Operationalising AI

Discussion table

Learn from
Jonno Evans



Jonno is an advisor at Epsilon Advisory Partners where he works directly with some of the worlds fastest growing startups. He has over a decade of experience in the public and private sector as a consultant, economist and policy expert. He worked at 10 Downing Street for two Prime Ministers as Private Secretary for Europe and Trade, and in the Diplomatic Service, working across Europe, the US and the Middle East and Africa, where he focussed on international economic policy. He was awarded an OBE for services to foreign policy in 2021.
Salah Hammouche

Fellow in Clinical Artificial Intelligence and Machine Learning


Dr. Hammouche holds triple qualifications as an orthopedic surgeon and a biomedical engineer, in addition to his current fellowship training as a Clinical Artificial Intelligence (London AI Centre) and his soon-to-commence fellowship as the Topol Digital Health Fellow (NHS Digital Academy). Clinically, he is dual board-certified by the European Board of Orthopaedic and Traumatology (FEBOT) and the International Society of Orthopaedic Surgery and Traumatology (SICOT Dip.Ortho), and he is on track to becoming board certified by the Royal College of Surgeons of England. He is completing his T&O residency at the esteemed London Postgraduate School of Surgery, UK, and has been trained at several of the world's largest and most renowned orthopedic centers, including Great Ormond Street Hospital for the Sick Children, Nottingham Queens Medical Centre, St Bartholomew’s and Royal London Hospitals NHS Trust, The Royal National Orthopaedic Hospital (Stanmore), University Hospital Coventry and Warwickshire, and Norfolk & Norwich Orthopaedic Institute. He has trained at four major level I trauma centers during his residency program and four tertiary referral centers for complex arthroplasty and sports medicine.


Dr. Hammouche has performed over 2200 orthopedic procedures during his residency program, under supervision from world-renowned surgeons and mentors. He has also participated in approximately 100 revision arthroplasty procedures, and he has performed over 200 hip, knee, shoulder, and ankle arthroscopic procedures, 90 total joint replacements, 80 hemiarthroplasties, 80 dynamic hip screws, 150 open reduction internal fixations of fractures, 50 intramedullary nails, and 23 tendon repairs.


In the field of biomedical engineering, Dr. Hammouche has obtained a PhD in hip replacements' tribology, assessing the longevity of novel hip bearing surfaces at the University of Leeds (one of the largest academic joint replacement simulation centers in the world). He has developed niche academic, technical, and research skills in the assessment of orthopedic implants in accordance with ISO standards, from wear, friction, joint simulation, wear particle isolation, and UHD Scanning Electron Microscope perspectives. He has collaborated with biologists, biomedical scientists and engineers, technical staff, and industrial partners from two major biomedical and orthopedic companies (J&J and Invibio). He also holds an M.Sc. (with Merits) in orthopedic engineering from Cardiff University (one of the Top Five UK Universities in 2015).


Dr. Hammouche has recently been awarded a funded fellowship in Clinical Artificial Intelligence and Machine Learning (a collaboration between Imperial College London, King’s College London, and The London Medical Imaging & AI Centre for Value-Based Healthcare), following a highly competitive selection process with less than a 5% approval rate. He is currently undertaking this fellowship alongside his orthopedic residency, developing his skills in large dataset acquisition, ingestion, imaging segmentation and atlas referencing, 4D survival modeling, and AI coding (convoluted neural networks). He is also working with Bayer’s R&D team on alpha and beta testing and user interface assessment of the Calantic™ Digital Solutions. Furthermore, he is involved in early phase AI assessment, including ethics, concept testing, and adoption of novel AI tools, working with the MONAI consortium on AI Deployment Engine, a platform that seeks to make integration of AI software into clinical pathways safe and efficient. Additionally, he has been awarded the Topol Digital Health Fellowship by NHS Digital Academy.


Dr. Hammouche possesses an impressive track record of academic accomplishments and professional achievements. With over fifteen article publications, fifteen published abstracts, and over 40 presentations in nationally and internationally renowned journals and conferences, he has proven himself to be a prolific and respected scholar in his field. He has been recognized as the AAOS Resident of the Month for May 2021, and as a New Investigator Recognition Award Finalist by the Orthopaedic Research Society (New Orleans 2018). He has also received prestigious fellowships from the British Orthopaedic Trainees Association, the Percivall Pott, and the Chang Chen Travelling Fellowships.


In addition to his academic pursuits, Dr. Hammouche has demonstrated his leadership abilities through various positions in his program, including serving as the Secretary of the Percivall Pott Club, and his involvement in several scientific and leadership committees at the AAOS. He is currently a member of the editorial board of Arthroplasty Today, AAHKS - AAOS.


Dr. Hammouche has achieved an impressive set of qualifications and certifications, having obtained dual board-certification from the European Board of Orthopaedic and Traumatology and the International Society of Orthopaedic Surgery and Traumatology. He is also UK board eligible and holds a US medical license, having passed all his USMLEs exams and obtained an ECFMG certificate. He has completed a wide range of relevant surgical courses, including the AAHKS Resident Arthroplasty Course, AAOS Orthopaedic Review, AAOS Casting Fundamentals, OTA Residents Comprehensive Fracture Management, Sports Medicine Arthroscopy Fellow Masterclasses, AO Principles of Fracture Management, and ATLS.


Dr. Hammouche is driven by a strong desire to become a world-renowned orthopedic surgeon in both clinical and academic circles. He aims to work at a top academic unit where he can utilize his niche engineering, computing, and artificial intelligence skills to innovate, stratify, and optimize orthopedic implants and AI tools to improve the outcomes and ease the suffering of orthopedic patients. He is particularly interested in working in a center where there are existing research teams or a strong collective vision by the department to support him in building and developing such teams to become a world-leading unit in AI and Orthopedic Engineering. Additionally, he is keen to be involved in charitable overseas missions and collaborating with and training overseas doctors.

About the session
There's been an explosion of awareness of the capabilities and (to a lesser extent) the limitations of AI, particularly in the context of AI-powered chatbots. But the reality is that the user experience of engaging with government is set to be transformed through these new tools. What are the best use cases for AI in government?
  • What kind of tasks and processes are best suited for automation, and what kind of AI technologies and tools are necessary to support this?
  • How can AI be used to automate routine tasks and processes within departments, and free up civil servants for more complex and value-added work?
  • How can AI be used to enhance service delivery and improve citizen outcomes?
  • How can we ensure that AI applications are developed and deployed in a way that respects individual privacy and autonomy, and that they do not perpetuate biases or discrimination?
  • How can AI be used to improve policy-making and support more evidence-based decision-making?