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Catechu

Catechu, also known as black catechu or cutch, is a hard, reddish-brown extract obtained from the heartwood of the Senegalia catechu (synonym Acacia catechu), a species in the family native to tropical regions of South and , including , , and . The , which can reach heights of 10–20 meters with a straight bole up to 50 cm in diameter, thrives in well-drained, sandy or rocky at elevations from to 1,500 meters and is valued for its nitrogen-fixing properties through with . The extract is produced by boiling and evaporating the heartwood, yielding a brittle, substance rich in (25–33%), catechins (such as and epicatechin), (including ), and other polyphenols that contribute to its therapeutic and industrial applications. Traditionally, catechu has been employed in Ayurvedic and other indigenous medical systems across for its potent astringent, antiseptic, and anti-inflammatory properties, particularly in treating , , ulcers, wounds, respiratory ailments like and , and oral conditions such as and . It is a key ingredient in quid (paan) preparations, where it acts as a mild and breath freshener, and has been used as chew sticks for dental hygiene due to its antibacterial effects against pathogens like and . Modern pharmacological research supports these uses, highlighting catechu's activity (with epicatechin gallate showing superior free radical scavenging compared to other catechins), antidiabetic potential through inhibition of α-amylase and α-glucosidase enzymes, anticancer effects (e.g., of 105.35 µg/mL against MCF-7 cells), and efficacy, making it a for pharmaceuticals and nutraceuticals. Beyond medicine, catechu serves as a and agent, imparting brown hues to textiles, , and fishnets while preserving them against decay; its high content has historically made it essential in the industry and for . The tree itself provides valuable timber for furniture and , though caution is advised due to the presence of alkaloids in the bark and in foliage under stress, which can render parts poisonous for consumption or use in fish poisoning. While generally safe in traditional doses, limited data underscores the need for further studies on its long-term use in modern formulations.

Botanical Source

Plant Description

Senegalia catechu, formerly known as Acacia catechu, is a , thorny tree belonging to the family, typically reaching heights of 10–20 meters with a straight bole up to 50 cm in diameter and a spreading crown of slender branches. The bark is dark greyish-brown and rough, often exfoliating in long strips, while the branchlets are brown and glabrous. This species features paired, curved stipular spines measuring 3-10 mm in length, serving as a primary defense mechanism against herbivores. The leaves are bipinnate and alternate, with 9–30 pairs of pinnae each bearing 16–50 pairs of linear-oblong leaflets (2–6 mm long), covered in fine pubescence. Flowers are pale yellow, sessile, and arranged in axillary spikes of 5-10 cm, blooming from to or to . The is a flat, dehiscent , beaked at the apex and measuring 5-10 cm long by 1-1.6 cm wide, containing 3-10 ovoid, dark brown seeds that are 5-8 mm in size. The heartwood is light red to reddish-brown, dense, and highly resistant to . Senegalia catechu exhibits moderate to fast initial growth in tropical and subtropical climates, particularly on well-drained sandy or alluvial soils, though overall it is considered slow-growing, achieving about 10 meters in height over 55 years. The tree develops a deep extending up to 2 meters, which enhances , and forms symbiotic relationships with bacteria in root nodules to fix atmospheric , improving . Thorns along the branches and petioles further aid in protection within its native dry forest habitats. The life cycle begins with seed , which is enhanced by pre-treatments such as mechanical or soaking in hot water (80°C for 10 minutes) followed by cold water for 24 hours, achieving germination rates of 60-70% within 15-25 days. Trees are , shedding leaves from January to April and producing new foliage in April-May, with pods ripening from August to December. Reproductive maturity is reached in 5-7 years, when the tree begins flowering and fruiting, making it a source for catechu extract from its heartwood.

Distribution and Habitat

Senegalia catechu, the primary botanical source of catechu, is native to South and Southeast Asia, with its range spanning from Pakistan through the Indian subcontinent to southwest China and Thailand. In India, it occurs widely in the Himalayan foothills, central regions such as the Indian peninsula, and southern areas, while also found in Nepal, Bhutan, Myanmar, and southern China, particularly Yunnan province. The species thrives in dry deciduous forests, savannas, open grasslands, and along riverbanks and watersheds, favoring drier, open environments over moist humid ones. It grows at elevations from up to 1,500 meters and tolerates poor, well-drained sandy or gravelly alluvial soils with a range from acidic to neutral. Its thorny structure aids adaptation to these arid, disturbance-prone habitats by deterring herbivores. Senegalia catechu has been introduced to parts of , including , , , , , , , and , as well as , primarily for and purposes. In its native range, wild populations face threats from overharvesting for timber and extractives, though the species overall is classified as Least Concern due to its extensive distribution. Ecologically, it plays a key role in through root nodules, enhancing soil fertility, and its deep roots contribute to and in arid zones, while providing shelter for local wildlife.

Production

Extraction Process

The extraction of catechu, also known as cutch, from the heartwood of ( catechu) trees typically begins with felling mature trees at 30 to 60 years old, depending on site quality, as younger trees yield lower quantities of extractable material. After felling, the bark and sapwood are removed to isolate the dark red heartwood, which is then chipped into small pieces using mechanical chippers or manual tools to increase surface area for extraction. These chips, often 60 kg batches, are placed in large vessels, such as 200-liter aluminum pots, and boiled in water—typically 120 liters per batch—for approximately 2 to 3 hours over a wood fire to leach out the soluble and other polyphenolic compounds. The process is repeated one or more times by transferring the hot extract via pipes to a second vessel for further , concentrating the liquid until its specific reaches about 26° Twaddell, which indicates readiness for cooling and solidification. The resulting mixture is filtered to remove solid residues, and the filtrate is evaporated, either by continued or at , to form a thick, reddish-brown paste or solid blocks that constitute the crude catechu. This traditional method, known as the process, can take 12 to 24 hours in total depending on batch size and equipment, with yields typically ranging from 6% to 8% of the heartwood weight, though variations occur based on tree girth and environmental factors—larger girths (40-50 cm) yield up to 6.68% compared to 5.06% for smaller ones (under 30 cm). Quality is influenced by the freshness of the heartwood, as wood from freshly felled trees produces a higher yield and darker-colored catechu with elevated content compared to dried wood, which may result in lighter extracts due to partial loss of solubles. To maintain purity, chips are often dried briefly in shade and ground uniformly before , minimizing microbial and ensuring consistent . Modern variations employ solvent extraction using organic solvents like or to achieve higher purity and efficiency, often yielding up to 18-25% extract from powdered heartwood by or Soxhlet apparatus, followed by and . While is occasionally used for volatile components, it is less common for the primary tannin-rich extract, which relies more on aqueous or alcoholic solvents. The primary chemical constituents, such as , drive this process. Leftover wood chips from extraction serve as byproducts, commonly repurposed as for processes or as in , reducing waste in production.

Commercial Cultivation and Trade

Commercial cultivation of (Acacia catechu), the primary source of catechu, involves propagation primarily through seeds that are soaked in water for 24 hours to break and enhance rates. Seedlings are raised in nurseries for 3-6 months until they reach 30-50 cm in height before to the field. In commercial plantations, trees are spaced at 4 m × 6 m or 2 m × 4 m to optimize growth and yield, allowing for adequate sunlight and nutrient access on well-drained, soils. Harvesting occurs through , where trees are cut back to encourage regrowth, with rotations typically of 15 to 25 years for heartwood development suitable for catechu , sustaining long-term productivity in managed forests. India dominates global catechu production as the primary exporter, accounting for the majority of supply, with key cultivation regions in , , , and . Other significant producers include and , where plantations support local and export markets. In India alone, approximately 63,000 tons of khair heartwood are processed annually to yield 3,000-3,500 tons of katha, a refined catechu product. Catechu is traded internationally in forms such as solid blocks or fine powder, facilitating its use in pharmaceuticals, , and food industries. Export prices typically range from $2 to $5 per kg, with an average of around $2.06 per kg based on recent trade data, reflecting fluctuations due to quality and market demand. To mitigate risks, harvesting is regulated through diameter limits (e.g., 30 cm DBH in ) and sustainable management practices in producing countries, promoting and to balance economic benefits with ecological preservation. Despite these efforts, catechu production faces challenges from , leading to resource scarcity and declining wild populations in natural habitats. In response, there is a growing shift toward established plantations and systems to enhance , reduce pressure on native forests, and ensure long-term supply stability.

Chemical Composition

Primary Constituents

Catechu extract, derived from the heartwood of (syn. Acacia catechu), is primarily composed of , which form the dominant class of compounds. Catechu , a condensed () consisting of units, accounts for 25-33% of the extract's composition. Catechuic acid is another key present, contributing to the extract's properties. Flavonoids represent a significant secondary group of constituents, including at 2-12% (with variations such as 3.30%, 66.9%, or 3.58% reported in heartwood analyses), epicatechin at 25-33% (23.1% in heartwood), at 10-12%, and acacatechin. These flavonoids are structurally characterized as polyphenolic compounds with potential inherent to their hydroxylated rings. Additional compounds include catechu red, a pigment responsible for the extract's coloration, along with minor such as gummy matter. The extract exhibits an acidic nature with a of approximately 4-5. The extract is largely water-soluble, facilitating its use in various preparations. These primary constituents are typically identified and quantified using analytical techniques such as (HPLC), ultra-high-performance liquid chromatography (UHPLC) with photodiode array detection, gas chromatography-mass spectrometry (GC-MS), and .

Derivative Compounds

Catechu's primary , such as catechutannic acid, can undergo under acidic conditions or heat, breaking down into simpler including from the catechol units in monomers. This degradation process reveals the structural units of the condensed predominant in Senegalia catechu heartwood, with derived specifically from the B-ring of flavan-3-ols like . Polymerization and oxidation of precursors in catechu lead to the formation of phlobaphenes, insoluble red s that contribute to the extract's coloration. Catechu red, a notable phlobaphene, arises from the oxidative of catechutannic acid during processing, resulting in amorphous, reddish-brown compounds valued for their properties. Among synthetic analogs and related derivatives, catechuic acid serves as a compound comprising 25-33% of the heartwood extract and exhibiting enhanced astringency. glycosides, such as quercetin 3-rhamnoside and quercetin 3-glucuronide, represent derivatives that arise from of core quercetin structures found in catechu. Catechu tannins participate in condensation reactions with to produce resins, where the reactive hydroxyl groups on units form methylene bridges, enabling applications in adhesives. Additionally, the tannins' ability to bind proteins via hydrogen bonding and hydrophobic interactions underlies their effects, though this is a reversible complexation rather than a permanent .

Historical and Cultural Context

Etymology and Nomenclature

The term "catechu" derives from the word kachu (or kath in some regional dialects), meaning "earth" or "extract," alluding to the earthy, paste-like substance obtained from the heartwood of certain tropical trees. This etymology traces back to roots, such as karaiyal ("that which is dissolved") or karaiccal ("melted substance"), reflecting the process of and evaporating wood extracts to produce the astringent material. The word entered European in the , with the earliest recorded English usage in 1682, borrowed via Latin catechu. Portuguese traders, active in during the , facilitated the linguistic spread of the term from and languages into English and other tongues, often adapting it as catecu in their records of spices and medicinals from the . In 1782, formalized the as Mimosa catechu in his Supplementum Plantarum, later reclassified under Acacia catechu (Willdenow, 1806) to reflect its leguminous characteristics. Phylogenetic analyses led to the segregation of the genus Senegalia, with the combination Senegalia catechu (L.f.) P.J.H. Hurter & Mabb. published in 2008; these changes were ratified by decisions at the 2011 , based on molecular evidence distinguishing African and Asian mimosoid clades. Common synonyms for the substance include "cutch" or "black cutch" in English, kattha in (referring specifically to the dried extract used in betel quids), and khair in regional languages for the source tree. Kattha production from S. catechu heartwood yields "black catechu," distinguished from "pale catechu" (or gambier), which derives from the leaves and shoots of Uncaria gambier () and was the original referent of "catechu" in early European colonial texts before the , leading to historical nomenclature confusion in trade descriptions.

Traditional Significance

Catechu, derived from the heartwood of Acacia catechu, has been documented in ancient Ayurvedic texts such as the Charaka Samhita (circa 300 BCE), where it is referred to as "khadira" and valued for its healing properties, including blood purification and treatment of skin disorders. In traditional Chinese medicine, it is known as "Er Cha" and employed for its astringent qualities to clear heat, resolve phlegm, and address conditions like cough and diarrhea. The substance's role in early medicinal practices underscores its longstanding recognition across Asian healing traditions for promoting overall vitality and detoxification. In cultural practices, catechu holds a central place in Asian customs, particularly as a key ingredient in paan, the betel quid preparation involving leaf, , lime, and catechu paste, which imparts a stain and flavor while symbolizing social bonding and . Offered to guests after meals or during gatherings, paan with catechu serves as a of and in and broader Asian societies. In Hindu rituals, the wood of the khadira tree is used as sacred fuel (samidha) in fire ceremonies, believed to purify the and participants through its aromatic and symbolic association with and protection. Additionally, in ancient , catechu extract functioned as a vital for textiles, producing durable brown hues on and fabrics, as seen in traditional Burmese weaving where it was extracted from local acacia heartwood. The trade history of catechu reflects its economic importance, with exports originating from and reaching by the , primarily for use in leather tanning due to its high content, which colonial enterprises facilitated through controlled production in regions like . During the colonial period, the exerted significant influence over such commodity trades, establishing monopolistic practices that directed catechu supplies toward European industries for preserving hides and sails. Socially, catechu embodies hospitality in , where sharing paan reinforces communal ties and is a customary welcome in homes and ceremonies. It also features in gender-specific traditional cosmetics, particularly among women, as an additive in () pastes to enhance color adhesion and provide a cooling, effect on the skin during bridal and festive applications.

Applications

Medicinal and Therapeutic Uses

Catechu, derived from the heartwood of Acacia catechu, is renowned for its properties, primarily attributed to its high content of that bind to proteins, causing and contraction. This mechanism helps in reducing excessive mucous secretions and inflammation, making it effective for treating conditions such as , , and oral ulcers. In , it is administered in decoctions at dosages of 0.5-2 grams daily to manage these gastrointestinal and oral issues by promoting mucosal tightening and reducing fluid loss. The antimicrobial effects of catechu further support its therapeutic applications, with extracts demonstrating inhibition against bacteria such as and , as well as certain fungi like and . These properties have led to its use in gargles for sore throats to alleviate infections and in wound dressings to prevent microbial growth and promote healing. Studies have shown that ethanolic and methanolic extracts exhibit significant zones of inhibition , underscoring their potential as natural antiseptics. Modern pharmacological research highlights catechu's antioxidant activity, driven by catechins such as and epicatechin, which scavenge free radicals and reduce inflammation by modulating pathways like . This has implications for managing chronic inflammatory conditions. Additionally, studies from the have demonstrated its potential in through inhibition of α-glucosidase, an involved in , with values indicating moderate potency comparable to some synthetic inhibitors. For instance, heartwood extracts reduced postprandial glucose spikes in models by limiting starch breakdown. Catechu is commonly formulated in herbal teas and tablets for convenient oral administration, often combined with other herbs to enhance bioavailability and efficacy. It is also incorporated as an additive in betel quid, where it contributes to oral health by providing astringency that aids in cleansing and reducing plaque accumulation, though long-term use requires moderation.

Industrial and Other Uses

Catechu, derived from the heartwood of Acacia catechu (also known as ), serves as a key vegetable agent in the industry, where a 10-20% solution is commonly employed to process hides by binding to fibers, enhancing durability and water resistance. This application is particularly prominent in the production of and garments, as the high content (typically 55-60%) yields robust, though sometimes harsh, suitable for heavy-duty items like soles. In regions such as and , dark catechu extracts are mixed with other materials to mitigate staining and improve overall quality. In textile dyeing, catechu produces fast brown to black shades on natural fibers like and , with iron mordants applied to achieve permanence and deeper tones, such as gray-brown hues. The process involves fabrics in a catechu solution, often combined with agents like sulphate for enhanced light and chemical fastness, making it suitable for , , and substrates. These stem from catechu's polyphenolic compounds, which form stable color complexes without synthetic additives. Catechu is utilized in food applications primarily as a natural colorant and flavoring agent in paan (betel quid), where crystalline extracts impart a distinctive hue and taste to the mixture of leaves and nuts. Its role as a remains limited in regulated markets due to health concerns, including restrictions in the where betel quid components are classified as novel foods requiring pre-market authorization (not obtained) and recognized as carcinogenic by the International Agency for Research on Cancer. Additionally, catechu extracts preserve materials like fishing nets and ropes by inhibiting microbial degradation. Pigment derivatives, such as , extend its utility in specialized colorants.

Safety and Toxicology

Potential Risks and Regulations

High doses of catechu may lead to adverse effects such as and liver strain due to its high content, which acts as an on the and can cause upon excessive absorption. in catechu have been associated with , , and potential liver damage in acute high-dose scenarios. When combined with betel quid, catechu contributes to a Group 1 carcinogenic risk as classified by the International Agency for Research on Cancer (IARC), primarily increasing the incidence of oral, pharyngeal, and esophageal cancers due to synergistic effects with and other components. Individuals sensitive to may experience allergic reactions to catechu, including irritation or, in rare cases, , manifesting as , urticaria, or . Medicinal amounts of catechu should be avoided during due to insufficient data. In the United States, black catechu extract from Acacia catechu is recognized as (GRAS) for use as a agent in under FDA regulations, provided it meets purity standards. In the , catechu derivatives in are permitted without a specific concentration limit but must comply with general safety assessments under Regulation (EC) No 1223/2009, with industry-reported maximum use levels up to 0.5% in leave-on products to avoid irritation. AYUSH standards, as outlined in the , require catechu (Khadira) to meet purity criteria including total ash not exceeding 9%, acid-insoluble ash not more than 1%, and limits such as lead ≤10 ppm, ≤3 ppm, mercury ≤1 ppm, and ≤0.3 ppm to ensure safety in traditional formulations. Adulteration of catechu with synthetic dyes is a noted issue in commercial samples, particularly pale catechu, where foreign colorants are added to enhance appearance; serves as a standard method for detecting such impurities by separating and identifying dye profiles against authentic standards. While the heartwood extract is the primary source, caution is advised regarding other plant parts; foliage may contain under drought stress, potentially rendering them poisonous.