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Milk Thistle:
Effects on Liver Disease and Cirrhosis and Clinical Adverse
Effects
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Milk
thistle plant
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Under
its Evidence-based
Practice Program, the Agency for Healthcare Research and
Quality (AHRQ) is developing scientific information for other
agencies and organizations on which to base clinical guidelines,
performance measures, and other quality improvement tools.
Contractor institutions review all relevant scientific literature
on assigned clinical care topics and produce evidence reports
and technology assessments, conduct research on methodologies
and the effectiveness of their implementation, and participate
in technical assistance activities. This evidence report details
a systematic review summarizing clinical studies of milk thistle in humans.
Overview
The
scientific name for milk thistle is Silybum marianum. It is
a member of the aster or daisy family and has been used by
ancient physicians and herbalists to treat a range of liver
and gallbladder diseases and to protect the liver against
a variety of poisons.
Two
areas are addressed in the report:
ˇ Effects
of milk thistle on liver disease of alcohol, viral, toxin,
cholestatic, and primary malignancy etiologies.
ˇ Clinical
adverse effects associated with milk thistle ingestion or
contact.
The
report was requested by the National Center for Complementary and
Alternative Medicine, a component of the National
Institutes of Health, and sponsored by the Agency for Healthcare
Research and Quality.
Reporting
the Evidence
Specifically,
the report addresses 10 questions regarding whether milk thistle
supplements (when compared with no supplement, placebo, other
oral supplements, or drugs):
ˇ Alter
the physiologic markers of liver function.
ˇ Reduce
mortality or morbidity,
or improve the quality of life
in adults with alcohol-related, toxin-induced, or drug-induced
liver disease, viral
hepatitis, cholestasis,
or primary hepatic
malignancy (hepatocellular carcinoma).
One
question addresses the constituents of commonly available
milk thistle preparations, and three questions address the
common and uncommon symptomatic adverse effects of milk thistle.
Methodology
Search
Strategy
Eleven
electronic databases, including AMED, CISCOM, the Cochrane
Library (including DARE and the Cochrane Controlled Trials
Registry), EMBASE, MEDLINE, and NAPRALERT, were searched through
July 1999 using the following terms:
ˇ Carduus
marianus.
ˇ Legalon.
ˇ Mariendistel.
ˇ Milk
thistle.
ˇ Silybin.
ˇ Silybum
marianum.
ˇ Silybum.
ˇ Silychristin.
ˇ Silydianin.
ˇ Silymarin.
An
update search limited to PubMed was conducted in December
1999. English and non-English citations were identified from
these electronic databases, references in pertinent articles
and reviews, drug manufacturers, and technical experts.
Selection
Criteria
Preliminary
selection criteria regarding efficacy were reports on liver
disease and clinical and physiologic outcomes from randomized
controlled trials (RCTs) in humans comparing milk thistle
with placebo, no milk thistle, or another active agent. Several
of these randomized trials had dissimilar numbers of subjects
in study arms, raising the question that these were not actually
RCTs but cohort studies. In addition, among studies using
non placebo controls, the type of control varied widely. Therefore,
qualitative and quantitative syntheses of data on effectiveness
were limited to placebo-controlled studies. For adverse effects,
all types of studies in humans were used to assess adverse
clinical effects.
Data
Collection and Analysis
Abstractors
(physicians, methodologists, pharmacists, and a nurse) independently
abstracted data from trials; a nurse and physician abstracted
data about adverse effects. Data were synthesized descriptively,
emphasizing methodologic characteristics of the studies, such
as populations enrolled, definitions of selection and outcome
criteria, sample sizes, adequacy of randomization process,
interventions and comparisons, cointerventions, biases in
outcome assessment, and study designs.
Evidence
tables and graphic summaries, such as funnel plots, Galbraith
plots, and forest plots, were used to examine relationships
between clinical outcomes, participant characteristics, and
methodologic characteristics. Trial outcomes were examined
quantitatively in exploratory meta-analyses that used standardized
mean differences between mean change scores as the effect
size measure.
Findings
Mechanisms
of Action
Evidence
exists that milk thistle may be hepatoprotective through a
number of mechanisms: antioxidant activity, toxin blockade
at the membrane level, enhanced protein synthesis, antifibriotic
activity, and possible anti-inflammatory or immunomodulating
effects.
Preparations
of Milk Thistle
The
largest producer of milk thistle is Madaus (Germany), which
makes an extract of concentrated silymarin. However, numerous
other extracts exist, and more information is needed on comparability
of formulations, standardization, and bioavailability for
studies of mechanisms of action and clinical trials.
Benefit
of Milk Thistle for Liver Disease
ˇ Sixteen
prospective trials were identified. Fourteen were randomized,
blinded, placebo-controlled studies of milk thistle's effectiveness
in a variety of liver diseases. In one additional placebo-controlled
trial, blinding or randomization was not clear, and one placebo-controlled
study was a cohort study with a placebo comparison group.
ˇ Seventeen
additional trials used non placebo controls; two other trials
studied milk thistle as prophylaxis in patients with no known
liver disease who were starting potentially hepatotoxic drugs.
The identified studies addressed alcohol-related
liver disease, toxin-induced liver disease,
and viral liver disease. No studies were found that evaluated
milk thistle for cholestatic liver disease or primary hepatic
malignancy (hepatocellular carcinoma, cholangiocarcinoma).
ˇ There
were problems in assessing the evidence because of incomplete
information about multiple methodologic issues, including
etiology and severity of liver disease, study design, subject
characteristics, and potential confounders. It is difficult
to say if the lack of information reflects poor scientific
quality of study methods or poor reporting quality or both.
ˇ Detailed
data evaluation and syntheses were limited to the 16 placebo-controlled
studies. Distribution of durations of therapy across trials
was wide (7 days to 2 years), inconsistent, and sometimes
not given. Eleven studies used LegalonŽ, and eight of those
used the same dose. Outcome measures varied among studies,
as did duration of therapy and the followup for which outcome
measures were reported.
ˇ Among
six studies of milk thistle and chronic alcoholic liver disease,
four reported significant improvement in at least one measurement
of liver function (i.e., aminotransferases, albumin, and/or
malondialdehyde) or histologic findings with milk thistle
compared with placebo, but also reported no difference between
groups for other outcome measures.
ˇ Available
data were insufficient to sort six studies into specific etiologic
categories; these were grouped as chronic liver disease of
mixed etiologies. In three of the six studies that reported
multiple outcome measures, at least one outcome measure improved
significantly with milk thistle compared with placebo, but
there were no differences between milk thistle and placebo
for one or more of the other outcome measures in each study.
Two studies indicated a possible survival benefit.
ˇ Three
placebo-controlled studies evaluated milk thistle for viral
hepatitis. The one acute
viral hepatitis study reported latest outcome
measures at 28 days and showed significant improvement in
aspartate
aminotransferase and bilirubin. The two studies
of chronic viral hepatitis differed markedly in duration of
therapy (7 days and 1 year). The shorter study showed improvement
in aminotransferases for milk thistle compared with placebo
but not other laboratory measures. In the longer study, milk
thistle was associated with a nonsignificant trend toward
histologic improvement, the only outcome measure reported.
ˇ Two
trials included patients with alcoholic or nonalcoholic cirrhosis.
The milk thistle arms showed a trend toward improved survival
in one trial and significantly improved survival for subgroups
with alcoholic cirrhosis or Child's Group A severity. The
second study reported no significant improvement in laboratory
measures and survival for other clinical subgroups, but no
data were given.
ˇ Two
trials specifically studied patients with alcoholic cirrhosis.
Duration of therapy was unclear in the first, which reported
no improvement in laboratory measures of liver function, hepatomegaly,
jaundice, ascites, or survival. However, there were nonsignificant
trends favoring milk thistle in incidence of encephalopathy
and gastrointestinal bleeding and in survival for subjects
with concomitant hepatitis C.
The second study, after treatment for 30 days, reported significant
improvements in aminotransferases but not bilirubin for milk
thistle compared with placebo.
ˇ Three
trials evaluated milk thistle in the setting of hepatotoxic
drugs: one for therapeutic use and two for prophylaxis with
milk thistle. Results were mixed among the three trials.
ˇ Exploratory
meta-analyses generally showed positive but small and nonsignificant
effect sizes and a sprinkling of significant positive effects.
ˇ No
studies were identified regarding milk thistle and cholestatic
liver disease or primary hepatic malignancy.
ˇ Available
evidence does not establish whether effectiveness of milk
thistle varies across preparations. One Phase II trial suggested
that effectiveness may vary with dose of milk thistle.
Adverse
Effects
Adverse
effects associated with oral ingestion of milk thistle include:
ˇ Gastrointestinal
problems
(e.g., nausea, diarrhea, dyspepsia, flatulence, abdominal
bloating, abdominal fullness or pain, anorexia, and changes
in bowel habits).
ˇ Headache.
ˇ Skin
reactions (pruritus, rash, urticaria, and eczema).
ˇ Neuropsychological
events (e.g., asthenia, malaise, and insomnia).
ˇ Arthralgia.
ˇ Rhinoconjunctivitis.
ˇ Impotence.
ˇ Anaphylaxis.
However,
causality is rarely addressed in available reports. For randomized
trials reporting adverse effects, incidence was approximately
equal in milk thistle and control groups.
Conclusions
Clinical
efficacy of milk thistle is not clearly established. Interpretation
of the evidence is hampered by poor study methods and/or poor
quality of reporting in publications. Problems in study design
include heterogeneity in etiology and extent of liver disease,
small sample sizes, and variation in formulation, dosing,
and duration of milk thistle therapy.
Possible
benefit has been shown most frequently, but not consistently,
for improvement in aminotransferases and liver function tests
are overwhelmingly the most common outcome measure studied.
Survival
and other clinical outcome measures have been studied least
often, with both positive and negative findings. Available
evidence is not sufficient to suggest whether milk thistle
may be more effective for some liver diseases than others
or if effectiveness might be related to duration of therapy
or chronicity and severity of liver disease.
Regarding
adverse effects, little evidence is available regarding causality,
but available evidence does suggest that milk thistle is associated
with few, and generally minor, adverse effects.
Despite
substantial in vitro and animal research, the mechanism of
action of milk thistle is not fully defined and may be multifactorial.
A systematic review of this evidence to clarify what is known
and identify gaps in knowledge would be important to guide
design of future studies of the mechanisms of milk thistle
and clinical trials.
Future
Research
The
type, frequency, and severity of adverse effects related to
milk thistle preparations should be quantified. Whether adverse
effects are specific to dose, particular preparations, or
additional herbal ingredients needs elucidation, especially
in light of equivalent frequencies of adverse effects in available
randomized trials. When adverse effects are reported, concomitant
use of other medications and product content analysis should
also be reported so that other drugs, excipients, or contaminants
may be scrutinized as potential causal factors.
Characteristics
of future studies in humans should include:
ˇ Longer
and larger randomized trials.
ˇ Clinical
as well as physiologic outcome measures.
ˇ Histologic
outcomes.
ˇ Adequate
blinding.
ˇ Detailed
data about Systematic standardized surveillance for adverse
effects.
ˇ Attention
to specific study populations (e.g., patients with hepatitis
B virus [HBV], or hepatitis C virus [HCV], or mixed infection
or coinfection with human immunodeficiency virus [HIV]), comorbidities,
alcohol consumption, and potential confounders.
There
also should be detailed attention to preparation, standardization,
and bioavailability of different formulations of milk thistle
(e.g., standardized silymarin extract and silybin-phosphatidylcholine
complex).
Precise
mechanisms of action specific to different etiologies and
stages of liver disease need explication. Further mechanistic
investigations are needed and should be considered before,
or in concert with, studies of clinical effectiveness. More
information is needed about effectiveness of milk thistle
for severe acute ingestion of hepatotoxins, such as occupational
exposures, acetaminophen overdose, and amanita poisoning.
Availability
of Full Report
The
full evidence report from which this summary was derived was
prepared by the San Antonio Evidence-based Practice Center
based at The University of Texas Health Science Center at
San Antonio and the Veterans Evidence-based Research, Dissemination,
and Implementation Center (VERDICT), a Veterans Affairs Health
Services Research and Development Center of Excellence under
contract No. 290-97-0012. Printed copies may be obtained free
of charge from the AHRQ Publications Clearinghouse by calling
800-358-9295. Requesters should ask for Evidence Report/Technology
Assessment Number 21, Milk Thistle: Effects on Liver Disease
and Cirrhosis and Clinical Adverse Effects (AHRQ Publication
No. 01-E025).
The
Evidence Report is also online on the National
Library of Medicine Bookshelf, or can be downloaded as
a zipped
file.
06/29/05
Source
Milk
Thistle: Effects on Liver Disease and Cirrhosis and Clinical
Adverse Effects. Summary, Evidence Report/Technology Assessment:
Number 21, September 2000. Agency for Healthcare Research
and Quality, Rockville, MD. www.ahrq.gov/clinic/epcsums/milktsum.htm
Additional
Liver-related Topics
Liver
Biopsy
Cirrhosis
Fibrosis
Hepatic
Decompensation
Hepatic Failure
Hepatocellular
Carcinoma
Histology
Liver Stiffness Measurement
(LSM)
Liver
Transplantation
Non-Alcoholic Fatty
Liver Disease (NAFLD)
Risk Factors
for HCC
SENV
Steatosis
The
Liver: Anatomy and Functions
All
HCV Topics [
A to Z ]
2-log
Drop
Acute (Primary) HCV
Infection
Age
Alcohol / Smoking
/ Diabetes
ALT
Anemia
Children
Chronic HCV Infection
Cirrhosis
Cognitive Behavioral
Therapy
Complementary Therapies
(CAM)
Combination Treatment
Cryoglobulinemia
/ Cryoglobulin
Disease Progression
Decompensation
Developing Countries
Depression
Diabetes Mellitus
Dosing
Drug Abuse
Drug Pricing
Drug Related Adverse Events
Early Treatment Cessation
Early Virologic Response
Epidemiology / African
Americans
Epoetin Alpha
Early Viral Response
(EVR)
Eradication
Extrahepatic
Events
Experimental Treatment
Experimental
Therapy (procedure)
Fibrosis
Gender
Genetics
Genotype
1 and 4
Genotype
2 and 3
Genotype 5
and 6
GGT Levels
Glucose Intolerance
Growth Factors
Guidelines
HCV
Clearance
HCV Disease
Progression
HCV-Drug Related Adverse Events
HCV Recurrence
After Transplantation
Hearing
Hematological
Growth Factors
Hemodialysis
Hemoglobin
Hemophilia
Hepatic Decompensation
Hepatic Failure
Hematological Disorders
Hepatocellular
Carcinoma
Histology
Hormone
Therapies
hyaluronate
(HA)
Immunoglobulins
Immunosuppression
Induction Therapy
Injection Drug
Use
Infergen
Insulin Resistance
Interferon
Interferon
Resistance
Intron A
Kidney Disorders
Kidney Transplant
Liver Biopsy
Liver Enzymes
Liver
Issues
Living Donors
Liver Stiffness Measurement
(LSM)
Maintenance Therapy
Methadone
Miscellaneous
Mortality and Morbidity
Monotherapy Treatment
Mother
to Child Transmission of HCV
Natural
History
Neutropenia
Non-Alcoholic
Fatty Liver
Disease (NAFLD)
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Cancers
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Lymphoma
Non-organ
Specific Autoantibodies
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/ Relapsers
Obesity
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HBV Infection
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PEG-Intron
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prothrombin time (PT)
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of Life
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Virologic Response (RVR)
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Retinopathy
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Ribavirin
Dosing
Risk
Factors for HCC
Risk
Factors
Roferon
Seroconversion
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(gender)
Sexual
Transmission
Skin
Reactions / Diseases
Sleeplessness
Steatosis
Steroids
Superinfection
Survival
Sustained Viral Response
Toxicities and Side Events
Transmission
Transplantation
Undetectable
HCV RNA
Viral
Eradication
Viral
Kinetics
Viral
Load
Weight-based
Dosing
Women
and Children
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