Friday, 27 September 2024

NEERBRAHMI: A Natural Brain Booster


The human brain is a very intricate structure that serves as a body's control centre. It is responsible for our feelings, ideas, behaviours, and relationships with the outside world. Many plants are known to control our brain responses in various ways by altering various neural pathways and chemicals and may enhance memory or cause sedation and intoxication. Many plants such as Bacopa (Bacopa monnieri), Gotu kola (Centella asiatica), Walnut (Juglans regia), Maidenhair tree (Ginkgo biloba) Rhodiola (Rhodiola rosea), Ashwagandha (Withania somnifera), etc. are reported to be useful for retention of cognition or for enhancing our memory, focus and adaptogenic response. Bacopa, known as Neerbrahmi in Hindi, is one of the best medicinal herbs used in traditional Ayurvedic medicine for brain related problems. It is widely used for improving memory, focus and reducing anxiety. Bacopa, botanically known as Bacopa monnieri, is a member of the Plantain family (Plantaginaceae) of flowering plants.

 

NAMES IN DIFFERENT LANGUAGES

• English: Brahmi, Herb of grace, Indian pennywort, Thyme-leaved gratiola, Water hyssop

• Hindi: Neerbrahmi, Brahmi, Jalbuti, Jalnim

• Sanskrit: Brahmi, Tiktalonika

• Assamese: Brahmi

• Bengali: Brahmisaka

• Gujarati: Baam, Brahmi, Jalanevari, Kadavi luni

• Kannada: Brahmi, Jala brahmi, Niru brahmi

• Malayalam: Brahmi

• Marathi Brahmi, Jalabrahmi, Nirbrahmi

• Oriya: Brahmi, Prusni parnni

• Tamil: Nir-p-pirami, Piramiyam, Taray

• Telugu: Sambrani aku

(Source: Flowers of India Website)

 

DISTRIBUTION

Bacopa is widely distributed in wetlands and muddy areas of Tropical and Subtropical parts of the world.

 


MORPHOLOGY

Bacopa is a perennial creeping herb with branches growing up to 50 cm long.  The glabrous branches are succulent and frequently root at nodes. Leaves are opposite, sessile, oblong-oblanceolate, 0.8-2 cm X 3-6 mm in size and succulent. Leaf margin is entire or rarely dentate and has rounded apex. Flowers are mostly white or sometimes purplish in colour and are arranged singly in the leaf axils. Sepals are 5, lanceolate to linear in shape  and pale green in colour. Petals are 5, mostly white or rarely purplish, 8-10 mm in size and obscurely 2-lipped. Fruit is a narrowly ovoid capsule enveloped in persistent sepal-cup.  Seeds are yellow-brown in colour and ellipsoid in shape.

 


CHEMICAL CONSTITUENTS

Fifty-two bioactive phytochemicals have been isolated from bacopa which include saponins, alcohols, steroids, alkaloids, glycosides, sterol glycosides, phenylethanoid glycosides, sugars, flavonoids,  cucurbitacins, and amino acids. Bacoside A & B (tetracyclic triterpenoid saponins) are the most bioactive components of Bacopa monnieri and play essential roles in brain health. Bacoside A (most effective) contains four saponin glycosides viz. bacopaside II, bacopaside X, bacoside A3 and bacopasaponin C, while Bacosides B varies in optical rotation only with bacoside A and consists of bacopaside IV, V, N1 and N2.

 

MEDICINAL USES

 

(Photograph source: Amazon India)


1. As a Nervine Tonic

In Ayurveda, bacopa is considered as a nervine tonic that enhances memory, learning and reasoning. It is also used for treating neurological conditions such as epilepsy and insanity. Recently, this has also been proved through scientific experimentation on different laboratory animals.

2. Useful in Parkinson’s Disease

Parkinson’s disease is a degenerative neurological disorder characterized by progressive degeneration of nerve cells. Bacopa is reported to exhibit decreased aggregation of α-synuclein protein and prevent dopaminergic neurodegeneration in animal models (in Caenorhabditis elegans and Drosophila).

3. Helpful in Alzheimer’s Disease

Alzheimer’s disease, characterised by cognitive impairment and dementia,  is caused by the accumulation of β-amyloid peptides in the brain. Bacopa has been reported to suppress the accumulation of β-amyloids in brain in experimental studies and thus helps in memory retention and recovery. In silico studies have shown that Bacopasaponin G and Bacopasaponin N2 (saponins) might be responsible for the biological activity of bacopa.

 4. Ani-Depressant Activity

Bacopa is shown to exhibit anti-depressant activity in animal models through modulation of neurotransmitters such as serotonin, dopamine and GABA.

 5. Anti-Cancer Activity

Bacopa is reported to exhibit anti-tumour activity in animal models. This activity is due to induction of apoptosis, inhibition of cell proliferation and angiogenesis and  modulation of cancer-related signalling pathways.

 6. Anti-Inflammatory Activity

Bacopa is reported to possess anti-inflammatory activity. This property is mediated through inhibition of the production of pro-inflammatory cytokines, reduction in the activity of inflammatory enzymes and suppression of immune cell activation.

 7. Anti-Ulcerative Property

Recent studies have shown anti-ulcerative property of bacopa. It increases mucin secretion, enhances mucosal defence factors and promotes healing.

 8. Antioxidant Properties

Bacopa contains many phytochemicals including bacosides. These bioactive phytochemicals have antioxidant potential that helps in protecting against cell damage caused by free radicals.

 9. Sedative Activity

Bacopa possesses sedative properties and thus promotes relaxation and sleep. It is reported to express itself by modulating GABA receptors in the central nervous system.

 

TOXICITY AND SAFETY CONCERNS

Use in moderate quantity (3-5 g daily) is generally safe. In higher doses, it may cause nausea, diarrhoea and gastrointestinal problems.

 

REFERENCES

  1. Aguiar S, Borowski T (2013). Neuropharmacological review of the nootropic herb Bacopa monnieri. Rejuvenation Research 6:313–26.
  2. Akbar S (2020). Handbook of 200 Medicinal Plants: A Comprehensive Review of Their Traditional Medical Uses and Scientific Justifications. Springer.
  3. Bhattacharya SK, Ghosal S (1998). Anxiolytic activity of a standardized extract of Bacopa monnieri: an experimental study. Phytomedicine 5:77-82.
  4. Dhanasekaran M, Tharakan B, Holcomb LA (2007). Neuroprotective mechanisms of ayurvedic antidementia botanical Bacopa monnieri. Phytotherapy Research 21:965-969.
  5. Fatima U, Roy S, Ahmad S, Ali S, Elkady WM, Khan I, Alsaffar, MI,  Adnan M, Islam A and Hassan MI (2022). Pharmacological attributes of Bacopa monnieri extract: Current updates and clinical manifestation. Frontiers in Nutrition 9:972379. doi: 10.3389/fnut.2022.972379
  6. Jeyasri R, Muthuramalingam P, Suba V, Ramesh M and Chen J-T (2020). Bacopa monnieri and Bioactive Compounds Inferred Multi-Target Treatment strategy for Neurological Diseases: A Cheminformatics and System Pharmacology Approach. Biomolecules 10: 536; doi:10.3390/biom10040536
  7. Nishanth  BJ,  Vijayababu  P, and  Kurian  NK  (2023).  Bacopa  monnieri  Extract  as a  Neuroprotective  and Cognitive  Enhancement Agent.  International  Journal  of  Drug  Discovery  and  Pharmacology  2(4): https://doi.org/10.53941/ijddp.2023.100015.
  8. Rohini G, Devi CS (2008). Bacopa monnieri extract induces apoptosis in murine sarcoma cells (S-180). Phytotherapy Research 22:1595–1598.
  9. Russo A, Borrelli F (2005). Bacopa monnieri, a reputed nootropic plant: an overview. Phytomedicine12:305-317.
  10. Sharma S, Sonkar K, Singh V, Roy A and Ghotekar S (2021). Bacosides: a pharmaceutically important compound. Proceedings of the National Academy of Sciences, India Section B: Biological Sciences  91: 753–759.

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