Plants used traditionally to treat malaria in Brazil: the archives of Flora Medicinal

1746-4269-3-18 1746-4269 Research Plants used traditionally to treat malaria in Brazil: the archives of Flora Medicinal Botsaris S Alexandros ibpm@ibpm.org.br

IBPM (Brazilian Institute of Medicinal Plants), Rua Gal Urquiza 128, Rio de Janeiro, RJ, 22431-040, Brazil

Journal of Ethnobiology and Ethnomedicine 1746-4269 2007 3 1 18 http://www.ethnobiomed.com/content/3/1/18 17472740 10.1186/1746-4269-3-18 09 1 2006 01 5 2007 01 5 2007 2007 Botsaris; licensee BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Abstract

The archives of Flora Medicinal, an ancient pharmaceutical laboratory that supported ethnomedical research in Brazil for more than 30 years, were searched for plants with antimalarial use. Forty plant species indicated to treat malaria were described by Dr. J. Monteiro da Silva (Flora Medicinal leader) and his co-workers. Eight species, Bathysa cuspidata, Cosmos sulphureus, Cecropia hololeuca, Erisma calcaratum, Gomphrena arborescens, Musa paradisiaca, Ocotea odorifera, and Pradosia lactescens, are related as antimalarial for the first time in ethnobotanical studies. Some species, including Mikania glomerata, Melampodium divaricatum, Galipea multiflora, Aspidosperma polyneuron, and Coutarea hexandra, were reported to have activity in malaria patients under clinical observation. In the information obtained, also, there were many details about the appropriate indication of each plant. For example, some plants are indicated to increase others' potency. There are also plants that are traditionally employed for specific symptoms or conditions that often accompany malaria, such as weakness, renal failure or cerebral malaria. Many plants that have been considered to lack activity against malaria due to absence of in vitro activity against Plasmodium can have other mechanisms of action. Thus researchers should observe ethnomedical information before deciding which kind of screening should be used in the search of antimalarial drugs.

1. Background

Flora Medicinal is an ancient and small pharmaceutical laboratory established, in early 1915, by Mr. José Monteiro da Silva, a Medical Doctor in Rio de Janeiro. Mr. Monteiro da Silva was an idealist who believed that the Brazilian rainforest had an enormous potential for research and discovery of new drugs. For more than 40 years Mr. Monteiro da Silva had organized a group of technicians and scientists who made a great number of excursions into Brazilian rainforest, collecting plant specimens and information. Although he had also edited the Revista da Flora Medicinal, a scientific paper in which he described his discoveries, a considerable part of his research remains unpublished. During the '30 s and '40 s, the Revista da Flora Medicinal was translated to French and republished by the Institut Pasteur, in Paris, which allowed some of his findings to be used by the international pharmaceutical industry. During his activities, Mr. Monteiro da Silva and his team described more than 200 new medicinal plants from this region. One of his targets was the study of new antimalarial plants, as at his time malaria was a concerning health problem in Brazil. In the following years, quinine, its derivatives and other drugs helped to control malaria. Nowadays, however, its incidence is again growing worldwide, and Plasmodium falciparum is getting more resistant to the usual antimalarial drugs1. It is estimated that 62% of P. falciparum around the world presents with mono or multiresistant drug profile1. The World Health Organization estimates that there are between 300 and 500 million new cases of malaria worldwide, every year, mostly in Africa, Asia, South Pacific Islands and South America, which causes, at least, 3 million deaths23. The main drugs developed for malaria and used up to now (quina alkaloids derived drugs and artemisinin) were discovered based on traditional use and ethnomedical data45. New efforts to search for novel drugs for treating malaria are very important in countries like Brazil, where many endemic areas still exist6. The study of well-documented data such as the archives of Flora Medicinal can point out traditional and probably effective treatments that had not been yet subjected to testing.

2. Materials and methods

All documents, including books, hand notes, unpublished studies and the issues of Revista da Flora Medicinal, belonging to the library of Mr. Monteiro da Silva, were examined for information about botanical therapies and plant species used for malaria. Any data or references to plants used for malaria were carefully inserted into a template, and botanical name and classification were re-examined and confirmed with four major plant databases – The Missouri Botanical Garden's VAST7, the International Plant Names Index8, the New York Botanical Garden vascular plants database9 and the Brazilian's Northeast Plants Database10. Other information existing in modern databases such as Pubmed (U.S. National Library of Medicine's database that is searchable on the Web) were also examined and compared to other ethnopharmacological studies and current published data.

A review of plants with possible antimalarial activity reported in ethnomedical studies or in pharmacological and biochemical research was also made 111213141516171819202122232425262728293031.

3. Results

The results are summarized on Table 1. Forty 40 plants with possible antimalarial activity were reported and examined by Dr. Monteiro da Silva and his co-workers. The plants were identified by scientific names and families, as well as by vernacular names and usual translations to English, if existent. For each of the species, the parts used for general conditions and symptoms and for treating malaria, as gathered from ethnomedical reports published in Flora Medicinal, are listed. Scientific data about in vitro and in vivo research are also provided.

Table 1

Plants with possible antimalarial activity gathered from ethnomedical reports published in Flora Medicinal

Scientific name and family

Vernacular name

Part used

General indications found in ethnomedical studies

Information regarding use for malaria

Scientific data on anti-malarial activity

Origin and geographic distribution

Ref.

Aniba canelilla (H.B.K.) Mez. (Lauraceae)

Preciosa, Casca preciosa, Pau rosa, Casca do Maranhão, Rosewood, Brazilian rosewood

Barks and leaves

Arthritis, fever, colic, heart problems, dyspepsia, infection, intermittent fevers, weakness, malaria, leukorrhea, chronic discharge. Thoracic, stimulant.

Dr. Monteiro da Silva indicates that Amazon Indians used this plant to treat malaria.

Large tree that occurs in the Amazon and Atlantic Forest.

(32)

Acanthospermum australe (Loefl.) Kunt. (Asteraceae)

Amor de negro, Mata-pasto, Picão da praia, Picão da prata, Paraguayan starburr

Leaves and roots

Fever, malaria, diarrhea, erysipelas, anemia, urinary infections, blennorrhea, bronchitis, dyspepsia. Tonic, diaphoretic, eupeptic, antidiarrheal, mucilaginous, antimalarial, antiblennorrhagic.

Dr. Monteiro da Silva indicates this plant as a substitute for quina and reports that doctors have a good outcome when using this species in malaria.

Plants of the same genus used to treat malaria in Africa showed antiplasmodial activity against P. falciparum in vitro.

Herbaceous, invasive and ruderal plant that usually invades crops and occurs spontaneously in the Cerrado.

(33,34)

Aristolochia cymbifera Mart. & Zucc. (Aristolochiaceae)

Jarrinha, Mil homens

Roots

Asthma, fever, diarrhea, dyspepsia, gout, infection, amenorrhea, orchitis, intermittent fevers.

Dr. Monteiro da Silva reports that this must be associated to Cayaponia tayuya for use in malaria.

(35,36)

Aspidosperma polyneuron Müll. Arg. (Apocynaceae)

Peroba rosa, Sobro, Peroba amargosa

Barks

Fever, diarrhea. Febrifuge, antimalarial, astringent.

Indicated for malaria in the Flora Medicinal literature. Plant contains alkaloids with antimalarial action. Cases of malaria controlled with this bark are reported.

Its alkaloids were extensively studied.

(37)

Bathysa cuspidata (St. Hil.) Hook. f. (Rubiaceae)

Quina do mato

Barks

Febrifuge, bitter tonic, eupeptic used as a substitute for quina in malaria

Indicated for malaria in the Flora Medicinal literature.

Tree that occurs in the Atlantic Rainforest.

(38)

Bidens pilosa L. (Asteraceae)

Picão, Picão preto, Erva picão, Cuambu, Farmer's Friend, Cobbler's pegs, Beggar's ticks, Pitchforks, Hairy beggarticks

Leaves

Jaundice, fever, hepatitis, leukorrhea, diarrhea, pharyngitis, worms, cough, pneumonia, hepatomegaly. Mucilaginous.

Indicated in many medical texts in the past for malaria. Dr. Monteiro da Silva used for patients that did not respond to quinine.

Preclinical tests revealed strong antiplasmodial activity.

Plant with worldwide distribution.

(33,39)

Cosmos sulphureus Cav. Syn. Bidens sulphurea (Cav.) Sch. Bip. (Asteraceae)

Picão de flor grande, Picão grande, Beijo de moça, Cosmo amarelo, Yellow cosmos, Klondike Cosmos, Sulphur cosmos, Orange cosmos

Fruits and aerial parts

Jaundice, intermittent fever, splenomegaly. Tonic, hepatic, hepatoprotective.

Indicated for malaria in the Flora Medicinal literature.

Plant bred with ornamental purposes.

(33)

Cassia fistula L. (Leguminosae Caesalpinioideae)

Chuva de ouro, Cássia amarela, Cássia imperial, Canafístula, Golden shower, Indian laburnum, Purging fistula, Drumstick tree

Barks, leaves and seeds

Poisons, erysipelas. Febrifuge, purgative, emmenagogue, diuretic, hepatic, skin problems.

Indicated by Dr. Monteiro da Silva as an adjuvant for the treatment of malaria.

Ornamental plant found all over Brazil.

(32)

Catharanthus roseus (L.) G. Don. (Apocynaceae)

Vinca, Boa noite, Lavadeira, Vinca rósea, Cape periwinkle, Catharanthus, Church flower, Madagascar periwinkle, Red periwinkle, Rosy periwinkle

Aerial parts

Diabetes, urinary infection, malaria, intermittent fever. Sudorific, diuretic, hypoglycemic, febrifuge.

Indicated as a substitute for quina by Dr. Monteiro da Silva.

Ornamental plant used by the pharmacy industry for obtaining alkaloids.

(33)

Cecropia hololeuca Miq. (Cecropiaceae)

Emabaúba, Imbaúba, Embaúba branca, Embaúba prateada, Trumpet tree, Silver embauva, Black embauva, White embauva

Leaves, fruit and sprouts juice

Diuretic, antihypertensive, sedative, refreshing, antiinflammatory, thoracic, healing, expectorant antiasthmatic, cough suppressant, resolutive, antithermal.

Indicated by Dr. Monteiro da Silva as an adjuvant in malaria with very high fever or neurological symptoms.

Tree that occurs in the Atlantic Rainforest.

(40)

Cedrela fissilis Vell. (Meliaceae)

Cedro rosa, Cedro vermelho, South American cedar

Barks

Swamp fever, urinary infection, diarrhea. Aromatic, astringent, diuretic, depurative, febrifuge.

Indicated for malaria in the Flora Medicinal literature.

Plant that occurs in the Atlantic Forest.

(41)

Chondodendron platyphyllum (St. Hill.) Miers. (Menispermaceae)

Abútua, Bútua, Uva do mato

Roots, barks and leaves

Gases, colic, diarrhea, abdominal pain, verminosis, fever, emesis, nausea, infection, bronchitis, amenorrhea, intermittent fever. Antiasthmatic, bitter tonic, eupeptic.

Use by Indians from the Tupi-Guarani tribe for treating malaria, reported by Dr. Monteiro da Silva.

Isoquinolinic alkaloid-rich plant with antiparasitary activity, natural from the Atlantic Forest.

(42,43)

Cinchona calisaya Wedd. (Rubiaceae)

Quina peruana, Casca dos jesuítas, Quina verdadeira, Ledger quinine, Calisaya, Jesuit's powder, Yellow cinchona

Barks

Fever, malaria, eczema. Hair tonic.

Used as the main source of quinin by Dr. Monteiro da Silva. It has quinolinic and quinin derivatives in its composition.

Originary from the Amazon.

(38,44)

Coffea arabica L. (Rubiaceae)

Café, Cafeeiro, Coffee, Arabica coffee, Arabian coffee, Abyssinian coffee, Brazilian coffee

Leaves and seeds

Colds, intermittent fever. Clears the blood, diuretic, stimulant, antiasthmatic, digestive, hypoglycemic.

Dr. Monteiro da Silva used the leaves decoction to potentiate other plants with anti-malarial activity.

Plant with African origin, adapted to Brazil.

(45)

Coutarea hexandra (Jacq.) Schum. (Rubiaceae)

Quina-quina, Quina-brava, Quina-de-pernambuco, Quineira, Murta do mato

Barks

Intermittent fever, gallbladder stones or problems, digestive problems, colic. Antithermal, antimalarial.

Dr. Monteiro da Silva relates this plant as one of the substitutes for quina and reports cases of malaria cure with its use, some described in the book Botânica Médica Cearence, from Dr. Francisco Dias da Rocha.

Plant from the Cerrado used for ornamental purposes.

(33)

Cuphea ingrata Hoehne (Lythraceae)

Sete sangrias, Perna de saracura, Mata cana, Pega pinto

Aerial parts and whole plant

High blood pressure, syphilis, dermatoses, intermittent fever, stomachache, rheumatism, venereal diseases, urethral discharge. Depurative, antisyphilitic, cholesterol-reducing, antihemorrhagic, mucous membrane protector, tonic, analgesic.

Indicated for malaria in the Flora Medicinal literature. According to Dr. Monteiro da Silva co-workers, this plant potentiates other antimalarial extracts and help preventing renal and cerebral complications in severe cases.

Herbaceous and ruderal plant that occurs in almost all regions of Brazil, used also for ornamental purposes. It is described in all South and Central America.

Personal writings and archives of Mr. Monteiro da Silva.

Dipteryx odorata (Aublet) Willd. (Fabaceae)

Fava de Tonka, Faveira de cheiro, Imburana de cheiro, Cumaru de cheiro, Cumaru de folha grande, Tonka bean, Cumaru, Coumarou, Tonquin bean

Seeds

Antispasmodic, emmenagogue, analgesic, febrifuge, brain stimulating.

In a review, Dr. Monteiro da Silva points this species as having potential use in malaria based on ethnopharmacological reports obtained in his expeditions.

Plant from the Amazon that is rich in coumarins, which gives it a special odor, and for this reason it has been used in the food and tobacco industry as an odorizing agent.

(32)

Elephantopus mollis Kunth. (Asteraceae)

Erva grossa, Língua de vaca, Pé de elefante, Elephantopus, Elephant's foot, False tobacco, Tobacco weed

Aerial parts

Fever, jaundice, gallstone, diarrhea, herpes, syphilis, colds, flu, rheumatism, general pruritus. Tonic, depurative.

Indicated for malaria in the Flora Medicinal literature. Some doctors suggest that this plant could be tried if no chinchona bark or substitute is available.

Herbaceous and ruderal plant that is found all over Latin America.

(41)

Erisma calcaratum (Link) Warm. (Vochysiaceae)

Jaboti, Erva de Jaboti, Jabuti, Jabuti-araconha, Jabuti da várzea, Jaboty, Jaboty palm

Fruits

Skin infections, dermatoses, fever, malaria. Oleaginous, resolutive.

Reported in review as a plant used by the Amazonian Indians for the treatment of malaria.

Medium sized tree that grows along the moist lowlands of the Amazon.

(32)

Esenbeckia febrifuga (St. Hil.) A. Juss. ex Mart. (Rutaceae)

Quina do mato, Angustura, Gumarim

Barks

Malaria, intermittent fever, adenitis, constipation, dyspepsia. Bitter tonic, febrifuge.

Indicated for malaria in the Flora Medicinal literature.

Tree natural from the Southern and Southeast regions.

(38)

Galipea multiflora Schultz (Rutaceae)

Quina falsa, Jasmim do mato, Ticoró, Guamixinga

Barks

Dyspepsias, gastric atony, fever, infections, malaria. Tonic, astrigent, bitter, eupeptic, febrifuge, antidiarrheal.

Reported as a substitute for quina in the treatment of malaria in a review by Dr. Monteiro da Silva. Effective in malaria, but weaker than Peruvian chinchona.

Tree that occurs in the Cerrado and Atlantic Forest.

(32,38)

Geissospermum sericeum (Sagot) Benth (Apocynaceae)

Pau pereira, Quinarana, Pau forquilha, Acariranha

Barks

Dermatoses, inflammations, swamp fevers. Bitter tonic.

Reported in a review as being a plant tested and approved by doctors for malaria.

Alkaloids with activity against Plasmodium falciparum were isolated from trees of the genus Geissospermum.

Species from the Atlantic Forest.

(32,42,46)

Gomphrena arborescens L. (Amaranthaceae)

Paratudo, Paratudinho, Perpétua raiz do padre

Leaves, flowers and tuberous roots

Weakness, colitis, fevers, mental fatigue, intermittent fevers. Antithermal, antidiarrheal, febrifuge, tonic, emmenagogue, aromatic, eupeptic, antitoxic, protector.

Indicated for malaria in the Flora Medicinal literature. Use in malaria introduced by Brazilian priests that learned it from Indians.

Plant natural from the central region (Cerrado) of Brazil, sometimes cultivated as ornamental.

(47)

Himatanthus lancifolius (Mull. Arg) Wood. Syn. Plumeria lancifolia Müll. Arg. (Apocynaceae)

Agoniada, Plumeria, Agonium, Arapuê

Barks

Menstrual cramps, fever, hysteria, gastric atony, malaria. Purgative, antispasmodic.

Use for malaria described by Pekolt among Guarani Indians.

Plant that occurs in the Cerrado and Atlantic Forest.

(48)

Jateorhiza palmata Miers. (Menispermaceae)

Calumba, Calunga

Barks

Flatulence, colic, diarrhea, abdominal pain, verminosis, fever, emesis, nausea, infection, hypertension, bronchitis, dyspepsia, digestive atony. Bitter tonic, eupeptic.

Plant rich in quinolinic alkaloids with antiparasitary potential.

Exotic plant, natural from Africa, adapted to Brazil.

(41)

Melampodium divaricatum (L.C. Rich.) DC. (Asteracea)

Picão da praia, Fel da terra, Salsa da praia, Butter daisy

Leaves

Fever, malaria, flatulence, stomachache, colics, joint pain, muscular pain, palpitation, vertigo, rheumatism, jaundice, anuria. Diuretic, carminative.

Dr. Monteiro da Silva reports many cases of malaria cure using the extract of this plant.

Worldwide distribution.

(32,49)

Mikania glomerata Spreng. (Asteracea)

Guaco, Coração de Jesus, Erva de cobra, Cipó almecega

Leaves and flowers

Rheumatism, snake poison, intestinal problems, colics, dysmenorrhea, fever, malaria.

Dr. Pires de Almeida reports to have observed Indians using this plant for malaria with good outcomes.

Liana that is common in the Atlantic Forest.

(50,51)

Musa paradisiaca L. (Musacea)

Banana, Bananeira

Stem juice

Worms, diarrhea, intermittent fever, weakness. Tonic, antidiarrheal, thoracic, expectorant, nutritive.

Indicated by Dr. Monteiro da Silva to potentiate other plants used in malaria and help in the recovery of patients.

Exotic plant adapted to Brazil.

(52)

Ocotea odorifera (Vell.) Rohwer Syn.Ocotea pretiosa (Nees) Mez (Lauraceae)

Sassafraz, Canela de sassafraz, Sassafraz do Brasil, Brazilian sassafras

Barks and roots

Dermatoses, joint pain, fever, rheumatism, syphilis, gout. Sudorific, depurative.

Indicated for malaria in the Flora Medicinal literature. One of the plants used by Guarany Indians to treat fever and malaria.

Species form the Atlantic Forest.

(41)

Picrolemma sprucei Hook. f. (Simaroubacea)

Caferana, Caferana verdadeira

Aerial parts and roots

Malaria, intermittent fevers. Sudorific, depurative, febrifuge, antiinfectious.

Dr. Monteiro da Silva reports many cases of recovery from malaria after treatment with the extract of this plant.

Shrub that grows on solid ground in the Amazon.

(49)

Pradosia lactescens (Vell.) Radlk. (Sapotaceae)

Bunhanhém, Pau de remo, Pau doce, Guaranhém, Monesia

Barks

Discharge, bronchitis, hemoptysis, diarrhea, ocular inflammation, tuberculosis, cutaneous ulcers, metrorrhagia. Bark provides a milky juice that is astringent and tonic.

Indicated for malaria in the Flora Medicinal literature. According to Dr. Monteiro da Silva, this plant could be associated to any antimalarial therapeutic drug if the patient is not recovering quickly.

Species from the Atlantic Forest.

Personal writings and archives of Mr. Monteiro da Silva.

Quassia amara L. (Simaroubacea)

Quassia, Casca amargosa, Pau amargo, Pau de surinã, Quassia-wood, Surinam quassia, Bitter quassia, Bitterwood

Barks

Gastric debility, dyspepsia, blennorrhea, flatulence, fever, malaria, diarrhea, worms. Bitter tonic.

According to a survey by Dr. Monteiro da Silva, it is used by Indians from the North of Brazil and from Suriname for treating malaria.

Extracts showed antimalarial activity in experimental malaria in mice.

Plant from the Amazonian Rainforest.

(53,54)

Remijia ferruginea A. St. Hil. (Rubiaceae)

Quina mineira

Barks

Intermittent fever, malaria.

Cited by Dr. Monteiro da Silva as one of the species popularly used to substitute quina in the treatment of malaria.

Tested in mice with experimental malaria caused by P. berghei, with reduction of 98% of infected red blood cells.

Medium sized tree that occurs in Atlantic Rainforest and South Amazonia.

(33,55)

Simaba ferruginea A. St. Hil. (Simarubacea)

Calunga

Barks and roots

Malaria, fevers, diarrhea. Tonic, eupeptic, febrifuge, antidiarrheal, diuretic.

Indicated for malaria in the Flora Medicinal literature. According to Peckolt, it was used by Amazonian Indians to treat malaria.

A quassinoid isolated from Simaba sp showed activity against Plasmodium falciparum in vitro.

Huge tree from the Amazon Forest.

(41,56)

Simarouba amara L. (Simaroubacea)

Calunga, Marubá, Marupá, Dysentery bark, Bitterwood, Slave wood, Bitter damson

Barks and roots

Intestinal infections, verminosis, fever, wounds, infected ulcers, abdominal pain. Antidiarrheal, antispasmodic, healing.

Used by Amazonian Indians to treat fever and malaria. According to Dr. Monteiro da Silva, it can be used in cases with neurological signs.

Big size tree that occurs in the Atlantic Rainforest and South Amazonia.

Personal writings and archives of Mr. Monteiro da Silva.

Strychnos pseudoquina A. St. Hil. (Loganiaceae)

Quina do campo, Quina branca, Quineira, Quina-grossa, Quina do cerrado

Barks

Splenomegaly, hepatomegaly, intermittent fever, malaria, gastric problems. Tonic, bitter, febrifuge, depurative.

Cited by Dr. Monteiro da Silva as one of the species popularly used to substitute quina in the treatment of malaria. According to Andrade-Neto, its potency is inferior to Peruvian quina bark and must be associated with other antimalarial plants.

In a test with experimental malaria in chicken caused by P. berghei, no activity was found.

Shrub from the Cerrado that produces edible fruits.

(33,38,55)

Tabebuia avellanedae Lor. Ex Griseb. (Bignoniaceae)

Ipê roxo, Pau d'arco, Trumpet tree

Barks

Fever, tumors, allergy, weakness, psoriasis. Antiinfectious, antifungic, anticancer, tonic, immunestimulant.

Indicated for malaria in the Flora Medicinal literature. Should be added to antimalarial regimens for weak patients or in cases of renal failure.

Tree that occurs in the Cerrado and Atlantic Rainforest, with strong medicinal uses.

Personal writings and archives of Mr. Monteiro da Silva.

Tachia guianensis Aubl. (Gentianacea)

Jacaruaru, Quassia do Pará, Caferana, Tinguá-aba

Branches and roots

Infections, abdominal pain, worms, malaria. Digestive, antiinflamatory, febrifuge.

One of the plants cited by Dr. Monteiro da Silva as having potential for treating malaria. Plant used in Amazon by Indians to treat malaria.

Personal writings and archives of Mr. Monteiro da Silva. (47)

Tabebuia impetiginosa Syn. Tabebuia roseo-alba (Bignoniaceae)

Ipê preto, Ipê roxo, Ipê rosa, Trumpet tree

Barks

Fever, tumors, malaria, parasitosis. Antiinfectious, antifungic, anticancer, tonic, immunestimulant.

Indicated for malaria in the Flora Medicinal literature. Should be added to antimalarial regimens for weak patients or in cases of renal failure.

Tree that occurs in the Cerrado and Atlantic Rainforest, with strong medicinal uses.

Personal writings and archives of Mr. Monteiro da Silva.

Xylopia brasiliensis Spreng. (Annonaceae)

Embira de caçador, Pindaíba

Seeds and barks

Stomachaches, flatulence, malaria. Stomachic, carminative, febrifuge.

Indicated for malaria in the Flora Medicinal literature, but Dr. Monteiro da Silva considered it a weak antimalarial drug.

Xylopia sp extracts proved active against P. falciparum with IC₅₀between 3 and 10 mcg/ml.

Plant that occurs in the Cerrado and Atlantic Forest.

Personal writings and archives of Mr. Monteiro da Silva. (57)

Most plants, like Bidens pilosa, Cantharanthus roseus, Cassia fistula, Cinchona calisaya, Cuphea ingrata, Geissospermum sericeum, Jateorrhiza palmata, Quassia amara, Simaba ferruginea, and Strychnos pseudoquina, were already reported as antimalarial in previous ethnobotanical studies. Some of these had also their activity against Plasmodium tested, as shown on Table 1. Eight species are reported as antimalarial for the fist time: Bathysa cuspidata, Cosmos sulphureus, Cecropia hololeuca, Erisma calcaratum, Gomphrena arborescens, Musa paradisiaca, Ocotea odorifera, and Pradosia lactescens.

A greater proportion of the plants reported as antimalarial belong to the families Asteraceae (six species), Rubiaceae (five), Apocynaceae (four), and Simaroubaceae (four).

4. Discussion

Most research for antimalarial new drugs is only focused on direct activity against Plasmodium species. But attention to ethnomedical information gathered by Monteiro da Silva suggests that other effects should be investigated. For example, some plants are referred to enhance the action of other herbs, which can indicate an increase on permeability of the Plasmodium membrane to antiparasitic substances, or an inhibition of pump mechanisms of eliminating the drugs5859. Considering that one of the common mechanisms of drugs resistance is the reduction of permeability, the development of drugs that enhance parasite permeability could be of valuable help in the treatment of infectious diseases6061. Other possible mechanism of action is interference with parasite enzymes used for protection against antiparasitic drugs62.

Some plants with noticeable ethnopharmacological use in malaria showed only weak or even no activity against Plasmodium in vitro55. For example, Mikania glomerata, Melampodium divaricatum, Galipea multiflora, Aspidosperma polyneuron, and Coutarea hexandra had their antimalarial activity confirmed by clinical observations of medical doctors (Table 1), an information that yields a high probability of accuracy.

Some authors have underestimated the traditional plants used for malaria based exclusively on low activity against Plasmodium in vitro or in animal models55. This can be a mistake of strategy or even methodology.

There are many explanations for the absence of in vitro activity of an effective antimalarial drug. As an example, the active principle could be formed by hepatic metabolism, or as a result of transformation by gut bacteria. Other possible mechanisms of action include immunomodulation or interference with the invasion of new red blood cells by parasites, which can be species specific. Therefore studies in human subjects, as well as the observance of ethnomedical detailed data, are urged in order to exclude or confirm the activity of herbs traditionally used to treat malaria.

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