (LSECs). In response to any sites for VH (5 mm), higher HVPG, higher grade
a phenotypic remodeling leading to capillarization of the of the child class, presence of red color signs (RCS) markings,
sinusoids, thereby increasing intrahepatic resistance. Coupled active alcohol consumption, and presence of sepsis. There are
with this, a dynamic component arising from myofibroblast also certain high-risk factors for re-bleeding, including a pressure
contraction and decreased vasodilators like nitric oxide gradient measured within 24 h of bleeding more than 20 mmHg,
further accentuate the resistance pathway (6, 7). These two presence of large varices, age ≥ 60 years, renal failure, and
fundamental mechanisms lead to the progressive development severe initial bleeding (on admission, hemoglobin < 8 g/dL)
of PH, leading to splanchnic vasodilation, neurohormonal (11, 15).
disturbances, systemic vasodilatation, decreased mean arterial
pressures (MAP), and an overall hyperdynamic state (8) (Figure 1).
In combination with these, gut microbial alterations, increased
3.3. Management of acute variceal bleeding
intestinal permeability, and systemic inflammation act as both
precipitants and perpetrators of worsening PH and further
The management consists of controlling acute bleeding to
downstream complications (8) (Figure 2). In the following
prevent death and prevention of re-bleeding. Hemodynamic
sections, we elaborate on the individual consequences of PH and
resuscitation is the initial treatment considering patient age, co-
their management.
morbidities, ongoing blood loss, hemodynamic status, and other
parameters. Fluid resuscitation should be cautious and restrictive
to keep hemoglobin between 7 and 9 gm/dl, as overaggressive
3. Variceal hemorrhage resuscitation can worsen PH and bleeding (16). INR-based
corrections with fresh frozen plasma, factor VII transfusion,
3.1. Development of varices and platelet, cryoprecipitate, or other blood products are not warranted
importance of hepatic venous pressure (17, 18). Moreover, overzealous use of these products can be
gradient harmful due to the increase in PH due to volume overload
or transfusion-related lung injury (14, 19). After gastrointestinal
Resistance to portal blood flow and increased portal venous (GI) bleeding, blood acts as a culture media to grow infections;
blood inflow result in the reversal of flow and formation of therefore, adequate purging should be done to prevent post-bleed
alternate blood flow channels between the portal and systemic sepsis, HE, ascites, or other complications of PH. Post-bleed sepsis
circulation, which result in varices. The development of varices can increase mortality; thus mandating the use of antibiotics
acts as a surrogate marker of PH and signifies clinically significant during bleeding events as per local antibiograms. Currently, third-
portal hypertension (CSPH). HVPG is the closest surrogate marker generation cephalosporins are recommended (ceftriaxone 1 gm IV
of actual portal pressure and PH, with the presence of PH every 24 h for 7 days) (20, 21). Vasoconstrictors should be started
being defined as an HVPG > 5 mm Hg, while a value of >10 as early as possible in VH, along with proton-pump inhibitors.
mmHg signifies CSPH (9) (Table 1). In patients with VH, an Vasoconstrictors should be continued for at least 2–5 days (15).
HVPG > 20 mmHg (measured within 24 h after admission) Somatostatin, octreotide, and terlipressin are the recommended
is the best predictor of a poor outcome. A reduction in the agents with comparable efficacy and safety (22).
HVPG < 12 mm Hg or a reduction of more than 20% from Endoscopy-based endotherapy is definitive in managing VH
the baseline value has been associated with a decreased risk and should be done within 12 h after hemodynamic resuscitation
of VH and improved survival (10). HVPG > 20 mm Hg has (23). Prokinetics (intravenous erythromycin) and anti-emetics
been associated with a 5.21-fold likelihood of rebleeding, and should be given before the endoscopy for better visualization (24).
reducing HVPG below this threshold using a vasoactive drug Patients with altered mentation, severe sepsis, shock, and acidosis
improves outcomes. Patients with HVPG > 20 mmHg or
20 mm or severe PHG or MELD > 17) GOV2/IGV1, it may be
preferable to perform CARTO/PARTO if there is a gastro renal
shunt. Otherwise, an endoscopic ultrasonography-guided coil
3.5. Primary prophylaxis of VH with or without NSBB or prophylactic cyanoacrylate injection
is suggested in addition to NSBB. For patients with low-risk
Non-selective beta-blockers (NSBBs) or EBL are the GOV2/IGV1 (10
carvedilol was introduced, which has a better profile than
Bleeding from varices >12 propranolol. The addition of carvedilol to EBL than propranolol
Relatively no chances of re-bleed 20
patients with refractory ascites (RA) and/or VH, but controversies
Early TIPS >20 in advanced decompensated patients with ascites remain (41).
CSPH, clinically significant portal hypertension. TIPSS is traditionally performed for patients with refractory

FIGURE 3
Treatment of variceal hemorrhage. HE, hepatic encephalopathy; IV, intravenous.

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bleeding who fail EBL + NSBB. A recent study on early TIPSS (stent followed by loop diuretics) (54). Use of albumin replacement and
placement within 5 days of variceal bleed) has shown significant increased oral protein intake helps ascites mobilization. A recent
mortality benefits with a substantial reduction in the recurrence pilot study has shown that early use of midodrine for a short
of variceal bleeding without increasing the risk of HE (42). In course can control ascites better than diuretics alone, with a lesser
gastric variceal bleeding, TIPSS has been shown to prevent gastric occurrence of diuretic complications (55).
variceal re-bleeding in patients with high HVPG (43, 44). BRTO, RA: A weight loss of 5 L) with
results in intrahepatic vasoconstriction and peripheral vasodilation, albumin infusion (8 gm/L of ascites removed) is the recommended
including splanchnic vasodilation, which results in hypoperfusion therapy to relieve the symptoms. However, LVP is associated with
of the renal system, even when the patient is euvolemic or the risk of paracentesis-induced circulatory dysfunction (PICD),
hypervolemic (52). This state of relative hypovolemia due to which is mitigated with concomitant albumin usage. In a network
vasodilation results in the activation of the renin-angiotensin- meta-analysis, midodrine was reported as superior to albumin
aldosterone system (RAAS) and sympathetic nervous system in preventing PICD (55, 58, 59). NSBBs are contraindicated in
(SNS), leading to salt and fluid retention (50). This leads to the patients with RA requiring LVP due to compromised cardiac
retention of blood and a significant rise in blood volume leading performance (60). Midodrine, an alpha-1 agonist, is beneficial in
to filtration from the liver surface and the mesenteric vessels. High RA as it increases urine sodium loss and urinary volume (61, 62).
hydrostatic pressure, low oncotic pressure (hypoalbuminemia), By reducing endotoxemia, rifaximin may offer an additional benefit
and increased vascular permeability contribute to increasing in RA (63). Tolvaptan is beneficial in ascites control with survival
filtration through mesenteric vessels. The resorptive capacity of the benefit (64). However, tolvaptan has a black box warning as it
peritoneum and lymphatics cannot counteract these mechanisms can cause or precipitate bleeding episodes by platelet aggregation
(53). Any inflammation or infection of the peritoneum can affect inhibition and depleting vitamin-K-dependent clotting factors and
peritoneal resorption. Dysregulation of these can lead to an increase has a risk of liver injury (65). Therefore, its use should be cautious
in ascitic fluid formation. and restrictive to patients of grade 3 ascites/RA with refractory
hyponatremia and should be used for the shortest duration possible
(51). Terlipressin, the most used drug in hepatorenal syndrome
4.1. Management of ascites (HRS) and RA, helps in ascites control by mobilizing ascites and
increasing renal perfusion, glomerular filtration rate (GFR), and
The foremost important part of the treatment of ascites is urinary sodium excretion (66). Long-term albumin administration
sodium restriction (salt intake of 6 h in patients with cirrhosis and ascites in the absence of other with cirrhosis are termed type C. HE is graded as per West-
evident cause for acute renal injuries such as proteinuria, shock, or Haven criteria. HE can be covert [minimal HE (MHE) and Grade
nephrotoxins is termed HRS-AKI (76). I HE], which needs to be identified with the help of specialized
Recently, there has been a suggestion for a change in neuropsychological tests. Covert HE is reported among 80% of
terminology, with previous terms like HRS-1 and HRS-2 being patients with advanced liver disease, while overt HE is reported
replaced by more physiologic HRS-AKI, HRS-acute kidney disease among 40% (86). Overt HE can be new onset, episodic, with
(AKD), and HRS-chronic kidney disease (CKD). The estimated an interval between episodes of >6 months, or recurrent, where
incidence of HRS is around 18% at 1 year and 39% at 5 years and is further episode occurs within 6 months. Persistent HE refers
associated with an inferior median survival of ≤3 months without to an uncommon entity with no resolution of HE. Refractory
a transplant (51, 56). HE (lack of response after treatment of precipitants and on
Although several medical management options remain in treatment with lactulose and rifaximin for 48 h) is an uncommon
HRS, LT is the definitive therapy. Vasoconstrictors (terlipressin, but serious condition and requires active investigation into
octreotide in combination with midodrine and noradrenaline) hidden precipitating events (i.e., portosystemic shunt) and requires
and albumin infusion are the cornerstones of the treatment of alternative diagnosis to be ruled out (87). Important alternative
HRS. The crux of HRS therapy still revolves around an attempt causes include septic encephalopathy (23%), alcohol withdrawal,
to rule out other causes (infections, glomerular disease, shock, seizure, dyselectrolytemia, metabolic disorders, drugs/toxins (7%),
and acute tubular necrosis) concomitant with volume expansion intracranial structural lesions (5%), psychiatric disorders (1%), and
with albumin for 48 h followed by initiation of vasoconstrictors. multiple causes together (8%) (88).

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FIGURE 4
Treatment of ascites. SGLTA2I, Sodium-Glucose Co-transporter 2 inhibitors; MELD, model for end-stage liver disease; HE, hepatic encephalopathy;
PAH, pulmonary arterial hypertension; TIPSS, transjugular intrahepatic portosystemic shunts; CPAP, continuous positive airway pressure; LVP, large
volume paracentesis; LT, liver transplantation.

6.1. Pathophysiology of HE and effect of valve,” a compensatory mechanism to reduce the portal pressure
ammonia and bypass normal liver flow. More than 90% of patients with large
SPSS have enlarged spleen, hepatic atrophy, and thrombocytopenia
Alterations in neurotransmission and brain–blood barrier (93). Identification of these shunts is essential as these need to be
coupled with persistent neuroinflammation and oxidative stress, ligated at the time of liver transplant, or else the patient can have
apart from GABA-ergic or benzodiazepine pathway abnormalities, persistent HE, even after liver transplant.
lead to disruptions in brain energy and blood flow, causing HE.
Disturbed ammonia metabolism is the central and most studied
event in HE, with complex multimodality mechanisms. In brief,
as liver failure progresses, concentrations of ammonia increase 6.2. Management strategies in HE
which exerts its systemic effects and neurotoxicity through multiple
pathways, including astrocyte swelling, inflammation, oxidative Correct identification of the precipitant is the key to
stress, mitochondrial permeability alterations, alteration in energy the management of HE. Non-absorbable disaccharidases
kinetics, and membrane potential alterations (89). Despite this (lactulose/lactitol) are the first-line therapy. Adding polyethylene
implicating pathophysiological basis, no direct correlation has glycol to non-absorbable disaccharidases leads to earlier,
been established between the severity of HE and ammonia sustainable improvement in HE with survival benefits (94).
concentrations. However, it is imperative to state that in the Studies have shown a positive role of rifaximin and intravenous
presence of a normal ammonia level, the diagnosis of HE is almost L-ornithine L-aspartate (LOLA) in overt HE management (95, 96).
always an exclusion. Diet and calorie requirements must be met, especially for
A venous ammonia level of >55 µmol/L is 47% sensitive and patients with altered mentation who cannot take orally. Adequate
78.3% specific to diagnose HE (90). Other studies have identified a calories (35–45 kcal/kg/day) and protein (1–1.5 gm/kg/day) are
blood ammonia level cutoff of >133 µg/dl as a diagnostic of HE. essential to improve overall nutritional status. BCAA may be
Arterial ammonia is an excellent surrogate marker for the severity beneficial as they are metabolized in muscle and brain and
of HE in ACLF in advanced stages, and an ammonia level above promote protein synthesis, suppress protein catabolism, and
140 µg/dl at baseline or at any time point in first week with grades act as gluconeogenesis substrates (97). Rifaximin is an oral
III–IV HE serves as a poor prognostic marker for 28- and 90- antibiotic with minimal absorption (