Biology:Psyllium

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Short description: Plant
Psyllium Husk (Isbagol)
Psyllium husk after processing
Plantago afra, a member of the plant family from which psyllium can be derived

Psyllium /ˈsɪliəm/, or ispaghula /ˌɪspəˈɡlə/, is the common name used for several members of the plant genus Plantago whose seeds are used commercially for the production of mucilage. Psyllium is mainly used as a dietary fiber to relieve symptoms of both constipation and mild diarrhea, and occasionally as a food thickener.[1] Allergy to psyllium is common in workers frequently exposed to the substance.

Use of psyllium in the diet for three weeks or longer may lower blood cholesterol levels in people with elevated cholesterol,[2][3] and may lower blood glucose levels in people with type 2 diabetes.[4] Use of psyllium for a month or longer may produce a small reduction in systolic blood pressure.[5]

The plants from which the seeds are extracted tolerate dry and cool climates, and are mainly cultivated in northern India .

Uses

Food

Psyllium has been used as a thickener in ice cream and other frozen desserts. A 1.5% weight/volume ratio of psyllium mucilage exhibits binding properties that are superior to a 10% weight/volume ratio of starch mucilage.[6] The viscosity of psyllium mucilage dispersions are relatively unaffected between temperatures of 20 and 50 °C (68 and 122 °F), by pH from 2 to 10, and by salt (sodium chloride) concentrations up to 0.15 M.[6] Psyllium seed husks can also be used to improve texture in gluten-free baked goods, to bind meatballs, and to thicken sauces.[7] Some people use them to manage symptoms of irritable bowel syndrome, or to maintain a clean colon for receiving anal sex.[7]

Human health

Weight loss

Dietary supplements containing psyllium are sold mainly to aid weight loss, although there is little scientific evidence for such effects.[8]

Constipation

Psyllium is mainly used as a viscous, soluble dietary fiber that is not absorbed by the small intestine.[9] The purely mechanical action of psyllium mucilage is to absorb excess water while stimulating normal bowel elimination. Although its main use has been as a laxative, it is more accurately regarded as a dietary fiber and as such can help reduce the symptoms of both constipation and mild diarrhea.[9] The laxative properties of psyllium are attributed to the fiber: it absorbs water and subsequently softens the stool.[9] It increases flatulence (gas) to some degree.[10]

High blood cholesterol

In 1998, the U.S. Food and Drug Administration approved a health claim on food labels for dietary psyllium as a soluble fiber – if consumed regularly – that would reduce the risk of heart disease by lowering blood cholesterol.[11] Clinical research demonstrated that seven grams or more per day of soluble fiber from psyllium seed husk would sufficiently lower total cholesterol and low density lipoprotein cholesterol in people with hypercholesterolemia, two accepted biomarkers for risk of coronary heart disease.[12] The findings were later confirmed in a meta-analysis that incorporated more evidence.[13] To be eligible for the FDA-allowed health claim, one serving of a manufactured food or dietary supplement must contain at least 1.7 g of psyllium as soluble fiber.[11] Whole oats, barley and foods containing beta-glucan soluble fiber were included as eligible sources for the label claim.[11]

Type 2 diabetes

In 2014, the U.S. Food and Drug Administration approved a qualified health claim for psyllium as a possible benefit for people with diabetes, requiring FDA-approved wording on a product label: "Psyllium husk may reduce the risk of type 2 diabetes, although the FDA has concluded that there is very little scientific evidence for this claim."[14] A meta-analysis published after the FDA decision reported that psyllium provided before meals improved fasting blood glucose and glycated hemoglobin, but that the larger effect was seen in people diagnosed with and being treated for type 2 diabetes, and only a modest improvement for people classified as pre-diabetic.[4]

Hypertension

Psyllium has been found by meta-analysis of clinical trials to significantly reduce blood pressure in people suffering from hypertension.[15] Psyllium has not been shown to have the same effect on individuals with normal or elevated blood pressure.[15]

Veterinary medicine

Psyllium fiber dietary supplements are used in veterinary medicine to treat sand impaction in horses to aid in elimination of sand from the horse's colon.[16]

Adverse effects

Fiber generally has few side effects.[17]

  • Psyllium can cause bowel obstructions or bezoars, if taken without adequate amounts of water.[18][19]
  • Gas or stomach bloating may also occur.[17]
  • Choking is a hazard if psyllium is taken without adequate water as it thickens in the throat.[20]

Allergy

Psyllium can cause allergic reactions, including anaphylaxis.[21] Psyllium may act as a potent inhalant allergen capable of eliciting asthma symptoms.[22] Health care professionals at geriatric care hospitals, who are frequently exposed to psyllium in the laxatives administered to patients, are commonly IgE sensitized to psyllium (13.8%), and 8.6% have clinical allergy to psyllium.[23] Pharmaceutical manufacturing employees who have been exposed to psyllium during the processing have developed occupational asthma and IgE sensitization.[24] In order to protect sensitized workers, psyllium has an extremely low occupational exposure limit of 150 ng/m3.[25]

Mechanism of action

The soluble fiber in psyllium is the polysaccharide heteroxylan, a hemicellulose.[26]

Psyllium is produced mainly for its mucilage content. The term mucilage describes a group of clear, colorless, gelling agents derived from plants. The mucilage obtained from psyllium comes from the seed coat. Mucilage is obtained by mechanical milling (i.e. grinding) of the outer layer of the seed. Mucilage yield amounts to about 25% (by weight) of the total seed yield. Plantago-seed mucilage is often referred to as husk, or psyllium husk. The milled seed mucilage is a white fibrous material that is hydrophilic, meaning that its molecular structure causes it to attract and bind to water. Upon absorbing water, the clear, colorless, mucilaginous gel that forms increases in volume by tenfold or more.

Cultivation

The genus Plantago contains over 200 species. P. ovata and P. psyllium are produced commercially in several European countries, Russia and surrounding countries, and India . Plantago seed, known commercially as black, French, or Spanish psyllium, is obtained from P. psyllium, also known as P. arenaria. Seed produced from P. ovata is known in trading circles as white or blonde psyllium, Indian plantago, or isabgol. Isabgol is the common name in India for P. ovata. India dominates the world market in the production and export of psyllium.

Plantago ovata is an annual herb that grows to a height of 30–46 cm (12–18 in). Leaves are opposite, linear or linear lanceolate 1 cm × 19 cm (0.39 in × 7.48 in). The root system has a well-developed tap root with few fibrous secondary roots. A large number of flowering shoots arise from the base of the plant. Flowers are numerous, small, and white. Plants flower about 60 days after planting. The seeds are enclosed in capsules that open at maturity.

The fields are generally irrigated prior to seeding to achieve ideal soil moisture, to enhance seed soil contact, and to avoid burying the seed too deeply as a result of later irrigations or rainfall. Maximum germination occurs at a seeding depth of 6 mm (1/4 in). Emerging seedlings are frost sensitive; therefore, planting should be delayed until conditions are expected to remain frost free. Seed is broadcast at 5.5 to 8.25 kg/hectare (5 to 7.5 lb/acre) in India. In Arizonan trials, seeding rates of 22 to 27.5 kg/ha (20 to 25 lb/acre) resulted in stands of 1 plant/25mm (1 inch) in 15 cm (6 inch) rows produced excellent yields. Weed control is normally achieved by one or two hand weedings early in the growing season. Control of weeds by pre-plant irrigation that germinates weed seeds followed by shallow tillage may be effective on fields with minimal weed pressure. Psyllium is a poor competitor with most weed species.

Plantago wilt (Fusarium oxysporum) and downy mildew (Peronospora alta) are the major diseases of Isabgol. White grubs and aphids are the major insect pests.

The flower spikes turn reddish brown at ripening, the lower leaves dry and the upper leaves yellow. The crop is harvested in the morning after the dew is gone to minimize shattering and field losses. In India, mature plants are cut 15 cm above the ground and then bound, left for a few days to dry, thrashed, and winnowed.

Harvested seed must be dried to below 12% moisture to allow for cleaning, milling, and storage. Seed stored for future crops has shown a significant loss in viability after 2 years in storage.

Commercial history

Metamucil

Introduced in 1934 by G.D. Searle & Company, Metamucil was acquired by Procter & Gamble in 1985. The name is a combination of the Greek word for change (meta) and the class of fiber that it utilizes (mucilage). In its early years, Metamucil achieved sporadic drug-store distribution as a "behind the counter" product - sold in pharmacies but not on the shelf, so that the pharmacist may counsel the purchaser on correct usage. Since 1974, the brand was also marketed to consumers by print and TV advertising and became available in food outlets. Flavored versions were added in 1979.

The brand is sold as powdered drink mixes, capsules and wafers in a variety of flavors. Metamucil contains psyllium seed husks as the active ingredient. It is manufactured in Phoenix, Arizona, by Procter & Gamble.[27] When first marketed to consumers in 1974, Metamucil was marketed as a laxative. The advertising slogan at that time was "If not nature, then Metamucil". Procter & Gamble sought to make Metamucil a household name by advertising in magazines and on television, using the claim "All fiber is not created equal".[28]

References

  1. Slavin, Joanne (22 April 2013). "Fiber and prebiotics: Mechanisms and health benefits". Nutrients 5 (4): 1417–1435. doi:10.3390/nu5041417. ISSN 2072-6643. PMID 23609775. 
  2. Williams, Peter G. (1 August 2014). "The Benefits of Breakfast Cereal Consumption: A Systematic Review of the Evidence Base". Advances in Nutrition 5 (5): 636S–673S. doi:10.3945/an.114.006247. ISSN 2156-5376. PMID 25225349. 
  3. Jovanovski, Elena; Yashpal, Shahen; Komishon, Allison et al. (15 September 2018). "Effect of psyllium (Plantago ovata) fiber on LDL cholesterol and alternative lipid targets, non-HDL cholesterol and apolipoprotein B: a systematic review and meta-analysis of randomized controlled trials". The American Journal of Clinical Nutrition 108 (5): 922–932. doi:10.1093/ajcn/nqy115. ISSN 0002-9165. PMID 30239559. 
  4. 4.0 4.1 "Psyllium fiber improves glycemic control proportional to loss of glycemic control: a meta-analysis of data in euglycemic subjects, patients at risk of type 2 diabetes mellitus, and patients being treated for type 2 diabetes mellitus". Am. J. Clin. Nutr. 102 (6): 1604–14. December 2015. doi:10.3945/ajcn.115.106989. PMID 26561625. 
  5. Khan, K.; Jovanovski, E.; Ho, H.V.T.; Marques, A.C.R.; Zurbau, A.; Mejia, S.B.; Sievenpiper, J.L.; Vuksan, V. (2018). "The effect of viscous soluble fiber on blood pressure: A systematic review and meta-analysis of randomized controlled trials". Nutrition, Metabolism and Cardiovascular Diseases 28 (1): 3–13. doi:10.1016/j.numecd.2017.09.007. ISSN 0939-4753. PMID 29153856. 
  6. 6.0 6.1 Goto-Tamura, R.; Takesue, Y.; Takesue, S. (1976-02-16). "Immunological similarity between NADH-cytochrome b5 reductase of erythrocytes and liver microsomes". Biochimica et Biophysica Acta (BBA) - Bioenergetics 423 (2): 293–302. doi:10.1016/0005-2728(76)90186-9. ISSN 0006-3002. PMID 2319. https://pubmed.ncbi.nlm.nih.gov/2319. 
  7. 7.0 7.1 Priya Krishna (August 17, 2023). "A Centuries-Old Fiber Supplement Entices the Ozempic Generation". The New York Times. https://www.nytimes.com/2023/08/17/dining/psyllium-husks.html. 
  8. Darooghegi Mofrad, Manije; Mozaffari, Hadis; Mousavi, Seyed Mohammad; Sheikhi, Ali; Milajerdi, Alireza (2019-03-18). "The effects of psyllium supplementation on body weight, body mass index and waist circumference in adults: A systematic review and dose-response meta-analysis of randomized controlled trials". Critical Reviews in Food Science and Nutrition 60 (5): 859–872. doi:10.1080/10408398.2018.1553140. ISSN 1040-8398. PMID 30880409. 
  9. 9.0 9.1 9.2 McRorie, Johnson W.; McKeown, Nicola M. (2017). "Understanding the Physics of Functional Fibers in the Gastrointestinal Tract: An Evidence-Based Approach to Resolving Enduring Misconceptions about Insoluble and Soluble Fiber". Journal of the Academy of Nutrition and Dietetics 117 (2): 251–264. doi:10.1016/j.jand.2016.09.021. ISSN 2212-2672. PMID 27863994. 
  10. Christodoulides, S.; Dimidi, E.; Fragkos, K. C.; Farmer, A. D.; Whelan, K.; Scott, S. M. (2016-07-01). "Systematic review with meta-analysis: effect of fibre supplementation on chronic idiopathic constipation in adults" (in en). Alimentary Pharmacology & Therapeutics 44 (2): 103–116. doi:10.1111/apt.13662. ISSN 1365-2036. PMID 27170558. http://qmro.qmul.ac.uk/xmlui/handle/123456789/14210. 
  11. 11.0 11.1 11.2 Sec. 101.81 Health claims: Soluble fiber from certain foods and risk of coronary heart disease (CHD) U.S. Food and Drug Administration, Code of Federal Regulations Title 21.
  12. "Psyllium-enriched cereals lower blood total cholesterol and LDL cholesterol, but not HDL cholesterol, in hypercholesterolemic adults: results of a meta-analysis". J. Nutr. 127 (10): 1973–80. October 1997. doi:10.1093/jn/127.10.1973. PMID 9311953. 
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  14. Qualified Health Claim for Diabetes US Food and Drug Administration (June 24, 2014).
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  16. Niinistö, K.E.; Ruohoniemi, M.O.; Freccero, F.; Raekallio, M.R. (August 2018). "Investigation of the treatment of sand accumulations in the equine large colon with psyllium and magnesium sulphate". The Veterinary Journal 238: 22–26. doi:10.1016/j.tvjl.2018.06.005. PMID 30103912. 
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  24. Bardy, J-D.; Malo, J-L.; Seguin, P.; Ghezzo, H.; Desjardins, J.; Dolovich, J.; Cartier, A. (1987). "Occupational Asthma and IgE Sensitization in a Pharmaceutical Company Processing Psyllium". The American Review of Respiratory Disease 135 (5): 1033–1038. doi:10.1164/arrd.1987.135.5.1033. PMID 3579003. 
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  27. Carilla, Christina (Jan 25, 2019). "Made In Arizona: Valley factory makes Metamucil for shipping around the world". Fox10. https://www.fox10phoenix.com/news/made-in-arizona-valley-factory-makes-metamucil-for-shipping-around-the-world. 
  28. Zabin, Jeff (2004). Precision Marketing: The New Rules for Attracting, Retaining, and Leveraging Profitable Customers. John Wiley & Sons. pp. 58–59. 

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