# Chamomile (Matricaria chamomilla) **Canonical URL:** https://ingredients.hermeticasuperfoods.com/ingredients/chamomile-matricaria-chamomilla **Data Source:** Hermetica Superfoods Ingredient Encyclopedia **Updated:** 2026-04-02 **Evidence Score:** 1 / 10 **Category:** Middle Eastern **Also Known As:** Manzanilla (Spanish), Wild Chamomile, Babuna (Arabic/Urdu), German Chamomile, Kamille (German), Matricaria (Matricaria recutita), Hungarian Chamomile, Matricaria chamomilla ## Overview Matricaria chamomilla derives its principal pharmacological activity from the flavonoid apigenin, which binds benzodiazepine receptors in the CNS, and from the terpenoid chamazulene, which inhibits leukotriene synthesis and cyclooxygenase pathways to reduce [inflammation](/ingredients/condition/inflammation). In a randomized controlled trial, standardized chamomile extract (220 mg, 1.2% apigenin) administered daily for eight weeks produced a significantly greater reduction in Generalized Anxiety Disorder symptoms versus placebo, with a Hamilton Anxiety Scale reduction of approximately 2.7 points over baseline. ## Health Benefits - **Anxiolytic and Sedative Support**: Apigenin acts as a partial agonist at GABA-A/benzodiazepine receptors, promoting anxiolysis and mild sedation without the dependency risk associated with synthetic benzodiazepines; clinical trials in GAD patients demonstrate statistically significant symptom reduction with standardized extracts. - **[Anti-inflammatory](/ingredients/condition/inflammation) Activity**: Chamazulene (formed from matricine during steam distillation) and α-bisabolol inhibit 5-lipoxygenase and cyclooxygenase-2, reducing prostaglandin and leukotriene synthesis; topical chamomile preparations have shown benefit in atopic dermatitis and wound healing models. - **Antispasmodic and GI Relief**: Flavonoids and terpenoids relax smooth muscle of the gastrointestinal tract by antagonizing calcium channels and inhibiting [acetylcholine](/ingredients/condition/cognitive)-mediated contractions, providing clinically observed relief from irritable bowel symptoms, infantile colic, and dyspepsia. - **[Antioxidant Protection](/ingredients/condition/antioxidant)**: Quercetin, luteolin, and apigenin contribute significant free radical scavenging capacity; DPPH IC₅₀ values for chamomile essential oil fractions have been reported at approximately 533.89 µg/mL, while aqueous extracts rich in polyphenols exhibit markedly higher potency relevant to oral consumption. - **[Antimicrobial](/ingredients/condition/immune-support) Effects**: Essential oil components including α-bisabolol, chamazulene, and en-yne dicycloether demonstrate in vitro inhibitory activity against gram-positive bacteria (Staphylococcus aureus, Bacillus subtilis) and Candida albicans, supporting its traditional use in wound care and oral hygiene preparations. - **[Blood Glucose](/ingredients/condition/weight-management) Modulation**: Preclinical studies using leaf extracts at 100 mg/kg body weight report significant reductions in fasting blood glucose in streptozotocin-induced diabetic animal models, with mechanisms proposed to involve alpha-glucosidase inhibition and pancreatic beta-cell protection by apigenin. - **Dermatological and Wound Healing**: α-Bisabolol accelerates wound healing by promoting fibroblast migration and [collagen synthesis](/ingredients/condition/skin-health), while the anti-inflammatory terpenoid fraction reduces erythema and pruritus in skin conditions; topical chamomile creams have been evaluated against hydrocortisone for eczema with comparable but modest outcomes. ## Mechanism of Action Apigenin (4′,5,7-trihydroxyflavone), the dominant flavonoid aglycone in Matricaria chamomilla, binds to the benzodiazepine site of the GABA-A receptor complex with moderate affinity, potentiating chloride ion conductance and producing anxiolytic and sedative effects without full agonist efficacy. Chamazulene, generated through thermal degradation of the pro-drug matricine during steam distillation or hot-water infusion, inhibits 5-lipoxygenase and suppresses leukotriene B4 synthesis, while α-bisabolol concurrently down-regulates COX-2 expression and NF-κB nuclear translocation, collectively attenuating the arachidonic acid [inflammatory](/ingredients/condition/inflammation) cascade. The antispasmodic action is mediated through antagonism of muscarinic [acetylcholine](/ingredients/condition/cognitive) receptors and voltage-gated L-type calcium channels in intestinal smooth muscle, with the flavonoid fraction also reported to inhibit phosphodiesterase, elevating intracellular cAMP and further promoting smooth [muscle relaxation](/ingredients/condition/sleep). Polyphenols including quercetin and luteolin exert [antioxidant activity](/ingredients/condition/antioxidant) through direct hydrogen atom transfer to free radicals and chelation of pro-oxidant transition metals, while simultaneously modulating Nrf2/ARE pathway gene expression to upregulate endogenous antioxidant enzymes such as superoxide dismutase and heme oxygenase-1. ## Clinical Summary The most clinically robust evidence concerns chamomile's anxiolytic properties: a Phase II/III RCT (Mao et al., 2016) randomized 179 GAD patients to standardized chamomile extract (500 mg/day, ~1.2% apigenin) versus placebo for 26 weeks following an 8-week open-label response phase, demonstrating a hazard ratio of 0.48 (95% CI 0.24–0.97) for relapse, representing a statistically significant reduction. For GI spasm and colic, a Cochrane-reviewed RCT found chamomile tea (150 mL after each feeding) reduced colic crying time by approximately 57% versus placebo over one week in infants, though blinding limitations reduce confidence. Topical chamomile cream was compared to 0.5% hydrocortisone in a small trial (n=161) and showed comparable but not superior efficacy for atopic eczema, meeting non-inferiority criteria only in a subset analysis. Overall, effect sizes are modest to moderate across indications, and most trials are characterized by small sample sizes, short durations, and heterogeneous extract standardization, warranting cautious interpretation. ## Nutritional Profile Dried Matricaria chamomilla flowers provide negligible macronutrient caloric value in typical medicinal doses. Phytochemically, apigenin is present at 40–740 mg/100 g dry weight, while apigenin-7-glucoside ranges from 210 to 1,110 mg/100 g dry weight. Total flavonoid content spans 0.82–36.75 g quercetin equivalent/100 g dry material, and total phenolics range from 1.77 to 50.75 g GAE/100 g, reflecting significant cultivar and geographic variation. The essential oil (0.4–1.5% v/w in dried flowers) contains chamazulene (up to 17.6% in Bulgarian chemotypes), α-bisabolol (up to 9.5%), α-bisabolol oxides A and B, farnesene, and matricine. Mineral constituents include potassium, calcium, magnesium, and iron at trace levels. Bioavailability of apigenin from aqueous infusions is estimated at 6–20%, enhanced by gut microbiota de-glycosylation of apigenin-7-glucoside to the aglycone, which is more membrane-permeable. ## Dosage & Preparation - **Herbal Tea (Infusion)**: 1–4 g dried flower heads steeped in 150–240 mL hot water (90°C) for 10–15 minutes, consumed 3–4 times daily; traditional Middle Eastern and European preparation for GI complaints, anxiety, and sleep. - **Standardized Dry Extract (Oral Capsule/Tablet)**: 220–1100 mg/day of extract standardized to 1.2% apigenin, the dose range used in clinical anxiety trials; divided into 2–3 doses with meals improves tolerability. - **Essential Oil (Topical/Aromatherapy)**: 1–2% dilution in carrier oil for topical [anti-inflammatory](/ingredients/condition/inflammation) and wound-healing applications; direct inhalation of steam for respiratory congestion (decongestant effect via 1,8-cineole in some chemotypes). - **Tincture (1:5, 45% ethanol)**: 1–4 mL three times daily; extracts both hydrophilic flavonoid glycosides and lipophilic terpenoids; onset approximately 30–60 minutes. - **Cataplasm/Poultice**: Warm macerated flowers applied topically as a compress for dermatitis, eczema, wound care, and conjunctivitis; preparation involves steeping 10–15 g flowers per 500 mL water. - **Liquid Extract (1:1)**: 1–4 mL three times daily for GI and antispasmodic indications. - **Timing Note**: For [insomnia](/ingredients/condition/sleep) and anxiety, evening dosing 30–60 minutes before sleep is preferred; for GI indications, administration 15–20 minutes before meals is traditional. ## Safety & Drug Interactions At typical oral doses (1–4 g dried flowers or equivalent extracts), Matricaria chamomilla is generally well-tolerated; adverse effects are infrequent but include contact allergic reactions (primarily in individuals sensitized to other Asteraceae/Compositae family plants such as ragweed, chrysanthemum, and marigold), and rare anaphylaxis has been reported in highly sensitized individuals. Clinically significant drug interactions include potentiation of warfarin anticoagulant effect (apigenin inhibits CYP2C9-mediated warfarin [metabolism](/ingredients/condition/weight-management), reported case studies of elevated INR), and additive sedation with CNS depressants including benzodiazepines, barbiturates, and alcohol via GABA-A receptor co-potentiation. Chamomile extract may also interact with cyclosporine, tamoxifen, and other CYP3A4 substrates due to flavonoid-mediated enzyme modulation. Pregnancy use should be avoided at medicinal doses due to emmenagogue and uterine-stimulant activity historically attributed to the herb, though chamomile tea consumed in normal beverage quantities is widely considered low-risk; breastfeeding safety data are insufficient for high-dose supplemental use. ## Scientific Research The clinical evidence base for Matricaria chamomilla is most robust for anxiety and GAD, where multiple small-to-medium randomized controlled trials—including a notable 8-week RCT by Mao et al. (2016, n=179) demonstrating significant relapse prevention with long-term use—provide reasonable mechanistic and outcome-level support. Evidence for GI indications (infantile colic, dyspepsia) is supported by several small RCTs and systematic reviews, though heterogeneity in preparation and dosing limits firm conclusions. [Anti-inflammatory](/ingredients/condition/inflammation) and dermatological effects are predominantly supported by in vitro studies and animal models, with limited high-quality human trial data beyond small pilot studies of topical formulations. Antidiabetic and [antimicrobial](/ingredients/condition/immune-support) evidence remains at the preclinical stage, relying on animal models and cell culture assays, and translation to human clinical endpoints has not been rigorously established. ## Historical & Cultural Context Matricaria chamomilla has been used medicinally for over 5,000 years, with documented use in ancient Egyptian medicine—where it was sacred to the sun god Ra and applied as an antipyretic and skin remedy—as well as in ancient Greek texts by Dioscorides, who described it in De Materia Medica (circa 77 CE) for fevers, kidney stones, and uterine complaints. In the Arab-Islamic medical tradition, Ibn Sina (Avicenna) referenced chamomile in the Canon of Medicine as a treatment for pain, [inflammation](/ingredients/condition/inflammation), and nervous conditions, cementing its place in Middle Eastern ethnopharmacology. In medieval European herbalism, chamomile was among the nine sacred herbs of Anglo-Saxon tradition and was planted along garden pathways for its resilience and fragrance, while the German common name 'Alles zutraut' (capable of everything) reflects its broad traditional therapeutic reputation. Traditional preparation throughout the Middle East and Mediterranean consistently centered on floral infusion, with cataplasms and steam inhalation employed for respiratory congestion and skin afflictions. ## Synergistic Combinations Chamomile combines synergistically with valerian (Valeriana officinalis) for anxiolytic and sleep-promoting effects, as valerian root's valerenic acid modulates GABA-A receptor beta-subunits through a complementary binding site to apigenin, producing additive GABAergic potentiation observed in multi-herb sedative preparations including the commercially studied Ze91019 combination. For GI antispasmodic indications, combinations with peppermint (Mentha × piperita) leverage the additive smooth [muscle relaxation](/ingredients/condition/sleep) from menthol's TRPM8 channel activity and chamomile's calcium channel antagonism, a combination studied in irritable bowel syndrome formulations. Topically, chamomile essential oil combined with calendula (Calendula officinalis) provides complementary [anti-inflammatory](/ingredients/condition/inflammation) mechanisms—chamazulene inhibiting lipoxygenase while calendula's triterpene glycosides modulate complement activation—enhancing wound-healing and anti-dermatitic outcomes in combination creams. ## Frequently Asked Questions ### How much chamomile tea should I drink for anxiety? Clinical trials supporting chamomile's anxiolytic effects used standardized extracts delivering approximately 220–500 mg of extract standardized to 1.2% apigenin daily, roughly equivalent to 3–4 cups (each brewed from 1–2 g dried flowers) per day. For GAD symptom reduction, consistent daily use for at least 4–8 weeks appears necessary based on RCT data; single-dose effects are mild. Individuals on benzodiazepines or CNS depressants should consult a physician before use due to additive sedation risk. ### Is chamomile safe to use during pregnancy? Medicinal-dose chamomile preparations should be avoided during pregnancy, as the herb has traditional emmenagogue (menstruation-stimulating) properties and high-dose animal studies suggest uterotonic activity that may pose miscarriage risk. Occasional consumption of weak chamomile tea (1 teabag per cup) is widely considered low-risk by most herbal safety authorities, though definitive human safety data are lacking. Pregnant women should consult their healthcare provider before using chamomile supplements or strong infusions. ### What is chamazulene in chamomile and what does it do? Chamazulene is a dark-blue azulene sesquiterpene formed from the thermal degradation of the pro-compound matricine during steam distillation of chamomile essential oil or prolonged hot-water infusion. It is responsible for the characteristic blue color of steam-distilled chamomile oil and exerts potent anti-inflammatory activity by inhibiting 5-lipoxygenase, thereby reducing leukotriene B4 synthesis and attenuating the arachidonic acid inflammatory cascade. Bulgarian chamomile chemotypes are notably high in chamazulene (up to 17.6% of essential oil), making them particularly valued for anti-inflammatory topical preparations. ### Can chamomile interact with blood thinners like warfarin? Yes, clinically documented case reports describe elevated INR (International Normalized Ratio) in patients taking warfarin concurrently with chamomile, attributable to apigenin's inhibition of CYP2C9, the primary cytochrome P450 enzyme responsible for warfarin metabolism, resulting in elevated warfarin plasma levels and increased bleeding risk. Patients on anticoagulant therapy (warfarin, acenocoumarol) should avoid medicinal-dose chamomile and inform their prescriber if consuming chamomile tea regularly. This interaction is classified as pharmacokinetic and dose-dependent. ### Is chamomile effective for sleep and insomnia? Chamomile has modest evidence for improving sleep quality, primarily through apigenin's partial agonism at benzodiazepine-binding sites on GABA-A receptors, which promotes sedation without the rebound insomnia associated with full agonists. A small RCT (n=34, Zick et al., 2011) found 270 mg twice-daily chamomile extract modestly improved sleep onset latency and daytime functioning scores but did not significantly reduce nighttime awakening frequency. An effective approach involves consuming 1–2 cups of strong chamomile infusion or a standardized extract (270–540 mg) 30–60 minutes before bedtime. ### What is the difference between chamomile extract and chamomile tea in terms of potency and effectiveness? Chamomile extracts are concentrated forms that standardize active compounds like apigenin and chamazulene, typically delivering higher doses per serving than brewed tea, which may result in more consistent clinical effects. Standardized extracts used in clinical trials usually contain 1.2–1.5% apigenin, whereas a typical cup of chamomile tea contains variable amounts depending on steeping time and flower quality. For therapeutic applications targeting anxiety or sleep, extracts generally provide more reliable dose-response outcomes, while tea is suitable for mild relaxation and daily wellness support. ### Who should avoid chamomile supplements, and are there specific populations at higher risk for adverse effects? Individuals with ragweed, chrysanthemum, or daisy allergies should avoid chamomile due to cross-reactivity risk within the Asteraceae family. Patients taking sedative medications, anticoagulants, or immunosuppressants should consult a healthcare provider before use, as chamomile may potentiate sedation or interfere with drug metabolism. Infants and very young children should not receive chamomile supplements without medical guidance, though chamomile tea in small amounts is generally considered safe for older children. ### What does current clinical research show about chamomile's effectiveness compared to conventional treatments for generalized anxiety disorder? Multiple randomized controlled trials demonstrate that standardized chamomile extracts produce statistically significant reductions in GAD symptoms comparable to some conventional anxiolytics, with effect sizes ranging from moderate to large in meta-analyses. Unlike pharmaceutical benzodiazepines, chamomile's apigenin-mediated GABA-A receptor activity lacks the abuse potential and severe withdrawal risk, making it a safer long-term option for mild-to-moderate anxiety. However, chamomile is generally considered less effective than prescription medications for severe anxiety, and research indicates optimal results occur with 6–8 weeks of consistent use rather than acute dosing. --- *Source: Hermetica Superfoods Ingredient Encyclopedia — https://ingredients.hermeticasuperfoods.com* *License: CC BY-NC-SA 4.0 — Attribution required. Commercial use: admin@hermeticasuperfoods.com*