Statistics with Medical Applications

Core modules:

Medical Statistics

This module introduces an important application of statistics: medical research, specifically, the design and analysis of clinical trials. For any new drug to be approved by a regulator (such as the Medicines and Healthcare products Regulatory Agency in the UK) for use on patients, the effectiveness of the drug has to be demonstrated in a clinical trial. This module explains how clinical trials are designed and how statistical methods are used to analyse the results, with a particular focus on 'survival' or 'time-to-event' analysis.

15 credits

The Statistician's Toolkit

This is the first of two 'core' modules students studying on statistics MScs. The aim of this module is to prepare statisticians for the workplace, equipping them with essential statistical modelling, computing and professional skills. The module includes the study of linear and generalised linear modelling, and data analysis using the programming language R.

30 credits

Bayesian Statistics and Computational Methods

This module introduces the Bayesian approach to statistical inference. The Bayesian method is fundamentally different in philosophy from conventional frequentist/classical inference, and has been the subject of some controversy in the past, but is now widely used. The module also presents various computational methods for implementing both Bayesian and frequentist inference, in situations where obtaining results 'analytically' would be impossible. The methods will be implemented using the programming languages R and Stan, and some programming is taught alongside the theory lectures.

30 credits

Dissertation (MSc Statistics with Medical Applications)

The dissertation is an extensive statistical study on a topic from a medical, pharmaceutical or health-related field. It gives the student the opportunity to synthesise theoretical knowledge with practical skills.

60 credits

Optional modules:

A student will take 15 credits (one module) from this group.

Epidemiology

Epidemiology is the discipline underpinning both effective public health practice and research into the causes, control and prevention of disease. Knowledge and understanding of epidemiological concepts and methods is a basic requirement for effective public health practice.

This module will provide an introduction to epidemiology covering key epidemiological concepts; measures of disease; association and causation; confounding and bias. It will also introduce research designs including cross-sectional, ecological, cohort, case-control and intervention studies and introduce population health measures such as screening.

15 credits

Economic Evaluation

This module introduces the basic principles of economic evaluation as applied to healthcare interventions.  The course introduces the concept of economic evaluation, the different types that are available and the various stages and techniques that need to be applied to generate results.  Current practice guidelines will be described so that students can understand the current policy context of the methods.  Also, as alternative techniques are described, their strengths and weaknesses will be highlighted, with the students being encouraged to critically appraise their appropriateness to different contexts.

15 credits

Machine Learning

Machine learning lies at the interface between computer science and statistics. The aims of machine learning are to develop a set of tools for modelling and understanding complex data sets. It is an area developed recently in parallel between statistics and computer science. With the explosion of “Big Data”, statistical machine learning has become important in many fields, such as marketing, finance and business, as well as in science. The module focuses on the problem of training models to learn from training data to classify new examples of data.

15 credits

Optional modules:

A student will take 30 credits from this group.

Qualitative Research Design and Analysis

On completing the module students will be expected to be able to: understand a range of qualitative research approaches, data collection methods and forms of analysis; plan and undertake a simple analysis of student-generated qualitative data; critically appraise the methods and results of qualitative research.

15 credits

Sampling Theory and Design of Experiments

Whereas most statistics modules are concerned with the analysis of data, this module is focussed on the collection of data. In particular, this module considers how to collect data efficiently: how to ensure the quantities of interest can be estimated sufficiently accurately, using the smallest possible sample size. Three settings are considered: sample surveys (for example when conducting an opinion poll), physical experiments, as may be used in industry, and experiments involving predictions from computer models, where there is uncertainty in the computer model prediction.

15 credits

Time Series

This module considers the analysis of data in which the same quantity is observed repeatedly over time (e.g., recordings of the daily maximum temperature in a particular city, measured over months or years). Analysis of such data typically requires specialised methods, which account for the fact that successive observations are likely to be related. Various statistical models for analysing such data will be presented, as well as how to implement them using the programming language R.

15 credits

Practical Aspects of Clinical Research

This unit is intended to run alongside the clinical research portfolio that is a part of the Masters course for NIHR Academic Clinical Fellows. It is also offered as one of the Core Modules for UK and overseas students on the generic MSc in Clinical Research. The course covers many of the practical and regulatory issues associated with carrying out clinical or health related research within a variety of national and international settings including the NHS. Face-to-face and web- based learning packages cover a variety of issues around research planning, project management, research governance, ethical and legal frameworks for research, good clinical practice, patient and public involvement, cultural competence, and dissemination and impact. The module runs across both semesters and students need to register for the Autumn semester and then continue into the Spring semester. There is no option to start in Spring and continue to the following Autumn semester.

30 credits

Year one – core modules:

Medical Statistics

This module introduces an important application of statistics: medical research, specifically, the design and analysis of clinical trials. For any new drug to be approved by a regulator (such as the Medicines and Healthcare products Regulatory Agency in the UK) for use on patients, the effectiveness of the drug has to be demonstrated in a clinical trial. This module explains how clinical trials are designed and how statistical methods are used to analyse the results, with a particular focus on 'survival' or 'time-to-event' analysis.

15 credits

The Statistician's Toolkit

This is the first of two 'core' modules students studying on statistics MScs. The aim of this module is to prepare statisticians for the workplace, equipping them with essential statistical modelling, computing and professional skills. The module includes the study of linear and generalised linear modelling, and data analysis using the programming language R.

30 credits

Year one – optional modules:

A student will take 15 credits (one module) from this group.

Cost-effectiveness Modelling in International Health Technology Assessment Online

This unit sets out the different uses of modelling in Health Technology Assessment (HTA), together with the main principles and common techniques (including Markov models and individual level simulation). It reviews the international guidance on good practice and develops participants' skills to appraise and commission models for HTA. Learning is based around a core international literature on modelling covering methodological papers and a substantial set of case studies, ensuring learning is grounded in real world examples. Participants also undertake some simple 'hands-on' model-building and model reviewing in EXCEL to help embed the principles learned.Students interested to learn more about building cost-effectiveness models can enrol on the Building Cost-effectiveness Models for HTA module (HAR6119). This module runs in the Spring semester and is worth 15 credits.

15 credits

Utility and Patient-reported Outcomes Data in Health Technology Assessment Online

The module explores the assessment and generation of patient reported outcome and utility measures for use in international health technology assessment including alternative valuation techniques, measures and underlying assumptions to the quality adjusted life year (QALY) model. The approaches used to generate outcomes and other utility data will be explored in relation to current practice guidelines of reimbursement and other agencies in different countries. Measuring the wider societal benefits of interventions is also considered.

15 credits

Building Cost-effectiveness Models for Health Technology Assessment Online

An advanced course teaching the technical and practical skills required to build cost-effectiveness models for international health technology assessment. It builds on from the introductory unit, HAR6113 Cost-effectiveness modelling in international HTA, which covered the principles behind modelling. Content includes problem definition and structuring, building decision tree and Markov/state transition models in Excel, identifying appropriate data sources, implementing deterministic and probabilistic sensitivity analysis, and Value of Information analysis. It is an advanced course, aimed at students with a strong mathematical background who want to go on to build their own economic models.Students require a mathematical / statistical background and a sound understanding of the principles of modelling (prior completion of HAR6113 or evidence of previous training/knowledge). Good pre-existing Excel skills are essential. For students considering this Module as a standalone option who only require an understanding of the principles of economic modelling and good practice and who need the skills to be able to review other people's models, but do not need the technical skills to build their own models, the introductory module HAR6113: Cost-effectiveness Modelling in International HTA may be a more appropriate choice of module.

15 credits

Sampling Theory and Design of Experiments

Whereas most statistics modules are concerned with the analysis of data, this module is focussed on the collection of data. In particular, this module considers how to collect data efficiently: how to ensure the quantities of interest can be estimated sufficiently accurately, using the smallest possible sample size. Three settings are considered: sample surveys (for example when conducting an opinion poll), physical experiments, as may be used in industry, and experiments involving predictions from computer models, where there is uncertainty in the computer model prediction.

15 credits

Time Series

This module considers the analysis of data in which the same quantity is observed repeatedly over time (e.g., recordings of the daily maximum temperature in a particular city, measured over months or years). Analysis of such data typically requires specialised methods, which account for the fact that successive observations are likely to be related. Various statistical models for analysing such data will be presented, as well as how to implement them using the programming language R.

15 credits

Year two – core modules:

Bayesian Statistics and Computational Methods

This module introduces the Bayesian approach to statistical inference. The Bayesian method is fundamentally different in philosophy from conventional frequentist/classical inference, and has been the subject of some controversy in the past, but is now widely used. The module also presents various computational methods for implementing both Bayesian and frequentist inference, in situations where obtaining results 'analytically' would be impossible. The methods will be implemented using the programming languages R and Stan, and some programming is taught alongside the theory lectures.

30 credits

Dissertation (MSc Statistics with Medical Applications)

The dissertation is an extensive statistical study on a topic from a medical, pharmaceutical or health-related field. It gives the student the opportunity to synthesise theoretical knowledge with practical skills.

60 credits

Year two – optional modules:

A student will take 15 credits from this group.

Introduction to Research Methods Online

This module, which is delivered via online learning, provides students with an introduction to quantitative and qualitative research methods and to the types of skills necessary for the planning, data gathering and dissemination stages of health-related research. Topics covered include: -Research Design; -Methods of Data Collection; -Approaches to Analysing Data and Writing a Research Proposal. The course provides a foundation for further learning in specific research methods. It is primarily designed for new students beginning Masters courses in the Division of Population Health and there is an emphasis on research techniques used in public health and health services research (HSR).

15 credits

Systematic Approaches to Evidence Assessment Online

This module , which is delivered online, provides the skills and knowledge required to conduct rapid assessments of the evidence base and then to apply these assessments to health management and/or clinical practice. It introduces and explains rapid review methodologies that seek to optimise the balance between rigour and relevance, ensuring the timely and judicious use of evidence that is both user sensitive and context dependent. This module will also address the growing demand for knowledge translation of research findings, specifically within the context of developing countries. A key feature is production of a culturally-sensitive action plan that takes into account local feasibility and implementation issues.

15 credits

Epidemiology Online

As one of the core disciplines of Public Health, epidemiology is concerned with the methods of studying health related states and events to control health problems. The module, which is delivered online, covers epidemiological measures, main study designs, screening and surveillance. The primary objective is to introduce students to the principles, tools and applications of epidemiology and to help develop their practical skills through a range of activities.

15 credits

Systematic Reviews and Evidence Synthesis: Principles Online

The purpose of this unit is to enable students to understand the principles of systematic review. It covers the defining characteristics and application of systematic reviews; how to search for and select relevant evidence; how to quality assess primary research articles; the key issues that may generate bias; and the general principles governing evidence synthesis.

15 credits

Economic Evaluation in International Health Technology Assessment Online

This unit introduces the concept of economic evaluation as applied to health technology assessment, the different types of evaluation that are available and the various stages and techniques that need to be applied to generate results. The techniques will be matched against current practice guidelines in different jurisdictions so that students can understand the current policy context of the methods. Also, as additional techniques are described, the strengths and weaknesses of each will be highlighted, with the students being encouraged to critically appraise their appropriateness to different contexts and jurisdictions.

15 credits

Randomised Controlled Trials to Support Reimbursement Decision Making Online

Randomised controlled trials (RCTs) are of use when evaluating the effectiveness of interventions, as part of health technology assessment and decision-making. This unit covers the appropriate use of trials, the range of available research designs, strategies to optimise recruitment, sample size, outcome measures, and the use of economic and qualitative methods alongside trials.

15 credits

Machine Learning

Machine learning lies at the interface between computer science and statistics. The aims of machine learning are to develop a set of tools for modelling and understanding complex data sets. It is an area developed recently in parallel between statistics and computer science. With the explosion of “Big Data”, statistical machine learning has become important in many fields, such as marketing, finance and business, as well as in science. The module focuses on the problem of training models to learn from training data to classify new examples of data.

15 credits

Year two – optional modules:

A student will take 15 credits from this group.

Cost-effectiveness Modelling in International Health Technology Assessment Online

This unit sets out the different uses of modelling in Health Technology Assessment (HTA), together with the main principles and common techniques (including Markov models and individual level simulation). It reviews the international guidance on good practice and develops participants' skills to appraise and commission models for HTA. Learning is based around a core international literature on modelling covering methodological papers and a substantial set of case studies, ensuring learning is grounded in real world examples. Participants also undertake some simple 'hands-on' model-building and model reviewing in EXCEL to help embed the principles learned.Students interested to learn more about building cost-effectiveness models can enrol on the Building Cost-effectiveness Models for HTA module (HAR6119). This module runs in the Spring semester and is worth 15 credits.

15 credits

Utility and Patient-reported Outcomes Data in Health Technology Assessment Online

The module explores the assessment and generation of patient reported outcome and utility measures for use in international health technology assessment including alternative valuation techniques, measures and underlying assumptions to the quality adjusted life year (QALY) model. The approaches used to generate outcomes and other utility data will be explored in relation to current practice guidelines of reimbursement and other agencies in different countries. Measuring the wider societal benefits of interventions is also considered.

15 credits

Building Cost-effectiveness Models for Health Technology Assessment Online

An advanced course teaching the technical and practical skills required to build cost-effectiveness models for international health technology assessment. It builds on from the introductory unit, HAR6113 Cost-effectiveness modelling in international HTA, which covered the principles behind modelling. Content includes problem definition and structuring, building decision tree and Markov/state transition models in Excel, identifying appropriate data sources, implementing deterministic and probabilistic sensitivity analysis, and Value of Information analysis. It is an advanced course, aimed at students with a strong mathematical background who want to go on to build their own economic models.Students require a mathematical / statistical background and a sound understanding of the principles of modelling (prior completion of HAR6113 or evidence of previous training/knowledge). Good pre-existing Excel skills are essential. For students considering this Module as a standalone option who only require an understanding of the principles of economic modelling and good practice and who need the skills to be able to review other people's models, but do not need the technical skills to build their own models, the introductory module HAR6113: Cost-effectiveness Modelling in International HTA may be a more appropriate choice of module.

15 credits

Sampling Theory and Design of Experiments

Whereas most statistics modules are concerned with the analysis of data, this module is focussed on the collection of data. In particular, this module considers how to collect data efficiently: how to ensure the quantities of interest can be estimated sufficiently accurately, using the smallest possible sample size. Three settings are considered: sample surveys (for example when conducting an opinion poll), physical experiments, as may be used in industry, and experiments involving predictions from computer models, where there is uncertainty in the computer model prediction.

15 credits

Time Series

This module considers the analysis of data in which the same quantity is observed repeatedly over time (e.g., recordings of the daily maximum temperature in a particular city, measured over months or years). Analysis of such data typically requires specialised methods, which account for the fact that successive observations are likely to be related. Various statistical models for analysing such data will be presented, as well as how to implement them using the programming language R.

15 credits

Year one – core modules:

Medical Statistics

This module introduces an important application of statistics: medical research, specifically, the design and analysis of clinical trials. For any new drug to be approved by a regulator (such as the Medicines and Healthcare products Regulatory Agency in the UK) for use on patients, the effectiveness of the drug has to be demonstrated in a clinical trial. This module explains how clinical trials are designed and how statistical methods are used to analyse the results, with a particular focus on 'survival' or 'time-to-event' analysis.

15 credits

The Statistician's Toolkit

This is the first of two 'core' modules students studying on statistics MScs. The aim of this module is to prepare statisticians for the workplace, equipping them with essential statistical modelling, computing and professional skills. The module includes the study of linear and generalised linear modelling, and data analysis using the programming language R.

30 credits

Year two – core modules:

Bayesian Statistics and Computational Methods

This module introduces the Bayesian approach to statistical inference. The Bayesian method is fundamentally different in philosophy from conventional frequentist/classical inference, and has been the subject of some controversy in the past, but is now widely used. The module also presents various computational methods for implementing both Bayesian and frequentist inference, in situations where obtaining results 'analytically' would be impossible. The methods will be implemented using the programming languages R and Stan, and some programming is taught alongside the theory lectures.

30 credits

Year two – optional modules:

A student will take 15 credits (one module) from this group.

Introduction to Research Methods Online

This module, which is delivered via online learning, provides students with an introduction to quantitative and qualitative research methods and to the types of skills necessary for the planning, data gathering and dissemination stages of health-related research. Topics covered include: -Research Design; -Methods of Data Collection; -Approaches to Analysing Data and Writing a Research Proposal. The course provides a foundation for further learning in specific research methods. It is primarily designed for new students beginning Masters courses in the Division of Population Health and there is an emphasis on research techniques used in public health and health services research (HSR).

15 credits

Systematic Approaches to Evidence Assessment Online

This module , which is delivered online, provides the skills and knowledge required to conduct rapid assessments of the evidence base and then to apply these assessments to health management and/or clinical practice. It introduces and explains rapid review methodologies that seek to optimise the balance between rigour and relevance, ensuring the timely and judicious use of evidence that is both user sensitive and context dependent. This module will also address the growing demand for knowledge translation of research findings, specifically within the context of developing countries. A key feature is production of a culturally-sensitive action plan that takes into account local feasibility and implementation issues.

15 credits

Epidemiology Online

As one of the core disciplines of Public Health, epidemiology is concerned with the methods of studying health related states and events to control health problems. The module, which is delivered online, covers epidemiological measures, main study designs, screening and surveillance. The primary objective is to introduce students to the principles, tools and applications of epidemiology and to help develop their practical skills through a range of activities.

15 credits

Systematic Reviews and Evidence Synthesis: Principles Online

The purpose of this unit is to enable students to understand the principles of systematic review. It covers the defining characteristics and application of systematic reviews; how to search for and select relevant evidence; how to quality assess primary research articles; the key issues that may generate bias; and the general principles governing evidence synthesis.

15 credits

Economic Evaluation in International Health Technology Assessment Online

This unit introduces the concept of economic evaluation as applied to health technology assessment, the different types of evaluation that are available and the various stages and techniques that need to be applied to generate results. The techniques will be matched against current practice guidelines in different jurisdictions so that students can understand the current policy context of the methods. Also, as additional techniques are described, the strengths and weaknesses of each will be highlighted, with the students being encouraged to critically appraise their appropriateness to different contexts and jurisdictions.

15 credits

Randomised Controlled Trials to Support Reimbursement Decision Making Online

Randomised controlled trials (RCTs) are of use when evaluating the effectiveness of interventions, as part of health technology assessment and decision-making. This unit covers the appropriate use of trials, the range of available research designs, strategies to optimise recruitment, sample size, outcome measures, and the use of economic and qualitative methods alongside trials.

15 credits

Machine Learning

Machine learning lies at the interface between computer science and statistics. The aims of machine learning are to develop a set of tools for modelling and understanding complex data sets. It is an area developed recently in parallel between statistics and computer science. With the explosion of “Big Data”, statistical machine learning has become important in many fields, such as marketing, finance and business, as well as in science. The module focuses on the problem of training models to learn from training data to classify new examples of data.

15 credits

Cost-effectiveness Modelling in International Health Technology Assessment Online

This unit sets out the different uses of modelling in Health Technology Assessment (HTA), together with the main principles and common techniques (including Markov models and individual level simulation). It reviews the international guidance on good practice and develops participants' skills to appraise and commission models for HTA. Learning is based around a core international literature on modelling covering methodological papers and a substantial set of case studies, ensuring learning is grounded in real world examples. Participants also undertake some simple 'hands-on' model-building and model reviewing in EXCEL to help embed the principles learned.Students interested to learn more about building cost-effectiveness models can enrol on the Building Cost-effectiveness Models for HTA module (HAR6119). This module runs in the Spring semester and is worth 15 credits.

15 credits

Utility and Patient-reported Outcomes Data in Health Technology Assessment Online

The module explores the assessment and generation of patient reported outcome and utility measures for use in international health technology assessment including alternative valuation techniques, measures and underlying assumptions to the quality adjusted life year (QALY) model. The approaches used to generate outcomes and other utility data will be explored in relation to current practice guidelines of reimbursement and other agencies in different countries. Measuring the wider societal benefits of interventions is also considered.

15 credits

Sampling Theory and Design of Experiments

Whereas most statistics modules are concerned with the analysis of data, this module is focussed on the collection of data. In particular, this module considers how to collect data efficiently: how to ensure the quantities of interest can be estimated sufficiently accurately, using the smallest possible sample size. Three settings are considered: sample surveys (for example when conducting an opinion poll), physical experiments, as may be used in industry, and experiments involving predictions from computer models, where there is uncertainty in the computer model prediction.

15 credits

Time Series

This module considers the analysis of data in which the same quantity is observed repeatedly over time (e.g., recordings of the daily maximum temperature in a particular city, measured over months or years). Analysis of such data typically requires specialised methods, which account for the fact that successive observations are likely to be related. Various statistical models for analysing such data will be presented, as well as how to implement them using the programming language R.

15 credits

Year three – core modules:

Dissertation (MSc Statistics with Medical Applications)

The dissertation is an extensive statistical study on a topic from a medical, pharmaceutical or health-related field. It gives the student the opportunity to synthesise theoretical knowledge with practical skills.

60 credits

Year three – optional modules:

A student will take 15 credits (one module) from this group.

Introduction to Research Methods Online

This module, which is delivered via online learning, provides students with an introduction to quantitative and qualitative research methods and to the types of skills necessary for the planning, data gathering and dissemination stages of health-related research. Topics covered include: -Research Design; -Methods of Data Collection; -Approaches to Analysing Data and Writing a Research Proposal. The course provides a foundation for further learning in specific research methods. It is primarily designed for new students beginning Masters courses in the Division of Population Health and there is an emphasis on research techniques used in public health and health services research (HSR).

15 credits

Systematic Approaches to Evidence Assessment Online

This module , which is delivered online, provides the skills and knowledge required to conduct rapid assessments of the evidence base and then to apply these assessments to health management and/or clinical practice. It introduces and explains rapid review methodologies that seek to optimise the balance between rigour and relevance, ensuring the timely and judicious use of evidence that is both user sensitive and context dependent. This module will also address the growing demand for knowledge translation of research findings, specifically within the context of developing countries. A key feature is production of a culturally-sensitive action plan that takes into account local feasibility and implementation issues.

15 credits

Epidemiology Online

As one of the core disciplines of Public Health, epidemiology is concerned with the methods of studying health related states and events to control health problems. The module, which is delivered online, covers epidemiological measures, main study designs, screening and surveillance. The primary objective is to introduce students to the principles, tools and applications of epidemiology and to help develop their practical skills through a range of activities.

15 credits

Systematic Reviews and Evidence Synthesis: Principles Online

The purpose of this unit is to enable students to understand the principles of systematic review. It covers the defining characteristics and application of systematic reviews; how to search for and select relevant evidence; how to quality assess primary research articles; the key issues that may generate bias; and the general principles governing evidence synthesis.

15 credits

Economic Evaluation in International Health Technology Assessment Online

This unit introduces the concept of economic evaluation as applied to health technology assessment, the different types of evaluation that are available and the various stages and techniques that need to be applied to generate results. The techniques will be matched against current practice guidelines in different jurisdictions so that students can understand the current policy context of the methods. Also, as additional techniques are described, the strengths and weaknesses of each will be highlighted, with the students being encouraged to critically appraise their appropriateness to different contexts and jurisdictions.

15 credits

Randomised Controlled Trials to Support Reimbursement Decision Making Online

Randomised controlled trials (RCTs) are of use when evaluating the effectiveness of interventions, as part of health technology assessment and decision-making. This unit covers the appropriate use of trials, the range of available research designs, strategies to optimise recruitment, sample size, outcome measures, and the use of economic and qualitative methods alongside trials.

15 credits

Machine Learning

Machine learning lies at the interface between computer science and statistics. The aims of machine learning are to develop a set of tools for modelling and understanding complex data sets. It is an area developed recently in parallel between statistics and computer science. With the explosion of “Big Data”, statistical machine learning has become important in many fields, such as marketing, finance and business, as well as in science. The module focuses on the problem of training models to learn from training data to classify new examples of data.

15 credits

Year three – optional modules:

A student will take 15 credits (one module) from this group.

Cost-effectiveness Modelling in International Health Technology Assessment Online

This unit sets out the different uses of modelling in Health Technology Assessment (HTA), together with the main principles and common techniques (including Markov models and individual level simulation). It reviews the international guidance on good practice and develops participants' skills to appraise and commission models for HTA. Learning is based around a core international literature on modelling covering methodological papers and a substantial set of case studies, ensuring learning is grounded in real world examples. Participants also undertake some simple 'hands-on' model-building and model reviewing in EXCEL to help embed the principles learned.Students interested to learn more about building cost-effectiveness models can enrol on the Building Cost-effectiveness Models for HTA module (HAR6119). This module runs in the Spring semester and is worth 15 credits.

15 credits

Utility and Patient-reported Outcomes Data in Health Technology Assessment Online

The module explores the assessment and generation of patient reported outcome and utility measures for use in international health technology assessment including alternative valuation techniques, measures and underlying assumptions to the quality adjusted life year (QALY) model. The approaches used to generate outcomes and other utility data will be explored in relation to current practice guidelines of reimbursement and other agencies in different countries. Measuring the wider societal benefits of interventions is also considered.

15 credits

Building Cost-effectiveness Models for Health Technology Assessment Online

An advanced course teaching the technical and practical skills required to build cost-effectiveness models for international health technology assessment. It builds on from the introductory unit, HAR6113 Cost-effectiveness modelling in international HTA, which covered the principles behind modelling. Content includes problem definition and structuring, building decision tree and Markov/state transition models in Excel, identifying appropriate data sources, implementing deterministic and probabilistic sensitivity analysis, and Value of Information analysis. It is an advanced course, aimed at students with a strong mathematical background who want to go on to build their own economic models.Students require a mathematical / statistical background and a sound understanding of the principles of modelling (prior completion of HAR6113 or evidence of previous training/knowledge). Good pre-existing Excel skills are essential. For students considering this Module as a standalone option who only require an understanding of the principles of economic modelling and good practice and who need the skills to be able to review other people's models, but do not need the technical skills to build their own models, the introductory module HAR6113: Cost-effectiveness Modelling in International HTA may be a more appropriate choice of module.

15 credits

Sampling Theory and Design of Experiments

Whereas most statistics modules are concerned with the analysis of data, this module is focussed on the collection of data. In particular, this module considers how to collect data efficiently: how to ensure the quantities of interest can be estimated sufficiently accurately, using the smallest possible sample size. Three settings are considered: sample surveys (for example when conducting an opinion poll), physical experiments, as may be used in industry, and experiments involving predictions from computer models, where there is uncertainty in the computer model prediction.

15 credits

Time Series

This module considers the analysis of data in which the same quantity is observed repeatedly over time (e.g., recordings of the daily maximum temperature in a particular city, measured over months or years). Analysis of such data typically requires specialised methods, which account for the fact that successive observations are likely to be related. Various statistical models for analysing such data will be presented, as well as how to implement them using the programming language R.

15 credits