Difference between revisions of "St John's wort"

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St John's wort
Saint johns wart flowers.jpg
Plant Info
Scientific classification
Kingdom: Plantae
Division: Magnoliophyta
Class: Magnoliopsida
Order: Malpighiales
Family: Clusiaceae
Genus: Hypericum
Species: H. perforatum

Binomial name
Hypericum perforatum
L.

St John's wort (IPA pronunciation: General American [-wɝt], Received Pronunciation [wɜːt], rhyming with fort) used alone refers to the species Hypericum perforatum, also known as Tipton's Weed or Klamath weed, but, with qualifiers, is used to refer to any species of the genus Hypericum. Therefore, H. perforatum is sometimes called Common St John's wort to differentiate it. The species of Hypericum have been placed by some in the family Hypericaceae, but more recently have been included in the Clusiaceae.Template:Fact Approximately 370 species of the genus Hypericum exist worldwide with a native geographical distribution including temperate and subtropical regions of North America, Europe, Asia Minor, Russia, India and China.

The plant

Hypericum perforatum is a yellow-flowering, rhizomatous, perennial herb indigenous to Europe, which has been introduced to the Americas and grows wild in many meadows. The common name comes from its traditional flowering and harvesting on St John's day, 24 June. The genus name Hypericum is derived from the Greek words hyper (above) and eikon (picture), in reference to the traditional use of the plant to ward off evil, by hanging plants over a picture in the house during St John's day. The species name perforatum refers to the presence of small oil glands in the leaves that look like windows, which can be seen when they are held against the light.

Although Hypericum perforatum is grown commercially in some regions of south east Europe, it is listed as a noxious weed in more than twenty countries. In pastures, St John’s wort acts as both a toxic and invasive weed.[1] It replaces useful vegetation to the extent of making productive land unviable or acts as an alien species in natural ecosystems. Ingestion by livestock can cause photosensitization, central nervous system depression, spontaneous abortion, and can lead to death. Effective herbicides for control of Hypericum include 2,4-D, picloram, and glyphosate. In western North America three beetles Chrysolina quadrigemina, Chrysolina hyperici and Agrilus hyperici have been introduced as biocontrol agents.

Identification

St John’s wort can be visually recognized by leaf and flower type. Yellow, five petaled flowers approximately 20 mm across occur between late Spring and early to mid Summer. Leaves exhibit obvious translucent dots when held up to the light, giving them a ‘perforated’ appearance, hence the plant's Latin name. When flowers or seed pods are crushed, a reddish/purple liquid is produced.

The translucent dots on the St John's wort leaves

Botanical description

St John's wort is a perennial plant with extensive, creeping rhizomes. Its stems are erect, branched in the upper section, and can grow to 1 m high. It has opposing, stalkless, narrow, oblong leaves which are 12 mm long or slightly larger. The leaves are yellow-green in color, with transparent dots throughout the tissue and occasionally with a few black dots on the lower surface. Its flowers measure up to 2.5 cm across, have five petals, and are colored bright yellow with conspicuous black dots. The flowers appear in broad cymes at the ends of the upper branches. The sepals are pointed, with glandular dots in the tissue. There are many stamens, which are united at the base into three bundles.

Ecology

St John’s wort has a complex life cycle that includes a mature plant cycle with vegetative and sexual reproduction. It thrives in areas with either a winter- or summer-dominant rainfall pattern; however, distribution is restricted by temperatures too low for seed germination or seedling survival. Altitudes greater than 1500 m, rainfall less than 500 mm, and a daily mean January temperature greater than 24 degrees are considered limiting thresholds. Depending on environmental and climatic conditions, and rosette age, St John’s wort will alter growth form and habit to promote survival. Summer rains are particularly effective in allowing the plant to grow vegetatively, following defoliation by insects or grazing.

Hypericum poisoning (livestock)

Clinical signs

At large doses, St John's wort is poisonous to grazing livestock (cattle, sheep, goats, horses).[2] Behavioural signs of poisoning are general restlessness and skin irritation. Restlessness is often indicated by pawing of the ground, head shaking, head rubbing, and occasional hindlimb weakness with knuckling over, panting, confusion and depression. Mania and hyperactivity may also result including running in circles until exhausted. Observations of thick wort infestations by Australian graziers include the appearance of circular patches giving hillsides a ‘crop circle’ appearance, possibly from this phenomenon. Animals typically seek shade and have reduced appetite. Hypersensitivity to water has been noted, and convulsions may occur following a knock to the head. Although general aversion to water is noted, some may seek water for relief.

Severe skin irritation is physically apparent, with reddening of non-pigmented and unprotected areas. This subsequently leads to itch and rubbing, followed by further inflammation, exudation and scab formation. Lesions and inflammation that occur are said to resemble the conditions seen in foot and mouth disease. Sheep have been observed to have face swelling, dermatitis, and wool falling off due to rubbing. Lactating animals may cease or have reduced milk production, pregnant animals may abort. Lesions on udders are often apparent. Horses may show signs of anorexia, depression (with a comatose state), dilated pupils, and injected conjunctiva.

Early diagnosis

Increased respiration and heart rate is typically observed while one of the early signs of St John’s wort poisoning is an abnormal increase in body temperature. Affected animals will lose weight, or fail to gain weight; young animals more affected than old animals. In severe cases death may occur, as a direct result of starvation, or because of secondary disease or septicaemia of lesions. Some affected animals may accidentally drown. Poor performance of suckling lambs (pigmented and non-pigmented) has been noted, suggesting a reduction in the milk production, or the transmission of a toxin in the milk.

Photosensitisation

Most clinical signs are caused by photosensitisation.[3] Plants may induce either primary or secondary photosensitisation: primary photosensitisation directly from chemicals contained in ingested plants, or secondary photosensitisation from plant-associated damage to the liver. Araya and Ford (1981) explored changes in liver function and concluded there was no evidence of Hypericum-related effect on the excretory capacity of the liver, or any interference was minimal and temporary. However, at high and continuous dose rates changes in blood plasma indicative of some liver damage have been observed.

Photosensitisation causes skin inflammation by a mechanism involving a pigment or photodynamic compound, which when activated by a certain wavelength of light leads to oxidation reactions in vivo. This leads to lesions of tissue, particularly noticeable on and around parts of skin exposed to light. Lightly covered or poorly pigmented areas are most conspicuous. Removal of affected animals from sunlight results in reduced symptoms of poisoning.

Use as Antidepressant

In modern medicine, standardized Hypericum extract (obtained from H. perforatum) is commonly used as a treatment for depression and anxiety disorders. In homeopathy, Hypericum is used in the treatment of numerous medical problems, yet the rate of success has not been adequately documented.

St John's wort is today most widely known as a herbal treatment for depression. In some countries, such as Germany, it is commonly prescribed for mild depression, especially in children, adolescents, and where cost is a concern.[4] Standardized extracts are generally available over the counter – however, in some countries (such as Ireland) a prescription is required. Extracts are usually in tablet or capsule form, and also in teabags and tinctures.

Clinical evidence

Seedlings of St John's wort

Clinical studies of St John's wort preparations have mainly focused on the efficacy of the herb in clinical depression. Several studies and meta-analyses have found it to be effective in the treatment of mild to moderate depression, with fewer side effects than many conventional antidepressants. Other studies, including a major NIH study that focused on moderate to severe depression, have shown no improvements.[5]

Evidence for efficacy

An early meta-study indicated that extracts of Hypericum may be more efficacious than placebo for the treatment of mild to moderately severe depressive disorders.[6] This study, which covered the results from 23 smaller, earlier studies, is perhaps the most often cited by manufacturers and other supporters of St John's wort.

This study was later updated to include further studies, for a total of 27, to form a Cochrane Review. The updated review found that Hypericum preparations were significantly superior to placebo (rate ratio 2.47; 95% confidence interval 1.69 to 3.61) and similarly effective as standard antidepressants (single preparations 1.01; 0.87 to 1.16, combinations 1.52; 0.78 to 2.94).[7]

Another meta-analysis, with stricter inclusion criteria, found that Hypericum was more efficacious than placebo; and as efficacious as tricyclic antidepressants, with fewer adverse drug reactions.[8] This meta-analysis showed that the response rate for St John’s wort was significantly greater than that for placebo (73.2 versus 37.9%, respectively, relative risk 1.48 and 95% CI 1.03–1.92) and similar to that observed with tricyclic antidepressants (64 versus 66.4% for St John’s wort and tricyclic antidepressants, respectively, relative risk 1.11 and 95% CI 0.92–1.29).

Other, more recent trials have also shown greater efficacy than placebo, and comparable efficacy to standard antidepressants with a superior adverse effect profile.[9][10][11][12][13][14][15]

Additionally, a 2006 study involving 150 patients with minor depressive symptoms or dysthymia found that St John's wort has a clinically significant effect in patients with minor depression, but not those suffering from dysthymia. It was concluded that St John's wort can be effective in the treatment of people with minor depression with a Hamilton Depression Scale for Depression (HAM-D) score of up to 17.[16]

Evidence against efficacy for Major Depressive Disorder

A major study funded by the NIH in the United States failed to find any evidence that Hypericum extract of St John's wort was effective in treating moderate to severe cases of major depression (Hypericum Depression Trial Study Group, 2002). This study involved 340 patients, diagnosed with Major Depressive Disorder based on DSM-IV criteria and assessed using Hamilton Depression Rating Scale (HAM-D) and Clinical Global Impression (CGI) scores. The trial was a multi-centre randomised double-blind placebo-controlled trial, comparing one preparation of St John's wort (Li 160) to the antidepressant sertraline, and to placebo. No statisticallly significant effect was garnered from Li 160. Sertraline was also no better than placebo in this study, based on the primary outcome measure (the HAM-D).[17]

Pharmacology

The exact mechanism by which St John's wort — and even conventional antidepressants — functions is unclear and subject to conjecture.

The St John's wort mechanism is believed to involve inhibition of serotonin (5-HT) reuptake, much like the conventional selective serotonin reuptake inhibitor (SSRI) antidepressants.

The major active antidepressive constituents in St John's wort are thought to be hyperforin and hypericin, although other biologically active constituents present, for example, flavonoids and tannins, may also be involved.[18]

Some believe that hyperforin is the major constituent responsible for antidepressant activity, and it has been shown to inhibit the uptake of 5-HT, dopamine, noradrenaline, GABA and glutamate.[19] On the other hand, a hyperforin free extract of St John's wort (Ze 117 - Remotiv) has been shown to have significant antidepressive effects.[9][10] Therefore current thinking is that the whole extract should be considered the "active ingredient" and that one or two constituents cannot explain the activity of the product.Template:Fact

Dosage and formulations

The dosage and content of St John's wort preparations vary greatly between formulations, because of variability in the plant source and preparation processes. The doses of St John’s wort extract used in clinical trials generally range from 350 to 1800 mg daily (equivalent to 0.4 to 2.7 mg hypericin depending on the preparation).[7] Because of the variable nature of herbal medicines, the clinical trial results using one product cannot be extrapolated to other products containing the same herb (just as a prize winning wine is not the same as everything else made from grapes). Only a handful of products made from St John's wort have been used in clinical studies (for example, Li 160 and Ze 117).

The recommended dosage for various forms of St John's wort as recommended by the British Herbal Medicine Association Scientific Committee (1983)Template:Fact are as follows:

  • dried herb: 2-4 g or by infusion three times daily
  • liquid extract 2-4 mL (1:1 in 25% alcohol) three times daily
  • tincture 2-4mL (1:10 in 45% alcohol) three times daily

In markets where standardised extracts are not available, the content of marketed products can vary widely. Some brands of over-the-counter St John's wort can have a totally different chemical profile than others. The same can even be true of two dosage units from different batches of the same brand. Even where extracts are standardised it is debatable whether using hypericin as the standard is useful, since other constituents including hyperforin are biologically active.

As with other antidepressants, Hypericum should be taken for at least four weeks before its effectiveness can be properly assessed.

Other medical uses

In addition to antidepressant, there are other medical uses for St John's wort:

It may also decrease alcohol intake. discovered that hyperforin, (found in the plant), appears to be the reason why.[20]

The aerial parts of the plant can be cut and dried for later use in the form of herbal tea with pleasant, though somewhat bitter, taste and for its medicinal properties.

Hyperforin, a major constituent, has also been found to have excellent antibacterial properties; in ultrapurified form a concentration of 0.1 mg/ml kills methicillin-resistant forms of Staphylococcus aureus (MRSA).[21]

Adverse effects

St John's wort is generally well tolerated, with an adverse effect profile similar to placebo.[22] The most common adverse effects reported are gastrointestinal symptoms, dizziness, confusion, tiredness and sedation.[23]

St John's wort may rarely cause photosensitivity. This can lead to visual sensitivity to light and to sunburns in situations that would not normally cause them.[22]

Some research shows that St John's wort may adversely affect fertility in both men and women.[24]

St John's wort has been known to instigate mania in bipolar patients and for these people it should be used with caution, just as with any anti-depressant.[25][26]

Caution is also recommendedTemplate:Who when discontinuing use.

Besides, there are many drug interactions of St John's Wort, inducing or inhibiting the effects of other medications:

Drug interactions

Pharmacokinetic interactions

St John's wort has been shown to cause multiple drug interactions mainly through induction of the cytochrome P450 enzyme CYP3A4, but also CYP2C9. This results in the increased metabolism of those drugs, resulting in decreased concentration and clinical effect. The principal constituent thought to be responsible is hyperforin.

Examples of drugs causing clinically-significant interactions with St John's wort
Class Drugs
antiepileptics carbamazepine, phenytoin
antiretrovirals non-nucleoside reverse transcriptase inhibitors, protease inhibitors
benzodiazepines alprazolam, midazolam
hormonal contraception combined oral contraceptives
immunosuppressants calcineurin inhibitors, ciclosporin, tacrolimus
others digoxin, methadone, omeprazole, phenobarbitone, theophylline, warfarin, levodopa
Reference: Rossi, 2005

For complete list, see CYP3A4#CYP3A4 ligands and CYP2C9#CYP2C9 Ligands. For further updating on interactions and appropriate management, see Herbological.com - S:t John's Wort Interactions table.

Contraceptives

St John's wort may interact with birth control pills and may reduce the effectiveness of oral contraceptives. However, while breakthrough bleeding was observed to occur in the Swedish MPA study (the sample size of 8 women was small enough that the effect could not be differentiated from common breakthrough bleeding), no cases of pregnancy due to contraceptive/St John's wort interactions have been found in the literature despite over 20 years of widespread prescription in Germany.[27][28][29]

Pharmacodynamic interactions

St John's wort may also contribute to serotonin syndrome in combination with other drugs which may elevate 5-HT (serotonin) levels in the central nervous system (CNS).[30]

Drugs which may contribute to serotonin syndrome with St John's wort
Class Drugs
antidepressants MAOIs, TCAs, SSRIs, mirtazapine, venlafaxine
opioids tramadol, pethidine
CNS stimulants phentermine, diethylpropion, amphetamines, sibutramine
5-HT1 agonists triptans
illicit drugs methylenedioxymethamphetamine (MDMA), lysergic acid diethylamide (LSD), cocaine
others selegiline, tryptophan, buspirone, lithium, linezolid, dextromethorphan, 5-HTP
Reference: Rossi, 2005

History

The first recorded use of Hypericum for medicinal purposes dates back to ancient Greece, and it has been used ever since. Hypericum was also used by Native Americans internally as an abortifacient and externally as an anti-inflammatory, astringent, and antiseptic.

Its use as aherbal tea has long been enjoyed.

The flowers and stems of St John's wort have also been used to produce red and yellow dyes.

References

  1. http://www.northwestweeds.nsw.gov.au/st_johns_wort.htm
  2. http://www.northwestweeds.nsw.gov.au/st_johns_wort.htm
  3. http://www.northwestweeds.nsw.gov.au/st_johns_wort.htm#effect_on_animals
  4. Fegert J, Kölch M, Zito J, Gaeske G, Janhsen K (2006). Antidepressant Use in Children and Adolescents in Germany. Journal of Child and Adolescent Psychopharmacology 16, 197-206.
  5. Hypericum Depression Trial Study Group. Effect of Hypericum perforatum (St John's wort) in major depressive disorder: a randomized controlled trial. Journal of the American Medical Association. 2002;287(14):1807–1814.
  6. Linde K, Ramirez G, Mulrow CD, Pauls A, Weidenhammer W, Melchart D (1996). St John’s wort for depression – an overview and meta-analysis of randomised clinical trials. Br Med J 313, 253–258.
  7. 7.0 7.1 Linde K, Mulrow CD (2003). St John's wort for depression (Cochrane Review). In: The Cochrane Library, Issue 3, 2004. Chichester, UK: John Wiley & Sons, Ltd.
  8. Kim HL, Streltzer J, Goebert D (1999). St. John's wort for Depression: A Meta-Analysis of Well-Defined Clinical Trials. J Ment Nerv Dis 187 (9), 532-538.
  9. 9.0 9.1 Woelk H, et al. (2000). Comparison of St John's wort and imipramine for treating depression: randomised controlled trial. Br Med J 321, 536-9.
  10. 10.0 10.1 Schrader E, et al. (2000). Equivalence of St John's wort extract (Ze 117) and fluoxetine: a randomised, controlled study in mild-moderate depression. Int Clin Psychopharmacology 15, 61-68.
  11. Laakmann G, Schule C, Baghai T, Kieser M (1998). St. John's wort in mild to moderate depression: the relevance of hyperforin for the clinical efficacy. Pharmacopsychiatry 31 (Suppl 1), 54-9.
  12. Harrer G, Schmidt U, Kuhn U, Biller A (1999). Comparison of equivalence between the St. John's wort extract LoHyp-57 and fluoxetine. Arzneimittelforschung 49 (4), 289-96.
  13. Philipp M, Kohnen R, Hiller KO (1999). Hypericum extract versus imipramine or placebo in patients with moderate depression: randomised multicentre study of treatment for eight weeks. Br Med J 319 (7224), 1534-8.
  14. Szegedi A, Kohnen R, Dienel A, Kieser M (2005). "Acute treatment of moderate to severe depression with hypericum extract WS 5570 (St John's wort): randomised controlled double blind non-inferiority trial versus paroxetine". BMJ 330 (7490): 503–506. http://bmj.bmjjournals.com/cgi/content/abstract/330/7490/503. 
  15. Lecrubier et al. "Efficacy of St. John's wort extract WS 5570 in major depression: a double-blind, placebo-controlled trial." Am J Psychiatry. 2002 Aug;159(8):1361-6. PMID 12153829
  16. C. Randløv, J. Mehlsen, C.F. Thomsen, C. Hedman, H. von Fircks and K. Winther. "The efficacy of St. John's Wort in patients with minor depressive symptoms or dysthymia - a double-blind placebo-controlled study" Phytomedicine. 2006 March; 13(4): 215–221. PMID 16423519.
  17. Hypericum Depression Trial Study Group (2002). Effect of Hypericum perforatum (St John's Wort) in Major Depressive Disorder. JAMA 287 (14), 1807-1814. PMID 11939866
  18. Nahrstedt A, Butterweck V (1997). Biologically active and other chemical constituents of the herb of Hypericum perforatum L. Pharmacopsychiatry 30 (Suppl 2), 129-34.
  19. Chatterjee SS, Bhattacharya SK, Wonnemann M, Erdelmeier C (1998b). Antidepressant activity of hypericum perforatum and hyperforin: the neglected possibility. Pharmacopsychiatry 31 (Suppl 1), 7-15.
  20. UK Bradford School of Pharmacy
  21. wissenschaft-online.de (in German)
  22. 22.0 22.1 Ernst E, Rand JI, Barnes J, Stevinson C (1998). Adverse effects profile of the herbal antidepressant St. John's wort (Hypericum perforatum L.). Eur J Clin Pharmacol 54 (8), 589-94.
  23. Barnes J, Anderson LA, Phillipson JD (2002). Herbal Medicines: A guide for healthcare professionals (2 ed.) London: Pharmaceutical Press. ISBN 0-85369-474-5.
  24. Stahl, SM (2000). Essential psychopharmacology: neuroscientific basis and practical applications, Cambridge: Cambridge University Press, 2nd ed, page 266.
  25. http://bipolar.about.com/cs/menu_nutrition/a/0011_stjohns.htm
  26. http://www.pendulum.org/treatments.htm
  27. http://www.herbological.com/images/downloads/SJW.pdf
  28. Pfrunder, Arabelle; Monika Schiesser, Simone Gerber, Manuel Haschke, Johannes Bitzer, Juergen Drewe (December 2003). "Interaction of St John's wort with low-dose oral contraceptive therapy: a randomized controlled trial". British Journal of Clinical Pharmacology 56 (6): 683-690. doi:10.1046/j.1365-2125.2003.02005.x. http://www.blackwell-synergy.com/links/doi/10.1046/j.1365-2125.2003.02005.x/abs/. Retrieved February 3, 2007. 
  29. Schwarz, Ute I.; Barbara Büschel, W. Kirch (January 2003). "Unwanted pregnancy on self-medication with St John's wort despite hormonal contraception". British Journal of Clinical Pharmacology 55 (1): 112-113. doi:10.1046/j.1365-2125.2003.01716.x. http://www.blackwell-synergy.com/links/doi/10.1046/j.1365-2125.2003.01716.x/full/?cookieSet=1. Retrieved February 3, 2007. 
  30. Rossi S (Ed.) (2005). Australian Medicines Handbook 2005. Adelaide: Australian Medicines Handbook. ISBN 0-9578521-9-3.

Further reading

  • British Herbal Medicine Association Scientific Committee (1983). British Herbal Pharmacopoeia. West Yorkshire: British Herbal Medicine Association. ISBN 0-903032-07-4

See also

External links

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