[BoDD logo]

Google


 
Google uses cookies
to display context-
sensitive ads on this
page. Learn how to
manage Google cookies
by visiting the

Google Technologies Centre

 
 
 
 
 ▼ ▼ ▼ ▼ ▼ ▼ ▼

 

 ▲ ▲ ▲ ▲ ▲ ▲ ▲

[BBEdit logo]

 

PHYLLANTHACEAE

(Leafflower family)

 

• Medicinal / Folk-medicinal aspects: The traditional use of a number of members of this family, and in particular various Phyllanthus L. species (Watt & Breyer-Brandwijk 1962, Mao et al. 2016), for the treatment of dermatologic and other afflictions is notable. •
• Adverse effects: Some species are spiny and therefore potentially hazardous. Certain Glochidion J.R.Forst. & G.Forst. and Phyllanthus L. species are capable of hyperaccumulating [potentially contact allergenic] nickel salts from soils rich in this element; other Glochidion species are reportedly myrmecophilous and therefore potentially able to elicit a pseudophytodermatitis in plant collectors if they house biting or stinging ants. However, reports of harmful dermatologic effects attributable to these plants are sparse to non-existent. •
• Veterinary aspects: •

Formerly included in the Euphorbiaceae, the Phyllanthaceae was identified as a distinct family by APG II (Angiosperm Phylogeny Group 2003). It comprises about 2000 species in 57 genera, found mostly in the tropics. According to some authorities, Phyllanthus L., the largest genus, accounts for over 1000 species and has a remarkable diversity of growth forms – annual and perennial herbaceous, arborescent to climbing, terrestrial or floating aquatic.a Some (Antidesma L., Baccaurea Lour., Phyllanthus L. species) produce edible fruit; many (Antidesma L., Aporosa Blume, Bischofia Blume, Heywoodia Sim, Hieronyma Allemāo, Richeria Vahl, Uapaca Baill. species) provide useful timber (Mabberley 2017).

Certain species of Breynia J.R.Forst. & G.Forst. and Phyllanthus L. may be found in cultivation as greenhouse ornamentals, most usually in botanic gardens (Hunt 1968/70).



Actephila Blume

Leaves from an unidentified new species of Actephila growing on ultramafic soils in the region of Nalumad in Sabah (Malaysia) were found to have accumulated up to 11,520 µg/g (ppm; dry weight) nickel, prompting its categorisation as a hyperaccumulator of this element (van der Ent et al. 2015). The contact sensitising capacity of nickel and its salts is well documented (Malten et al. 1976, Cronin 1980, Spruit et al. 1980, Fowler 1990, Uter et al. 2016) but it remains to be determined whether the nickel compounds in this plant present a dermatological hazard.



Antidesma bunius (L.) Spreng.
[syn. Stilago bunius L.]
Bignay, Chinese Laurel, Currant Tree, Queensland Cherry, Salamander Tree

Souder (1963) included this species in a listing of poisonous plants on Guam, seemingly asserting that it contains a milky white latex that causes an acute skin dermatitis on contact. It is possible that, because the genus was considered to be a member of the Euphorbiaceae at the time, Souder assumed that it would have the irritant properties characteristically found in many members of that family. According to Lim (2012), the ripe fruits are eaten fresh or cooked, and can be made into jam because of their high pectin content. The fruits are also utilised in the production of syrup, soft drinks, wine, liqueur and brandy and can be used for desserts like cakes or ice cream. Also, the young, tender leaves are eaten with rice in Indonesia and the Philippines, and the leafy shoots are used in China to prepare a tea known as wu yue cha (五月茶).



Aporosa symplocoides var. chalarocarpa (Airy Shaw) Schot
[syn. Aporosa chalarocarpa Airy Shaw]

Leaves from Aporosa chalarocarpa growing on ultramafic soils in Sabah (Malaysia) were found to have accumulated up to 1560 µg/g (ppm; dry weight) nickel and 468 µg/g (ppm; dry weight) cobalt (van der Ent et al. 2015). The contact sensitising capacity of nickel, cobalt, and their salts is well documented (Malten et al. 1976, Cronin 1980, Spruit et al. 1980, Fowler 1990, Uter et al. 2016) but it remains to be determined whether the nickel and cobalt compounds in this plant present a dermatological hazard.



Baccaurea lanceolata (Miq.) Müll.Arg.
[syns Baccaurea glabriflora Pax & K.Hoffm., Hedycarpus lanceolatus Miq.]

Leaves from this species growing on ultramafic soils in Sabah (Malaysia) were found to have accumulated up to 1450 µg/g (ppm; dry weight) nickel, prompting its categorisation as a hyperaccumulator of this element (van der Ent et al. 2015). The contact sensitising capacity of nickel and its salts is well documented (Malten et al. 1976, Cronin 1980, Spruit et al. 1980, Fowler 1990, Uter et al. 2016) but it remains to be determined whether the nickel compounds in this plant present a dermatological hazard.



Breynia disticha J.R.Forst. & G.Forst.
[syns Breynia nivosa (W.Bull) Small, Phyllanthus nivosus W.Bull]
Ice Plant, Snow Bush

Souder (1963) included Phyllanthus nivosus in a listing of poisonous plants on Guam, seemingly asserting that it contains a milky white latex that causes an acute skin dermatitis on contact. It is possible that, because the genus was considered to be a member of the Euphorbiaceae at the time, Souder assumed that it would have the irritant properties characteristically found in many members of that family. Utilising a phorbol dibutyrate receptor binding assay, Beutler et al. (1989) failed to detect binding activity in any of the Breynia J.R.Forst. & G.Forst. or Phyllanthus L. species they screened, concluding that it is unlikely that these genera are a source of the phorbol ester-type irritants found in the Euphorbiaceae.



Cleistanthus Hook.f. ex Planch.

Leaves from an unidentified Cleistanthus species growing on ultramafic soils in the Bidu-Bidu Hills in Sabah (Malaysia) were found to have accumulated up to 2110 µg/g (ppm; dry weight) nickel, prompting its categorisation as a hyperaccumulator of this element. Neither nickel, cobalt nor chromium levels in two other species (Cleistanthus ellipticus Hook.f.; Cleistanthus gracilis Hook.f.) exceeded 20 µg/g nickel (van der Ent et al. 2015). The contact sensitising capacity of nickel and its salts is well documented (Malten et al. 1976, Cronin 1980, Spruit et al. 1980, Fowler 1990, Uter et al. 2016) but it remains to be determined whether the nickel compounds in this plant present a dermatological hazard.



Cleistanthus collinus (Roxb.) Benth. ex Hook.f.
[syn. Clutia collina Roxb.]

[Information available but not yet included in database]



Flueggea leucopyrus Willd.
[syns Flueggea xerocarpa A.Juss., Securinega leucopyrus (Willd.) Müll.Arg.]
Spinous Flueggea

This thorny shrub with spiny branch ends (see Priyadarshan et al. 2014), which is known locally in India as thumari,a humari or humri, and in Sri Lanka as katupila, has been investigated by practitioners of Ayurveda as a locally applied remedy for the treatment of diabetic ulcers. Referring to the plant as Securinega leucopyrus but providing no indication that the plant material had been botanically authenticated, several reports (Ajmeer et al. 2014b, Dudhamal & Ajmeer 2015, Ajmeer et al. 2015, Ghodela et al. 2019) describe the use of a paste ("katupila kalka") prepared from the dried and powdered leaves with sesame oil (from Sesamum indicum L., fam. Pedaliaceae). The paste, applied daily for a period of 30 days or more, has achieved a remarkable wound healing success rate. A betadine containing ointment used in a control group proved to be much less effective. However, a vehicle control study has seemingly not been undertaken, so the contribution of the sesame oil to the observed outcomes remains to be established. Studies of the wound healing activity of sesame oil in experimental animals (Kiran & Asad 2008, Tehrani et al. 2016) have been reported. Further, individual case reports describe the topical use of a similarly prepared sesame oil-based paste or gel formulation of the dried leaves to aid healing in cases of infected eczema (Dudhamal et al. 2016), chronic ulcers in Buerger's disease (Dudhamal 2016), trophic ulcer (Ajmeer et al. 2014a), and chronic ulcers that developed after the successful management of a tibial fracture with the MIPPO [= minimally invasive percutaneous plate osteosynthesis] technique (Ghodela & Dudhamal 2017).

Chopra & Badhwar (1940) noted that in India, Fluggea leucopyrus [sic; orth. var.] is used [in an unspecified way] to destroy worms in sores. See also Flueggea virosa (Roxb. ex Willd.) Royle below.



Flueggea tinctoria (L.) G.L.Webster
[syns Rhamnus tinctoria L., Securinega buxifolia (Poir.) Müll.Arg., Securinega tinctoria (L.) Rothm.]
Tamujo

This, the only European species of the genus, is a profusely branching spiny shrub found growing naturally mainly along rivers in Portugal and western Spain (Webster 1984).



Flueggea virosa (Roxb. ex Willd.) Royle
[syns Acidoton virosus (Roxb. ex Willd.) Kuntze, Flueggea microcarpa Blume, Phyllanthus virosus Roxb. ex Willd., Securinega virosa (Roxb. ex Willd.) Baill.]
White-Berry Bush, White Waterberry

Corner (1952) described this species as an evergreen straggling shrub or spreading bushy little tree with stems that are often rather spiny from the bases of the old twigs.

Chopra & Badhwar (1940) and Watt & Breyer-Brandwijk (1962) who cited earlier Indian sources noted that in India the leaf of Fluggea virosa Baill. [sic; nom. illeg.] made into a paste with tobacco (Nicotiana tabacum L., fam. Solanaceae) is used to destroy worms in sores.



Glochidion J.R.Forst. & G.Forst.

von Reis Altschul (1973) found herbarium notes on two unidentified species from the Philippine Islands, one stating that the leaves are applied to skin eruptions, the other to ulcers.



Glochidion marianum Müll.Arg.
[syn. Phyllanthus mariannensis W.L.Wagner & Lorence]
Chosgo

Souder (1963) included this species in a listing of poisonous plants on Guam, seemingly asserting that it contains a milky white latex that causes an acute skin dermatitis on contact. It is possible that, because the genus was considered to be a member of the Euphorbiaceae at the time, Souder assumed that it would have the irritant properties characteristically found in many members of that family.



Glochidion submolle (K.Schum. & Lauterb.) Airy Shaw
[syns Glochidion magnificum K.Schum., Phyllanthus submollis K.Schum. & Lauterb.]

von Reis Altschul (1973) found a note on an herbarium sheet bearing a specimen of Glochidion magnificum collected in Dutch New Guinea stating that it is a myrmecophilous plant. Because of this association of the plant with ants, and the consequent potential to elicit a pseudophytodermatitis in plant collectors if the ants have a propensity to bite and/or sting, such myrmecophytes have been described as "super-nettles" (see Schmidt 1985).



Hymenocardia acida Tul.
[syn. Hymenocardia mollis Pax]

The powdered bark, alone or as a decoction, is considered antiseptic and is used in Nigeria to wash wounds, ulcers, etc. Powdered leaves are applied locally for various pains, e.g. headaches, rheumatic pains, and toothache (Irvine 1961).



Margaritaria discoidea (Baill.) G.L.Webster
[syns Cicca discoidea Baill., Phyllanthus discoideus (Baill.) Müll.Arg.]

[Information available but not yet included in database]



Phyllanthus L.

About 600 species are found in tropical and subtropical regions except in Europe and northern Asia. The fruits of Phyllanthus emblica L. (emblic, myrobalan) are made into jam. Many species are used medicinally (Watt & Breyer-Brandwijk 1962).

Souder (1963) included the following species in a listing of poisonous plants on Guam, seemingly asserting that they contain a milky white latex that causes an acute skin dermatitis on contact:

Phyllanthus acidus (L.) Skeels
[syns Averrhoa acida L., Cicca acida (L.) Merr.]
Phyllanthus amarus Schumach. & Thonn.
[syn. Moeroris amara (Schumach. & Thonn.) R.W.Bouman]
Phyllanthus debilis J.G.Klein ex Willd.
[syn. Moeroris debilis (J.G.Klein ex Willd.) R.W.Bouman]
Phyllanthus marianus Müll.Arg.
[syn. Emblica marianus (Müll.Arg.) R.W.Bouman]
Phyllanthus saffordii Merr.
[syn. Emblica saffordii (Merr.) R.W.Bouman]
Phyllanthus urinaria L.
[syn. Emblica urinaria (L.) R.W.Bouman]
Phyllanthus virgatus G.Forst.
[syns Cathetus virgatus (G.Forst.) R.W.Bouman, Phyllanthus simplex Retz.] 

It is possible that, because the genus Phyllanthus L. was considered to be a member of the Euphorbiaceae at the time, Souder assumed that they would have the irritant properties characteristically found in many members of that family. Utilising a phorbol dibutyrate receptor binding assay, Beutler et al. (1989) failed to detect binding activity in any of the Phyllanthus L. species they screened, concluding that it is unlikely that this genus is a source of the phorbol ester-type irritants found in the Euphorbiaceae.



Phyllanthus niruri L.
Gale of the Wind, Niruri, Derrière Dos

von Reis Altschul (1973) found an herbarium note stating that in the Mariana Islands, the leaves are mashed and inserted to relieve rectal itching [? caused by pinworm, Enterobius vermicularis (Linnaeus, 1758); see also Phyllanthus reticulatus Poir. below.]



Phyllanthus nummulariifolius var. capillaris (Schumach. & Thonn.) Radcl.-Sm.
[syns Moeroris nummulariifolia var. capillaris (Schumach. & Thonn.) comb.ined., Phyllanthus capillaris Schumach. & Thonn., Phyllanthus stuhlmanii Pax.]

[Information available but not yet included in database]



Phyllanthus reticulatus Poir.
[syn. Kirganelia reticulata (Müll.Arg.) R.W.Bouman]
Black-Berried Featherfoil, Black-Honey Shrub, Netted-Leaved Leaf-Flower, Potato Bush, Reticulated Leafflower

von Reis Altschul (1973) found an herbarium note stating that in the Philippine Islands, the leaves are applied to pinworms [?= Enterobius vermicularis (Linnaeus, 1758); presumably, around the anus or vagina].



Phyllanthus serpentinus S.Moore

This species, which is native to New Caledonia, is capable of hyperaccumulating nickel from soils rich in this element. The nickel accumulates mainly in the form of citrate and malate salts (Kersten et al. 1980). The contact sensitising capacity of nickel and its salts is well documented (Malten et al. 1976, Cronin 1980, Spruit et al. 1980, Fowler 1990, Uter et al. 2016) but it remains to be determined whether the nickel compounds in this plant present a dermatological hazard.


References

  • Ajmeer AS, Dudhamal TS, Gupta SK, Mahanta V (2014a) Topical application of Katupila (Securinega leucopyrus) in Dushta Vrana (chronic wound) showing excellent healing effect: a case study. Ayu 35(2): 175-178 [doi] [url] [url-2] [pmid]
  • Ajmeer AS, Dudhamal TS, Gupta SK, Mahanta V (2014b) Katupila (Securinega leucopyrus) as a potential option for diabetic wound management. Journal of Ayurveda & Integrative Medicine 5(1): 60-63 [url] [url-2] [pmid]
  • Ajmeer AS, Dudhamal TS, Gupta SK (2015) Management of Madhumehajanya Vrana (diabetic wound) with Katupila (Securinega leucopyrus [Willd] Muell.) Kalka. Ayu 36(3): 351-355 [doi] [url] [url-2] [pmid]
  • Angiosperm Phylogeny Group (2003) An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants: APG II. Botanical Journal of the Linnean Society 141(4): 399-436 [doi] [url] [url-2]
  • Beutler JA, Alvarado AB, McCloud TG, Cragg GM (1989) Distribution of phorbol ester bioactivity in the Euphorbiaceae. Phytotherapy Research 3(5): 188-192 [doi] [url] [url-2]
  • Burkill IH (1935) A Dictionary of the Economic Products of the Malay Peninsula, Vols 1 & 2. London: Crown Agents [doi] [WorldCat] [url] [url-2]
  • Chopra RN, Badhwar RL (1940) Poisonous plants of India. Indian Journal of Agricultural Science 10(1): 1-44 [url] [url-2]
  • Corner EJH (1952) Wayside Trees of Malaya, 2nd edn, Vol. 1. Singapore: V.C.G. Gatrell, Government Printer [WorldCat] [url] [url-2]
  • Cronin E (1980) Contact Dermatitis. Edinburgh: Churchill Livingstone [WorldCat]
  • Dudhamal TS (2016) Wound healing effect of Humri (Securinega leucopyrus) and supportive Ayurveda therapy in Beurger's ulcer. Annals of Ayurvedic Medicine 5(1-2): 37-43 [url] [url-2]
  • Dudhamal TS, Ajmeer AS (2015) Diabetic wound treated with herbal paste of Securinega leucopyrus (Willd.) Muell - case report. International Journal of Advanced Ayurvedic and Herbal Medicine 1(1): 1-5 [url] [url-2]
  • Dudhamal TS, Ajmeer AS, Bhuyan C (2016) Management of Vicharchika (eczema) with Securinega leucopyrus and sesame oil: a case study. Indian Journal of Ancient Medicine and Yoga 9(1): 21-23 [doi] [url] [url-2]
  • Fowler JF (1990) Allergic contact dermatitis to metals. American Journal of Contact Dermatitis 1(4): 212-223 [doi] [url] [url-2]
  • Ghodela NK, Dudhamal TS (2017) Clinical efficacy of Thumari gel (Securinega leucopyrus [Willd.] Muell) in the management of superficial non-healing leg ulcers- A rare case report. International Journal of AYUSH Case Reports 1(1): 1-5 [url] [url-2]
  • Ghodela NK, Dudhamal TS, Gupta SK, Mahanta V (2019) Applicability of Thumari (Securinega leucopyrus [Willd.] Muell.) gel and oral adjuvant drugs in the management of infected diabetic wound. Journal of Ayurveda Case Reports 2(1): 28-31 [doi] [url] [url-2]
  • Hunt P (Ed.) (1968/70) The Marshall Cavendish Encyclopedia of Gardening. London: Marshall Cavendish [WorldCat]
  • Irvine FR (1961) Woody Plants of Ghana. With special reference to their uses. London: Oxford University Press [doi] [WorldCat] [url] [url-2]
  • Kersten WJ, Brooks RR, Reeves RD, Jaffré T (1980) Nature of nickel complexes in Psychotria douarrei and other nickel-accumulating plants. Phytochemistry 19(9): 1963-1965 [doi] [url]
  • Kiran K, Asad M (2008) Wound healing activity of Sesamum indicum L seed and oil in rats. Indian Journal of Experimental Biology 46(11): 777-782 [url] [url-2] [pmid]
  • Lim TK (2012) Antidesma bunius. In: Edible Medicinal And Non-Medicinal Plants, Vol. 4, Fruits, pp. 220-224. Dordrecht: Springer [doi] [WorldCat] [url]
  • Mabberley DJ (2017) Mabberley's Plant-Book. A portable dictionary of plants, their classification and uses, 4th edn. Cambridge: Cambridge University Press [WorldCat] [doi] [url]
  • Mao X, Wu LF, Guo HL, Chen WJ, Cui YP, Qi Q, Li S, Liang WY, Yang GH, Shao YY, Zhu D, She GM, You Y, Zhang LZ (2016) The genus Phyllanthus: an ethnopharmacological, phytochemical, and pharmacological review. Evidence-Based Complementary and Alternative Medicine 2016: 7584952 (36 pp.) [doi] [url] [url-2] [pmid]
  • Malten KE, Nater JP, van Ketel WG (1976) Patch Testing Guidelines. Nijmegen: Dekker & van de Vegt [WorldCat]
  • Priyadarshan AIS, Senanayake SP, Jayatilleke MP, Rajapakse S (2014) Infraspecific variation of Flueggea leucopyrus Willd. grown in Sri Lanka and establishing a suitable propagation system. Journal of Science of the University of Kelaniya 9: 15-25 [doi] [url] [url-2]
  • Quattrocchi U (2012) CRC World Dictionary of Medicinal and Poisonous Plants. Common names, scientific names, eponyms, synonyms, and etymology, Vols 1‒5. Boca Raton, FL: CRC Press [doi] [WorldCat] [url] [url-2]
  • Schmidt RJ (1985) The super-nettles: a dermatologist's guide to ants in the plants. International Journal of Dermatology 24(4): 204-210 [doi] [url] [url-2] [pmid]
  • Souder P (1963) Poisonous plants on Guam. In: Keegan HL, Macfarlane WV (Eds) Venomous and Poisonous Animals and Noxious Plants of the Pacific Region, pp. 15-29. New York: Pergamon Press [WorldCat] [url]
  • Spruit D, Bongaarts PJM, Malten KE (1980) Dermatological effects of nickel. In: Nriagu JO (Ed.) Nickel in the Environment, pp. 601-609. New York: John Wiley [WorldCat]
  • Tehrani S, Lotfi P, Tehrani S, Jangholi E, Aryan H, Aidun A (2016) Healing effect of sesame ointment on second-degree burn wound in rats. Galen Medical Journal 5(2): 56-62 [doi] [url] [url-2]
  • Uter W, Larese Filon F, Rui F, Balato A, Wilkinson M, Kręcisz B, Chomiczewska-Skora D, Kieć-Świerczyńska M, Schuttelaar M-LA, Frosch PJ, Bircher AJ (2016) ESSCA results with nickel, cobalt and chromium, 2009–2012. Contact Dermatitis 75(2): 117-121 [doi] [url] [url-2] [pmid]
  • van der Ent A, Erskine P, Sumail S (2015) Ecology of nickel hyperaccumulator plants from ultramafic soils in Sabah (Malaysia). Chemoecology 25(5): 243-259 [doi] [url]
  • von Reis Altschul S (1973) Drugs and Foods from Little-Known Plants. Notes in Harvard University Herbaria. Cambridge, MA: Harvard University Press [WorldCat] [doi] [url] [url-2]
  • von Reis S, Lipp FJ (1982) New Plant Sources for Drugs and Foods from The New York Botanical Garden Herbarium. Cambridge, MA: Harvard University Press [WorldCat]
  • Watt JM, Breyer-Brandwijk MG (1962) The Medicinal and Poisonous Plants of Southern and Eastern Africa. Being an account of their medicinal and other uses, chemical composition, pharmacological effects and toxicology in man and animal, 2nd edn. Edinburgh: E & S Livingstone [doi] [WorldCat] [url] [url-2]
  • Webster GL (1984) A revision of Flueggea (Euphorbiaceae). Allertonia 3(4): 259-312 [url] [url-2]



Richard J. Schmidt

[Valid HTML 4.01!]


[2D-QR coded email address]
email
[2D-QR coded url]
url