Evidence supporting the use of: Naphthoquinones
For the health condition: Antibiotics (alternatives to)
Synopsis
Source of validity: Scientific
Rating (out of 5): 2
Naphthoquinones, a class of organic compounds that include substances like juglone (from walnut) and lapachol (from the South American tree Tabebuia avellanedae, or "pau d’arco"), have demonstrated antimicrobial properties in laboratory studies. Several in vitro experiments have shown that naphthoquinones can inhibit the growth of a variety of bacteria, including some antibiotic-resistant strains. Their mechanism of action is thought to involve interference with bacterial electron transport and the generation of reactive oxygen species, leading to oxidative stress in microbes. However, most studies to date have been conducted in vitro or in animal models, and there is limited clinical evidence supporting their efficacy in humans as alternatives to conventional antibiotics. Traditional use, especially of pau d’arco bark, as an antimicrobial agent exists in South American herbal medicine, but scientific validation remains limited. Concerns regarding toxicity and poor bioavailability in humans have further hampered clinical adoption. While naphthoquinones present a promising avenue for future antibiotic development, current evidence does not support their use as reliable, standalone alternatives to antibiotics in clinical practice. Thus, while there is a scientific basis for their antimicrobial properties, the supporting evidence remains preliminary, and they are not established as antibiotic alternatives for human treatment.
More about Naphthoquinones
More about Antibiotics (alternatives to)
Other ingredients used for Antibiotics (alternatives to)
2'-Fucosyllactoseajoene
astragalus
bacillus clausii
bacillus subtilis
berberine
black cumin
black walnut
caprylic acid
caterpillar mushroom
clove
colostrum
Coptis chinensis
turmeric
curcumin
epigallocatechin gallate (EGCG)
garlic bulb
ginger
goldenseal
gooseberry
green tea
horseradish
Indian tinospora
honeysuckle
lactobacillus bulgaricus
lactobacillus fermentum
lactobacillus paracasei
lactiplantibacillus plantarum
lactobacillus reuteri
lactobacillus rhamnosus
lactobacillus salivarius
lactococcus lactis
lactoferrin
lactoperoxidase
lauric acid
lentinula edodes mycelia
LH01-myoviridae
mastic gum
monolaurin
oregano
oregon grape
oyster mushroom
phenolic acids
plantain
butyric acid
rhizome
sage
shiitake mushroom
thyme
vitamin C
wasabia japonica
zinc
yellow root
papaya
neem tree
clerodendrum indicum
pistacia integerrima gall
paederia foetida
pau d'arco
myrrh
morinda
oriental arborvitae
melaleuca alternifolia
algae
geranium
10-Hydroxy-2-Decanoic Acid
3-(4-hydroxy-3-methoxyphenyl)prop-2-enoic acid
3-Phenyllactic Acid
Alpha-terpineol
Azelaic acid
Allicin
Anamu
Alchornea
Aucubin
Andrographolide
Andrographis
Alsonia scholaris
Asteracea
Allyl Sulfide
Acemannan
Algal protein
Alliin
Alantolactone
Bee Propolis
Bacillus indicus
Baphicacanthus cusia
Bidens pilosa
Betulinic acid
Butea monosperma
Brazillian peppertree
Bee hive
Basidiomycota
Bacillus licheniformis
Brevibacillus laterosporus
Bee products
Bombax
Borassus aethiopum
Bacteria
Blue-Green Alage
Bacillus
benzyl isothiocyanate
Baicalin
Coconut
Capric Acid
Calotropis gigantea
coconut oil
Carvacrol
Chinese Raisintree
Cinnamic Acid
Citral
Centipeda
Chalcone
Clostridium butyricum
Cinnamaldehyde
Copaiba Oil
European Elder
Garlic
Other health conditions supported by Naphthoquinones
AbscessesAntibiotics (alternatives to)
Athlete's Foot
Boils
Bronchitis
Burns and Scalds
Cancer (natural therapy for)
Cancer (prevention)
Canker Sores
Colds (antiviral)
Cuts
Diabetes
Fungal Infections
Gingivitis
Infection
Infection (bacterial)
Infection (viral)
Inflammation
Leprosy
Lesions