Difference between revisions of "Team:Oxford/Human Practices"
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<p class="lead">Before we could proceed to analyse the business model environment, we need to look at the laws and regulations surrounding our therapeutic. Without going through these, we would not be able to reach the business model stage. Therefore on the business side, the priority is to go through the clinical trials which can take 10+ years, after getting a patent. These can be costly: phase 2 clinical trials cost $15,800,000 and in phase 3 cost $14,500,000 for gastrointestinal diseases. | <p class="lead">Before we could proceed to analyse the business model environment, we need to look at the laws and regulations surrounding our therapeutic. Without going through these, we would not be able to reach the business model stage. Therefore on the business side, the priority is to go through the clinical trials which can take 10+ years, after getting a patent. These can be costly: phase 2 clinical trials cost $15,800,000 and in phase 3 cost $14,500,000 for gastrointestinal diseases. | ||
Revision as of 20:35, 17 October 2018
Human Practices
Overview
An important aspect of synthetic biology is the consideration of how the technology has applications in the context of the wider society. We believed that collaborating with scientists, clinicians, social scientists, patients and the general public was essential to ensuring that our product benefits society. Our approach to human practices involved working with professionals, patients and the public to understand their opinions about various aspects of our project, and using this feedback to alter the design of our project and tailor our educational outreach activities.
The focus of our work on human practices was to integrate four major themes:
- Applied Design
Our approach to applied design involved creating surveys and interviewing patients to analyse the unmet patient needs and the most important issues that require addressing to improve patients’ quality of life. Regular conversations with patients, as well as professionals with knowledge in the law, manufacture and clinical delivery of therapeutics, enabled our design to continually evolve in light of this feedback.
- Public Engagement and Outreach
As a field still in its infancy, public knowledge of synthetic biology is limited and is often viewed with scepticism. As a result, public acceptance of genetically engineered therapeutics will be restricted by public knowledge unless educational resources are provided. The provision of summer school classes, public outreach events, online resources and a long-term public education plan were parts of our public outreach efforts. Our public engagement was integrated with our work covering applied design, as we remained open to feedback and used guidance from the public to shape our product design.
- Entrepreneurship
Our focus on entrepreneurship was a way of understanding how our therapeutic could be transitioned from the lab into the real world. We interviewed IBD patients and other key decision makers to determine the best value proposition. We surveyed the public about their preferences for potential products, and considered patents and regulatory procedures governing how our therapeutic can be taken into market.
- Safety
Safety is an essential consideration for the design of any genetically modified organism, particularly those used as medications. Discussions with clinicians and researchers, as well as some of the questions raised by patients and public we spoke to, encouraged us to make safety a key focus of our integrated human practices. Taking on the advice of professionals, we developed different designs of a kill switch and modeled the safety risks associated with our design.
Detailed information about our work centred around each of the four themes can be found on the respective pages of our wiki.
Overview of Integrated Human Practices
Our philosophy regarding human practices was to ensure a reciprocal relationship between our team and society, ensuring that we remain open to feedback from the public, patients and professionals. Our human practices work involved the education of the wider public about our project ideas and the broader applications of synthetic biology, as well as discussions and interviews to understand society’s opinions of our project. We acted upon the feedback we received, meaning that our project continually evolved in light of the public’s input. An important focus of our work was to ensure that ‘society’ encompassed the broadest range of individuals, so we engaged with clinicians, researchers, professionals involved in the legal and business side of drug development, patients, students and the lay public.
In this manner, our vision and plans for human practices were altered throughout the course of the project. The timeline below summarises our work for human practices and demonstrates how engaging with different individuals prompted us to take alternative pathways in the project, both in terms of human practices and the design of our therapeutic.
Timeline of Integrated Human Practices Work
Patient Involvement
Engaging with patients - the end-users of our product - was important for understanding the unmet patient needs that we are aiming to rectify. Our initial engagement with patients was in the form of surveys that were distributed to patient groups for a variety of autoimmune diseases. The results of the survey were useful at providing an overview of the common issues faced by patients and the common side effects of existing medication. This gave us an insight into what features will be important in the design of the product, although it became apparent that it would be beneficial to conduct one-to-one patient interviews to gain a greater understanding of the specific impact of the disease on patients’ quality of life. Taking on advice from clinicians, as well as the apparent range of symptoms associated with different autoimmune diseases, we chose to focus our product on the treatment of IBD. As a widely accepted method of “gaining insight into people’s feelings, understanding and perceptions”, one-to-one interviews played an important role in understanding the issues that our product must rectify to have the most significant benefit to patients’ quality of life.
Impact of Crohn’s disease on daily life when symptoms are largely under control:
| Problem/Consequence of Crohn's Disease | Impact on life |
|---|---|
| Administer drugs each morning | Must remember to take medication every morning, at roughly the same time. Makes spontaneous trips away a difficulty |
| Irregular bowel habits mean regular stops to use the toilet on the way to/during work | Travel to work can be difficult, especially with travel delays. It can be embarrassing to frequently leave the work desk |
| Avoiding specific foods makes meals difficult | Difficult to be spontaneous. Meals at parties and restaurants can be difficult |
| Exercise can be difficult | Fitness is at a lower level than hoped for. Common to feel drained after small amounts of moderate exercise |
| Exhaustion at the end of the day | Inability to take part in social activities after work, making it difficult to maintain friendships |
| Disturbed sleep due to irregular bowel movements or bloating | Continuous low energy level and effect on mood |
Impacts of Crohn’s disease on daily life during flare-ups of the inflammation:
| Problem/Consequence of Crohn's Disease | Impact on life |
|---|---|
| Wake up feeling drowsy and unrested due to a lack of sleep | Unable to do simple daily tasks. Sometimes unable to get out of bed |
| Cannot go to work/social events due to pain/irregular bowel movements | The financial cost of long periods of absence from work and lack of career progression. Difficulty maintaining friendships |
| Need to visit doctors and hospital specialists, may need to stay in hospital or have surgery | Difficulty travelling to appointments, especially with severe flare-ups. Pain and psychological effects of medical treatment have a huge effect on mood and life satisfaction. Low self confidence and anxiety due to scars from surgery |
| Feeling depressed due to the chronic pain, lack of sleep and inability to go to work/socialise | Regularly experience bouts of depression correlated with flare-ups |
| Inability to eat and properly digest food during flare ups | Constant exhaustion and lack of pleasure from food. Often requires hospitalisation or tube feeding. Tube feeding is associated with its own problems, such as social anxiety and difficulties doing so in public |
Most patients believe life with Crohn’s is manageable with current medication except during flare ups, when “Crohn’s dominates your life and functioning normally is impossible”. This is further demonstrated by the unpredictability of flare ups, holidays, work and social events become difficult as “you’re never sure if a flare up will hit”. Reducing the frequency and severity of flare ups is a necessity for a novel Crohn’s disease treatment. In response to this, we have aimed to designing a treatment that suppresses the inflammatory response before the inflammation and so preventing flare ups.
As well as the daily impact of Crohn’s disease we learnt of long term effects that result from IBD. We learnt that the use of immunosuppressants results in an increased susceptibility to infection, this can often result in taking even more time off work. The long-term burden of taking daily medication was also mentioned. Treatments are normally manageable on a day-to-day basis but there are times when “everything required to just stay alive and healthy becomes overwhelming”. We also found some surveys which agree with our own finding. The Korean Association for the Study of Intestinal Diseases conducted a study revealing 70% of patients with Crohn’s disease reported feelings of stress due to missed work due to Crohn’s disease and 62% believed that Crohn’s disease interfered with the maintenance and formation of friendships.
Many patients also vocalised their dislike of frequently changing medication and method of administration, we found patients preferred continuing current treatments, even if not completely perfect, so that they can avoid changes in daily routine and risk additional side effects. This displays the need for our treatment to be unique and have a greater effect than current treatments. During the development of our idea this was one of our main considerations. We believe patient-specific doses instead of a prolonged delivery of a suboptimal dosage of immunosuppressants, is unique feature and a necessary development. The patients interviewed supported, praising the “controlled and personalised dosage of the anti-inflammatory molecule”.
Safety
Regulation
Before we could proceed to analyse the business model environment, we need to look at the laws and regulations surrounding our therapeutic. Without going through these, we would not be able to reach the business model stage. Therefore on the business side, the priority is to go through the clinical trials which can take 10+ years, after getting a patent. These can be costly: phase 2 clinical trials cost $15,800,000 and in phase 3 cost $14,500,000 for gastrointestinal diseases.
In order to understand how to navigate the laws and regulations in different countries, we created a document to investigate the various regulatory bodies
If we are to start providing this therapeutic to children, we would need to carry out pediatric trials, which carry a host of new regulations (in note format)
Cell and Gene Therapy Catapult
Catapult is a centre to help and encourage growth of cell and gene therapies by aiding with regulation, product testing, logistics, manufacture and business advice.
We met with Daniel Rabbie, the Regulatory Affairs Manager, and Ryan McCoy, the Senior Process Development Scientist to discuss how our product fits in with current government regulations and how we can take it from the lab to the patients. We discussed the differences in regulation in different therapies, the organisations available to speed up the process of getting the treatment from the lab to the patient, current therapies, and considerations involving logistics and manufacture.
ATMP Classification
Our treatment would likely count as an Advanced Therapy Medicinal Product (ATMP) according to the European Medical Agency (EMA). The classification of a therapy is particularly useful for clinical trial design but also helps for its specific regulation, its licensing and what advice is available. The EMA’s Committee for Advanced Therapies (CAT) advise on whether a treatment would be considered an ATMP and what type it would be, such as a cell or gene therapy. CAT has a list of previously categorised treatments. In this list we found a therapy involving modified Lactococcus Lactis engineered to produce anti-TNF alpha antibody fragment for the treatment of Ulcerative Colitis. This treatment is very similar to ours allowing us to use this as a basis of what our treatment would be classified as. Even though the patient’s genome is unaffected this treatment still counted as a gene therapy medicinal product as “The introduced recombinant sequence is directly related to the therapeutic effect”. To confirm our treatment has the same characterisation we have submitted an application for ATMP classification with CAT from the EMA which we are waiting to hear back from. Our completed form can be read below. The form can be confusing especially for those lacking knowledge of drug regulation, as we initially did. We are hoping this can be used as a reference for others seeking classification of new types of medicinal therapy in the EU.
People We Worked With
As well as the students, public and patients we worked with throughout the project, we are incredibly grateful for the support and advice we gained from a wide range of professionals.
Dr Tony Cutler - Wellcome Trust Centre for Human Genetics
As an immunologist specialising in Type 1 diabetes and autoimmune diseases, Dr Cutler provided us with an invaluable insight into the pathogenesis of autoimmune diseases and how anti-inflammatory molecules may have the potential to have therapeutic effects. We met with him during the early stages of the project to understand whether the production of IL-10 may have beneficial anti-inflammatory effects in individuals suffering from autoimmune diseases. He highlighted the importance of safety, and encouraged us to speak to patients and clinicians to understand how a GM probiotic may be accepted in clinical settings.
Professor Simon Travis FRCP - Professor of Clinical Gastroenterology
Professor Travis provided us with valuable advice based on his insight as a practising clinician. He believed that a GM probiotic would be a safe treatment, although he advised us to consider the possible complications of the treatment escaping into the environment when excreted by patients in areas with poor sewage systems. In light of this, we designed a kill switch to ensure that our bacteria will not function when outside of the human gut. Professor Travis also advised us to focus our efforts on the treatment of autoimmune diseases of the gut, as opposed to autoimmune diseases in general, based on the heterogeneous nature of different autoimmune diseases. He also recommended that we consider the strain of bacteria we would use in the final therapeutic product since it is vital that the bacteria adhere to the wall of the gut. He provided us with information on clinical trials using IL-10 to treat Crohn’s disease and recommended the use of IL-10 therapy as opposed to other anti-inflammatory molecules (such as anti-TNFa).
Dr Hannah Chen - Translational Gastroenterology Unit, University of Oxford
Dr Chen gave us further guidance about the treatment of Crohn’s disease and other inflammatory diseases of the gut, highlighting the fact that the symptoms and cause of Crohn’s disease are heterogeneous. Her insight made us consider the range of inflammatory markers that vary in individuals with Crohn’s disease, prompting us to undertake further research into biomarkers for Crohn’s disease. Dr Chen recommended reading about certain research studies, and this enabled us to find evidence to demonstrate that luminal NO is a suitable biomarker for Crohn’s disease, as well as providing quantitative data for use in modelling. Dr Chen also discussed the importance of the microbiome and the general lack of understanding among the public, which encouraged us to create an information leaflet about probiotics and the microbiome.
Professor Chris O’Callaghan - Nuffield Department of Medicine
Professor O’Callaghan’s knowledge of biomarkers of inflammation and immune functioning provided us with important advice in the use of biomarkers in the design of our probiotic. He highlighted key studies involving biomarkers, such as evidence to show that exhaled NO is correlated to disease severity in asthmatics, to demonstrate the potential of developing an NO-based treatment method. He introduced us to the idea of altering the structure of IL-10, such as by conjugation to another molecule, to increase the transport of IL-10 to sites of inflammation. He encouraged us to research the evidence from clinical trials using Dekavil - IL-10 conjugated to an antibody - to treat arthritis, and to consider whether similar conjugation methods could be used in our product to prevent protease breakdown within the gut lumen.
Dr Chris Butler - Nuffield Department of Primary Care Health Sciences
Dr Butler’s experience in Primary Care provided us with an important understanding of patient’s perceptions and their likely responses to the use of a GM probiotic. Dr Butler believed that patients understand the concept of ‘good’ and ‘bad’ bacteria existing, but believed that the majority of patients would still be surprised, and probably sceptical, about the use of taking bacteria as a treatment. This reinforced the importance of educating the public about probiotics and the benefits of a diverse microbiome, therefore encouraging us to develop an educational leaflet about probiotics and include this subject as one of the key focuses in our Long-term Public Education Plan. Dr Butler is the Principal Investigator of the PRINCESS (Probiotics to reduce infections in care homes) Trial, so provided information about the effectiveness of probiotics. He provided information about the microbiome becoming less diverse with age, but informed us that there is currently no evidence to suggest that probiotics become less effective with age - this suggested that our therapeutic should still be functional in more elderly patients.
Professor David Greaves - Sir William Dunn School of Pathology, University of Oxford
Professor Greaves highlighted the importance of ensuring that the delivery of IL-10 is controlled, drawing upon evidence from his own experiments that demonstrated the health risks associated with excessively high expression of IL-10. He provided us with papers and further reading which allowed us to understand the range of healthy concentrations of IL-10 that we could use for modelling the adenine-induced negative feedback loop.
Professor Luzheng Xue - Nuffield Department of Medicine, University of Oxford
Professor Xue gave us useful advice on the molecular and cellular mechanisms involved in the pathogenesis of inflammatory diseases. He recommended that we should research the other sources of NO, such as endothelial cells, and to ensure that this is considered when modelling the system.
Dr Nick Thomson - Quadrum Institute, Norwich
Dr Thomson gave us an invaluable insight into the delivery mechanisms of probiotics and how to ensure the probiotic bacteria establish a niche within the microbiome. He gave us guidance on the types of strain to use in the probiotic product, introducing us to studies demonstrating that VSL#3 (a polybiotic solution containing many different probiotic bacterial strains) can be taken orally to improve Crohn’s disease. This gave us a useful direction for our research into probiotic strains and probiotic delivery. He also gave us useful ideas for areas of further research to test our product, such as using a model colon - with varying concentrations of oxygen and carbon, to test the bacteria in environments similar to the natural colon. He also praised our kill switch designs, again highlighting the importance of addressing the safety concerns associated with GM probioitcs.
Dr Chris Barnes - Department of Cell and Environmental Biology, UCL
Dr Barnes provided useful information about the colonisation of probiotic bacteria in the gut, demonstrating the importance of choosing the right chassis. He also suggested that we should focus on controlling the bacterial population size and should consider quorum sensing as a method of ensuring that the population remains at a constant level.
Dr Sam Parsons - Oxford Centre for Emotions and Affective Neuroscience
Dr Parsons is a psychologist and he shared information about the psychological impact of autoimmune conditions, including the psychological impact of chronic pain, isolation, stigma, and phobias of hospitals/needles. This enabled us to understand further complications of autoimmune diseases, and encouraged us to choose an oral form of probiotic delivery in order to create a minimally invasive, easily administered treatment.
Dr Michael Morrison - Centre for Health, Law and Emerging Technologies (HELEX)
Dr Morrison met with us on multiple occasions to discuss the law and regulations that would be relevant to the development of our product. He gave us guidance on the various regulations that would govern how our product could be used clinically, and gave us an understanding of the processes required during clinical trials. In light of our work with Dr Morrison, we created a proposal on the safety of GM probiotics, a long-term public education plan, and theoretical plans for completing clinical trials and the manufacture of our probiotic.
Andra Necula - Doctoral Training Centre, University of Oxford
Andra provided detailed guidance regarding the use of metabolic markers to approximate immune cell populations in the intestine. In addition to highlighting the suitability of adenosine as an indicator of Treg function, she also advised us on future experiments we could carry out in order to gather further data reflecting the efficacy of the system, both using immune cells in vitro, and in appropriate model organisms in vivo.
Delivery
We had been considering how our product would be delivered to the gut from early on the project. Our aim was to develop a 'friendlier' treatment but it is important to consider the possibilities for a probiotic in order to maximise the likelihood of colonisation in the gut.
Psychological Impact
Our initial survey highlighted the importance of the delivery method in a psychological way as well as functionally. Patients told us they would like a treatment which is simpler than their current treatments especially compared to having to be on an IV. We were told that the patients found the use of needles for biological treatments can scary especially for younger patients. We were also informed how these psychological considerations are particularly important for chronic conditions compared to other conditions. For this reason, we decided to place a greater focus on the method of treatment and try to ensure we come up with the easiest and safest method for the patient.
We contacted Dr Sam Parsons, Oxford Centre for Emotions and Affective Neuroscience, to gain specialist knowledge on the psychological impacts of autoimmune conditions and treatments. He was able to highlight the impacts autoimmune conditions have that may not as obvious, this includes chronic pain, difficulty with meals leading to isolation and phobias with needles and hospitals. After this we focused on providing the medication in a friendlier form that requires fewer hospital visits as well as providing a consistently high quality of treatment.
Surveys
We initially received support for packaging the product in a yoghurt in our first survey. Furthering this we had comments that drew our attention to the possibility of patients being vegan or lactose intolerant leading to our consideration of the survival and growth of the product in different yoghurts. L. lactis is also susceptible to lysis in the stomach when not taken with food, this is a further encouragement for the product to be taken with yoghurt.
We conducted two surveys with the aim of finding the preferred delivery method of the public. Our first survey was conducted at ‘Meet the Experts’ at Oxford University Museum of Natural History and our second was sent out to members of the Oxford Biochemistry department. The first was at an event for children and families whilst the second was completed by specialists with a higher level of understanding of GMOs.
The most favoured method in the Natural History Museum survey was the yoghurt drink. Injections received many votes but only from children under 12 either because of association of injections with effectiveness or because they found the idea of injections exciting.
From our survey in the department we were able to ask a significantly larger group of people their opinion as well as receiving reasons for their choices. Capsules resulted as the favoured method from this survey. Yoghurts received votes due to their convenience but capsules was preferred for the same reason as well as its establishment in medicine, ease of storage and transport, and its superior half-life.
Dr Nick Thomson
We met Dr Nick Thomson from the Quadram Institute, Norwich, to discover how we can encourage the probiotic to successfully inhabit the gut. He suggested the focus should be on adherence to the intestinal wall and stability against gastric acid, bile and enzymes. He also suggested the use of a model colon to test the bacterial populations, which we have included in our plan for pre-clinical testing.
Colonisation
At least 108-9 cells must reach the intestine to successfully colonize. This shows the necessity to have a successful delivery method for our medication. The most common method of administration is oral. Tablets/capsules are easy to administer, storage and are effective and reliable. L.lactis have a greater colony count when administered with milk and other dairy products. Optimized yoghurts have been shown as successful delivery methods and chocolate-based products and ice cream have given promising results. This also could act as an alternative ‘friendly’ way of administering medicine.
Freeze drying is a simple solution to preserve the viability and stability of the bacteria over long periods of time and shows no negative effect on the survival of bacteria on the way to and in the intestine. Cryoprotection means more variable bacteria are able to survive and decreases the manufacture cost as fewer functional bacteria are lost. Freeze drying bacteria with cryoprotectants allow the bacteria to be stored at 4 degrees C for 5 months with little change in the colony count. Rehydration makes the bacteria less viable to be stored so must remain dried until taken by the patient.
Microencapsulation could be used to coat the cells in a shell to protect them during storage and delivery. Microencapsulation with polysaccharides or proteins offers a more effective alternative than cryoprotection. Strains have been found to survive to different extents in each process allowing us to select select a strain more easily.
Having our product in a capsule makes the medication more reliable but also has the potential to then be delivered in yogurt making the bacteria more viable and promoting a friendly image of the medication.
We are currently unsure of the dose we would prescribe. If the dose is too high then it is possible our probiotic will outcompete other bacteria in the microbiome whilst too lose a dose will mean the treatment is ineffective. To ensure greater control of the product we would prescribe a relatively low dose daily but specific quantification of dosage would require pre-clinical and clinical data.
References
| Reference |
|---|
| EMA (2018). [online] Available at: http://www.ema.europa.eu [Accessed 11 Sep. 2018]. |
| Wikipedia (2018). Pharmaceuticals and Medical Devices Agency. [online] Available at: https://en.wikipedia.org/wiki/Pharmaceuticals_and_Medical_Devices_Agency [Accessed 11 Sep. 2018]. |
| FDA (2018). U S Food and Drug Administration Home Page. [online] Available at: https://www.fda.gov/default.htm [Accessed 11 Sep. 2018]. |
| PMDA (2018). Services of PMDA | Pharmaceuticals and Medical Devices Agency. [online] Available at: https://www.pmda.go.jp/english/about-pmda/outline/0006.html [Accessed 11 Sep. 2018]. |
| CDSCO. (2018). Central Drugs Standard Control Organization. [online] Available at: http://cdsco.nic.in/forms/Default.aspx [Accessed 11 Sep. 2018]. |
| Mankar, Someshwar & D Gholap, V & P Zende, T & S Dighe, R. (2014). DRUG REGULATORY AGENCIES IN INDIA, USA, EUROPE AND JAPAN-A REVIEW. INTERNATIONAL JOURNAL OF INSTITUTIONAL PHARMACY AND LIFE SCIENCES. 4. 2249-6807. |
| Slingerland AE, Schwabkey Z, Wiesnoski DH, Jenq RR. Clinical Evidence for the Microbiome in Inflammatory Diseases. Frontiers in Immunology. 2017;8:400. |