About us We are part of the King’s MND Care & Research Centre, a prize-winning internationally recognized group of clinical and laboratory research teams working to accelerate the search for a cure for motor neuron disease (also known as ALS). We work across King’s College London and King’s College Hospital at the Denmark Hill site About the role This post sits within the Department of Basic and Clinical Neuroscience ( https://www.kcl.ac.uk/neuroscience/about/departments/basic-clinical-neuroscience ), working closely with Biostatistics and Health Informatics (https://www.kcl.ac.uk/bhi), and will be part of a team working to digitally simulate populations of people with motor neuron disease for the purposes of clinical trial design and optimisation. The role sits within the UK Motor Neuron Disease Research Institute ( https://ukmndri.org ) and the NIHR BRC Motor Neuron Disease theme ( https://www.maudsleybrc.nihr.ac.uk/research/motor-neuron-disease-mnd/ ), and is part of the Precision ALS programme in the TRICALS Consortium, Europe’s largest MND research initiative. We are looking for an independent thinker who wants to be part of a growing team to lead bioinformatics methodology and improve the efficiency of trial designs within the MND space. You will improve the generalisability of observational and interventional studies through the generation of digital twins of patients. The aim is to accelerate the search for a cure for MND, working with the clinical & statistics team members modelling digital twins in a virtual population. The results will be suitable for informing clinical trial design & potentially providing evidence of the predicted placebo effect in trials where a placebo arm was absent. You will work with the statistical, computing & clinical teams to develop and test a simulated digital twins model in the neurodegenerative condition motor neuron disease (MND, ALS), including developing relevant code and running simulations, handling clinical trial data compliant with data, confidentiality and ethics rules, working within a Trusted Research Environment to access clinical data. You should be capable of performing the modelling using multiple approaches, taking into account issues such as waiting times, disease progression rates, disease heterogeneity, correlated clinical and biological features and their effects on the model. Methods will include development of digital twins using Cox regression, simulation, deep learning, AI, and large language models, with validation against real world populations from a national register, clinical trials and clinic registers, including the ability to model the natural biases of each data source. This is a full-time post (35 Hours per week), and you will be offered a fixed-term contract until 31/03/2026. About you To be successful in this role, we are looking for candidates to have the following skills & experience: Essential criteria PhD qualified in relevant subject area Post-graduate degree in computing, informatics, bioinformatics or related subject Considerable understanding of clinical and biological datasets and data modelling Knowledge/experience in simulation, large language models, AI, deep learning, statistical methods Experience of working as the technical expert in a multidisciplinary team Desirable criteria Experience in handling clinical datasets Experience with “big data” Experience in computer modelling Experience as the bioinformatics lead in published medical research To have published in leading clinical journals with a clear position of contribution commensurate with a Research Excellence Framework of at least nationally relevant impact Downloading a copy of our Job Description Full details of the role and the skills, knowledge & experience required can be found in the Job Description document, provided at the bottom of the next page after you click “Apply”. £52,874 to £61,921 per annum, including London Weighting Allowances