Prevention of poison ivy dermatitis with oral homeopathic Rhus toxicodendron.

Acute allergic contact dermatitis to poison ivy is acommon and miserable dermatosis which affectsmillions of Americans each year. Preventativemeasures, such as avoidance, protective clothing,barrier creams, soaps, and solvents often fail despiteour patients' best attempts. Severe allergic reactionsto poison ivy are a significant source of decreasedemployee productivity owing to inability to work anda major health care expenditure. Patients may haveto leave their jobs and discontinue favorite outdoorrecreational activities as a result of severe urushiolsensitivity. Thus, a simple and effective method ofpreventing poison ivy dermatitis would be of greatbenefit to clinical dermatologists and their patients.Complementary and alternative medical practitionerscommonly prescribe homeopathic poison ivyproducts by mouth for the prevention of poisonivy dermatitis. Yet, conventional dermatologists aremostly unaware of this little known clinical pearl. Theauthor discusses two open studies and anecdotalexperience with administration of homeopathicpoison ivy in the prevention of acute allergic contactdermatitis related to poison ivy exposure. Potentialadvantages could include patient acceptability,ease of administration, affordability, and availability.Randomized clinical trials are needed to furtherevaluate the safety and efficacy of this interesting andpromising clinical tip.

Urushiol detection using a profluorescent nitroxide.

A method to visually detect minute amounts of urushiol, the toxic catechol from poison oak, poison ivy, and poison sumac, has been developed utilizing the reaction of a profluorescent nitroxide with the B-n-butylcatecholboronate ester formed in situ from urushiol and B-n-butylboronic acid. The resulting N-alkoxyamine is strongly fluorescent upon illumination with a fluorescent lamp, allowing the location of the toxic urushiol contamination to be visualized. This methodology constitutes the groundwork for the future development of a spray to detect urushiol to avoid contact dermatitis, as well as to detect catecholamines for biomedical applications.

The effectiveness of jewelweed, Impatiens capensis, the related cultivar I. balsamina and the component, lawsone in preventing post poison ivy exposure contact dermatitis.

ETHNOPHARMACOLOGICAL RELEVANCE: Impatiens capensis (jewelweed) is native to the Eastern and Midwestern US and Canada. Many Native American tribes used I. capensis and its close relatives to treat/prevent rash from plant sources particularly Toxicodendron radicans and Urtica dioica. I. balsamina (garden balsam) a native of China was used by the indigenous people of Asia for similar purposes. AIM OF STUDY: This study aims to validate ethnopharmacological use of jewelweed in poison ivy (PI) dermatitis prevention and to refute scientific papers denying this efficacy. Additionally, the content of lawsone, the purported effective agent in jewelweed preparations, was measured to see if its concentration correlated with jewelweed preparation efficacy. MATERIAL AND METHODS: Poison ivy was brushed onto forearms of volunteers in 6 locations and exposed areas were treated with jewelweed extracts, fresh plant mashes, soaps made of plant extracts, water and Dawn® dish soap. Rash development was scored on a scale of 0-14. RESULTS: Jewelweed mash was effective in reducing poison ivy dermatitis, supporting ethnobotanical use. However, jewelweed extracts were not effective; and soaps made of these extracts were effective but no more so than jewelweed-free soaps. Lawsone content varied with harvest season and did not appear to affect rash development. CONCLUSION: Jewelweed is an efficacious plant for preventing development of dermatitis following poison ivy contact, but soap is more effective. Lawsone content does not correlate with PI rash prevention. Perhaps saponins, the soapy component of jewelweed are the effective agents.