Although a constituent of chaparral has some anticancer qualities in vitro, there is no reliable clinical evidence of benefit. Chaparral is hepatotoxic and should not be used internally.

[LFODPKM ] Letter Key

Latin Name

Larrea tridentata (Sessé & Moc. ex DC.) Coville

Family

Zygophyllaceae

Other Common Names

Greasewood, creosote bush, hediondilla, gobernadora

Description

• A small woody, evergreen desert shrub with thorny stems and fleshy leaves that thrives in poor, sandy soil.
• It is common in the southwestern United States and Mexico.
• The plant has a pungent, acrid odor.

Part Used

Leaf

Known Active Constituents

• The lignan nordihydroguaiaretic acid (NDGA) constitutes 5% to 10% of the dry weight of leaves.
• Major secondary components are waxes, volatile compounds, saponins, and phenolics (the latter account for up to 91% of extractable dry weight). Phenolic compounds include flavonoid aglycones and glycosides, NDGA, and related lignans (including secoisolariciresinol, enterolactone, enterodiol, matairesinol, guaiaretic acid, dihydroguaiaretic acid, guaiaretic acid diquinone, and didehydrolarreatricin) (1).

Mechanism/Pharmacokinetics

• NDGA has antioxidant effects and inhibits cyclooxygenase and lipoxygenase pathways of arachidonic acid metabolism (2).
• Some components of chaparral have estrogenic and antiimplantation effects (1).
• NDGA competes with estradiol for binding to -fetoprotein and demonstrates estrogenic effects in an assay using pS2 expression (an estrogen-responsive protein in ER + MCF breast cancer cells) (3).

[Outline]

• LLatin Name
• FFamily
• OOther Common Names
• DDescription
• PPart Used
• KKnown Active Constituents
• MMechanism/Pharmacokinetics

[CAO ] Letter Key

Clinical Trials

• Psoriasis
  • In a trial of four patients with stable plaque psoriasis, NDGA was tested in concentrations of 0.5%, 1.0%, 2.0%, and 3.0% w/v. All concentrations were tested in all patients, using a grid system on selected plaque. Betamethasone 17-valerate 0.025% ointment was used as an active control. Each treatment was applied daily for 14 days (with occlusion); patients were examined and the area photographed each day. Only the steroid cream squares appeared normal after 10 days; other treated areas showed no change other than reduction in scaling, attributable to occlusion (4).
• Cancer
  • There is a case report of regression of rapidly growing recurrent malignant melanoma (previously excised three times) of the cheek in an 85-year-old man who, after refusing further medical treatment, began drinking 2 to 3 cups daily of chaparral tea; 10 months later the lesion had shrunk from 3 to 4 cm to 2 to 3 mm, satellite lesions had disappeared, a previous large, tender mass in the right inframandibular area had disappeared, and the patient had gained 25 pounds (5).
  • On the basis of the previous case and some experimental data, the National Cancer Institute (NCI) sponsored a yearlong clinical trial of NDGA in patients with advanced malignancy; some patients drank chaparral tea and others received pure NDGA (250 to 3,000 mg/day) (6). Of 45 evaluable outcomes, four remissions were reported (apparently including the malignant melanoma patient mentioned previously). The other remissions were another patient with melanoma (3-month remission), a patient with testicular choriocarcinoma metastasized to the lung (remission of 2 months), and a patient with lymphosarcoma (regression lasted 10 days). None of these "remissions" was lasting. Apparently this report, published in the Rocky Mountain Medical Journal (7), lacks relevant clinical detail (6).

Animal/In Vitro

• Cancer
  • NDGA and chaparral extracts have had mixed (predominately negative) effects in various animal tumor models (6).
• Renal effects
  • NDGA has been used to induce renal cystic disease in rats (2). In mice, NDGA markedly reduces both toxic and carcinogenic effects of the renal carcinogen ferric-nitrilotriacetate (8).
• Immunosuppression
  • In an in vivo model of allograft rejection in mice, NDGA had a beneficial effect (compared with a vehicle control) in preventing infiltration and subsequent cytotoxicity of sensitized effector cells without compromising basic cell functions (9).

Other Claimed Benefits/Actions

• Kidney problems
• Colds
• Arthritis
• Tuberculosis
• Chickenpox
• Gastrointestinal complaints
• Rheumatism (topical)
• Cuts, sores, bruises, burns (topical)
• Contraception
• Weight loss
• Liver tonic

[Outline]

• CClinical Trials
  • Psoriasis
  • Cancer
• AAnimal/In Vitro
  • Cancer
  • Renal effects
  • Immunosuppression
• OOther Claimed Benefits/Actions

[ADT ] Letter Key

Adverse Reactions

• Hepatotoxicity
  • Numerous cases of hepatotoxicity associated with chaparral ingestion have been reported. A review of 18 adverse effects associated with chaparral (11 associated with chaparral capsules or tablets and four associated with mixed products containing chaparral; for two patients no information on product was available) reported to the Food and Drug Administration (FDA) between 1992 and 1994 found that there was evidence of hepatotoxicity in 13 cases. The pattern was consistent and included jaundice; marked increases in liver function tests; and histopathologic features of hepatocellular necrosis, cholestasis, cholangitis, and cirrhosis (the predominant pattern of injury was drug-induced or toxic cholestatic hepatitis) (10). In 10 of these cases there was sufficient documentation to show that ingestion of chaparral and hepatotoxicity were related. Another report of two cases describes a 42-year-old woman who developed hepatitis 2 months after starting chaparral and a 71-year-old man who developed hepatitis 3 months after ingesting chaparral leaf daily; in the latter case the illness resolved with discontinuation and recurred with rechallenge (11). In another case, a severe cholangiolitic hepatitis was demonstrated in a patient who had taken chaparral tablets (160 mg/day) for 2 months (12).
• Autoimmune syndrome
  • A 40-year-old man developed a positive Coombs test after beginning a regimen of four chaparral tablets daily (13). After discontinuing the herb both direct and indirect antiglobulin tests decreased and became negative. Rechallenge with chaparral after 8 weeks resulted in a positive direct antiglobulin test after 5 weeks and a positive indirect antiglobulin test after 16 weeks (there was no evidence of decreased red cell survival).

Drug Interactions

• None reported. However, it would be expected that combination with other hepatotoxic drugs or herbs could increase the risk of hepatic injury.

Animal Toxicity

• NDGA is a known nephrotoxin and is used to induce renal cysts in rats (14).
• LD₅₀ in rats is 100 mg/kg in propylene glycol-water and 5,500 mg/kg orally. LD₅₀ is 800 mg/kg intraperitoneally with peanut oil. NDGA administered at 0.2% level chronically in drinking water of hamsters was without ill effect.

[Outline]

• AAdverse Reactions
  • Hepatotoxicity
  • Autoimmune syndrome
• DDrug Interactions
• TAnimal Toxicity

Common Dosage Forms

• The oral ingestion of chaparral is not recommended. It is often taken as tea, usually ½ cup up to q.i.d. Externally it is used as a poultice or as a salve.

• Wasn’t NDGA used in foods?
• Why aren’t there more cases of liver injury reported?
• Where does the Spanish name for this plant (gobernadora means governess) come from?
• Are some preparations of chaparral more toxic than others?

Q: Wasn’t NDGA used in foods?

A: Yes. Up until 1967 (when more effective antioxidants were introduced), NDGA was used in the United States as a food preservative in lard, oils, candies, baking mixes, frozen foods, and so forth at levels up to 0.02% (5).

Q: Why aren’t there more cases of liver injury reported?

A: As with other herb or drug hepatotoxins, there is varying susceptibility to hepatotoxic effects.

Q: Where does the Spanish name for this plant (gobernadora means governess) come from?

A: The plant crowds out other plants. Apparently the plant concentrates salts from the soil and falling leaves deposit these salts on the surface of the soil, creating an inhospitable environment for other plants.

Q: Are some preparations of chaparral more toxic than others?

A: Teas may be much safer than tablets, capsules, or alcohol extracts. Most (although not all) cases of chaparral toxicity have been linked to capsules or tablets, which may be much more toxic than teas simply because eating the leaves provides a larger dose of NDGA and other compounds; a hot water infusion is not very efficient at extracting these compounds. High-pressure liquid chromatography (HPLC) chromatograms of a methanolic extract of chaparral compared with chaparral tea found that the methanolic extract extracted much more NDGA (and other lignans) than the aqueous extract (1). Alcohol extracts of chaparral, tablets, and capsules are currently available; their use should be strongly discouraged. Chaparral tea is most likely less toxic but may not be completely benign. Given the lack of evidence of any benefit, all internal uses of chaparral should be discouraged. There is no evidence that external application is harmful (or, for that matter, beneficial).

1. Obermeyer WR, Musser SM, Betz JM et al. Chemical studies of phytoestrogens and related compounds in dietary supplements: flax and chaparral. Proc Soc Exp Biol Med 1995;208:6–12.
2. Gardner KD Jr, Reed WP, Evan AP et al. Endotoxin provocation of experimental renal cystic disease. Kidney Int 1987;32:329–334.
3. Sathyamoorthy N, Wang TTY, Phang JM. Stimulation of pS2 expression by diet-derived compounds. Cancer Res 1994;54:957–961.
4. Newton JA, Boodle KM, Dowd PM et al. Topical NDGA (nordihydroguaiaretic acid) in psoriasis. Br J Dermatol 1988;199:404–406.
5. Smart CR, Hogle HH, Robins RK et al. An interesting observation on nordihydroguaiaretic acid (NSC-4291; NDGA) and a patient with malignant melanoma—a preliminary report. Cancer Chemother Rep Part 1 1969;53:147–151.
6. US Congress, Office of Technology Assessment. Unconventional cancer treatments. Washington, DC: US Government Printing Office, September 1999:70–71; OTA-H-405.
7. Smart CR, Hogle HH, Vogel H et al. Clinical experience with nordihydroguaiaretic acid. Rocky Mountain Med J 1970;11:39–43.
8. Ansar S, Iqbal M, Athar M. Nordihydroguairetic acid is a potent inhibitor of ferric-nitrilotriacetate-mediated hepatic and renal toxicity, and renal tumour promotion, in mice. Carcinogenesis 1999;20:599–606.
9. Jordan ML, Hoffman RA, Simmons RL. Prevention of experimental allograft rejection by nordihydroguaiaretic acid. Transplant Proc 1987;19:1307.
10. Sheikh NM, Philen RM, LoveLA. Chaparral-associated hepatotoxicity. Arch Intern Med 1997;157:913–919.
11. Batchelor WB, Heathcote J, Wanless IR. Chaparral-induced hepatic injury. Am J Gastroenterol 1995;90:831–833.
12. Alderman S, Kailas S, Goldfarb S et al. Cholestatic hepatitis after ingestion of chaparral leaf: confirmation by endoscopic retrograde cholangiopancreatography and liver biopsy. J Clin Gastroenterol 1994;19:242–247.
13. Tregellas WM, South SF. Autoimmune syndrome induced by chaparral ingestion. Transfusion 1980;20:647–648.
14. Evan AP, Gardner KD Jr. Nephron obstruction in nordihydroguaiaretic acid-induced renal cystic disease. Kidney Int 1979;15:7–19.