Live
- BJP MP candidate Bharat Prasad visited the student who tried to commit suicide
- PM’s popularity in the fast lane: Autos with 'Har Dil Mein Modi' slogan spotted across Delhi
- Delhi-based political parties are like East India Company: Sukhbir Badal
- Golf: Diksha moves into Top-20 at South African Women’s Open
- KCR lashes out against BJP and Congress for destroying Telangana
- Dairy Science students visited the Milk cooling plant
- Moody feels Pant ahead in keepers’ race for T20 WC squad; Srikkanth picks Rahul over Samson as reserve keeper
- Thanking voters for extending 'unparalleled support' to NDA, PM Modi says second phase 'too good'
- Natural Relief for Menstrual Cramps: Beetroot Juice Recipe
- Asha Worker died in a road accident
Scientists find cure for chronic wounds
National Centre for Biotechnology Information, National Institutes of Health, US
The findings of study have been published in the National Centre for Biotechnology Information, National Institutes of Health, US.
The findings of study have been published in the National Centre for Biotechnology Information, National Institutes of Health, US. Prof Nath said that a wound is defined as a breach in the skin or body tissues due to injury. An acute wound is defined as a "recent break that is yet to progress through sequential stages of healing".
The wounds where normal healing process is stalled due to underlying pathology (vascular and diabetes) or infection beyond three months is defined as chronic wound.
While chronic wounds always get infected, the contaminated wounds are reasonably susceptible to infection. Infection with antibiotic-resistant bacteria and biofilm formation halt healing progress. These wounds cause significant psychological and physical morbidity. The traditional treatment strategies often succeed in healing wounds, he said adding that many wounds have been observed recalcitrant to them, leading to persistence and recurrent infections. Search for alternatives to antibiotics has now become a compulsion.
Fortunately, bacteriophage therapy is a re-emerging solution to antibiotic-resistant bacteria. Prof Nath's team carried out phage therapy of acute and chronic infected wounds in animals and clinical studies. It showed efficacy against Pseudomonas aeruginosa in a mice wound model. Furthermore, they evaluated the efficacy of phage cocktails in animal models' acute and chronic osteomyelitis caused by methicillin-resistant Staphylococcus aureus. They also observed biofilm eradication from K wire in rabbits' wound infection model. Clinical trials of phage therapy initiated by the BHU have reported the efficacy of topical phage in healing chronic wounds in three prospective exploratory studies and no adverse events mimicking the results in vivo animal models. A clinical study by Gupta demonstrated the significant role of bacteriophage therapy in the chronic wounds associated with antibiotic-resistant bacteria. The study employed a total of twenty patients with chronic non-healing ulcers for more than six weeks duration. A significant improvement could be achieved in the form of complete wound epithelization within a few weeks.
