Evidence supporting the use of: Thyme
For the health condition: Antibiotics (alternatives to)
Synopsis
Source of validity: Scientific
Rating (out of 5): 3
Thyme (Thymus vulgaris) has been traditionally used for its antimicrobial properties, and modern scientific research supports some of these historical uses. The key active compound in thyme, thymol, exhibits notable antibacterial and antifungal activity in laboratory studies. In vitro experiments demonstrate that thyme extracts and essential oils can inhibit the growth of various bacteria, including some strains resistant to standard antibiotics, such as Staphylococcus aureus and Escherichia coli. These findings suggest thyme might be a valuable adjunct or alternative in combating bacterial infections, particularly in the context of increasing antibiotic resistance.
However, most of the evidence comes from laboratory (in vitro) studies rather than clinical trials in humans. The concentrations of thyme extract or oil used in these studies are often higher than what would typically be consumed in food or even herbal preparations. Human studies evaluating thyme as a direct replacement or adjunct to antibiotics are limited, and there are concerns about safety and efficacy at higher doses. Nonetheless, thyme is commonly used in traditional medicine for respiratory and digestive infections, and its essential oil is a component in some over-the-counter antiseptic products.
In summary, there is scientific evidence supporting thyme’s antimicrobial properties, but clinical evidence for its use as an antibiotic alternative is limited. Its role is best described as a potential adjunct rather than a replacement for conventional antibiotics.
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
Dichrostachys glomerata
European Elder
Embelia
Garlic
Other health conditions supported by thyme
Abdominal PainAcne
Antibiotics (alternatives to)
Anxiety
Arthritis
Asthma
Athlete's Foot
Backache
Bites and Stings
Boils
Bronchitis
Bruises (healing)
Burns and Scalds
Canker Sores
Chest Pain
Chills
Colds (antiviral)
Colds (decongestant)
Colds (general)
Colds (prevention)
Colds (with fever)
Congestion
Congestion (bronchial)
Congestion (lungs)
Congestion (lymphatic)
Congestion (sinus)
Constipation (adults)
Cough (damp)
Cough (dry)
Cough (general)
Cough (spastic)
Cuts
Dandruff
Diarrhea
Digestion (poor)
Ear Infection or Earache
Eczema
Pertussis
