# Damiana (Turnera diffusa) **Canonical URL:** https://ingredients.hermeticasuperfoods.com/ingredients/damiana-turnera-diffusa **Data Source:** Hermetica Superfoods Ingredient Encyclopedia **Updated:** 2026-04-02 **Evidence Score:** 1 / 10 **Category:** South American **Also Known As:** Turnera diffusa, Mexican Damiana, Hierba de la Pastora, Turnera aphrodisiaca, Old Woman's Broom ## Overview Damiana leaves contain flavonoids—primarily naringenin and apigenin coumaroyl glucosides—that exert antioxidant effects via DPPH radical scavenging (IC₅₀ 4.7–305.4 µg/mL depending on extraction method) and inhibit monoamine oxidase A (IC₅₀ 130 mg/mL) and cholinesterases (IC₂₅ 0.352–0.370 mg/mL). Preclinical evidence demonstrates that hydroalcoholic leaf extracts at 150 mg/kg reduced malondialdehyde to 3.3 nmol/mg protein and nitric oxide to 0.4 µmol/mg protein in diabetic rat liver mitochondria, suggesting [hepatoprotective](/ingredients/condition/detox) [antioxidant activity](/ingredients/condition/antioxidant), though no human clinical trials have confirmed these effects. ## Health Benefits - **[Antioxidant Activity](/ingredients/condition/antioxidant)**: Leaf extracts exert significant free-radical scavenging activity (DPPH IC₅₀ as low as 4.7 µg/mL in hydroalcoholic fractions), with total flavonoid content of 108.8 ± 0.01 mg quercetin equivalents/g extract contributing to this capacity. - **[Hepatoprotective](/ingredients/condition/detox) and Renal Protective Effects**: In streptozotocin-diabetic rats, 150 mg/kg hydroalcoholic extract reduced oxidative stress markers in liver mitochondria; ethanol extracts (200–400 mg/kg) restored catalase (2.4–2.5 U/mg protein) and superoxide dismutase (6.9–7.0 U/mg protein) in CCl₄-induced kidney damage models. - **MAO-A and Cholinesterase Inhibition**: Aqueous leaf extracts inhibit monoamine oxidase A (IC₅₀ 130 mg/mL) and cholinesterases (IC₂₅ 0.352–0.370 mg/mL), pointing to potential neuromodulatory and mood-supportive properties that may underlie traditional aphrodisiac use. - **Aphrodisiac and Sexual Tonic Effects**: Historically and in folk medicine, Damiana is used to address sexual debility and nervous prostration; these effects are attributed to flavonoid-mediated modulation of monoaminergic pathways, though controlled human evidence is absent. - **Cytotoxic Activity Against Myeloma Cells**: Naringenin reduced cell viability to 25.5 ± 12.5% in NCI-H929 and 79.6 ± 15.2% in U266 multiple myeloma lines at low micromolar concentrations in vitro, while apigenin coumaroyl glucoside (compound 4) reduced viability to 66.1 ± 17.4% and 84.4 ± 3.7% respectively at 50 µM. - **Nervous System Tonic**: Traditional use as a stimulant for nervous prostration is consistent with cholinesterase and MAO-A inhibition data, which may enhance cholinergic and serotonergic neurotransmission; however, no clinical neurological endpoints have been evaluated. - **Anti-diabetic Supportive Potential**: Animal data show that hydroalcoholic Damiana extract (150 mg/kg) mitigates oxidative stress in streptozotocin-induced diabetic rats, reducing lipid peroxidation and nitrosative stress in hepatic tissue, suggesting adjunctive metabolic support pending clinical validation. ## Mechanism of Action Naringenin and apigenin 7-O-(4″-O-p-E-coumaroyl)-glucoside, the principal flavonoid constituents of Turnera diffusa leaves, exert cytotoxic effects in multiple myeloma cell lines by directly reducing cellular viability through mechanisms likely involving apoptosis induction and disruption of intracellular redox homeostasis, as evidenced by in vitro assays at concentrations of 4.8–50 µM. Aqueous leaf extracts inhibit monoamine oxidase A (IC₅₀ 130 mg/mL) and acetyl/butyrylcholinesterase (IC₂₅ 0.352–0.370 mg/mL), thereby modulating monoaminergic and cholinergic [neurotransmitter](/ingredients/condition/cognitive) degradation pathways in ways consistent with mood elevation and pro-sexual central nervous system effects. Antioxidant flavonoids including naringenin and flavone aglycones (compounds 5–9 in ethyl acetate fractions) scavenge [reactive oxygen species](/ingredients/condition/antioxidant) via electron donation, reducing lipid peroxidation end-products such as malondialdehyde (MDA) and modulating nitric oxide production in hepatic and renal mitochondria in animal models of oxidative injury. Total phenolic content (101.5 ± 1.67 mg gallic acid equivalents/g extract) further contributes to broad-spectrum antioxidant capacity through metal chelation and chain-breaking radical scavenging, providing a mechanistic basis for the observed organ-protective effects in preclinical studies. ## Clinical Summary No human randomized controlled trials have been conducted on Turnera diffusa for any indication, including its primary traditional claims of aphrodisiac activity, sexual tonic effects, or anxiolytic properties. Available preclinical data from animal models demonstrate statistically significant [antioxidant](/ingredients/condition/antioxidant) and organ-protective outcomes (e.g., restoration of SOD to 6.9–7.0 U/mg protein, CAT to 2.4–2.5 U/mg protein) at doses of 200–400 mg/kg in rodent toxicity models, but these doses and outcomes cannot be reliably translated to human equivalents without pharmacokinetic bridging studies. In vitro cytotoxicity data against myeloma cell lines (NCI-H929, U266, MM1S) with naringenin and apigenin derivatives are mechanistically interesting but are preliminary findings only, far from clinical application. Overall confidence in the clinical efficacy of Damiana supplementation for any specific human health outcome is very low, and its use in contemporary supplements rests primarily on historical tradition rather than clinical trial evidence. ## Nutritional Profile Turnera diffusa leaves are not a significant dietary macronutrient source; their nutritional value lies primarily in their phytochemical composition. Total phenolic content is 101.5 ± 1.67 mg gallic acid equivalents/g extract, and total flavonoid content is 108.8 ± 0.01 mg quercetin equivalents/g extract, representing a notably high flavonoid density. Key identifiable phytochemicals include naringenin (a flavanone), apigenin 7-O-(4″-O-p-E-coumaroyl)-glucoside and related acylated flavone glucosides (compounds 2–4), and flavone aglycones (compounds 5–9 in ethyl acetate fractions). Volatile aromatic compounds contribute to the characteristic fragrance of the leaf and include thymol, which may have minor [antimicrobial](/ingredients/condition/immune-support) properties. Bioavailability of leaf flavonoids is expected to be moderate and solvent-dependent, with hydroalcoholic extracts yielding superior flavonoid extraction compared to aqueous-only preparations, a factor that significantly influences [antioxidant](/ingredients/condition/antioxidant) capacity (DPPH IC₅₀ 4.7 µg/mL HA vs. higher values in AQ extracts). ## Dosage & Preparation - **Traditional Infusion (Tea)**: 2–4 grams of dried leaves steeped in 150–200 mL of hot water for 10–15 minutes; consumed 1–3 times daily as a general tonic in Mexican folk medicine. - **Hydroalcoholic (HA) Extract**: Used in most preclinical studies at 50–150 mg/kg in rodents; human equivalent doses are not clinically established, but commercial preparations often deliver 200–400 mg standardized leaf extract per dose. - **Ethanol Tincture (85% mother tincture)**: Used homeopathically and in herbal practice; typical dosing follows tincture ratios of 1:5 at 2–4 mL per dose, taken 2–3 times daily. - **Aqueous (AQ) Extract**: Demonstrated activity at 80 mg/kg in animal models (e.g., against amitriptyline toxicity); corresponds to loose-leaf decoctions in traditional practice. - **Ethyl Acetate Fraction**: Most potent in vitro cytotoxic fraction (100 µg/mL in cell assays); not currently available as a standardized commercial supplement form. - **Standardization**: No universally accepted standardization exists; some commercial extracts are standardized to 0.5–1% flavonoids, though this is not validated against clinical outcomes. - **Timing**: Traditionally consumed 30–60 minutes before intended effect; no pharmacokinetic data support a specific timing protocol. ## Safety & Drug Interactions Damiana has not been evaluated in formal human safety or toxicology trials, and no maximum safe dose has been established for human use; animal studies using doses of 50–400 mg/kg in rodents have not reported overt adverse effects, but direct human dose extrapolation is speculative. Given its MAO-A inhibitory activity in aqueous extracts, a theoretical concern exists for interactions with monoamine oxidase inhibitor (MAOI) antidepressants, serotonergic medications, and sympathomimetic drugs, potentially contributing to [serotonin](/ingredients/condition/mood) syndrome or enhanced pressor effects, though this has not been documented clinically. Cytotoxic flavonoids (naringenin, apigenin derivatives) at pharmacologically relevant concentrations showed moderate effects on healthy peripheral blood mononuclear cells (PBMCs) in vitro, suggesting selectivity toward cancer cells at tested doses, but long-term systemic exposure effects are unknown. Pregnancy and lactation: Damiana is traditionally contraindicated in pregnancy due to its historical use as a uterine stimulant and emmenagogue; its safety during lactation has not been established, and avoidance is recommended until human safety data are available. ## Scientific Research The clinical evidence base for Turnera diffusa is weak, comprising primarily in vitro cytotoxicity assays and animal model studies with no published randomized controlled trials in humans. In vitro studies have demonstrated naringenin cytotoxicity with IC₅₀ of 4.8 µM in KB cells and measurable reductions in multiple myeloma cell viability, while rodent studies have used doses of 50–400 mg/kg hydroalcoholic or aqueous extracts to assess [antioxidant](/ingredients/condition/antioxidant), [hepatoprotective](/ingredients/condition/detox), and renal-protective endpoints with quantified enzyme activities. Antioxidant capacity has been characterized across multiple extraction methods (DPPH IC₅₀ range: 4.7–305.4 µg/mL), with hydroalcoholic extracts consistently showing superior activity, and total phenolic/flavonoid content has been rigorously quantified. The body of evidence is preclinical in nature; no human pharmacokinetic, bioavailability, or efficacy data have been published, and results from animal studies cannot be directly extrapolated to therapeutic claims in humans. ## Historical & Cultural Context Damiana has been used in Mesoamerican traditional medicine for centuries, with the Guaycura and other indigenous peoples of Baja California reportedly consuming the leaves as an aphrodisiac long before European contact; it was first formally described in the European pharmacopoeial literature in the late 19th century as a stimulant for sexual debility and nervous exhaustion. In Mexican folk medicine, it remains one of the most recognized herbal aphrodisiacs, often prepared as a sweetened liqueur (the traditional Damiana liqueur from Baja California) or as a simple infusion taken for fatigue and low libido. The plant holds cultural significance in Day of the Dead ceremonies in parts of Mexico and has been integrated into homeopathic materia medica as an 85% ethanol mother tincture, catalogued for its tonic and aphrodisiac indications. The Spanish name 'Damiana' is believed to derive from the Greek 'damia,' meaning 'to tame' or from Saint Damian, the patron saint of pharmacists, reflecting its long-standing medicinal reputation in colonial and post-colonial Mexican herbalism. ## Synergistic Combinations Damiana's MAO-A inhibitory and cholinesterase-inhibiting flavonoids may synergize with adaptogenic herbs such as Maca (Lepidium meyenii) or Ashwagandha (Withania somnifera), which modulate [hypothalamic-pituitary-adrenal](/ingredients/condition/stress) axis activity, potentially producing additive effects on libido and stress-related sexual dysfunction through complementary neuroendocrine pathways. The antioxidant flavonoids in Damiana (naringenin, apigenin derivatives) may act synergistically with Vitamin C and Vitamin E in formulations targeting [oxidative stress](/ingredients/condition/antioxidant), as these micronutrients regenerate oxidized flavonoid radicals and extend their antioxidant chain-breaking activity. Traditional Mexican herbal practice combines Damiana with Saw Palmetto (Serenoa repens) and Ginseng (Panax ginseng) in tonics for sexual vitality, a combination that pairs Damiana's monoaminergic modulation with Saw Palmetto's androgenic enzyme inhibition and Ginseng's ginsenoside-mediated nitric oxide upregulation. ## Frequently Asked Questions ### What is damiana used for? Damiana (Turnera diffusa) is traditionally used as an aphrodisiac, sexual tonic, and remedy for nervous exhaustion, particularly in Mexican folk medicine. Its bioactive flavonoids—naringenin and apigenin coumaroyl glucosides—inhibit monoamine oxidase A and cholinesterases in preclinical models, which may partly explain these effects, though no human clinical trials have confirmed efficacy for any specific indication. ### Does damiana actually work as an aphrodisiac? There is currently no human clinical trial evidence proving damiana's aphrodisiac effects; its reputation rests on centuries of traditional use in Mexico and Central America. Preclinical data show MAO-A inhibition (IC₅₀ 130 mg/mL in aqueous extracts) and cholinesterase inhibition, pathways linked to monoaminergic and cholinergic modulation relevant to sexual function, but these findings have not been validated in human studies. ### What is the recommended dosage of damiana? No clinically validated human dose has been established for damiana. Traditional use involves 2–4 grams of dried leaves as an infusion 1–3 times daily, or 2–4 mL of a 1:5 ethanol tincture 2–3 times per day; preclinical rodent studies have used 50–400 mg/kg hydroalcoholic or aqueous extracts, but these cannot be directly converted to a safe human dose without pharmacokinetic data. ### Are there any side effects or drug interactions with damiana? No serious side effects have been documented in human use, and animal studies at 50–400 mg/kg report no overt toxicity; however, its in vitro MAO-A inhibitory activity raises a theoretical risk of interactions with MAOI antidepressants and serotonergic medications. Damiana is traditionally avoided during pregnancy due to its historical use as a uterine stimulant, and its safety in lactation has not been assessed. ### What compounds in damiana are responsible for its effects? The primary bioactive compounds are flavonoids, particularly naringenin, apigenin 7-O-(4″-O-p-E-coumaroyl)-glucoside, and related flavone aglycones, with total flavonoid content reaching 108.8 ± 0.01 mg quercetin equivalents per gram of extract. Naringenin has demonstrated cytotoxicity against myeloma cells at 4.8 µM (IC₅₀ in KB cells) and antioxidant activity; the combination of these flavonoids with volatile aromatic constituents such as thymol is thought to underlie damiana's broad traditional use profile. ### What is the most bioavailable form of damiana supplement? Hydroalcoholic extracts (tinctures or liquid extracts) demonstrate superior bioavailability compared to dried leaf powder, with studies showing IC₅₀ values as low as 4.7 µg/mL for antioxidant activity in these formulations. Standardized extracts containing concentrated flavonoid content (108.8 ± 0.01 mg quercetin equivalents/g) provide more consistent delivery of active compounds than non-standardized dried material. The alcohol-based extraction method preferentially captures the lipophilic and hydrophilic constituents responsible for damiana's biological effects. ### Is damiana safe during pregnancy and breastfeeding? Damiana is traditionally contraindicated during pregnancy due to its potential uterine stimulant properties and lack of adequate safety data in pregnant populations. Breastfeeding women should similarly avoid damiana supplementation until more clinical evidence establishes safety in lactating mothers. Pregnant or nursing individuals should consult a healthcare provider before using damiana or damiana-containing products. ### What does research show about damiana's antioxidant and organ-protective effects? Preclinical studies in streptozotocin-diabetic rats demonstrated that 150 mg/kg hydroalcoholic damiana extract provided hepatoprotective and renal protective effects by reducing oxidative stress markers. The leaf's strong free-radical scavenging capacity (DPPH assay) and high flavonoid content support these protective mechanisms at the cellular level. However, most evidence remains limited to animal models, and human clinical trials are needed to confirm these organ-protective benefits in diabetic patients. --- *Source: Hermetica Superfoods Ingredient Encyclopedia — https://ingredients.hermeticasuperfoods.com* *License: CC BY-NC-SA 4.0 — Attribution required. Commercial use: admin@hermeticasuperfoods.com*