Evidence supporting the use of: Barley Bran
For the health condition: Fatty Liver Disease
Synopsis
Source of validity: Scientific
Rating (out of 5): 2
Barley bran has been investigated for its potential benefits in supporting liver health, including in the context of non-alcoholic fatty liver disease (NAFLD). The scientific rationale is primarily based on the high content of dietary fiber, beta-glucans, and antioxidants found in barley bran. Several preclinical and a limited number of clinical studies suggest that increased dietary fiber can help reduce hepatic fat accumulation, improve insulin sensitivity, and modulate lipid metabolism—all factors involved in the pathogenesis of NAFLD.
A few small-scale human studies and animal models have shown that beta-glucans from barley may reduce serum cholesterol and triglycerides, and improve liver enzyme levels. For example, a 2019 randomized controlled trial (RCT) found that barley-derived beta-glucan supplementation improved liver function tests and lipid profiles in patients with NAFLD, though the sample size was modest. Another rodent study suggested that barley bran could reduce liver fat content and inflammatory markers.
However, evidence remains limited, with relatively few large-scale, high-quality clinical trials specifically examining barley bran (as opposed to barley in general) for NAFLD. Most guidelines continue to recommend increased dietary fiber intake for NAFLD, but rarely specify barley bran alone. Thus, while there is some scientific support for the use of barley bran in fatty liver disease, the strength of evidence is moderate at best.
Other ingredients used for Fatty Liver Disease
akkermansia muciniphilaalgal oil
alpha-glycosyl isoquercitrin
alpha-linolenic acid (ALA)
anthocyanins
arjun tree
artichoke
astaxanthin
banaba
barberry
barley
beet
berberine
bifidobacterium bifidum
bifidobacterium longum
black garlic
sesame
branched-chain amino acids
butyrate triglyceride
canola oil
catechins
caterpillar mushroom
cauliflower
chia seed
chicory
chlorella
chokeberry
choline
conjugated linoleic acid (CLA)
turmeric
curcumin
cyclodextrin
dandelion
diallyl disulfide (DADS)
EPA (eicosapentaenoic acid)
epigallocatechin gallate (EGCG)
fenugreek
fiber blend (proprietary)
fish oil
fish protein
flavonols
flaxseed
ginger
grape
hesperetin
kelp
l-carnitine
l-glutathione
l-methionine
l-taurine
lecithin
licorice root
liquid liver fractions
marine lipid
medium chain triglycerides (MCT)
milk thistle
naringin
niacin (vitamin B3)
nicotinamide riboside
oleanolic acid
oleic acid
olive
omega-3 fatty acids
omega-9 fatty acids
palmitoleic acid
perilla
phenolic acids
phosphatidylcholine
phospholipids
prebiotic blend (proprietary)
butyric acid
psyllium
reishi mushroom
resveratrol
silymarin
spirulina
tocotrienols
trans-pterostilbene
tributyrin
trimethylglycine (TMG)
triphala
Urolithin A
vitamin C
vitamin E
seaweed
mulberry
zinc
β-nicotinamide mononucleotide (NMN)
jiaogulan
enicostemma littorale
punarnava
picrorhiza kurroa
lingzhi
morus
ferulic acid
ganoderma
polyphenols
anemarrhena asphodeloides
coix
nopal
algae
AMP-activated protein kinase (AMPK)
ashitaba
4-hydroxyisoleucine
7,14-Hydroxy-Docosapentaenoic Acid
Arjuna
Apigenin
Aronia melanocarpa
Antrodia camphorata
Avocado
Ascophyllum nodosum
Acacetin
Alpha-Lipoic Acid
Astragaloside
Adzuki bean
Ampelopsin
Algal protein
Alisma
Arabinoxylan
Argan nut oil
Anemarrhena
alpha Methyl Tetradecylthioacetic Acid
Apocynin
Arjunolic acid
Borotutu
Brutieridin
Brown Algae
Brassica
Berberis (unspecified)
Baicalein
Blakeslea trispora
Betanin
Bifidobacteria
bile acid
Baicalin
Carqueja
Chebulic acid
Camelina Oil
Coriander
chlorogenic acid
Cynarin
Cruciferous
Chitin-Glucan Complex
Caulerpa okamurae
Copalchi
Curcuma
Corilagin
Crocetin
Cynaropicrin
corosolic acid
Carnosic acid
Diallyl sulfide
Danshen
Dihydromyricetin
DL-Methionine
Decursin
D-Pinitol
Diosgenin
Dithiolthiones
epicatechin
Eriocitrin
Ergothioneine
Erythrodiol
Eicosapentaenoic Acid
Eucommia ulmoides
Fiber
Rhubarb
walnut
Zucchini