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Silybum

Silybum is a genus of two species of thistles in the family Asteraceae, native to the Mediterranean region, North Africa, and parts of the Middle East, characterized by robust annual or biennial herbs with large basal rosettes of spiny, lobed leaves and solitary, thistle-like heads of purple disc florets surrounded by spiny bracts. The genus comprises Silybum marianum (L.) Gaertn., commonly known as milk thistle or blessed milk thistle, and Silybum eburneum Coss. & Durieu, known as silver milk thistle or elephant thistle. S. marianum is the more widespread and economically significant species, originating from Macaronesia, the Mediterranean Basin, and southwestern Asia, where it grows in disturbed habitats such as roadsides, fields, and waste areas, often reaching heights of 1–2 meters with shiny green leaves marbled with white veins and reddish-purple flowers up to 5 cm in diameter. It has been introduced and naturalized in temperate regions worldwide, including North and South America, Australia, and southern Africa, where it can behave as an invasive weed in pastures and rangelands. In contrast, S. eburneum is rarer and more localized to northeastern and central Spain and northwestern Africa (Algeria, Morocco, Tunisia), featuring silvery-white, glabrous leaves without the characteristic marbling of S. marianum and similarly spiny involucral bracts. Silybum species have long been valued in , particularly S. marianum, whose seeds are the source of silymarin—a mixture of flavonolignans including silybin—extracted for its antioxidant, anti-inflammatory, and hepatoprotective properties, supporting treatments for liver disorders such as , , and toxin-induced damage. Clinical studies and pharmacological research have substantiated silymarin's efficacy in promoting and protecting against , leading to its inclusion in various pharmaceutical and products globally. Additionally, both species exhibit potential in for their high content of unsaturated fatty acids and polyphenols in seeds and leaves, with emerging research exploring S. eburneum for similar bioactive compounds. Cultivated ornamentally for their striking foliage and flowers, Silybum plants also contribute to in Mediterranean ecosystems but pose management challenges as invasives in non-native ranges.

Taxonomy

Genus Overview

Silybum is a of flowering within the family , subfamily Carduoideae, and tribe Cardueae. The name derives from the Greek word silybon, referring to a type of . The was first formally described by in 1763. Historically, its were classified under the Carduus, with key synonyms such as Carduus marianus L. for what is now Silybum marianum, before taxonomic revisions separated it as a distinct based on morphological distinctions like leaf and characteristics. Silybum consists of two accepted , S. marianum and S. eburneum, with no recognized . These are annual or herbaceous plants, typically 15–300 cm tall, featuring erect stems, glabrous to slightly tomentose herbage, and distinctly spiny leaves that are basal and cauline, often variegated with white veins and armed with spine-tipped teeth and lobes. The plants produce solitary terminal or axillary discoid capitula, 15–60 mm in diameter, containing numerous , , or florets depending on the ; the fruits are ovoid achenes with a persistent pappus of slender bristles. A notable trait unique to the genus is the milky sap exuded from the stems and leaves when injured.

Species

The genus Silybum comprises two recognized : S. marianum (L.) Gaertn. and S. eburneum Coss. & Durieu. Silybum marianum (L.) Gaertn., commonly known as milk thistle or blessed milk thistle, is a . Silybum eburneum Coss. & Durieu, known as snow thistle or silver milk thistle, is an annual or . Its flower heads are cream-colored or pale yellow, contrasting with the of the other species. This rarer species is endemic to northeastern and central , and northwestern (Algeria, , ). The species differ primarily in leaf coloration and pubescence (S. marianum with green, veined leaves versus S. eburneum's uniformly silvery foliage), flower hue (purple versus cream), and overall rarity, with S. eburneum showing a more restricted distribution. No hybridization between S. marianum and S. eburneum has been reported. S. eburneum is considered a marginalized species in its native habitats owing to ongoing habitat loss.

Description

Morphology

Silybum species are annual or biennial herbs characterized by erect, striated, and often branched stems that grow 0.5 to 2 m tall, with sparse fine hairs or glabrous surfaces. The plants develop a robust system that extends deeply into the , providing anchorage and access to and nutrients. Vegetatively, Silybum features a basal of leaves measuring 20–60 cm long and up to 30 cm wide, which are to lanceolate, pinnately lobed, and armed with spiny margins bearing prickles up to 5 long. These leaves are thin, glabrous, and distinctly variegated with white veins or marbling; injury to the tissue releases a milky sap, a trait typical of the . Stem leaves are alternate, sessile or clasping, lanceolate to , and similarly lobed with spiny edges. Reproductively, the plants bear solitary capitula at stem apices, forming spherical to ovoid heads 4–12 cm in diameter surrounded by imbricate involucral bracts that are lanceolate, spine-tipped (1–5 mm), and overlapping in rows 3–5 cm long. The florets within are numerous, , and hermaphroditic, typically red-purple in S. marianum (30 mm long) but white to light purple in S. eburneum. Fruits are cypselae (achenes) that are smooth, flattened, brownish, and 5–8 mm long by 2–3 mm wide, each topped by a white, silky pappus of fine bristles for wind dispersal. Morphological variations occur across growth stages and species; for instance, juvenile rosette leaves exhibit denser spines and more pronounced variegation than mature stem leaves, while S. eburneum displays uniformly green foliage with longer leaf spines (7–15 mm) compared to the more marbled and prickly S. marianum (up to 8 mm spines).

Life Cycle

Silybum species, primarily exemplified by S. marianum, exhibit a typical of winter annuals or biennials in temperate and Mediterranean climates. typically occurs in autumn following fall rains or in spring under moist conditions, with optimal temperatures ranging from 5–25°C depending on seed age. Seeds require coverage but benefit from exposure for enhanced sprouting, and they maintain viability for at least 9 years in the , enabling persistent recruitment over multiple seasons. During the vegetative phase, seedlings develop into a basal of spiny, variegated leaves in the first year, overwintering in this form in colder regions. In the second year, or directly in the first for forms, undergo bolting with rapid elongation in , reaching heights of 1–2 meters as internodes expand and structures emerge. This progression aligns with the BBCH stages 1–5, where rosette coverage increases to 90% before bolting initiates under warming conditions without a strict requirement. Flowering follows in late spring to early summer, with capitula blooming from April to June in Mediterranean habitats, attracting insect pollinators such as bees and flies for cross-pollination. Fruiting ensues rapidly, with achenes maturing 16–19 days post-anthesis, turning brown and shiny as they reach over 80% dry matter; seeds are primarily dispersed by wind via a pappus, though attachment to animals or transport in mud also occurs during summer to autumn. Senescence begins during fruit ripening, with basal leaves yellowing and dying as the plant allocates resources to ; in annual and biennial species like S. marianum and S. eburneum, the entire plant dies after seed set by late spring or summer, completing its cycle.

Distribution and Habitat

Native Range

Silybum marianum, the most widespread species in the genus, is native to and the , encompassing , , and extending eastward to western Asia—including regions in and —and parts of the . This distribution reflects its adaptation to semi-arid and temperate climates characteristic of these areas, where it has been documented since ancient times in texts such as those by the Greek physician Dioscorides in the 1st century AD, indicating its long-standing presence in the region. In its native habitats, S. marianum commonly occurs in disturbed grasslands, open meadows, and along rocky slopes, favoring well-drained soils with full sun exposure and demonstrating strong tolerance to and low . These plants typically grow at elevations from sea level up to approximately 1500 meters, thriving in nutrient-poor, nitrophilous environments often associated with human-modified landscapes. Silybum eburneum, the second species, has a more restricted native range limited to parts of the western Mediterranean, including and (specifically , , and ). It is endemic to scrub and open habitats in these areas, sharing similar preferences for well-drained, sunny sites with drought resistance, though it occupies narrower ecological niches compared to S. marianum.

Introduced Ranges and Invasiveness

Silybum marianum, the primary species in the genus, has been widely introduced outside its native Mediterranean range since the , primarily through human activities such as trade, shipping, and early . It is now established across temperate regions globally, including (widespread in the United States and ), (notably ), , , , , and parts of . In the , introductions occurred via European settlers and contaminated agricultural imports, while in , further spread was facilitated by 1940s farming practices. As an invasive species, S. marianum thrives in disturbed habitats such as roadsides, ditches, overgrazed pastures, fencelines, and fertile fields, forming dense monocultures that outcompete native vegetation through rapid growth and allelopathic effects from root and shoot exudates. These chemical interactions inhibit seed germination and seedling establishment of surrounding plants, contributing to its ecological dominance in infested areas. It is classified as a noxious weed and is widespread in regions like California, and in parts of Australia and Washington State, posing threats to biodiversity and agriculture by reducing forage quality and harboring pests. The spread of S. marianum is driven by both human-mediated and natural dispersal mechanisms. factors include unintentional transport via contaminated hay, machinery, and vehicles in and ornamental , as well as intentional introductions for medicinal or livestock uses. Natural vectors involve wind-dispersed plumed s and attachment to animal or followed by viable passage through digestive tracts, enabling of new temperate zones worldwide. Management of S. marianum invasions focuses on integrated approaches, including mechanical removal by hand-pulling or mowing before seed set to prevent , and chemical control using broadleaf herbicides such as , , 2,4-D, or applied to rosettes in spring or fall. Biological agents, including rust fungi like those in the genus that target thistles, have been explored but are not widely recommended due to limited specificity and efficacy for S. marianum. Prevention strategies emphasize seed hygiene in agricultural practices and early detection to avoid establishment in vulnerable ecosystems.

Ecology

Reproduction

Silybum species primarily reproduce sexually through seed production, with plants being self-compatible and capable of autogamous pollination, although is promoted by visitors. Pollinators such as bees, flies, beetles, and wasps are attracted to the hermaphroditic flower heads, facilitating despite the low natural rate of about 2% in some populations. Each mature plant can produce between 100 and over 6,000 achenes, depending on environmental conditions and , with individual flower heads yielding 65 to 190 . This high reproductive output contributes significantly to the genus's invasiveness in introduced ranges by overwhelming local seed banks. The achenes are equipped with a prominent pappus of bristles functioning as a for anemochorous dispersal by , typically over short distances, though longer-range spread occurs via human activities like contaminated hay or machinery. In native Mediterranean habitats, may also aid in by carrying the oily elaiosomes attached to the achenes. Seed dormancy is physiological and non-deep, often requiring cold or mechanical/chemical to break for . Under optimal conditions, such as alternating temperatures of 10–30°C following after-ripening or , rates range from 50% to 90%, occurring primarily in autumn with adequate moisture. Asexual reproduction is not reported in natural populations, with propagation occurring exclusively via seeds.

Interactions with Other Organisms

Silybum species, particularly S. marianum, exhibit a range of physical and chemical defenses against herbivory. The prominent spines on leaves and bracts serve as a primary physical barrier, deterring large mammalian herbivores by restricting access to foliage and increasing the risk of injury during feeding attempts. These spines, combined with white variegated patterns on leaves, also provide visual aposematic signaling that warns potential herbivores of unpalatability or danger. Chemically, extracts from S. marianum demonstrate toxicity and antifeedant effects against certain insects, such as the small white butterfly (Pieris rapae), by disrupting development, nutrition, and enzyme activities. Despite these defenses, Silybum occasionally serves as a host for piercing-sucking pests like aphids, though infestations are typically low due to secondary metabolites that limit population growth. Pollination in Silybum relies on mutualistic interactions with various insects, particularly bees that visit the capitula for nectar and pollen. Bumblebees (Bombus spp.) are frequent visitors in both native and introduced ranges, facilitating cross-pollination and contributing to the plant's reproductive success through efficient pollen transfer. Seed dispersal of the achenes occurs primarily via anemochory, aided by the pappus acting as a parachute, but biotic vectors play a supplementary role; birds and rodents consume and subsequently excrete viable seeds, promoting long-distance spread in disturbed habitats. Silybum lacks symbiotic associations with nitrogen-fixing organisms, as it does not form nodules with typical of . However, its deep system penetrates compacted , extracting nutrients from deeper layers and contributing to and organic matter incorporation upon decomposition, which can enhance in degraded areas over time. Additionally, S. marianum exerts strong allelopathic effects through root and exudates, suppressing and growth of nearby competitors such as , , and other weeds via that inhibit establishment. In native Mediterranean ecosystems, Silybum functions as a during early on disturbed sites, rapidly colonizing bare ground and providing resources that support communities, thereby aiding recovery in post-disturbance phases. In contrast, as an invasive in regions like and , it disrupts local by forming dense monocultures that homogenize habitats, reduce native plant cover, and alter community structure through competitive exclusion and resource monopolization.

Chemical Composition

Primary Compounds

The primary phytochemicals in Silybum species, particularly S. marianum, are dominated by the flavonolignan complex known as silymarin, which constitutes 1.5–3% of the dry weight of mature seeds (fruits). Silymarin comprises a mixture of at least seven closely related compounds, including silybin (also known as silibinin, the major component at 50–70%), isosilybin, silychristin, isosilychristin, silydianin, and silimonin. These flavonolignans are structurally characterized as conjugates formed through the oxidative coupling of the flavonoid taxifolin (dihydroquercetin) and the phenylpropanoid coniferyl alcohol, resulting in a unique hybrid scaffold featuring a flavanonol moiety linked via an oxirane (epoxy) ring to a lignan-like structure; this biosynthesis occurs primarily in the seed coat during fruit maturation and is mediated by peroxidase enzymes that facilitate radical coupling. In addition to silymarin, Silybum contains other , notably and glycosides, which are concentrated in and flowers rather than . These compounds, including quercetin-3-O-rutinoside and kaempferol-3-O-glucoside, serve as in the flavonoid pathway and contribute to the plant's pigmentation and UV protection, with concentrations varying by environmental factors but typically lower than silymarin levels (e.g., up to 0.5% dry weight in leaves). Biosynthetically, they derive from the phenylpropanoid pathway via chalcone synthase and subsequent flavonol synthase activity, distinct from the hybridization in silymarin. The seeds are also rich in lipids, with fixed oils comprising 20–30% of their dry weight, dominated by unsaturated fatty acids such as (approximately 60%), followed by (30%) and (9%). These fatty acids arise from the typical plant lipid biosynthesis pathway involving and in developing seeds, providing energy reserves and structural integrity. In the seeds, volatile compounds include sesquiterpenes (e.g., germacrene D and β-caryophyllene), which constitute a defensive fraction of the (up to 55% in some extracts) and are biosynthesized via the for production, aiding in deterrence and . Silymarin distribution is highest in mature seeds of S. marianum, where it accumulates preferentially in the outer pericarp and seed coat, with trace amounts in leaves and ; levels increase with seed maturity and can vary by (1–7% in wild populations). Both species contain silymarin, with S. marianum reaching up to 4.3% dry weight and S. eburneum around 3.2% dry weight (as of ), though S. eburneum features a distinct chemotype dominated by isosilychristin (approximately 62%).

Extraction and Analysis

The extraction of bioactive compounds from Silybum marianum, particularly the flavonolignan complex silymarin, traditionally relies on solvent-based methods applied to defatted seeds. A common approach involves initial defatting with n-hexane for 6 hours, followed by or Soxhlet using or for an additional 5-7 hours, which achieves silymarin recovery yields of approximately 70-80% depending on solvent concentration and duration. For instance, of ground seeds in 70% v/v hydro-alcoholic solution for 7 days has been shown to yield at least 25 mg/mL of silymarin, with often providing the highest efficiency among organic solvents due to its matching the target compounds. These methods are straightforward and cost-effective but can introduce solvent residues, necessitating additional purification steps. Modern extraction techniques emphasize enhanced purity and sustainability, with (CO₂) extraction emerging as a preferred green alternative. This process uses CO₂ at pressures of 25-40 and temperatures of 40°C, often with a co-solvent like 20% , to selectively isolate flavonolignans while removing in a sequential manner, resulting in extracts with silymarin purities exceeding 90% and yields of 10-12 mg/g dry seed. For analysis, (HPLC) with (UV) detection at 280 nm is the standard method, enabling quantification of individual silymarin components such as silybin, silychristin, and silydianin based on peak areas, with linearity confirmed across concentration ranges of 1-400 μg/mL. (MS), particularly LC-MS/MS, complements HPLC by facilitating the separation and characterization of isomers like silybin A and silybin B, which differ in and elute closely in standard . Standardization of silymarin extracts adheres to pharmacopoeial guidelines to ensure consistency in commercial supplements. The (USP) specifies that powdered milk thistle extract must contain not less than 2.0% silymarin (calculated as silybin), while formulated products like tablets require 90.0-110.0% of the labeled silymarin content as silybin, often targeting 80% total flavonolignans in concentrated extracts for therapeutic efficacy. These standards employ HPLC-UV or LC-MS for verification, focusing on key markers to confirm potency. Challenges in and arise from inherent variability in silymarin content, influenced by factors such as plant age, , and climate, with total silymarin levels ranging from 1.0-3.0% of dry seed weight (up to 8% in optimized conditions) and showing significant differences across growth stages and regions like Egypt's north-to-south gradient. often monitors the silybin A/B ratio as a marker of extract authenticity, as imbalances can affect , compounded by environmental stresses that reduce yields by 20-30% in suboptimal climates.

Traditional and Modern Uses

Historical and Cultural Uses

The genus Silybum, particularly S. marianum (milk thistle), has a long history of traditional use dating back to ancient civilizations in the Mediterranean region. The Greek physician and botanist , in his 1st-century AD text , first documented the plant's medicinal properties, recommending it as a remedy for snakebites and liver disorders due to its purported detoxifying effects. Similarly, the Roman naturalist (23–79 AD) described the plant's juice, mixed with , as effective for "carrying off " and treating hepatic conditions, highlighting its early recognition as a hepatic tonic. Traditional lore also associated the plant's milky sap with lactation support, suggesting its use by nursing mothers to enhance milk production, a belief tied to the white veins on its leaves. During the medieval and periods, Silybum continued to feature prominently in European herbalism, where it was employed for and biliary disorders. Herbal compendia, such as those by the 16th-century botanist Pietro Andrea Mattioli, prescribed it for , liver, and ailments, building on classical knowledge to treat conditions like and digestive obstructions. In , the plant gained symbolic significance as the "Marian ," with the white marbled veins on its leaves interpreted as drops of the Virgin Mary's milk spilled while nursing the infant during her flight to , embedding it in religious and . Beyond medicinal applications, Silybum served non-medicinal roles in various cultures. In Mediterranean regions, including during times of , its young leaves were boiled and consumed as a or substitute, providing nourishment when other resources were limited. By the , the plant's striking flowers and variegated foliage made it a popular ornamental in European gardens, as noted by herbalist John Gerard, who described it as "diligently cherished" for its aesthetic appeal. Indigenous practices in the native ranges were more limited but included some North African traditions, where Silybum was used for digestive issues such as and , often prepared as teas or infusions from leaves and seeds. S. eburneum shares similar ethnobotanical uses in North African regions, including , for medicinal teas addressing digestive ailments. These uses reflect the plant's integration into local across its Mediterranean origins, predating modern pharmacological interest.

Culinary and Ornamental Applications

Silybum species, particularly S. marianum, have practical applications in culinary contexts where young leaves and stems are harvested, spines removed through blanching or peeling, and then incorporated into salads or cooked as a potherb similar to spinach. The flower heads can be prepared like globe artichokes by cooking the receptacles, while roasted seeds serve as a coffee substitute with a nutty flavor. Infusions from the flowers are also used in herbal teas for their mild taste. The seeds of S. marianum exhibit a favorable nutritional profile, containing over 20% protein, more than 30% , and over 39% fat primarily composed of unsaturated fatty acids such as linoleic and oleic acids. When properly prepared by removing spines and cooking parts as needed, the plant demonstrates low toxicity, though consumption should avoid nitrate accumulation in leaves from nitrogen-rich soils. In ornamental gardening, S. marianum is valued for its striking flowers and bold, white-veined foliage, often planted in , gardens, or borders to add architectural interest and attract pollinators. S. eburneum provides silvery contrast through its white-veined, glabrous leaves and flowers, making it suitable for dry, sunny Mediterranean-style landscapes. Cultivation of Silybum species is straightforward, with easy from sown in full sun and well-drained soil; they are drought-tolerant once established but require ample space due to spiny growth and potential for aggressive self-seeding.

Pharmacology and

Active Constituents and Mechanisms

While most centers on , preliminary studies on S. eburneum suggest comparable profiles with potential and hepatoprotective effects. , the primary active constituent complex from Silybum marianum, exerts its biological effects primarily through and membrane-stabilizing actions. As a potent free radical scavenger, silymarin inhibits in membranes, thereby reducing oxidative damage in hepatocytes and other tissues. This activity is mediated by enhancing endogenous defenses, such as increasing levels of (SOD) and (GSH), which neutralize (ROS). Additionally, silymarin stabilizes hepatocyte membranes by inhibiting the uptake of toxins, such as acetaminophen and , through blockade of beta-glucuronidase and interference with toxin-binding sites on transporters. In hepatoprotective pathways, silymarin upregulates the nuclear factor erythroid 2-related factor 2 (Nrf2) pathway, promoting the expression of detoxification enzymes like heme oxygenase-1 (HO-1) and NAD(P)H: oxidoreductase 1 (NQO1). This activation enhances cellular resistance to and supports by stimulating protein synthesis and activity. Furthermore, its anti-fibrotic effects involve suppression of transforming growth factor-beta (TGF-β) signaling, which reduces deposition and accumulation in fibrotic livers by inhibiting Smad pathway activation. Beyond hepatoprotection, silymarin demonstrates anti-inflammatory properties by inhibiting the nuclear factor kappa B () pathway, thereby decreasing the production of pro-inflammatory cytokines such as tumor necrosis factor-alpha (TNF-α) and interleukin-6 (IL-6). In potential anti-cancer applications, it induces in tumor cells through upregulation of pro-apoptotic proteins like Bax and caspase-3, while downregulating anti-apoptotic , particularly in models of and . Pharmacokinetically, silymarin exhibits 20-50% gastrointestinal absorption following , though its absolute is limited by extensive first-pass in the liver, where it undergoes conjugation to glucuronides and sulfates. The elimination ranges from 6 to 8 hours, with peak plasma concentrations achieved 2-4 hours post-dose, supporting once- or twice-daily dosing in therapeutic contexts.

Clinical Evidence for Health Benefits

Clinical studies have primarily investigated silymarin, the active extract from , for its potential benefits in liver disorders, with indicating modest improvements in liver enzyme levels. A and of randomized controlled trials involving patients with various liver diseases, including , found that silymarin supplementation significantly reduced serum () and () levels, with weighted mean differences of -0.26 /mL for and -0.53 /mL for . In , a 2025 of trials on silibinin capsules, a standardized form of silymarin, confirmed efficacy as an adjunct therapy, showing reductions in liver enzymes and improved clinical outcomes in patients with . For , a double-blind controlled trial demonstrated that silymarin at a dosage of 420 mg/day served as an effective adjunct, improving the to 58% compared to 39% in the group (P = 0.036) in patients with alcoholic . Evidence for other conditions remains limited. In , randomized controlled trials and a meta-analysis of 16 studies involving over 1,300 patients reported that silymarin improved insulin sensitivity, as measured by reductions in of insulin resistance (HOMA-IR) scores (standardized mean difference: -0.41), alongside decreases in fasting blood glucose and HbA1c levels. For , clinical data are inconclusive, with no randomized trials supporting silymarin's efficacy; while laboratory studies suggest potential chemopreventive effects, human trials have not demonstrated benefits in reducing cancer risk or progression. Study limitations include high heterogeneity in preparations, dosages, and patient populations across trials, often with I² values exceeding 50%, which complicates interpretation of results. Most trials are small, typically involving fewer than 100 participants, and exhibit low methodological quality due to risks of in and blinding. Silymarin holds (GRAS) status from the FDA for use in dietary supplements, but no pharmaceutical drugs containing silymarin have been approved by the FDA for therapeutic indications . Post-2020 research includes ongoing trials for non-alcoholic (NAFLD), such as a 2024 evaluating silymarin-supplemented cookies, which reported reductions in liver enzymes and lipid profiles in NAFLD patients. For neuroprotection, preclinical models have shown promise, and a phase 2 initiated in 2025 is assessing silymarin's role in symptom management and in Parkinson's patients, with recruitment ongoing as of September 2025.

Safety Profile and Toxicology

Silybum marianum, commonly known as milk thistle, is generally well tolerated when used orally at recommended doses, with mild gastrointestinal disturbances being the most frequently reported adverse effects. These include , , , , and gas, occurring in approximately 2-12% of users across clinical studies, often at rates similar to . Allergic reactions are rare but can occur in individuals sensitive to plants in the family, manifesting as rash, pruritus, or dyspnea. Toxicological studies indicate low , with oral LD50 values exceeding 5 g/kg body weight in for silymarin extracts, and no evidence of or carcinogenicity in standard assays. and data suggest potential inhibition of enzymes, particularly , which may theoretically interact with drugs metabolized by this pathway, such as statins; however, clinical studies show minimal pharmacokinetic changes and low risk of significant interactions at typical doses. No serious has been linked to milk thistle use, even in patients with . Contraindications include hypersensitivity to Silybum marianum or related species. Use during and is not recommended due to insufficient safety data, though no adverse effects have been reported in limited animal studies. Potential estrogenic effects from certain preparations raise concerns for individuals with hormone-sensitive conditions, such as breast or , warranting caution or avoidance. In Europe, the European Medicines Agency (EMA) recognizes Silybum marianum fruit as a traditional herbal medicinal product for supportive treatment in liver disorders and relief of digestive symptoms, based on long-standing use since at least 1974. In the United States, milk thistle is classified as a dietary supplement under the Dietary Supplement Health and Education Act, not subject to pre-market FDA approval for safety or efficacy, though the FDA monitors for contaminants such as heavy metals (e.g., lead, arsenic) and mycotoxins in products, with some commercial supplements showing elevated levels.

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