Time doesn’t heal you. You heal you.
China invaded and conquered Tibet. You all understand that, right? The Dalai Lama, who is officially the reincarnation of Buddha, lives in India because China conquered his home country, destroyed his temples, and slaughtered his monks. You all know this, right?
You know that Tibet was not originally part of China, and that ethnic Han Chinese have colonized Tibet after they systematically erased the local culture, destroyed Buddhist sites and artifacts, marginalized ethnic Tibetans as second-class citizens, and massacred anyone who resisted their military invasion?
One of my all-time favorite stories has an update. In 2015, microbiologists at the University of Nottingham collaborated with an Anglo-Saxon expert from the university’s English department to recreate a 10th century recipe for a salve purported to treat eye infections. The combination of onion, garlic, wine and bovine bile steeped together in a bronze or brass vessel was then tested on flourishing cultures of Methicillin-resistant Staphylococcus aureus (MRSA) and found to be a MRSA-killing machine. The individual ingredients did nothing; the control batch minus the vegetable ingredients did nothing. The full salve obliterated 999 Staphylococcus cells in 1,000, both for in vitro cultures and in vivo on infected mice. Even a diluted version of the salve was a powerful weapon. It couldn’t kill MRSA, but it blocked the bacterial cell-cell communication it needs to damage tissue.
The results were exciting but the research was in its infancy five years ago. Now the team has published a new paper on the use of Bald’s eyesalve on a range of pathogens in biofilms, communities of bacteria that form a protective shield that is to all intents and purposes impossible to destroy no matter how many antimicrobials you launch at it. Most pharmacological studies of plant ingredients focus on isolating active compounds and using them against planktonic (free-living) bacteria cells which are easier to kill than biofilms. This study explored the antimicrobial properties of the mixture.
Biofilm infections of wounds (e.g. burns, diabetic foot ulcers), medical implants (e.g. artificial joints, catheters), the lungs (e.g. in cystic fibrosis) and other body sites impose a major health and economic burden and can be effectively untreatable. Non-healing, infected foot ulcers, which can be a complication of diabetes, provide an especially sobering example. Even if the infection is apparently successfully treated, there is a high chance of recurrence and an estimated 50% of those affected die within 5 years of ulcer development. Management of diabetic foot ulcers costs the UK’s NHS £650 M per year. […]
Each of Bald’s eyesalve ingredients has known antimicrobial properties or compounds (onion and garlic, bile, wine). We explored the contribution of all four ingredients to both planktonic and biofilm activity of Bald’s eyesalve to build a picture of their relative contributions. Planktonic activity appeared almost entirely attributable to garlic. However, tests against S. aureus Newman biofilms, grown in a synthetic wound model, showed garlic exhibited no antibacterial activity in this more clinically-relevant setting. In fact, no preparation which omitted any one ingredient possessed full activity in the biofilm assay. This confirms our previously published finding that Bald’s eyesalve anti-biofilm activity is contingent on the presence of all four ingredients.
The Voltron force of Bald’s eyesalve was able to completely eradicate planktonic cultures of a number of bacteria including P. aeruginosa, A. baumannii, E. cloacae, S. maltophilia, S. aureus, S. epidermidis, S. pyogenes and MRSA. It was also able to slaughter cells in biofilms S. aureus Newman, A. baumannii and S. pyogenes. Interestingly, while the salve was effective against planktonic cultures of P. aeruginosa, E. cloacae and S. maltophilia, it was ineffective against their biofilms. This discovery underscores how important it is to include biofilms in any studies of antibacterial compounds because being able to kill planktonic cultures bears no relation to being able to break down biofilm.
Because people asked in the comments five years ago (and are still asking today), here’s the recipe for Bald’s eyesalve used by the research team.
Garlic and onions were purchased from supermarkets or greengrocers. As lab work continued throughout all seasons of the year, and was conducted in two locations (Warwick and Nottingham), it is possible that different varieties of garlic and onion, or the same variety grown in different locations, were used in different batches of the eyesalve. The outer skin of the garlic and onion (sourced from local greengrocers) was removed. The garlic and onion were finely chopped, and equal volumes of garlic and onion were crushed together using a mortar and pestle for 2 min. Various sized batches of Bald’s eyesalve were used throughout this paper, ranging from final volumes of 30 ml–400 ml, the average weight used was 14.1 ± 1.5 g of onion and 15.0 ± 1.3 g of garlic per 100 ml of Bald’s eyesalve.
The crushed onion and garlic were then combined with equal volumes of wine (Pennard’s organic dry white, 11% ABV, sourced from Avalon Vineyard, Shepton Mallet) and bovine bile salts (Sigma Aldrich) made up to 89 mg·ml−1 in water and sterilised by exposing to UV radiation for 10 min (Carlton Germicidal Cabinet fitted with a 2537 Å, 8-W UV tube). The mixture was stored in sterilised glass bottles in the dark at 4 °C for 9 days, after which it was strained and centrifuged for 5 min at 1,811 g. The supernatant was then filtered using Whatman 1,001–110 Grade 1 Qualitative Filter Paper, Diameter: 11 cm, Pore Size: 11 μm. Filtered Bald’s eyesalve was stored in sterilised glass vials in the dark at 4 °C.
A little more specific than Oswald Cockayne’s original instructions in the incomparable Leechdoms, Wortcunning, and Starcraft of Early England and not exactly easily reproduced in the home. Still, at least the proportions are there for any adventurous souls.