# Nigella sativa (Black Cumin) **Canonical URL:** https://ingredients.hermeticasuperfoods.com/ingredients/nigella-sativa-black-cumin **Data Source:** Hermetica Superfoods Ingredient Encyclopedia **Updated:** 2026-04-05 **Evidence Score:** 1 / 10 **Category:** Middle Eastern **Also Known As:** Nigella sativa, Black Cumin, Black Seed, Kalonji, Habbatus Sauda, Roman Coriander, Fennel Flower ## Overview Nigella sativa seeds are pharmacologically driven primarily by thymoquinone (TQ), a benzoquinone compound that elevates superoxide dismutase and catalase activity, inhibits [NF-κB](/ingredients/condition/inflammation) signaling, and disrupts microbial cell membranes at minimum inhibitory concentrations as low as 0.25 µg/ml against drug-resistant mycobacteria. Preclinical and early clinical data support its application in metabolic disorders, antimicrobial resistance, and [immune modulation](/ingredients/condition/immune-support), though large-scale randomized controlled trials remain limited and standardization of TQ content across commercial products is inconsistent. ## Health Benefits - **Antimicrobial Activity**: Thymoquinone demonstrates MIC values of 8–16 µg/ml against MRSA and as low as 0.25 µg/ml against drug-resistant mycobacteria, acting via membrane disruption and interference with bacterial enzyme systems, supporting its historical role in treating tuberculosis in Unani and Persian medicine. - **Antioxidant Defense**: TQ and magnoflorine upregulate hepatic antioxidant enzymes including superoxide dismutase and catalase, while seed extracts show DPPH IC50 of 548.5 ± 9.4 µg/ml and FRAP of 1.85 ± 0.2 mM TE/g, reducing cellular oxidative damage across multiple tissue systems. - **[Anti-Inflammatory](/ingredients/condition/inflammation) Effects**: Nigellidine's indazole ring structure enables modulation of pro-inflammatory cascades, and flavonoids such as kaempferol and quercetin suppress NF-κB pathway activity, reducing production of prostaglandins, leukotrienes, and cytokines implicated in chronic inflammation. - **Metabolic and Glycemic Support**: TQ and seed flavonoids improve [insulin sensitivity](/ingredients/condition/weight-management) and lipid profiles in preclinical models of type 2 diabetes and dyslipidemia, with mechanistic evidence pointing to PPAR-γ activation and lipoxygenase inhibition by alkaloids such as magnoflorine. - **[Immunomodulat](/ingredients/condition/immune-support)ion**: Nigellidine (C18H19N2O2, m/z 295) exerts immune-stimulatory activity through modulation of macrophage activation and lymphocyte proliferation, while magnoflorine (m/z 342) selectively suppresses excessive immune responses, providing bidirectional immune regulation. - **Cardioprotective Properties**: β-sitosterol (comprising 18–42% of seed oil sterols), combined with kaempferol and quercetin, reduces LDL oxidation and platelet aggregation, while nigellidine's antihypertensive properties contribute to vascular protection through smooth [muscle relaxation](/ingredients/condition/sleep). - **[Hepatoprotective](/ingredients/condition/detox) Activity**: TQ at low concentrations attenuates hepatic [lipid peroxidation](/ingredients/condition/antioxidant) and fibrosis by upregulating phase II detoxification enzymes and suppressing stellate cell activation, with preclinical models showing significant reduction in ALT and AST enzyme elevations. ## Mechanism of Action Thymoquinone, the principal bioactive quinone in Nigella sativa, functions as a pleiotropic molecule: it directly scavenges [reactive oxygen species](/ingredients/condition/antioxidant), upregulates endogenous antioxidant enzymes (superoxide dismutase, catalase, [glutathione](/ingredients/condition/detox) peroxidase) at the transcriptional level via Nrf2/ARE pathway activation, and suppresses pro-[inflammatory](/ingredients/condition/inflammation) gene expression through NF-κB inhibition, thereby reducing downstream cytokine output including TNF-α and IL-6. At the [antimicrobial](/ingredients/condition/immune-support) level, TQ disrupts bacterial membrane integrity and inhibits DNA gyrase and topoisomerase IV activity, accounting for its efficacy against MRSA (MIC 8–16 µg/ml) and drug-resistant mycobacteria (MIC 0.25 µg/ml). Flavonoids including kaempferol and quercetin contribute additional anticancer and antidiabetic activity through radical scavenging, inhibition of xanthine oxidase, and modulation of PPAR-γ and PI3K/Akt signaling pathways. Alkaloids such as magnoflorine inhibit lipoxygenase enzyme activity and interfere with leukotriene biosynthesis, while nigellidine's indazole scaffold interacts with angiotensin-converting enzyme to produce antihypertensive effects. ## Clinical Summary Small RCTs in patients with type 2 diabetes have reported reductions in fasting [blood glucose](/ingredients/condition/weight-management) (approximately 15–20% decrease from baseline) and HbA1c improvements with daily Nigella sativa seed oil at doses of 1–3 g over 8–12 weeks, though sample sizes rarely exceed 50–80 participants. Trials in dyslipidemia patients have shown reductions in total cholesterol and LDL-C alongside modest HDL-C increases, particularly with standardized TQ-rich extracts, but effect sizes vary considerably between studies due to differences in formulation and baseline TQ content. Clinical evidence for the primary historical indication of tuberculosis remains anecdotal and mechanistically inferred from in vitro [antimicrobial](/ingredients/condition/immune-support) data (MIC 0.25 µg/ml against drug-resistant mycobacteria) rather than supported by prospective human trials. Overall, confidence in clinical outcomes is moderate for metabolic applications and low-to-preliminary for infectious disease indications, warranting larger, adequately powered RCTs with standardized formulations before definitive therapeutic claims can be made. ## Nutritional Profile Nigella sativa seeds contain approximately 20–25% fixed oil rich in unsaturated fatty acids, predominantly linoleic acid (50–60%) and oleic acid (20%), with sterols comprising 18–42% of the oil fraction and β-sitosterol as the dominant phytosterol. Protein content ranges from 20–27% of seed dry weight, and the seeds contain substantial dietary fiber with soluble fiber at 20.5–27.1 g/100g and insoluble fiber at 6.5–8.9 g/100g, supporting gastrointestinal health and glycemic modulation. The essential oil fraction (0.5–1.5% of seed weight) provides terpenes including thymoquinone (primary active), α-pinene, p-cymene, carvacrol, thymol, limonene-6-ol (C15H24O2, m/z 237), and t-anethole, with TQ concentrations of 0.5–5% in standard extracts rising to 10% in specialized high-potency products. Flavonoids (kaempferol derivatives up to C33H39O21, quercetin, apigenin, myricetin, biochanin A at m/z 285) and alkaloids (nigellidine m/z 295, nigellimine m/z 203, magnoflorine m/z 342) contribute to the polyphenolic and nitrogen-containing bioactive profile; phenolic acids including caffeic acid are concentrated in the defatted seed cake; micronutrients include iron, zinc, calcium, and phosphorus at nutritionally relevant concentrations. Bioavailability of TQ is enhanced by lipid co-administration and enteric coating, though precise oral bioavailability in humans has not been quantitatively established. ## Dosage & Preparation - **Whole Seeds (Traditional)**: 1–3 g of raw seeds daily, consumed directly or ground into food; traditional Unani and Persian medicine employed seeds mixed with honey or warm water for respiratory conditions including tuberculosis. - **Cold-Pressed Seed Oil**: 500 mg to 2.5 g daily in divided doses; preferred for lipid-soluble bioactives including TQ, β-sitosterol, and terpenes; widely used in clinical trials for metabolic and inflammatory indications. - **Standardized Ethanol Extract (High-TQ)**: Products standardized to 5–10% TQ (e.g., Nisatol® at 10% TQ) are recommended for [antimicrobial](/ingredients/condition/immune-support) and [anti-inflammatory](/ingredients/condition/inflammation) applications; ethanol extraction yields 98.08% TQ recovery (TLC confirmed, Rf 0.85) versus 62.59% for benzene extraction. - **Enteric-Coated Capsules**: Capsules co-formulated with vitamin E for oxidative stabilization of TQ; enteric coating bypasses gastric acid degradation and improves intestinal bioavailability; preferred formulation for clinical supplementation. - **Methanol Extract**: Yields 85.43% TQ recovery (Rf 0.86); used in research standardization but less appropriate for human supplementation due to solvent residue concerns. - **Seed Cake (Defatted)**: Rich in phenolic acids (caffeic acid), soluble fiber (20.5–27.1 g/100g), and insoluble fiber (6.5–8.9 g/100g); used as a functional food ingredient or powdered supplement for glycemic and digestive support. - **Timing**: Seed oil and extracts are typically taken with meals to improve absorption of lipophilic TQ; twice-daily dosing maintains more consistent plasma levels than single-dose administration. ## Safety & Drug Interactions Nigella sativa and its seed oil are generally well-tolerated at typical culinary and supplemental doses (1–3 g seed oil or equivalent extract daily), with the most commonly reported adverse effects being mild gastrointestinal discomfort including nausea, bloating, and loose stools, particularly with higher doses or on an empty stomach. Thymoquinone exhibits significant CYP enzyme modulation in preclinical models, particularly inhibition of CYP3A4 and CYP2D6, raising theoretical concerns about interactions with drugs metabolized by these pathways including warfarin, cyclosporine, antiepileptics, and certain antihypertensives; [blood pressure](/ingredients/condition/heart-health)-lowering effects may potentiate antihypertensive medications. Pregnancy caution is warranted as historical use includes uterotonic applications and animal studies suggest high-dose TQ may affect uterine contractility; use during pregnancy should be limited to culinary quantities and avoided at supplemental doses without medical supervision. No formally established maximum tolerated dose exists in human clinical populations, and long-term safety data beyond 12 weeks of supplemental use are lacking; individuals with autoimmune conditions should use with caution given bidirectional [immune modulation](/ingredients/condition/immune-support) by nigellidine and magnoflorine. ## Scientific Research The evidence base for Nigella sativa is substantial at the preclinical level, with numerous in vitro and animal studies documenting [antimicrobial](/ingredients/condition/immune-support), [antioxidant](/ingredients/condition/antioxidant), [anti-inflammatory](/ingredients/condition/inflammation), and metabolic effects, but clinical trial data remain limited in scale and methodological rigor. Published human studies primarily consist of small randomized controlled trials (typically fewer than 100 participants) examining outcomes in type 2 diabetes, hypertension, dyslipidemia, asthma, and Helicobacter pylori infection, with most demonstrating statistically significant but modest effect sizes. Antioxidant characterization studies provide quantitative data (DPPH IC50 548.5 ± 9.4 µg/ml; TEAC 64.3 ± 2.7 µg/ml), and TLC-based extraction analyses confirm ethanol as the optimal solvent achieving 98.08% TQ recovery, but these do not translate directly to clinical bioavailability outcomes. No large-scale multicenter RCTs or systematic reviews with meta-analyses specific to the primary tuberculosis indication exist, and the heterogeneity of seed oil versus extract formulations and variable TQ content across products significantly limits cross-study comparisons. ## Historical & Cultural Context Nigella sativa holds one of the most prominent positions in Middle Eastern and Islamic traditional medicine, famously referenced in the Hadith of the Prophet Muhammad as a remedy for 'every disease except death,' a statement that positioned the seed as a near-universal therapeutic in Islamic medical tradition. In Unani medicine, the seeds were classified as a hot and dry temperament herb used to treat cold, phlegmatic conditions including respiratory ailments, tuberculosis (seenah), intestinal parasites, and digestive dysfunction, typically prepared as a decoction, paste with honey, or infused oil. Persian physicians including Ibn Sina (Avicenna) described Nigella sativa in the Canon of Medicine (circa 1025 CE) as beneficial for respiratory obstruction, stimulating menstruation, and expelling intestinal worms, recommending seed fumigation for nasal congestion. Archaeological evidence of Nigella sativa seeds was recovered from Tutankhamun's tomb (circa 1325 BCE), reflecting its significance in ancient Egyptian medicine and its use as a protective and medicinal agent in funerary contexts. ## Synergistic Combinations Nigella sativa seed oil combined with vitamin E (tocopherol) provides mutual stabilization of TQ against oxidative degradation while enhancing bioavailability of both fat-soluble bioactives, a pairing already exploited in enteric-coated commercial formulations and supported by improved [antioxidant](/ingredients/condition/antioxidant) enzyme outcomes in co-administration studies. TQ's NF-κB inhibition and quercetin's PI3K/Akt modulation produce additive anti-inflammatory effects when Nigella sativa is combined with quercetin-rich ingredients such as onion extract or elderberry, targeting overlapping but mechanistically distinct [inflammatory pathway](/ingredients/condition/inflammation)s. In metabolic health stacks, co-administration of Nigella sativa with berberine (Berberis species) may provide complementary glycemic control through TQ-mediated PPAR-γ activation and berberine's AMPK activation, though formal clinical synergy trials are absent and this combination requires monitoring for additive hypoglycemic effects. ## Frequently Asked Questions ### What is thymoquinone and why does it matter in Nigella sativa? Thymoquinone (TQ) is the primary bioactive compound in Nigella sativa seeds, typically present at 0.5–5% in standard extracts and up to 10% in high-potency products like Nisatol®. It functions as the main driver of the seed's antimicrobial, antioxidant, and anti-inflammatory properties, acting by inhibiting NF-κB signaling, upregulating superoxide dismutase and catalase, and disrupting bacterial cell membranes at MIC values as low as 0.25 µg/ml against drug-resistant mycobacteria. Consumers should look for products standardized to at least 3–5% TQ to ensure pharmacological relevance, as many commercial seed oils contain less than 0.5% TQ. ### What is the recommended dosage of Nigella sativa seed oil? Clinical trials and traditional practice most commonly use 500 mg to 2.5 g of cold-pressed Nigella sativa seed oil daily in divided doses with meals, with some metabolic disorder studies using up to 3 g per day over 8–12 weeks. Standardized TQ extracts at 5–10% TQ concentration may be effective at lower absolute doses than crude oil, though precise TQ-equivalent dose-response data in humans are not yet established. Enteric-coated capsules co-formulated with vitamin E are preferred for improved TQ stability and bioavailability. ### Can Nigella sativa help with drug-resistant bacterial infections? In vitro studies demonstrate that thymoquinone achieves minimum inhibitory concentrations of 8–16 µg/ml against methicillin-resistant Staphylococcus aureus (MRSA) and as low as 0.25 µg/ml against drug-resistant mycobacteria, suggesting meaningful antimicrobial potency through membrane disruption and enzyme inhibition. However, these are laboratory findings, and no robust human clinical trials have confirmed equivalent efficacy against systemic or pulmonary drug-resistant infections in vivo. Nigella sativa should not replace established antibiotic therapy but may be explored as an adjunct in consultation with an infectious disease specialist. ### Is Nigella sativa safe to take during pregnancy? Nigella sativa at culinary quantities used as a food spice is generally considered safe during pregnancy, but supplemental doses of seed oil or TQ-standardized extracts are not recommended without medical supervision due to historical uterotonic use in traditional medicine and preclinical evidence that high-dose TQ may stimulate uterine contractility. No well-controlled human safety trials in pregnant women exist, meaning risk cannot be quantified. Pregnant individuals should limit intake to dietary amounts and avoid therapeutic supplementation until more safety data are available. ### Does Nigella sativa interact with any medications? Thymoquinone inhibits CYP3A4 and CYP2D6 enzymes in preclinical models, which could theoretically increase plasma levels of drugs metabolized by these pathways, including warfarin, cyclosporine, certain antiepileptics (carbamazepine, phenytoin), and some antidepressants. Additionally, Nigella sativa's antihypertensive and blood glucose-lowering effects may potentiate the actions of antihypertensive and antidiabetic medications, increasing risk of hypotension or hypoglycemia. Patients on anticoagulants, immunosuppressants, or antidiabetic drugs should consult a healthcare provider before initiating supplementation. ### What is the most bioavailable form of Nigella sativa—seed oil versus whole seeds versus standardized extract? Nigella sativa seed oil provides superior bioavailability of thymoquinone (TQ) compared to whole seeds, as the oil form bypasses digestive breakdown and allows faster absorption of lipophilic compounds. Standardized extracts (typically 1–5% TQ) offer consistent dosing but may have reduced bioavailability depending on carrier agents used. Whole seeds contain additional phytonutrients like magnoflorine but require adequate digestive processes to extract thymoquinone, making them less efficient for targeted therapeutic effects. ### Who benefits most from Nigella sativa supplementation—immunocompromised individuals, those with chronic infections, or people seeking general antioxidant support? Immunocompromised individuals and those with drug-resistant bacterial infections benefit most from Nigella sativa, given thymoquinone's demonstrated antimicrobial activity (MIC as low as 0.25 µg/ml against drug-resistant mycobacteria) and immune-modulating properties. People with chronic oxidative stress conditions may benefit from its hepatic antioxidant upregulation via TQ and magnoflorine. General population supplementation for antioxidant support is less compelling given limited clinical evidence in healthy individuals, though historical use in Persian and Unani medicine supports broader wellness applications. ### How strong is the clinical research evidence supporting Nigella sativa's antimicrobial claims compared to conventional antibiotics? In vitro and preclinical studies demonstrate robust antimicrobial activity—thymoquinone shows MIC values of 8–16 µg/ml against MRSA through membrane disruption mechanisms—but human clinical trials remain limited. While historical use in treating tuberculosis in traditional medicine is well-documented, peer-reviewed clinical efficacy data in humans is significantly less robust than for FDA-approved antibiotics. Nigella sativa shows promise as an adjunctive therapy or for drug-resistant infections where conventional options have failed, but direct head-to-head clinical comparisons with standard treatments are largely absent from the literature. --- *Source: Hermetica Superfoods Ingredient Encyclopedia — https://ingredients.hermeticasuperfoods.com* *License: CC BY-NC-SA 4.0 — Attribution required. Commercial use: admin@hermeticasuperfoods.com*