Tag: Alternifolia

The tea tree oil MELALEUCA Tea Tree Natural Products on or THEIR OIL is a MIRACLE!

The tea tree oil MELALEUCA Tea Tree Natural Products on or THEIR OIL is a MIRACLE!

Melaleuca oil a wonderful natural remedy. Discover the incomparable virtues of health of the essential oil of tea tree from Australia.

Name (s) joint (s): Tea Tree Oil, Tea Tree.
Botanical name: Melaleuca alternifolia, Myrtaceae family.
Name (s) English: Tea tree.

Part (s) used (s): The leaves which takes an essential oil by distillation.
Habitat and origin: shrub or evergreen shrub confined to swampy areas of the northeast coast of Australia (New South Wales).

Indications: Their oil is used to prevent and treat infections of the skin and mucous membranes, such as: treat acne and buttons – Arthritis – Burns andsunburn – Cuts and abrasions – Bruises – Cystitis – Muscle aches – Boils and abscesses – herpes labialis – excema-Zona-Psoriasis-respiratory infections -vaginal Infections – Fungal Infections – onychomycosis-insect bites, athlete’s foot-Plaque dental – Varicose veins Warts-it-thrush gingivitis-dandruff.

The tea tree or Melaleuca oil from Australia is an extraordinary natural resource for our health.

Many scientific and medical research have recognized the therapeutic and hygiene of the essential oil of tea tree in Australia (and incorrectly named by Captain Cook) who has become a relatively recent addition, based on preparations pharmaceutical and natural antiseptic.
Natural relief for burns, cuts, bites, scratches and other minor injuries.

It helps to eliminate bacteria to promote the healing process. Penetrating -Provides benefits well below the upper layers of the skin. Soothing – Stopspain, burning and itching.
Solvent it dissolves residue and acts as a natural cleanser and disinfectant.
Non-caustic does not irritate most skin types (those whose skin is extremely sensitive may wish to dilute it in almond oil or olive oil).
Aromatic use the spray to provide a fresh herbal scent. Dr Penfold studied oil Their Dr A. R. Penfold was one of the first scientists to document the power of Their alternifolia oil.

He noted that: « The results of these investigations have not only exceeded my expectations, but have given results which, in practice, are far from those projected … The germicidal effectiveness of the oil … is due to the unique natural blend of their diverse constituents. « Also in the composition of hygiene products and cosmetics.

Research to develop other applications, including agriculture.

TEA TREE Oil MELALEUCA NATURAL PRODUCT Research Group oil Melaleuca Alternifolia TEA TREE

TEA TREE Oil MELALEUCA NATURAL PRODUCT Research Group oil Melaleuca Alternifolia TEA TREE

TEA TREE Hundreds of pages of independent research Oil Melaleuca alternifolia Tea tree.

Overview

The research group is involved in a range of diverse tea tree oil projects. We are currently investigating the effects of tea tree oil on biofilm formation and the efficacy of tea tree oil in clearing MRSA-positive wounds. More details are given about these projects below. In addition, Chelsea Papadopoulos is undertaking PhD studies investigating the mechanisms of bacterial resistance to tea tree oil and components. We have also taken part in reviewing the safety of tea tree oil and components as part of the response of the tea tree oil industry to the opinion on tea tree oil handed down by the Scientific Committee on Consumer Products (SCCP) in December 2005. More information about this response can be found at the ATTIA website. The results of previous research projects are described in RIRDC reports and/or journal publications.

Effects of tea tree oil on biofilm formation

Micro organisms commonly live in slime communities called biofilms, which provide significant protection from harmful environmental factors such as chemicals, antibiotics and the immune system. If tea tree oil is able to interfere with the generation, maintenance, structure or longevity of biofilm this could have important implications for medical or industrial situations where biofilm is a significant problem. The aims of this projects are to (1) Demonstrate that tea tree oil can inhibit the formation of microbial biofilm, (2) Investigate the effects of tea tree oil on existing biofilm, (3) Investigate the mechanism(s) by which biofilm formation is inhibited and (4) Explore potential medical and industrial applications of biofilm inhibition. This project is supported by RIRDC with matching funds from Gelair™ Pty. Ltd.

Effects of tea tree oil on chronic wounds

Chronic wounds such as venous leg ulcers are a significant source of morbidity, particularly in the elderly and their management may be difficult and protracted. They are frequently colonised by a range of bacteria and certain organisms such as methicillin-resistant Staphylococcus aureus (MRSA) have been associated with delayed healing. Patient-initiated use of TTO products in wound care has been noted by nursing staff of the Silver Chain Nursing Association prompting questions about its efficacy. Anecdotal evidence suggests that TTO may be beneficial but there are no clinical data to support its use in wounds. This work aims to address that deficiency. The two objectives of this project are: 1) To determine if TTO can eliminate methicillin-resistant Staphylococcus aureus from wounds. 2) To determine if TTO is a beneficial treatment for chronic wounds. These objectives will be achieved by seeking data on two outcomes: 1) Reduction of colonisation with MRSA 2) Time to wound healing This project is supported by RIRDC with matching funds from Novasel Pty. Ltd.

Potential mechanisms of tolerance to tea tree oil and components

The PhD project of Chelsea Papadopoulos is focused on investigating putative mechanisms of tolerance in Gram negative bacteria, in particular Pseudomonas aeruginosa. Her study commenced in 2004 and is supported by a scholarship from RIRDC. Kate Hammer has recently been awarded a Raine Priming grant (2006-2008) from the Raine Medical Research Foundation to investigate potential mechanisms of tolerance in Gram positive bacteria. This work will focus on staphylococci and enterococci.

 

University d’Australia