Submitted Successfully!
To reward your contribution, here is a gift for you: A free trial for our video production service.
Thank you for your contribution! You can also upload a video entry or images related to this topic.
Version Summary Created by Modification Content Size Created at Operation
1
Abd Elmoneim Elkhalifa
 + 1140 word(s) 1140 2021-03-09 07:54:55 |
2 format correct
Catherine Yang
 Meta information modification 1140 2021-03-16 02:01:09 |

Video Upload Options

Do you have a full video?
Send video materials Upload full video

Confirm

Are you sure to Delete?
Yes No
Cite
If you have any further questions, please contact Encyclopedia Editorial Office.
Elkhalifa, A.E. Okra. Encyclopedia. Available online: https://encyclopedia.pub/entry/8013 (accessed on 17 May 2024).
Elkhalifa AE. Okra. Encyclopedia. Available at: https://encyclopedia.pub/entry/8013. Accessed May 17, 2024.
Elkhalifa, Abd Elmoneim. "Okra" Encyclopedia, https://encyclopedia.pub/entry/8013 (accessed May 17, 2024).
Elkhalifa, A.E. (2021, March 15). Okra. In Encyclopedia. https://encyclopedia.pub/entry/8013
Elkhalifa, Abd Elmoneim. "Okra." Encyclopedia. Web. 15 March, 2021.
Okra
Edit
This entry is adapted from the peer-reviewed paper 10.3390/molecules26030696

Okra (Abelmoschus esculentus L.) is a popular vegetable crop with good nutritional significance, along with certain therapeutic values, which makes it a potential candidate in the use of a variety of nutraceuticals.

okra phytotherapy

1. Introduction

Okra (Abelmoschus esculentus L.), belonging to the family Malvaceae, is commonly known as Lady’s finger, as well as by several vernacular names, including okra, bhindi, okura, quimgombo, bamia, gombo, and lai long ma, in the different geographical regions of its cultivation [1]. Okra is believed to have originated around Ethiopia, where it was frequently cultivated by the Egyptians during the 12th century, and thereafter spread throughout the Middle East and North Africa [2][3]. Okra is an annual shrub that is cultivated mostly within tropical and subtropical regions across the globe and represents a popular garden crop, as well as a farm crop. It is a widely cultivated food crop and is globally known for its palatability. The immature green pods of okra are usually consumed as vegetables, while the extract of the pods also serves as a thickening agent in numerous recipes for soups, as well as sauces, to augment their viscosity [4][5]. Another noteworthy application of okra fruit is their wide use in the pickle industry. The polysaccharides present in okra are used in sweetened frozen foods such as icecreams, as well as bakery products, due to their health benefits and longer shelf-lives [6][7][8]. Anatomically, the fruits, stem, and leaves of okra are covered with minute soft, hairy structures. Although the flowering of the okra plant is perennial, it is highly dependent on various biotic and abiotic factors. The leaves of okra are polymorphous, characterized by hairy upper and lower surfaces, whereas the petioles are around 15 cmlong. The flowers of okra can be easily recognized due to their slight yellowish color with a crimson center. The edible part of okra or its capsule (pod) measures approximately 15–20 cm in length and has a pyramidal-oblong, pentagonal, hispid appearance. Historically, okra pods were utilized for various purposes, such as in food, appetite boosters, astringents, and as an aphrodisiac. Furthermore, okra pods have also been recommended to cure dysentery, gonorrhea, and urinary complications [9]. Extracts of young okra pods have also been reported to display moisturizing and diuretic properties, whereas the seeds of this plant have been reported to possess anticancer and fungicidal properties [10].

2. Formulation and Development of Okra-Based Nutraceuticals

Nutraceuticals are broadly described as food or parts of food that provide incremental health benefits. Okra-based nutraceuticals represent popular health foods, owing to its intrinsic nutritional and other bioactive components, which show health-associated beneficial properties (Figure 1) [11]. Several efforts are being made to improve the well-known hypoglycemic outcomes of okra fruit by formulating different proportions of seeds and peels of Ex-maradi Okra fruit in the ratio of (10:90, 20:80, 30:70, 40:60, 50:50%, and so on), which is subsequently followed by investigating the antidiabetic and antioxidant efficacy of these formulations in vitro. Recent findings have led to the conclusion that seeds and peels at the ratio of 10:90% are the most efficient in exhibiting substantial in vitro antidiabetic and antioxidant efficacy [12][13]. Subsequently, it was recommended that the nutraceutical formulation of peel and Ex-maradi okra seeds in the ratio (10:90) exhibits substantial hypoglycemic and hypolipidemic activity in alloxan models of diabetes (rodents) and was thus appropriate for further improvements for the formulation of okra-based nutraceutical interventions in diabetes mellitus [13]. On the other hand, okra polysaccharides have also been reported to inhibit human cancer cell proliferation [14]. This possibly indicates their potential usage as anticancer nutraceutical formulations. However, an individual’s susceptibility to any disease also largely depends upon genetic predisposition and lifestyle habits, such as smoking and high alcohol consumption. Therefore, the efficacy of nutraceuticals can vary from person to person. Nutraceuticals have proven health benefits, and their consumption (within their acceptable recommended dietary intakes) may help in the prevention of disease and allow humans to maintain overall good health. Therefore, since various parts of okra (fruit, seed, pulp, and mucilage) carry several therapeutic purposes, it can be considered to be an important vegetable crop for nutraceutical purposes.

Molecules 26 00696 g003 550

Figure 1. Illustrative representation of the okra-mediated beneficial effects that have been scientifically established to date.

3. Global Okra Production and Possible Nutraceutical Market

Okra, being an inexpensive popular vegetable crop, is consumed by several populations globally and is a local staple food in low-income countries. Nowadays, due to its nutritional and health benefits, there is a growing demand for okra, and different okra products are available for purchase on online marketplaces. Recently, the agency Market Research Future estimated that the global okra seed market could earn a revenue of USD 352.7 million and register a 9.8% compound annual growth rate during the period 2018–2023 [15]. Globally, the market of okra seeds is geographically largely divided into Europe, Asia-Pacific, and North America, followed by the remaining countries. In 2018, the largest accreditation for the contribution of the okra market share (63.77%) was recorded by the Asia-Pacific region. It is estimated that the okra-based nutraceutical market will reach a worth of 222.9 million USD by the end of the year 2023. Small-scale manufacturers are a major cause for the disintegration of the okra market in the Asia-Pacific region. Pakistan, Malaysia, India, and the Philippines are regarded as the dominant producers of okra seeds [16][15][17][18]. In recent times, India has been the prominent producer of okra globally, followed by the remaining countries mentioned above. Since 2018, these remaining countries have held a 33.0% share of the global okra market. This enhanced expansion within the local market is attributed to increased cultivation, as well as the development of genetically modified (GM) seeds. Furthermore, the acceptance of hybrid and disorder-resistant seeds within the region has also facilitated the noticeable expansion of the okra market. Africa is now predicted to globally dominate the market for the consumption of okra seeds. It represents approximately 69% of the territorial market share due to increased accessibility to more arable croplands within the country. On the other hand, during 2017, North America accounted for only 2.2% of the okra market share, whereas Europe accounted for only 1.0%. At the same time, Mexico is known to be a dominant producer of okra in North America because of the high cultivation of okra within the country [19]. The global okra seed-mediated market (OSM) is divided categorically and regionally. Based on the category, the OSM is further divided into conventional and organic seeds of okra plants. The conventional OSM (cOSM) is more prominent, with a market share of 90.5% since 2018. The market dominance of cOSM could be attributed to the exploitation of different varieties, namely open-pollinated and traditional. In contrast, organic OSM is estimated to show a high growth rate of 10.7%, which could be attributed to a shift in consumer awareness resulting in an increased preference for organic plant produce [20]. Thus, the high production of okra the world over should be utilized to some extent in the large-scale production of okra-based nutraceuticals, which could also be used to alleviate the problem of malnutrition in underdeveloped countries.

References

  1. Jain, N.; Jain, R.; Jain, V.; Jain, S. A review on: Abelmoschus esculentus. Pharmacia 2012, 1, 84–89.
  2. Lamont, W.J. Okra—A versatile vegetable crop. Hort Technol. 1999, 9, 179–184.
  3. Tindall, H.D. Vegetables in the Tropics; Macmillan Publishers Limited: London, UK, 1983.
  4. Dhaliwal, M.S. Okra (Abelmoschus esculentus) L. (Moench); Kalyani Publishers: New Delhi, India, 2010.
  5. Kumar, A.; Kumar, P.; Nadendla, R. A review on: Abelmoschus esculentus (Okra). Int. Res. J. Pharm. Appl. Sci. 2013, 3, 129–132.
  6. Archana, G.; Babu, P.A.S.; Sudharsan, K.; Sabina, K.; Raja, R.P.; Sivarajan, M.; Sukumar, M. Evaluation of Fat Uptake of Polysaccharide Coatings on Deep-Fat Fried Potato Chips by Confocal Laser Scanning Microscopy. Int. J. Food Prop. 2015, 19, 1583–1592.
  7. Costantino, A.; Romanchik-Cerpovicz, J. Physical and sensory measures indicate moderate fat replacement in frozen dairy dessert is feasible using okra gum as a milk-fat ingredient substitute. J. Am. Diet. Assoc. 2004, 104, 44.
  8. Yuennan, P.; Sajjaanantakul, T.; Kung, B. Effect of Okra Cell Wall and Polysaccharide on Physical Properties and Stability of Ice Cream. J. Food Sci. 2014, 79, E1522–E1527.
  9. Islam, M.T. Phytochemical information and pharmacological activities of Okra (Abelmoschus esculentus): A literature-based review. Phytother. Res. 2019, 33, 72–80.
  10. Durazzo, A.; Lucarini, M.; Novellino, E.; Souto, E.B.; Daliu, P.; Santini, A. Abelmoschus esculentus (L.): Bioactive Components’ Beneficial Properties-Focused on Antidiabetic Role-For Sustainable Health Applications. Molecules 2018, 24, 38.
  11. Kumar, S. Physicochemical, Phytochemical and toxicity studies on gum and mucilage from plant Abelmoschus esculentus. J. Phytopharm. 2014, 3, 200–203.
  12. Muhammad, I.; Matazu, I.K.; Yaradua, I.A.; Yau, S.; Nasir, A.; Bilbis, S.L.; Abbas, Y.A. Development of Okra-Based Antidiabetic Nutraceutical Formulation from Abelmoschus esculentus (L.) Moench (Ex-maradi Variety). Trop. J. Nat. Prod. Res. 2018, 2, 80–86.
  13. Reddy, M.T.; Kadiyala, H.; Mutyala, G.; Hameedunnisa, B. Heterosis for Yield and Yield Components in Okra (Abelmoschus esculentus (L.) Moench). Chil. J. Agric. Res. 2012, 72, 316–325.
  14. Dan-Dan, R.; Gu, C. Inhibition Effect of Okra Polysaccharides on Proliferation of Human Cancer Cell Lines. Food Sci. 2010, 31, 353–356.
  15. M.R. Future, Seeds Market Research Report. 2020. Available online: (accessed on 11 October 2020).
  16. Akintoye, H.; Adebayo, A.; Aina, O. Growth and Yield Response of Okra Intercropped with Live Mulches. Asian J. Agric. Res. 2011, 5, 146–153.
  17. Wire, G.N. Okra Seeds Market Report Insights and Industry Analysis by Category (Conventional and Organic) and Region, Competitive Market Size, Share, Trends, and Forecast, 2018–2023. 2020. Available online: (accessed on 15 October 2020).
  18. WBOC. Okra Seeds Market—Global Countries Data, 2020. Top Leading Countries, Companies, Consumption, Drivers, Trends, Forces Analysis, Revenue, Market Size & Growth, Global Forecast 2025. 2020. Available online: (accessed on 2 December 2020).
  19. Zaharuddin, N.D.; Noordin, M.I.; Kadivar, A. The Use of Hibiscus esculentus (Okra) Gum in Sustaining the Release of Propranolol Hydrochloride in a Solid Oral Dosage Form. BioMed Res. Int. 2014, 2014, 735891.
  20. Gemede, H.F.; Haki, G.D.; Beyene, F.; Woldegiorgis, A.Z.; Rakshit, S.K. Proximate, mineral, and antinutrient compositions of indigenous Okra (Abelmoschus esculentus) pod accessions: Implications for mineral bioavailability. Food Sci. Nutr. 2015, 4, 223–233.
More
© Text is available under the terms and conditions of the Creative Commons Attribution (CC BY) license; additional terms may apply. By using this site, you agree to the Terms and Conditions and Privacy Policy.
Upload a video for this entry
Information
Subjects: Food Science & Technology
Contributor MDPI registered users' name will be linked to their SciProfiles pages. To register with us, please refer to https://encyclopedia.pub/register :
Abd Elmoneim Elkhalifa
View Times: 3.4K
Revisions: 2 times (View History)
Update Date: 16 Mar 2021
Table of Contents
    1000/1000
    Hot Most Recent
    Feedback