Buglossoides arvensis

(Redirected from Field gromwell)

Buglossoides arvensis (syn. Lithospermum arvense), known as field gromwell, corn gromwell, bastard alkanet, and stone seed, is a flowering plant of the family Boraginaceae. It is native to Europe and Asia, as far north as Korea, Japan and Russia, and as far south as Afghanistan and northern Pakistan.[2] It is known in other places as an introduced species, including much of North America and Australia.[3][4]

Buglossoides arvensis
Scientific classification Edit this classification
Kingdom: Plantae
Clade: Tracheophytes
Clade: Angiosperms
Clade: Eudicots
Clade: Asterids
Order: Boraginales
Family: Boraginaceae
Genus: Buglossoides
Species:
B. arvensis
Binomial name
Buglossoides arvensis
(L.) I.M.Johnst. (1954)
Synonyms[1]
  • Aegonychon arvense (L.) Gray (1821 publ. 1822)
  • Lithospermum arvense L. (1753)
  • Margarospermum arvense (L.) Decne. (1840)
  • Rhytispermum arvense (L.) Link (1829)

Subspecies

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Three subspecies are accepted.[1]

  • Buglossoides arvensis subsp. arvensis
  • Buglossoides arvensis subsp. occidentalis Franco
  • Buglossoides arvensis subsp. sibthorpiana (Griseb.) R.Fern.

Uses

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The European Union has granted the refined oil of the seed of Buglossoides arvensis novel food status and some farmers are growing it[5] commercially in the United Kingdom as a plant-variety patented (PVP) and trademarked cultivar (Ahiflower®). The seed oil contains high levels (63-72%) of omega-3 ALA (c18:3), omega-3 SDA (c18:4), and omega-6 GLA (c18:3)[6] and has GRAS (generally regarded as safe) review status from the US Food and Drug Administration, Canadian ingredient master file (IMF) registration and novel food status, and GMP+ Feed Support Product status in the EU for livestock and companion animals (including for defatted expeller press cake meal). The seed oil also has TGA Australia Complementary Medicines approval status, ANVISA/MAPA Brazil human and animal alimentary use approval, and limited food use approvals in Korea and Japan.

Refined Buglossoides oil has peer-reviewed published human clinical evidence from controlled dietary intervention trials showing up to 400% more efficient omega-3 EPA (c20:5) accrual in circulating cells vs flaxseed oil and has been shown to significantly upregulate the cytokine interleukin-10 (IL-10) in lipopolysaccharide (LPS) stimulated macrophages by +40% vs. control.[7] IL-10 is recognized as one of the immune modulatory signaling cytokines that moderates the inflammatory response after intensive exercise or immune challenge. Further, refined Buglossoides oil has been shown to form omega-3 DHA (C22:6) endogenously with comparable efficiency as pure marine DHA in mammals and maintain DHA levels similarly in the brain and liver.[8] It has also been shown in recent peer-reviewed research to promote live probiotic survival into the small intestine in the TIMS-1 simulated gut[9] and contribute beneficially to anti-neuroinflammation response in vitro[10] and synergistically to improved executive function and cognitive flexibility in healthy adults.[11] Based on its fatty acid composition, refined Buglossoides oil naturally provides the body a more diverse array of anti-inflammatory omega-3 and omega-6 (via GLA) substrates than derive from preformed EPA/DHA sources. These include SDA, ETA (C20:4n-3), GLA, and DGLA (C20:3n-6).

Seeds of Buglossoides have been reported in Ukrainian archeological sites dating back as far as 4000 BC where they were stored in clay pots, however the purpose and usage of the seeds has not been determined. In modern European arable agriculture, Buglossoides often appears as a weed species with poor competitive and non-invasive characteristics.

References

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  1. ^ a b Buglossoides arvensis (L.) I.M.Johnst. Plants of the World Online. Retrieved 29 July 2024.
  2. ^ "Lithospermum arvense Linnaeus, Sp. Pl. 1: 132. 1753". Flora of China.
  3. ^ ^ USDA Plants Profile
  4. ^ ^ "Buglossoides arvensis". Australian Plant Name Index (APNI), IBIS database. Centre for Plant Biodiversity Research, Australian Government, Canberra. Retrieved 20 March 2012.
  5. ^ ^ Nosowitz, Dan (19 November 2015). "What Is This Weird Weed, and Why Are Farmers and Health Nuts So Into It?". Modern Farmer. Retrieved 30 November 2015.
  6. ^ Lefort (2016) Consumption of Buglossoides arvensis seed oil is safe and increases tissue long-chain n-3 fatty acid content more than flax seed oil. J Nutr Sci 5:e2, 1-12. Retrieved 10 Jun 2022.
  7. ^ Lefort (2017) Dietary Buglossoides arvensis oil increases circulating n-3 polyunsaturated fatty acids in a dose-dependent manner and enhances lipopolysaccharide-stimulated whole blood interleukin-10—a randomized placebo-controlled trial. Nutrients 9:261; 1-17. Retrieved 10 Jun 2022.
  8. ^ Metherel A (2021) Determining plasma and tissue DHA turnover from Ahiflower® oil, flaxseed oil and DHA using compound specific isotopic analysis. J Am Oil Chem Soc 2021;98(Suppl. 1):242–243.
  9. ^ Venema K et al. (2020) Survival of a probiotic-containing product using capsule-within-capsule technology in an in vitro model of the stomach and small intestine (TIM-1). Beneficial Microbes 2020; 11(4): 403-409
  10. ^ Cumberford G et al. (2023) Methods and compositions with purified Bombyx morii cocoon silk fiber and refined Buglossoides arvensis seed oil providing anti-inflammatory effects and neuroprotection for disease states. Patent #US 11707497B2 (July 25, 2023), p. 101.
  11. ^ Lanou A (2023) A randomized, placebo-controlled clinical trial of a novel dietary supplement (Braini) on standardized CNS vital signs cognitive performance parameters in adults. J Integr Complement Med. 2023; May;29(5):303-312.
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