Evidence supporting the use of: Protein
For the health condition: Hepatitis

Links: Go back one page, Tool main page, Ingredients list, Health conditions list, Body systems list

Synopsis

Source of validity: Scientific
Rating (out of 5): 3

Protein intake is an important consideration in the management of hepatitis, particularly chronic liver diseases such as hepatitis B and C. Hepatitis, characterized by inflammation of the liver, often leads to increased protein catabolism and muscle wasting (sarcopenia). Scientific literature supports the use of adequate dietary protein to help maintain or restore muscle mass, support immune function, and facilitate hepatic regeneration. Unlike earlier beliefs that high protein intake could precipitate hepatic encephalopathy in liver disease, more recent evidence suggests that moderate to high protein diets do not worsen encephalopathy in most patients and are in fact beneficial.

Clinical guidelines now recommend that patients with chronic hepatitis maintain a normal or slightly increased protein intake (about 1.0–1.5 g/kg per day), unless severe hepatic encephalopathy is present. This is based on studies showing that adequate protein supports the repair of hepatocytes, helps prevent malnutrition, and improves overall outcomes. While there is some caution in cases of advanced liver failure, most forms of hepatitis do not require protein restriction.

In summary, the use of protein as part of nutritional therapy for hepatitis is supported by scientific evidence, primarily to prevent malnutrition, promote liver regeneration, and support immune health. The strength of evidence is moderate, with recommendations endorsed by hepatology and nutrition societies.

More about protein
More about Hepatitis

Other ingredients used for Hepatitis

Achyranthes
Aerva lanata
Agrimonia pilosa
AHCC
Ajuga
Albumin
Algae
American Liverleaf
Andrographis
andrographolide
Angelica
Antrodia camphorata
aster root
astragalin
astragaloside
astragalus
atractylone
aucubin
Auricularia
Baccharoides anthelmintica
bacteria
bael
baicalin
Basidiomycota
Bassia scoparia
bayleaf
BCAA
Bergenia
bergenin
betulinic acid
bitter grass
black cumin
black root
black seed
blackboard tree
Bombax
Borassus aethiopum
borassus palm
borotutu
branched-chain amino acids
Broussonetia
Bupleurum
bupleurum falcatum
burdock
C-phycocyanin
Caesalpinia crista
Carthamus
cat's claw
caterpillar mushroom
Celosia
chaga mushroom
Chinese fleeceflower
Chinese silkvine
chirata
Clerodendrum indicum
commiphora
Coptis chinensis
cordyceps
corilagin
coriolus mushroom
Cynodon dactylon
cytokines
dandelion
Desmodium
Dianthus
Ficus simplicissima
flat-stem milk-vetch
flavonolignan
Flueggea suffruticosa
fucoidan
ganoderma
Globulins
Glucan peptides
Glutathione
Glycyrrhetinic acid
Glycyrrhizin
green chiretta
Hygrophila
Hyperoside
Immunoglobulin G
Indian bael
Indian coraltree
isosilybin
jujube
knotweed
L-cysteine
L-glutathione
labrador tea
Lactoferrin
Lentinula edodes mycelia
lichen
licorice root
Ligustrum
lingzhi
liquid liver fractions
little ironweed
Marine lipid
Milk thistle
Momordica
Morning glory
Morus
Myrrh
N-acetyl-cysteine (NAC)
Neoandrographolides
Nymphaea nouchali
oleanolic acid
omega-3 fatty acids
Onosma bracteatum
oregon grape
ornithine L-aspartic acid
Oroxylum indicum
Oxymatrine
pagoda tree
Palo Azul
parsley
Patrinia
paw paw
peony
Phellodendron
Picroside
Pluchea
plum fruit
Polygonum
polysaccharides
Portulaca
prebiotic blend (proprietary)
protein
punarnava
reishi mushroom
rhubarb
rice
Rubia cordifolia
Rubia yunnanensis
Sarivan
sarsaparilla
Schisandrins
Schizandrol A
seaweed
selenium
shiitake mushroom
Silybin
Silybum
Silychristin
Silydianin
silymarin
Sophora
spirulina
Stereospermum
Sulfated polysaccharide
Sumac
Swertia
Sword Bean
Szechuan lovage
Tamarind
Taraxacum
Terminalia
Tinospora cordifolia
Trametes
Tremella
Turkey tail mushroom
turmeric
Varuna
vitamin C
vitamin E
Wax Gourd
Yin Chen
Zinc
Zucchini