Difference between revisions of "Team:Warwick/Human Practices"

m
m
Line 199: Line 199:
 
After some discussion with Eunice Chan, an Intellectual Property (IP) lawyer , we were told that in order to patent a product, it needs to be new or be combined in a new way. Patents cannot be applied if they have been introduced into the public domain. This prompted us to compile an intellectual property guidebook which would serve as a guide for other teams when considering which type of trademark applications they should go for. Furthermore, in line with the recent blockchain developments, we posed the question of whether is blockchain technology the future of synthetic biology intellectual property protection. The full version of the guidebook can be found here: (link to Blockchain in IP tab)
 
After some discussion with Eunice Chan, an Intellectual Property (IP) lawyer , we were told that in order to patent a product, it needs to be new or be combined in a new way. Patents cannot be applied if they have been introduced into the public domain. This prompted us to compile an intellectual property guidebook which would serve as a guide for other teams when considering which type of trademark applications they should go for. Furthermore, in line with the recent blockchain developments, we posed the question of whether is blockchain technology the future of synthetic biology intellectual property protection. The full version of the guidebook can be found here: (link to Blockchain in IP tab)
 
                                   </p>
 
                                   </p>
                                   <img src='https://static.igem.org/mediawiki/2018/b/b6/T--Warwick--HPimg1.png' style='margin-top: -12%;'>
+
                                   <img src='https://static.igem.org/mediawiki/2018/b/b6/T--Warwick--HPimg1.png' style='margin-top: -12%; width: 30%;'>
 
                               </div>
 
                               </div>
 
                               <div class='Contents' id='Content6'>
 
                               <div class='Contents' id='Content6'>
 
                                   <h2>David Coleman, Professor of Oral & Applied Microbiology, Dental Science at Trinity College Dublin</h2>
 
                                   <h2>David Coleman, Professor of Oral & Applied Microbiology, Dental Science at Trinity College Dublin</h2>
                                   <img src='https://static.igem.org/mediawiki/2018/c/c3/T--Warwick--HPimg2.png' style='margin-top: -30%'>
+
                                   <img src='https://static.igem.org/mediawiki/2018/c/c3/T--Warwick--HPimg2.png' style='margin-top: -30%; width: 30%;'>
 
                                   <p>
 
                                   <p>
 
                                       We were fortunate to conduct a phone call interview with Mr Coleman about his perspective on our Legionella project. He stated that decontamination against Legionella bacteria was far easier than effectively testing for the bacteria itself - most Legionella are highly susceptible to antibiotics. A rapid test would be valuable to dental practitioners to prove that their equipment would be sterile at low concentrations of Legionella bacteria. Equipment is usually sterile, however Legionella bacteria tend to find their way into dental chair units - waterlines can become dense with bacterial biofilm without regular disinfection.
 
                                       We were fortunate to conduct a phone call interview with Mr Coleman about his perspective on our Legionella project. He stated that decontamination against Legionella bacteria was far easier than effectively testing for the bacteria itself - most Legionella are highly susceptible to antibiotics. A rapid test would be valuable to dental practitioners to prove that their equipment would be sterile at low concentrations of Legionella bacteria. Equipment is usually sterile, however Legionella bacteria tend to find their way into dental chair units - waterlines can become dense with bacterial biofilm without regular disinfection.

Revision as of 16:16, 13 October 2018

Ripple


Human Practices

Pakistan

We spoke to an official, who worked for WAPDA in Lahore, Pakistan, and was directly involved in water treatment. This discussion highlighted the importance of a centralised water treatment system, and the need for governance over the 'standard' level of water cleanliness. Pakistan is currently moving towards this goal, and aims to have standardised water treatment soon, however as of right now, it is often up to each local district to lay out the rules on water treatment and the budget that is allocated to this.

Survey


Before we launched our project, we conducted an online survey to gauge the public’s reaction towards the problem of water safety and to see if our project would create an impact on society. We received a total of 118 responses with survey respondents coming from all around the world such as United Kingdom, Malaysia, Singapore and India. The survey results showed that our project has the ability to make an impact as many people (68.6%) were aware of the dangers of oestrogen in water to animals.

Although our project would involved placing anti-bacterial resistance into water, our initial fears were alleviated when the survey results show that close to half of the respondents (40.7%) approved to the addition of bacteria in water while only 14.4% of them disapproved.

Overall, many felt that our team’s project have the ability to create a positive impact on the environment as there is a clear awareness of the present dangers of water.

Lee Hishamuddin Allen & Gledhill (IP Lawyer)

After some discussion with Eunice Chan, an Intellectual Property (IP) lawyer , we were told that in order to patent a product, it needs to be new or be combined in a new way. Patents cannot be applied if they have been introduced into the public domain. This prompted us to compile an intellectual property guidebook which would serve as a guide for other teams when considering which type of trademark applications they should go for. Furthermore, in line with the recent blockchain developments, we posed the question of whether is blockchain technology the future of synthetic biology intellectual property protection. The full version of the guidebook can be found here: (link to Blockchain in IP tab)

David Coleman, Professor of Oral & Applied Microbiology, Dental Science at Trinity College Dublin

We were fortunate to conduct a phone call interview with Mr Coleman about his perspective on our Legionella project. He stated that decontamination against Legionella bacteria was far easier than effectively testing for the bacteria itself - most Legionella are highly susceptible to antibiotics. A rapid test would be valuable to dental practitioners to prove that their equipment would be sterile at low concentrations of Legionella bacteria. Equipment is usually sterile, however Legionella bacteria tend to find their way into dental chair units - waterlines can become dense with bacterial biofilm without regular disinfection. Culture tests for Legionella can frequently result in false negatives, putting patients at risk when no threat can be identified. Legionella are a parasitic bacteria, both to humans and to microorganisms; they can revive themselves after being engulfed by amoeba, meaning that the amoeba cells must be lysed in order to correctly define the true prevalence of legionella in a given sample. An acid lysis step is required in order to free the Legionella, but due to the parasitic nature of the bacteria, cultures can still prove difficult to give consistent results. Disinfectant can also cause Legionella to enter a pathogenically-viable non-culturable state.