Skip to main content

African Mango

Scientific Name(s): Irvingia gabonensis (Aubry-Lecomte ex Ororke) Baillon
Common Name(s): African mango, African wild mango, Bush mango, Dika, Dikabread tree, Dikanut, Iba-tree, Irvingia, Odika, Ogbono, Sweet bush mango

Medically reviewed by Drugs.com. Last updated on May 8, 2024.

Clinical Overview

Use

Research on African mango shows beneficial effects for diabetes and obesity, as well as analgesic, antimicrobial, antioxidant, and GI activity. Ethnomedicinal treatments utilize the bark, kernels, leaves, or roots for a variety of ailments. Numerous studies exist on the potential industrial application of African mango in food, cosmetic, and pharmaceutical products.

Dosing

Clinical studies used dosage regimens of 150 mg of African mango seed extract 30 minutes before lunch and dinner or 1,050 mg 3 times daily 30 minutes before meals with a glass of warm water. Powders, liquids, and capsules are available from commercial manufacturers, with most common dosage regimens consisting of 150 mg of African mango twice a day with food.

Contraindications

Avoid use with a known allergy or hypersensitivity to any of the components of African mango.

Pregnancy/Lactation

Information regarding safety and efficacy in pregnancy and lactation is lacking.

Interactions

Limited information is available regarding drug interactions. African mango may interact with hypoglycemia-associated agents.

Adverse Reactions

Clinical studies enrolled a small number of patients, and mild side effects were documented. Adverse reactions included headache, dry mouth, flatulence, sleep disturbance, and flu-like symptoms.

Toxicology

Acute toxicity studies documented no deaths within 24 hours or 7 days after administration of 1,600 mg/kg of African mango methanol extract to rats.

Scientific Family

Botany

The African mango tree is found throughout the tropical forests of Africa and is also cultivated on farms in central and western Africa. The tree grows 10 to 40 m in height and has a flared base 3 m in height. The dark green foliage is dense and the leaves are elliptical. The yellow to white flowers occur in bundles or clusters from February to March, and the almost spherical fruit appear during the rainy season from July to September. The tree reaches maturity and begins flowering at 10 to 15 years of age, while flowering and fruiting times vary according to geographic location. The timber and wood of the tree are fine grained, hard, and durable. The ripe fruit is green while the edible mesocarp is soft, juicy, and bright orange. The mesocarp has a turpentine flavor and may taste sweet to slightly bitter. The seeds or kernels of the tree are classified as oilseeds.Ainge 2001, Joseph 1995, Matos 2009, Onimawo 2003

History

Ethnomedicinal treatments utilize the bark, kernels, leaves, or roots for a variety of ailments.Ainge 2001 The bark is mixed with palm oil for treating diarrhea and for reducing the breast-feeding period. The shavings of the stem bark are consumed by mouth to treat hernias, yellow fever, and dysentery, and to reduce the effects of poison in French Equatorial Africa.George 2007 The antibiotic properties of the bark help heal scabby skin, and the boiled bark relieves tooth pain.Ainge 2001 The Mende tribe in Sierra Leone grinds the bark into a paste with water and applies the product to the skin for pain relief.George 2007, Okolo 1995 In certain parts of Africa, the bark extract is ingested to produce an analgesic effect.Okolo 1995 The powdered kernels act as an astringent and are also applied to burns.George 2007 The stems of the tree have been used as chewing sticks to help clean teeth.Ainge 2001

African bush mango juice produces a quality wine at 8% alcohol content after 28 days of fermentation that in 1 study was comparable in color, flavor, sweetness, and acceptability to a German reference wine.Akubor 1996, Leakey 1999 Additionally, the fresh bark has been used to alter the taste of palm wine.Ainge 2001

The kernels of African mango are classified as oilseeds. The seeds are ground into a paste, also known as dika bread, which is valued for its food-thickening properties.Onyeike 1995 The resulting product is used in soups, stews, or sauces. The fat extracted from the kernel is similar to margarine or cooking oil. Flour may also be produced from the kernels.Ainge 2001, Leakey 2005, Ndjouenkeu 1996

Numerous studies exist on the potential industrial application of African mango in food, cosmetic, and pharmaceutical products.Agbogidi 2007, Anegbeh 2003, Ayuk 1999, Ekpe 2007, Joseph 1992, Musa 2009, Udeala 1980 Agroforestry initiatives on phenotypic variationAnegbeh 2003 amino acid profileEkpe 2007 soil conditionsAgbogidi 2007, Musa 2009 and economic potentialAyuk 1999, Joseph 1992 of the plant species document additional commercial interest. The oil from the kernel may act as a binder in food or pharmaceutical productsUdeala 1980 or as an industrial gum.Joseph 1995

The pulp is used for making jam, jelly, and juice and is consumed as a dessert throughout western and central Africa. The leaves are used as food for livestock by farmers. The wood is used for making walking sticks and supports for thatched roofs.Ainge 2001

A study analyzing the chemical constituents of African mango seed extract products from China and commercially available African mango-based dietary supplements from US internet distributors found no detectable amount of African mango in any of the products. These data emphasize the importance of quality control of raw materials and standardization of herbal preparations.Sun 2012

Chemistry

Several studies have assessed the chemical properties of the kernels or seeds and pulp in African mango. The chemical constituents of African mango seeds are very different than regular mango seeds; major components of African mango are ellagic acids, ellagitannins and flavonol glycosides.Sun 2012

An amino acid profile of fresh African mango seeds indicated the presence of 18 amino acids.Ekpe 2007 Although phenotypic variations exist, physiochemical analysis documented that the seeds contain 3% moisture, 8% crude protein, 66% crude fat, 2% mineral ash, 10% crude fiber, and 11% carbohydrates. The oil content of the seed provided evidence for its use in industry, and the fiber content may provide bulk, improving bowel function.Matos 2009, Oboh 2004, Onimawo 2003 Analysis of the pulp documented 80% moisture, 1% crude protein, 1% crude fat, 1% mineral ash, 0.5% crude fiber, and 11% carbohydrate.Matos 2009, Onimawo 2003, Onyeike 2002 The high moisture content of the edible pulp provides evidence for its use in the production of juice, while the low ash content indicates a low mineral content.Matos 2009, Oboh 2004, Onimawo 2003

The seeds are a good source of nutrients, containing vitamins and minerals such as calcium, magnesium, potassium, sodium, phosphorus, and iron.Oboh 2004, Onyeike 2002 The pulp is also an excellent source of calcium (262 mg per 100 g) and vitamin C (66.7 mg per 100 mL).Onimawo 2003

Aroma extract dilution analysis revealed 32 odor active volatile compounds that contribute to the overall nutty aroma of roasted seeds or kernels.Tairu 2000 Myristic, lauric, and palmitic acids compose nearly 95% of the total fatty acids in African mango seeds.Matos 2009 Margarine-based African mango oil may provide an alternative to trans-fatty acids obtained during hydrogenation used in oil technological applications.Matos 2009 Studies also evaluate the most efficient methods for dika nut cracking and whole kernel recovery.Ogunsina 2008, Ogunsina 2008

Dika fat may serve a role in pharmaceutical drug-release systems. Dika fat out-performed magnesium sterate, stearic acid, and hydrogenated vegetable oil when tested in tablet equipment and imparted no adverse effect on the creation and integrity of hydrochlorothiazide tablets.Onyechi 1990 Microencapsulation of aspirin with dika fat offered better protection against hydrolysis when compared with bee and carnauba wax.Udeala 1986, Udeala 1980 At 5% and 10% weight/weight wax concentrations, dika wax and paraffin wax were comparable in ability to delay drug release from microcapsules.Chukwu 1991 Dika fat has also been evaluated as a film coating for drug release in polymeric systems.Okore 2000 Suppositories containing dika fat blends satisfied pharmaceutical requirements of drug release and stability.Megwa 1987

Studies document that mucilage extracted from African mango seeds performed better than acacia and tragacanth in emulsion and suspension formulations.Isimi 2000 Dika nut mucilage may improve tablet strength and drug-release properties in tablet formulations.Odeku 2005

Uses and Pharmacology

Research on African mango revealed beneficial effects on diabetes and obesity as well as antimicrobial, antioxidant, and GI activity.

Analgesic

In a mouse study, the analgesic activity of a water extract from African mango stem bark was comparable with the narcotic analgesic morphine, while the ethanol extract was comparable with the nonnarcotic analgesic methimazole sodium.Okolo 1995

Antioxidant

One study documents antioxidant activity in African mango seeds.Agbor 2005

Antimicrobial

African mango leaf and root extracts have documented inhibitory activity against several bacteria and fungi.Fadare 2008, Kuete 2007 Potential mechanisms of action include membrane disruption by terpenoids and inactivation of microbial adhesion, enzymes, and cell envelope transport proteins by ellagic acid-like compounds.Kuete 2007

Diabetes

Animal data

Dikanut fiber and cellulose were fed to diabetic rats over 4 weeks. The dikanut fiber supplement was more effective than cellulose at altering digestive and membrane-bound enzymes of the intestine and hepatic glycolytic enzymes, leading to reduced absorption of glucose.Omoruyi 1993 A similar study in streptozotocin-induced diabetic rats fed dikanut fiber resulted in reduced glucose, cholesterol, and triglyceride levels in plasma.Omoruyi 1994 Dikanut fiber supplementation also affected liver phospholipid distributions that may alter transport of lipids in the liver.

Oral administration of an African mango methanol extract at a dose of 150 and 250 mg/kg significantly (P < 0.001) lowered plasma glucose levels in diabetic rats within 2 hours after treatment. The mechanism of action may involve extract stimulation of pancreatic beta-cell function or hypoglycemic activity via an extra-pancreatic mechanism.Ngondi 2006 Postprandial and fasting glucose levels were reduced in normoglycemic rats administered African mango seed fractions prior to an oral glucose test.Ngondi 2006

Clinical data

Although the study is limited, dikanut supplementation in diabetic patients over 4 weeks lowered blood glucose levels and normalized erythrocyte membrane ATPase activity. The ratio among the enzymes studied in diabetic patients was comparable to that of nondiabetic patients.Adamson 1986 A very similar study documents reduced plasma lipids in diabetic patients due to decreased low-density lipoprotein (LDL) plus very low-density lipoprotein (VLDL)-cholesterol and triglycerides levels. ATPase activity normalized and high-density lipoprotein (HDL) cholesterol was increased.Adamson 1990

Gastrointestinal

A methanol extract of African mango exhibited dose-dependent inhibition of indomethacin-induced gastric ulceration in mice.Raji 2001 The antiulcer activity of several doses of the extract was comparable to that of cimetidine (50 mg/kg), and the extract also reduced gastric acid secretion and increased mucous secretion. Another animal study in mice administered African mango aqueous leaf extract reported decreased GI motility and GI protection against castor oil-induced diarrhea.Abdulrahman 2004

Metabolic syndrome and obesity

Several potential mechanisms against obesity with African mango supplementation include:

  1. Inhibitory effect on the enzyme glycerol-3-phosphate dehydrogenase involved in converting glucose to stored fat;

  2. Beneficial effect on the enzyme peroxisome-proliferator-activated receptor (PPAR)-gamma involved in adipogenesis and insulin sensitivity;

  3. Upregulation of the protein hormone adiponectin which enhances insulin sensitivity and endothelial function; and

  4. Decreased leptin expression or enhanced leptin sensitivity (inhibits food intake and stimulates thermogenesis).

Animal and in vitro data

Rats were fed a normal diet and 1 mL of African mango oil or water over 4 weeks. Abdominal fat was lower, plasma HDL cholesterol and triglyceride levels were higher, and LDL:HDL and total cholesterol:HDL ratios were lower in rats administered the oil. Blood glucose levels were also lower in rats administered the oil.Ngondi 2005

In a murine adipocyte model for adipose cell biology research, an African mango seed extract inhibited adipogenesis in adipocytes.Oben 2008 The mechanism appears to be associated with (1) downregulated expression of adipogenic transcription factors or PPAR-gamma and adipocyte-specific proteins, such as leptin, and (2) upregulated expression of adiponectin. Adiponectin has antiatherogenic, anti-inflammatory, and antidiabetic activity.

Clinical data

Administration of I. gabonensis 300 mg/day for 90 days in patients with metabolic syndrome resulted in statistically significant improvements in waist circumference (P<0.01), glucose, triglycerides, and VLDL (P<0.05 for each) compared to baseline in a small double-blind, randomized, controlled trial (N=24). In contrast, no improvements were observed in the placebo group and neither group experienced significant changes in insulin area under the curve.(Mendez-del Villar 2018)

A 10-week, randomized, double-blind, placebo-controlled study of 102 overweight patients evaluated the effects of African mango seed extract on body weight and associated metabolic parameters.Ngondi 2009 Patients received either 150 mg of African mango seed extract or placebo 30 minutes before lunch and dinner. Patients receiving the extract improved both weight reduction (body weight, body fat, waist circumference) and metabolic parameters (plasma total cholesterol, LDL cholesterol, blood glucose, C-reactive protein, adiponectin, and leptin levels).

A 1-month, randomized, double-blind, placebo-controlled, crossover study examined the effects of African mango seed extract in 40 obese patients.Ngondi 2005 Patients were administered 3 capsules containing 350 mg of African mango seed extract (active formulation) or oat bran (placebo) 3 times daily 30 minutes before meals with a glass of warm water. Patients were on a normocaloric diet and were evaluated every week, as well as instructed to keep a record of food consumed. At the end of the study, patients treated with the seed extract had reduced body weight, waist and hip circumference, and metabolic parameters (eg, total cholesterol, LDL cholesterol, triglycerides), and increased HDL cholesterol. Patients treated with the extract also reported reduced systolic blood pressure. Another 10-week clinical study treating patients with a formulation of 2 plant materials, African mango and Cissus quadrangularis, resulted in reductions in body weight and improved metabolic parameters.Oben 2008

Dosing

Clinical studies used dosage regimens of 150 mg of African mango seed extract 30 minutes before lunch and dinner or 1,050 mg 3 times daily 30 minutes before meals with a glass of warm water. Powders, liquids, and capsules are available from commercial manufacturers, with most common dosage regimens consisting of 150 mg of African mango twice a day with food.

Pregnancy / Lactation

Information regarding safety and efficacy in pregnancy and lactation is lacking.

Interactions

Limited information is available on drug interactions.

Hypoglycemia-associated agents: Herbal products with glucose lowering effects may enhance the hypoglycemic effect of hypoglycemia-associated agents.(Hui 2009)

Adverse Reactions

Avoid use with a known allergy or hypersensitivity to any of the components of African mango. Clinical studies enrolled a small number of patients, and mild side effects were documented. Adverse reactions included headache, dry mouth, flatulence, sleep disturbance, and flu-like symptoms.Ngondi 2009, Ngondi 2005, Oben 2008

Toxicology

Acute toxicity studies document no deaths within 24 hours or 7 days after administration of 1,600 mg/kg of African mango methanol extract in rats.Raji 2001 One report detected fungi and aflatoxins in bush mango seeds sold in eastern Nigeria, which are unacceptable for human consumption.Adebayo-Tayo 2006

References

Disclaimer

This information relates to an herbal, vitamin, mineral or other dietary supplement. This product has not been reviewed by the FDA to determine whether it is safe or effective and is not subject to the quality standards and safety information collection standards that are applicable to most prescription drugs. This information should not be used to decide whether or not to take this product. This information does not endorse this product as safe, effective, or approved for treating any patient or health condition. This is only a brief summary of general information about this product. It does NOT include all information about the possible uses, directions, warnings, precautions, interactions, adverse effects, or risks that may apply to this product. This information is not specific medical advice and does not replace information you receive from your health care provider. You should talk with your health care provider for complete information about the risks and benefits of using this product.

This product may adversely interact with certain health and medical conditions, other prescription and over-the-counter drugs, foods, or other dietary supplements. This product may be unsafe when used before surgery or other medical procedures. It is important to fully inform your doctor about the herbal, vitamins, mineral or any other supplements you are taking before any kind of surgery or medical procedure. With the exception of certain products that are generally recognized as safe in normal quantities, including use of folic acid and prenatal vitamins during pregnancy, this product has not been sufficiently studied to determine whether it is safe to use during pregnancy or nursing or by persons younger than 2 years of age.

Abdulrahman F, Inyang IS, Abbah J, Binda L, Amos S, Gamaniel K. Effect of aqueous leaf extract of Irvingia gabonensis on gastrointestinal tract in rodents. Indian J Exp Biol. 2004;42(8):787-791.15573528
Adamson I, Okafor C, Abu-Bakare A. A supplement of Dikanut (Irvingia gabonesis) improves treatment of type II diabetics. West Afr J Med. 1990;9(2):108-115.2148494
Adamson I, Okafor C, Abu-Bakare A. Erythrocyte membrane ATPases in diabetes: effect of dikanut (Irvingia gabonensis). Enzyme. 1986;36(3):212-215.3026798
Adebayo-Tayo BC, Onilude AA, Ogunjobi AA, Gbolagade JS, Oladapo MO. Detection of fungi and aflatoxin in shelved bush mango seeds (Irvingia spp.) stores for sale in Uyo, Eastern Nigeria. Electron J Environ Agric Food Chem. 2006;5(5):1569-1574.
Agbogidi MO, Dolor DE. An assessment of the growth of Irvingia gabonensis (Aubry-Lecomte Ex ORorte) bail seedlings as influenced by crude oil contamination of soil. Asian J Plant Sci. 2007;6(8):1287-1292.
Agbor GA, Oben JE, Ngogang JY, Xinxing C, Vinson JA. Antioxidant capacity of some herbs/spices from cameroon: a comparative study of two methods. J Agric Food Chem. 2005;53(17):6819-6824.16104805
Ainge L, Brown N. Irvingia gabonensis and Irvingia wombolu. A State of Knowledge Report undertaken for The Central African Regional Program for the Environment. Oxford Forestry Institute. Department of Plant Sciences. University of Oxford. United Kingdom. 2001. http://carpe.umd.edu/resources/Documents/report-aingebrown2001.pdf
Akubor PI. The suitability of African bush mango juice for wine production. Plant Foods Hum Nutr. 1996;49(3):213-219.8865330
Anegbeh PO, Usoro C, Ukafor V, Tchoundjeu Z, Leakey RR, Schreckenberg K. Domestication of Irvingia gabonensis: 3. Phenotypic variation of fruits and kernels in a Nigerian village. Agrofor Syst. 2003;58:213-218.
Ayuk E, Duguma B, Franzel S, et al. Uses, management and economic potential of Irvingia gabonensis in the humid lowlands of Cameroon. Forest Ecol Manage. 1999;113(1):1-9.
Chukwu A, Agarwal SP, Adikwu MU. Preliminary evaluation of dika wax as a sealant in quinine hydrochloride microcapsules. STP Pharma Sci. 1991;1(2):121-124.
Ekpe OO, Umoh IB, Eka OU. Effect of a typical rural processing method in the proximate composition and amino acid profile of bush mango seeds. Afr J Food Agric Nutr Dev. 2007;7(1):1-12.
Fadare DA, Ajaiyeoba EO. Phytochemical and antimicrobial activities of the wild mango-Irvingia gabonensis extracts and fractions. Afr J Med Med Sci. 2008;37(2):119-124.18939394
George IN, Zhao Y. Pharmacological activity of 2,3,8-tri-O-methyl ellagic acid isolated from the stem bark of Irvingia gabonensis. Afr J Biotechnol. 2007;6(16):1910-1912.
Hui H, Tang G, Go VL. Hypoglycemic herbs and their action mechanisms. Chin Med. 2009;4:11. doi:10.1186/1749-8546-4-1119523223
Isimi CY, Kunle OO, Bangudu AB. Some emulsifying and suspending properties of the mucilage extracted from kernels of Irvingia gabonensis. Boll Chim Farm. 2000;139(5):199-204.11213437
Joseph K, Aworh OC. Post harvest treatment of wild mango (Irvingia gabonensis) for improved shelf life. Food Chem. 1992;44(1):45-48.
Joseph JK. Physico-chemical attributes of wild mango (Irvingia gabonensis) seeds. Bioresour Technol. 1995;53(2):179-181.
Kuete V, Wabo GF, Ngameni B, et al. Antimicrobial activity of the methanolic extract, fractions and compounds from the stem bark of Irvingia gabonensis (Ixonanthaceae). J Ethnopharmacol. 2007;114(1):54-60.17766070
Leakey R, Greenwell P, Hall M, et al. Domestication of Irvingia gabonensis: 4. Tree to tree variation in food thickening properties and in fat and protein contents of dika nut. Food Chem. 2005;90:365-378.
Leakey R. Potential for novel food products from agroforestry trees: a review. Food Chem. 1999;66(1):1-14.
Matos L, Nzikou JM, Matouba E, et al. Studies of Irvingia gabonensis seed kernels: Oil technological applications. Pak J Nutr. 2009;8(2):151-157.
Megwa SA. Evaluation of dika fat as a suppository base. Drug Dev Ind Pharm. 1987;13(15):2731-2748.
Méndez-del Villar M, González-Ortiz M, Martínez-Abundis E, Pérez-Rubio KG, Cortez-Navarrette M. Effect of Irvingia gabonensis on metabolic syndrome, insulin sensitivity, and insulin secretion. J Med Food. 2018;21(6):568-574.29336718
Musa SD, Musa UT, Ogidiolu A. Influence of soil conditions on the growth of duka nut (Irvingia Gabonensis Var) in mid Western Nigeria. Am Eurasian J Sustain Agric. 2009;3(1):45-52.
Ndjouenkeu R, Goycoolea FM, Morrisa ER, Akingbala JO. Rheology of okra (Hibiscus esculentus L.) and dika nut (Irvingia gabonensis) polysaccharides. Carbohydr Polym. 1996;29(3):263-269.
Ngondi JL, djiotsa EJ, Fossouo Z, Oben J. Hypoglycaemic effect of the methanol extract of Irvingia gabonensis seeds on streptozotocin diabetic rats. Afr J Tradit Complement Altern Med. 2006;3(4):74-77.
Ngondi JL, Etoundi BC, Nyangono CB, Mbofung CM, Oben JE. IGOB131, a novel seed extract of the West African plant Irvingia gabonensis, significantly reduces body weight and improves metabolic parameters in overweight humans in a randomized double-blind placebo controlled investigation. Lipids Health Dis. 2009;8:7.19254366
Ngondi JL, Fossouo Z, Djiotsa E, Oben J. Glycaemic variations after administration of Irvingia gabonensis seeds fractions in normoglycemic rats. Afr J Tradit Complement Altern Med. 2006;3(4):94101.
Ngondi JL, Mbouobda HD, Etame S, Oben JE. Effect of Irvingia gabonensis kernel oil on blood and liver lipids on lean and overweight rats. J Food Technol. 2005;3(4):592-594.
Ngondi JL, Oben JE, Minka SR. The effect of Irvingia gabonensis seeds on body weight and blood lipids of obese subjects in Cameroon. Lipids Health Dis. 2005;4:12.15916709
Oben JE, Ngondi JL, Blum K. Inhibition of Irvingia gabonensis seed extract (OB131) on adipogenesis as mediated via down regulation of the PPARgamma and leptin genes and up-regulation of the adiponectin gene. Lipids Health Dis. 2008;7:44.19014517
Oben JE, Ngondi JL, Momo CN, Agbor GA, Sobgui CS. The use of a Cissus quadrangularis/Irvingia gabonensis combination in the management of weight loss: a double-blind placebo-controlled study. Lipids Health Dis. 2008;7:12.18377661
Oboh G, Ekperigin MM. Nutritional evaluation of some Nigerian wild seeds. Nahrung. 2004;48(2):85-87.15146961
Odeku OA, Patani BO. Evaluation of dika nut mucilage (Irvingia gabonensis) as binding agent in metronidazole tablet formulations. Pharm Dev Technol. 2005;10(3):439-446.16176024
Ogunsina B, Koya O, Adeosun O. A Table Mounted Device for Cracking Dika Nut (Irvingia gabonensis). Agricultural Engineering International: CIGR Ejournal Manuscr. PM 08 011. Vol.X. August 2008.
Ogunsina BS, Koya OA, Adeosun OO. Deformation and fracture of dika nut ( Irvingia gabonensis) under uni-axial compressive loading. Int Agrophys. 2008;22:249-253.
Okolo CO, Johnson PB, Abdurahman EM, Abdu-Aguye I, Hussaini IM. Analgesic effect of Irvingia gabonensis stem bark extract. J Ethnopharmacol. 1995;45(2):125-129.7776661
Okore VC. Effect of dika fat content of a barrier film coating on the kinetics of drug release from swelling polymeric systems. Boll Chim Farm. 2000;139(1):21-25.10829548
Omoruyi F, Adamson I. Digestive and hepatic enzymes in streptozotocin-induced diabetic rats fed supplements of dikanut (Irvingia gabonensis) and cellulose. Ann Nutr Metab. 1993;37(1):14-23.8385893
Omoruyi F, Adamson I. Effect of supplements of dikanut (Irvingia gabonensis) and cellulose on plasma lipids and composition of hepatic phospholipids in streptozotocin-induced diabetic rat. Nutr Res. 1994;14(4):537-544.
Onimawo IA, Oteno F, Orokpo G, Akubor PI. Physiochemical and nutrient evaluation of African bush mango (Irvingia gabonensis) seeds and pulp. Plant Foods Hum Nutr. 2003;58:1-6.
Onyechi JO, Udeala OK. The tabletting properties of dika fat lubricant. Drug Dev Ind Pharm. 1990;16(7):1203-1216.
Onyeike EN, Acheru GN. Chemical composition of selected Nigerian oil seeds and physiochemical properties of the oil extracts. Food Chem. 2002;77(4):431-437.
Onyeike E, Olungwe T, Uwakwe A. Effect of heat treatment and defatting on the proximate composition of some Nigerian local soup thickeners. Food Chem. 1995;53(2):173-175.
Raji Y, Ogunwande IA, Adesola JM, Bolarinwa AF. Anti-diarrhegenic and anti-ulcer properties of Irvingia gabonensis in rats. Pharm Biol. 2001;39(5):340-345.
Sun J, Chen P. Ultra high-performance liquid chromatography with high-resolution mass spectrometry analysis of African mango (Irvingia gabonensis) seeds, extract, and related dietary supplements. J Agric Food Chem. 2012;60(35):8703-8709.22880691
Tairu AO, Hofmann T, Schieberle P. Studies on the key odorants formed by roasting of wild mango seeds (Irvingia gabonensis). J Agric Food Chem. 2000;48(6):2391-2394.10888556
Udeala OK, Aly SAS. The effect of microencapsulation with dika wax on the degradation and dissolution of aspirin tablets. Drug Dev Ind Pharm. 1986;12(3):397-421.
Udeala OK, Onyechi JO, Agu SI. Preliminary evaluation of dika fat, a new tablet lubricant. J Pharm Pharmacol. 1980;32(1):6-9.6102130

Further information

Always consult your healthcare provider to ensure the information displayed on this page applies to your personal circumstances.