Sarcopenia Clinical Trial
Official title:
The Relationship Betweensarcopenia And Myosteatosis With The Natural History Of Liver Cirrhosis
Malnutrition is a common figure associated with liver cirrhosis. The main component of
malnutrition in liver cirrhosis is represented by sarcopenia, a condition of a progressive
and generalized loss of muscle mass and strength. Many studies have reported that sarcopenia
is an independent predictor of morbidity and mortality in cirrhotic patients.
Moreover, cirrhotic patients may develop simultaneous loss of skeletal muscle and gain of
adipose tissue, culminating in a condition of "sarcopenic obesity".
As highlighted by a recent systematic review and meta-analysis [Van Vgut 2017] all the
studies on the impact of sarcopenia/sarcopenic obesity and myosteatosis in cirrhotic patients
are retrospective studies, mostly involving non-consecutive patients on the list for liver
transplantation. Moreover, most of the studies were produced by non-European centers
(Canadians,Americans, and Japanese) that published more papers on the same patient series.
All these factors have led to a possible selection bias.
Furthermore, the methods used to evaluate sarcopenia and myosteatosis were not homogeneous
(the entire muscle area, or area of the psoas or psoas diameter) as well as the cut-offs
used.
For these reasons, we propose a multicentric observational prospective study aimed at
analyzing the impact of sarcopenia, sarcopenic obesity and myosteatosis in cirrhotic patients
not listed for liver transplantation.
Primary endpoint:
- Evaluation of the impact of sarcopenia on the mortality of cirrhotic patients not on the
waiting list for liver transplantation.
Secondary end-point:
- Evaluation of the impact of sarcopenic obesity and myosteatosis on the mortality of
cirrhotic patients not on the waiting list for liver transplantation.
- Evaluation of the impact of sarcopenia/sarcopenic obesity and myosteatosis on the
development of complications (hepatic encephalopathy, bacterial infections, ascites, GI
bleeding) in cirrhotic patients not on the waiting list for liver transplantation.
- Evaluation of the impact of sarcopenia/sarcopenic obesity and myosteatosis on the number
of admissions and the days of hospitalization for such complications.
- Evaluation of the subcutaneous fat impact on mortality and morbidity of cirrhotic
patients not on the waiting list for liver transplantation.
- Concordance analysis of the various methods used (different cut-off/area psoas vs. area
of all muscles) for the diagnosis of sarcopenia through the analysis of CT scan.
Malnutrition is a common figure associated with liver cirrhosis with an incidence ranging
from 5% to 99% of patients depending on the population studied and diagnostic tools used for
the diagnosis [Amodio Hepatology 2013; Merli ESPEN; Merli 2013]. Several factors are involved
in the pathogenesis of malnutrition in the patient with liver cirrhosis as an inadequate
dietary intake, altered nutrient uptake and alterations in the use of the substrate due to
liver disease [Tandon P 2017, Plauth M 2002]. Furthermore, a variety of acute events and
complications can reduce then patient's ability to take care of their food intake [Plauth
M2002]. Malnutrition is associated with an increased risk of mortality, higher prevalence of
portal hypertension-related complications and infections, as well as longer in hospital stay
[Merli 1996, Merli 2010, Merli 2013, Tandon P Liver Transplant 2012, Montano-Loza 2012].
The main component of malnutrition in liver cirrhosis is represented by sarcopenia, a
condition of a progressive and generalized loss of muscle mass and strength [Dasarathy S
2012, Montano-Loza AJ 2012, Cruz-jentoft AJ 2010]. Many studies have reported that sarcopenia
is an independent predictor of morbidity and mortality in cirrhotic patients [Merli 2013,
Tandon P Liver Transplant 2012, Montano-Loza 2012].
Moreover, while overweight and obesity are endemic in Western countries, these conditions
have been associated with the development of chronic liver disease, worsening of liver
fibrosis and progression to cirrhosis [Everhart JE 2009; Raynard B 2002]; furthermore, the
body mass index(BMI) has been considered an independent risk factor for the development of
decompensation among cirrhotic patients of all causes [Berzigotti A 2010].
Cirrhotic patients may develop simultaneous loss of skeletal muscle and gain of adipose
tissue, culminating in a condition of "sarcopenic obesity" [Montano-Loza AJ 2016]. This
observation is relevant because, despite its important role in the prognosis of cirrhosis,
sarcopenia in cirrhotic patients is frequently overlooked as body composition assessments can
be challenging in cirrhotic patients with fluid retention or who are overweight or frankly
obese [O'Brein 2008]. In addition, muscle depletion is characterized by both a reduction in
muscle size and an increased proportion of intermuscular and intramuscular fat denominated
'myosteatosis' [Montano-Loza AJ 2016]. Myosteatosis increases with age and adiposity and it
is associated with metabolic abnormalities, decreased strength and mobility [Montano-Loza AJ
2016, Correa-de-Araujo R 2017].
Montano-Loza and colleagues showed that cirrhotic patients with sarcopenic obesity or
myosteatosis had worse median survival compared to those patients with normal body
composition [Montano‐ Loza A J 2016]. In previous work, Kabori et al. demonstrated an
association between myosteatosis and the prevalence of diabetes mellitus in patients
undergoing hepatocellular carcinoma resection [Kaibori M 2015].
Assessment of sarcopenia and myosteatosis The European Consensus Statement has identified
computed tomography (CT) as the gold standard for the detection of muscle wasting in clinical
trials [Cruz-Jentoft 2010] nevertheless in clinical practice, the execution of CT and MRI is
difficult to be justified only for quantifying muscle mass.
However, most cirrhotic patients have imaging for surveillance of focal liver lesions,
hepatocellular carcinoma, vascular disease and pre-transplant evaluation [Dasarathy 2016]. CT
is more commonly used as some software enables specific tissue demarcation using precise HU
thresholds [Mitsiopoulos 1998]. There is excellent reliability between different software
systems, with a good reproducibility between the software package [Irving 2007]. Although
heterogeneity in the literature also exists about the abdominal muscles measured (psoas or
total abdominal wall) and the site of measurements (third or fourth lumbar vertebra) [Carey
2017], the measurement of the abdominal muscle area at L3-L4 is considered the gold standard
due to the relative independence from the activity level and water retention [Montano-Loza
2012].
CT images have been also the most utilized as a research tool to investigate myosteatosis. It
is basically assessed indirectly using muscle attenuation calculated, leading to a close
correlation with direct measurements of muscle lipid content [Machann et al., 2003;
Larson-Meyer et al., 2006].
Muscle radiation attenuation is a radiological characteristic that can be measured with
Hounsfield units (HU) [Goodpaster et al., 2000; Goodpaster, 2002]. When muscle
cross-sectional area and attenuation are reported, the most common practice is to use
pre-established HU ranges to define intermuscular fat (usually −190 to −30 HU) and muscle
tissue (usually −29 HU to 150 HU) [Aubrey et al., 2014].
As highlighted by a recent systematic review and meta-analysis [Van Vgut 2017] all the
abovementioned studies on the impact of sarcopenia/sarcopenic obesity and myosteatosis in
cirrhotic patients are retrospective studies, mostly involving non-consecutive patients on
the list for liver transplantation. Moreover, most of the studies were produced by
non-European centers (Canadians,Americans, and Japanese) that published more papers on the
same patient series. All these factors have led to a possible selection bias.
Furthermore, the methods used to evaluate sarcopenia and myosteatosis were not homogeneous
(the entire muscle area, or area of the psoas or psoas diameter) as well as the cut-offs
used.
AIMS and ENDPOINT For these reasons, we propose a multicentric observational prospective
study aimed at analyzing the impact of sarcopenia, sarcopenic obesity and myosteatosis in
cirrhotic patients not listed for liver transplantation.
Primary endpoint:
- Evaluation of the impact of sarcopenia on the mortality of cirrhotic patients not on the
waiting list for liver transplantation.
Secondary end-point:
- Evaluation of the impact of sarcopenic obesity and myosteatosis on the mortality of
cirrhotic patients not on the waiting list for liver transplantation.
- Evaluation of the impact of sarcopenia/sarcopenic obesity and myosteatosis on the
development of complications (hepatic encephalopathy, bacterial infections, ascites, GI
bleeding) in cirrhotic patients not on the waiting list for livertransplantation.
- Evaluation of the impact of sarcopenia/sarcopenic obesity and myosteatosis on the number
of admissions and the days of hospitalization for such complications.
- Evaluation of the subcutaneous fat impact on mortality and morbidity of cirrhotic
patients not on the waiting list for liver transplantation.
- Concordance analysis of the various methods used (different cut-off/area psoas vs. area
of all muscles) for the diagnosis of sarcopenia through the analysis of CT scan.
PATIENTS Collection of a large national cohort of patients with liver cirrhosis not listed
for liver transplantation, undergoing CT-scan abdomen based on different indications (with or
without contrast). Each center needs to enroll at least 10 patients within 6 months for an
estimate of at least 20 participating Italian centers.
INCLUSION CRITERIA: all patients with liver cirrhosis (age 40 - 75 years) undergoing
abdominal CT-scan including the third lumbar L3 vertebrae for the clinical indication
(surveillance of focal liver lesions, vascular evaluation, pre-transplant evaluation,
pre-TIPS evaluation.) will be considered for the enrollment.
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