Evidence supporting the use of: Phenolic acids
For the health condition: Antibiotics (alternatives to)
Synopsis
Source of validity: Scientific
Rating (out of 5): 3
Phenolic acids, a class of plant-derived compounds including caffeic acid, ferulic acid, and gallic acid, have been explored as alternatives and adjuncts to antibiotics due to their notable antimicrobial properties. Scientific studies have demonstrated that phenolic acids possess antibacterial activity against a range of pathogenic bacteria, including antibiotic-resistant strains. The mechanisms underlying their activity include disruption of bacterial cell membranes, inhibition of biofilm formation, and interference with essential bacterial enzymes. In vitro experiments have shown that phenolic acids can enhance the efficacy of conventional antibiotics, sometimes exhibiting synergistic effects that may help reduce required dosages and mitigate resistance development.
Animal studies and a limited number of clinical observations further support their potential, indicating reduced infection rates and decreased bacterial loads when phenolic acids are used alone or in combination with standard antibiotics. However, while preclinical data are promising, robust human clinical trials remain scarce. Thus, the evidence base is moderate: there is clear scientific rationale and laboratory validation, but more research is needed before phenolic acids can be widely recommended as antibiotic alternatives or adjuncts in clinical settings.
In summary, the use of phenolic acids as antibiotic alternatives is supported by a growing body of scientific evidence, particularly from in vitro and animal studies. Their use is not primarily based on tradition, but rather on recent scientific investigations into their antimicrobial mechanisms and potential therapeutic applications.
More about phenolic acids
More about Antibiotics (alternatives to)
Other ingredients used for Antibiotics (alternatives to)
berberinecurcumin
garlic bulb
ginger
goldenseal
green tea
oregano
zinc
turmeric
vitamin C
10-Hydroxy-2-Decanoic Acid
Acemannan
ajoene
Alantolactone
Alchornea
algae
Algal protein
Allicin
Alliin
Allyl Sulfide
Alpha-terpineol
Andrographis
Andrographolide
2′-Fucosyllactose (2′-FL)
Anamu
astragalus
Bacillus
Bacillus indicus
bacillus subtilis
Bacteria
Baicalin
Baphicacanthus cusia
Bee hive
Bee products
Bee Propolis
benzyl isothiocyanate
caprylic acid
coptis chinesis
Garlic
lactoferrin
melaleuca alternifolia
Bidens pilosa
black cumin
black walnut
Alsonia scholaris
Asteracea
Aucubin
Azelaic acid
bacillus clausii
Bacillus licheniformis
Basidiomycota
Betulinic acid
Blue-Green Alage
Bombax
Borassus aethiopum
butyric acid
caterpillar mushroom
clerodendrum indicum
clove
colostrum
epigallocatechin gallate (EGCG)
European Elder
geranium
gooseberry
honeysuckle
horseradish
Indian tinospora
lactiplantibacillus plantarum
lactobacillus bulgaricus
lactobacillus fermentum
lactobacillus paracasei
lactobacillus reuteri
lactobacillus rhamnosus
lactobacillus salivarius
lactococcus lactis
lactoperoxidase
lauric acid
lentinula edodes mycelia
LH01-myoviridae
mastic gum
monolaurin
morinda
myrrh
neem tree
oregon grape
oriental arborvitae
oyster mushroom
paederia foetida
papaya
pau d'arco
phenolic acids
pistacia integerrima gall
plantain
rhizome
sage
shiitake mushroom
thyme
wasabia japonica
yellow root
Other health conditions supported by phenolic acids
AcneAlzheimer's Disease
Antibiotics (alternatives to)
Arthritis
Bites and Stings
Blood Clots (prevention of)
Bronchitis
Burns and Scalds
Cancer (natural therapy for)
Cancer (prevention)
Cancer Treatment (reducing side effects)
Cardiovascular Disease
Cholesterol (high)
Colds (antiviral)
Colds (general)
Colds (prevention)
Congestion (lungs)
Cuts
Depression
Dermatitis
Diabetes
Diarrhea
Digestion (poor)
Endurance (lack of)
Fatty Liver Disease
Fever
Free Radical Damage
Fungal Infections