Evidence supporting the use of: Phenolic compounds
For the body system: Hepatic System
Synopsis
Source of validity: Scientific
Rating (out of 5): 3
Phenolic acids, a class of phytochemicals found abundantly in plant-based foods (such as coffee, berries, and whole grains), have attracted scientific interest for their potential hepatoprotective properties. Preclinical studies, particularly in animal models, have shown that phenolic acids like ferulic acid, caffeic acid, and gallic acid can mitigate liver injury induced by toxins, alcohol, or high-fat diets. These effects are attributed mainly to their antioxidant and anti-inflammatory activities, which help reduce oxidative stress and inflammation—key contributors to hepatic damage.
Some phenolic acids have been demonstrated to modulate liver enzyme activity, support detoxification processes, and attenuate lipid peroxidation in hepatic tissues. However, while these mechanisms are promising, human clinical evidence remains limited, with most studies being small or preliminary. As such, the support for phenolic acids in liver health is grounded in robust experimental and mechanistic studies but lacks large-scale clinical trials.
In summary, the use of phenolic acids to support the hepatic system is scientifically plausible and supported by animal and in vitro research, though human data is still emerging. Therefore, the evidence rating is moderate, reflecting supportive but not yet conclusive scientific validation for their use in promoting liver health.
Other ingredients that support Hepatic System
amino acidsartichoke
barberry
berberine
black garlic
bovine
bovine liver
broccoli
bupleurum falcatum
turmeric
curcumin
d-glucarate
dandelion
epigallocatechin gallate (EGCG)
fructose
garlic bulb
gentian root
gooseberry
green tea
hesperetin
kale
L-glutathione
L-methionine
L-ornithine
lecithin
liquid liver fractions
Matcha
Milk thistle
N-acetyl-cysteine (NAC)
Naringin
Niacin (vitamin B3)
Niacinamide (vitamin B3)
nicotinamide riboside
oleanolic acid
olive
ox bile
pantethine
parsley
phenolic compounds
phosphatidylcholine
phospholipids
pumpkin
riboflavin (vitamin B2)
Schisandra chinensis
silymarin
sulforaphane glucosinolate
tocotrienols
Trimethylglycine (TMG)
Triphala
vitamin B
Water
Watercress
Zinc
jiaogulan
punarnava
picrorhiza kurroa
lingzhi
bile salt
ferulic acid
ganoderma
polyphenols
trace minerals
herbal blend (proprietary)
Algae
AMP-activated protein kinase (AMPK)
apigenin
Antrodia camphorata
Arginine carglumate
AHCC
andrographolide
alpha-lipoic acid
ampelopsin
animal protein
black seed
borotutu
Brassica
Beef liver
baicalein
Basidiomycota
boldo
betanin
berry
bitter principals
bile acid
Bupleurum
Boerhavia diffusa
cholic acid
carqueja
catalpol
Coenzyme A
capillary artemisia
chlorogenic acid
Curcuminoid
cynarin
cruciferous
capers
chanca piedra
Curcuma
Chinese thoroughwax
corilagin
cynaropicrin
dihydromyricetin
DL-Methionine
dehydrocholic acid
dihydrolipoic acid
dithiolthiones
eriocitrin
egg
Eclipta
emblicanin
fungus
fringetree
flavonolignan
Ginsenosides
Gypenoside
gamma-glutamylcysteine
gallate
glucose
Glycocholic acid
Glycyrrhetinic acid
Guggulsterones
Glycyrrhizin
Gentiana manshurica
Glycochenodeoxycholic acid
isosilybin
isoliquiritigenin
Jurubeba
Kutkins
Maslinic acid
mangiferin
Monoterpenes
Myricetin
Mushroom
Naringenin
Nigella seed
Nobiletin
Oxymatrine
ornithine L-aspartic acid
Phyllanthus
Puerarin
Phenylpropanoids
Picroside
Pentacyclic triterpenoids
Polydatin
Phthalides
pu-er tea
polymethoxylated flavones
Plukenetia volubilis
Scoparia dulcis
Silybin
Salvianolic acid
Schisandrins
Silydianin
Silychristin
Schizandrol A
Silybum
S-allylcysteine
Sesamin
Sulforaphane
Terminalia
Terpenoids
Thymoquinone
Taxifolin
Thistle
Taurochenodeoxycholic acid
Taurocholic acid
Triterpenes
Taurodeoxycholic acid
Taraxacum
Theabrownin
Wogonin
Xanthohumol
Xanthorrhizol
Yin Chen
