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Huddersfield University Campus

Pharmaceutical Chemistry BSc(Hons)

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Start Dates

21 September 2026

Duration

3 years full-time 4 years inc. placement year

UCAS Tariff

104-112

Recent Awards For Excellence

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About this course

Overview

Why choose Huddersfield for this course?

  • Delve deeper into the complexities of analytical science, molecular targets and drug design.
  • You’ll be learning from the best, as we've been rated Gold in the Teaching Excellence Framework (TEF) 2023.
  • You'll be introduced to many exciting career opportunities, including pharmaceutical analysis, chemical manufacturing, and more.

Studying for your Pharmaceutical Chemistry BSc(Hons) degree with us gives you the chance to explore the fundamentals of organic chemistry, analytical chemistry, biochemistry and pharmacology while developing a specialism in pharmaceutics.

Why study Pharmaceutical Chemistry BSc(Hons)

Taught by doctoral level staff, you’ll be gaining real-world experience in this course by learning in our new £18.2 million facilities, which include purpose-built state-of-the-art chemistry and pharmaceutical labs featuring modern instruments.

You can also participate in an optional supervised work placement in your area of interest, available after your second year in the course. This placement year allows you to put your knowledge and skills to the test at sites in the UK or abroad.

In your final year, you’ll delve deeper into the complexities of analytical science, molecular targets and drug design, and also have the opportunity to complete a chemically-based independent research project, pursuing the topics that interest you the most.

Career opportunities after the course *

Data Analysts

Graduate Managers

Laboratory Technicians

Environmental Consultants

Operations Coordinators

*Lightcast

Who can apply?

Entry Requirements

BBC-BCC at A Level including a minimum grade C in Chemistry. The endorsement for practical work is an essential part of Science A Level study, and is a requirement for entry to our degree course.
DMM in BTEC Level 3 Extended Diploma in Applied Science.
112-104 UCAS tariff points from a combination of Level 3 qualifications including a minimum grade C in Chemistry at A Level.
Access to Higher Education Diploma with 45 level 3 credits at Merit with at least 21 credits in Chemistry.
Merit at T Level in Science
112-104 UCAS tariff points from International Baccalaureate qualifications, including Higher Level Chemistry at grade 5.

If you do not have the appropriate qualifications for direct entry to this degree you may be able to apply to our Science Extended Degree (BCF0).

If your first language is not English, you will need to meet the minimum requirements of an English Language qualification. The minimum for IELTS is 6.0 overall with no element lower than 5.5, or equivalent. Read more about the University’s entry requirements for students outside of the UK on our International Entry Requirements page.

Other suitable experience or qualifications will be considered. For further information please see the University's minimum entry requirements.

What will you learn?

Course Details

This module aims to introduce students from diverse backgrounds to the range of skills required in modern analytical science and illustrate how analytical methodology underpins scientific investigation across the conventional discipline boundaries. The module will build on and develop your prior knowledge of analysis whilst not assuming any particular area of expertise and will also endeavour to improve your numerical, IT and communication skills by illustrating analytical methodology in the context of these key skill areas. This module also aims to develop your ability to obtain and interpret a wide range of spectroscopic data in a systematic and logical fashion. In this way you'll be taught to apply your knowledge to a wide range of new problems and in so doing develop your general problem solving skills. The module will be taught primarily by lectures and tutorials with illustrative practical work to highlight salient points from the lecture material.

This module teaches you to recognise a range of functional groups and to name systematically compounds that contain them. Structure and bonding in organic compounds are discussed, as are the concepts of the octet rule, orbital hybridisation, formal charge, bond polarisation and resonance. The importance of molecular geometry is introduced and the basic principles of molecular conformation and of stereochemistry are covered. In preparation for the chemistry to follow, an integrated treatment of the 'language of chemical change' is presented. The ideas of mechanism and reaction intermediates are met, together with the curly arrow symbolism which chemists use to represent the electron movement inherent in chemical reactions. In the second half of the module, the chemistry of the principal functional groups is considered, using the ideas developed earlier. The lecture programme is reinforced by regular tutorials in which problems are worked. Running parallel to the lecture programme is a continuously assessed practical course that introduces you to the basic techniques of preparative organic chemistry.

This module covers four areas of physical chemistry: Units, Conversions and the Properties of ideal and non-ideal Gases, Solution Chemistry of Acids, Bases and Salts, Reaction Kinetics and Catalysis, and Introductory Thermodynamics

This module introduces you to the underpinning physical pharmaceutics and the skills appropriate for the formulation and compounding of medicines prepared extemporaneously. You'll also be introduced to a range of dosage forms and will adopt best practice in the preparation of a range of extemporaneous preparations including sourcing formulae, performing calculations and record keeping.

​Biochemistry 1 gives a basic account of the structure and function of biological macromolecules, particularly proteins and is illustrated by reference to such molecules as haemoglobin. A firm grounding in enzyme action is provided and this is supported by a number of practical classes. The relationship between genes and proteins and the Central Dogma of Molecular Biology are emphasised. A foundation in the study of metabolism is provided, directing you towards an understanding of the underlying principles rather than rote learning of metabolic pathways. The subject provides the basis for further studies in subjects such as Cell Structure and Pharmacology. The subject is delivered by formal lectures and in laboratory classes. However your learning is supported by tutorial classes, the provision of web-based material and, where necessary, a limited amount of individual tuition.

This module covers all the major organs of the body together with models of normal and abnormal bodily function. Emphasis will be directed to the concept of homeostasis and the integration of dynamic processes involved in the maintenance of health.

This module provides coverage of the more important methods of forming carbon-carbon single and double bonds. Following on from year 1 carbonyl chemistry, some more advanced aspects of carbonyl chemistry will be discussed. Main-group elements and their role in synthesis will also be considered. Retrosynthetic analysis will be introduced in the context of carbonyl chemistry and will be developed to enable you to plan some complex multistep syntheses. The synthesis and reactions of the main classes of simple heterocyclic compounds will be covered. The chemistry of other biologically-important compounds such as carbohydrates amino acids will also be detailed. More advanced aspects of stereochemistry are covered, and the relationship between conformation and reactivity is explored. The module has a practical component which focuses on the use of more advanced techniques for the preparation, isolation and analysis (IR and NMR) of target molecules. A part of the practical session is devoted to the isolation of stereochemically pure products.

In this module you'll have the opportunity to consolidate the interpretative skills learnt in the module Analytical Science 1 and extend these to the analysis of spectra from more complex organic molecules. The majority of samples encountered in analytical science are mixtures, you'll be introduced to the basics of the most widely used forms of chromatography and a number of application areas of each will be described including the application of combined separation and spectroscopic techniques. Additionally you'll be introduced to a selection of instrumental analyses including atomic spectroscopy, thermal methods and electrochemical techniques, and statistical methodology which provide solutions to many of the analytical problems which are encountered in modern society. This module aims to develop your abilities in these directions to enable you to design an analytical process whilst further developing your IT, communication and numerical skills.

This module builds on the pharmaceutics provided in the first year module Pharmaceutics 1. You’ll be introduced to the pharmaceutical dosage form, design of tablets and capsules, and have the opportunity to gain an understanding of biopharmaceutics together with an appreciation of bioequivalence, which supports the choice of medicines. The module will also introduce you to the basics of pharmaceutical industrial practice, for example, pre-formulation issues and unit processes and controls, the application and theory of GMP including standard operating procedures (SOPs).

The aims of this module are to introduce you to a range of pathogens responsible for major and emerging infectious diseases globally. To outline how pathogen biology not only influences pathology and transmission of disease, but is also the target for therapeutic intervention. We'll provide you with an overview of the drug discovery pipeline and other factors involved in the control of infectious diseases. This module also covers the mechanisms of action of existing and potential new therapies and discusses the significance of infectious diseases in the context of 21st century life. It also introduces the emerging importance of the commensal microflora and the concept of dysbiosis in the aetiology of a range of pathologies. The bases of pathogenicity and virulence for a range of bacterial, eukaryotic and viral pathogens will be addressed alongside discussion of current and prospective treatments for the diseases caused by these micro-organisms. The emerging importance of commensal microflora and the concept of dysbiosis in the aetiology of a range of human pathologies and antibiotic/drug-resistance are also important themes in this medical microbiology-themed module. Infectious diseases significant in a UK context and more widely in a global context will both be addressed. Lectures and assessment will cover bacterial, viral, and eukaryotic pathogens, which are the aetiological agents of human disease in tropical and temperate countries. Lecture content will include discussion of leading causes of mortality globally: e.g. cholera, malaria, tuberculosis, and HIV-AIDS. Threats posed by antibiotic resistance, challenges and opportunities associated with new medicine development, and the significance of emerging diseases against a backdrop of climate change will all be addressed.

​This module will extend and develop your understanding and knowledge of cell biology with a particular focus on how cells communicate and the importance of this for multicellularity. Key themes include regulation of the passage of molecules across the cell membrane, intracellular and cell surface receptors, signal transduction pathways and second messengers. The role of the cytoskeleton, the extracellular matrix and selective cell adhesion in formation of tissues are also considered. You will gain an understanding of different techniques that are used to study cell biology. The practical component of this module will help you to develop your laboratory practical skills and ability to analyse and present acquired data.

You will also choose one optional module in this year. The current optional modules are:

This module considers protein structure in relation to function, in particular enzyme action and membrane mediated metabolic processes. The various types of post-translational modifications of proteins are discussed in detail, followed by an account of protein folding. Protein mis-folding, aggregation and intrinsic disorder are also discussed using prion proteins, amyloid and FnBPA as examples. Various globular and fibrous proteins illustrate regulatory strategies. Channels, pumps and cytoskeletal components illustrate higher levels of organisation of proteins. The techniques of X-ray crystallography and Cryo-EM for protein structure determination are introduced. Advantages and limitations are discussed. Lectures will discuss various techniques for analysing protein structure, folding and protein-protein interactions (isothermal titration calorimetry, near and far UV circular dichroism). The structure and function of mitochondria and chloroplasts is also covered including respiration and photosynthesis pathways, focusing on electron transport chains. Mechanisms of enzyme catalysis are discussed with numerous examples (acid-base, covalent, nucleophilic, metal ion etc). In lectures, practicals and problem based tutorials you'll have the opportunity to develop the skills required for determining kinetic and inhibition constants (kcat, catalytic efficiency, Ki). Practicals will also allow you to isolate a pure protein from egg white, assess product quality and consider the commercial value of this purified material.

The module builds on the basic physiology that was studied in the first year. The organisation and regulatory roles of the nervous system are considered and their interaction investigated. The central nervous system (CNS) will be investigated and the functions associated with its anatomical regions. Interactions such as sensory and motor integration, sleep-wake cycles and higher mental functions (consciousness and memory) will also be introduced. Endocrine physiology and hormonal control will also be considered with integration of activities of the nervous and endocrine systems.

For more information on when and how we update our modules please see the ‘Legal Information’ section below.

The supervised work experience (SWE) is normally a 48 week placement in a suitable organisation. The actual content of the placement will vary depending on the specific background and demands of individual students and the opportunities available within differing employing organisations. Placements are available both within the UK and abroad and assistance is provided to help find a suitable position. You'll be visited up to twice a year by your University tutor. The SWE provides an opportunity for you to experience employment within organisations related to your chosen pathway and at the same time improve your technical and social skills.

A chemically-based independent research programme. Supervisors will outline the aims of the project and direct you to the most recent literature. Before undertaking experimentation, you'll be expected to undertake a comprehensive review of the literature related to your project. You'll have the opportunity to plan your project in light of the current state of the field of research. You'll be given advice from your supervisor on research methods. Your projects will involve advanced laboratory and instrumental techniques. It will be open ended and you'll be expected to review progress regularly and modify research plans accordingly. You'll then be required to present your results in a thesis and in a talk at the end of your project

You will also choose five optional modules in this year. The current optional modules are:

This module draws together the basic concepts of synthesis and reaction mechanisms in the context of providing methods for designing suitable synthetic routes to target compounds and also extends the range of reaction types to include pericyclic reactions. The module introduces contemporary preparative methods for the synthesis of organic compounds. Further aspects relating to designing a synthesis and the connection between design and retrosynthetic principles are covered. The selectivity of reactions and the concepts of regio-, chemo-, stereo- and enantioselectivity are developed as are the rules governing pericyclic reactions. The reaction mechanism component draws together concepts in both physical and mechanistic organic chemistry. This section provides techniques that can be used to differentiate between mechanistic types. The use of product analysis, activation parameters, linear free energy relationships and isotope effects to determine reaction mechanisms are described.

In this module the basic description of separation science provided earlier in the course will be expanded and extended. Recent developments in the subject will be discussed in terms of basic chromatographic theory. The application of separation methods to the identification and quantification of drugs and their metabolites in toxicological samples will be discussed. The metabolism of drugs, in so far as this process impinges upon the analytical methodology employed in toxicological analysis, together with the effects of sample type and their storage will be highlighted.

In this module you'll be provided with an overview of contemporary spectroscopic techniques and their relevant areas of application. In mass spectrometry you'll be introduced to the range of ionisation and scanning techniques and the ways in which the coupling of chromatographic methods with mass spectrometry can enhance and extend the capabilities of both methods. In NMR you'll have the opportunity to consider a range of advanced experimental methods to enhance the quality of the analytical information which can be obtained. Modern electroanalysis is a powerful and versatile analytical tool for investigating a wide range of analytical problems. This module will introduce you to a selection of these methods and will illustrate the practicalities, uses and limitations of these techniques. Sensor technologies represent a rapidly expanding area of analytical science. The module aims to familiarise you with the wide range of fields, which contribute to sensor developments, and then to reinforce this knowledge with pertinent examples such as glucose monitoring systems for diabetics.

This module provides a comprehensive overview of adaptive and innate immunity. Detailed discussion is also provided for a broad range of parasites, bacterial pathogens and viruses and the dynamic interaction occurring after infection of a susceptible host: the host’s immune response; the evasion, inactivation, and/or manipulation strategies deployed by the microbial invader. Key experimental techniques commonly used in immunology research and in the diagnosis/monitoring of disease are also discussed.

The aim of this Pharmacology module is to introduce you to the mechanisms of action of drugs used to treat diseases of the central nervous system (CNS) and cancer. You will learn about the underlying disease processes involved in the development of CNS disorders and then study their pharmacological management. You will also learn about the biological basis of the mechanisms underpinning the development of cancer and then the drugs used to treat cancer. You will also learn about drug testing, chemosensitivity and pharmacokinetics. CNS topics will include depression, schizophrenia, anxiety, Alzheimer’s disease, Parkinson’s disease, epilepsy, pain, and drug addiction. Cancer topics will include the hallmarks of cancer, the mechanisms of action of cytotoxic and targeted anti-cancer therapeutics, anti-cancer drug discovery and anti-cancer drug resistance. Pharmacokinetics will cover dosing for drugs with non-linear pharmacokinetics, one-compartment and two-compartment model drugs.

This module extends your understanding of pharmaceutics and biopharmaceutics, and relevance to an extended range of dosage forms. Different delivery methods, routes of delivery and formulation type will be individually reviewed including oral and aerosol formulations. Formulation approaches to targeting the different routes of delivery (buccal, colon, rectal, nasal ophthalmic, pulmonary and transdermal) will also be covered. The structure and the nature of the barrier properties of the tissue will be discussed in terms of the advantages afforded by delivery to the site and strategies for maximising absorption. The design, manufacture and performance of modified release drug dosage forms and factors governing release kinetics from reservoir, osmotic and monolithic systems and mathematical calculations will be covered. Aspects of formulation and the importance of pharmaceutical analysis to maintain the quality, safety and efficacy of the product will be consolidated in the practicals and case-study. Pharmaceutical analysis including thermal, and rheological analyses are covered along with release testing, UV analysis, aerosol testing and particle sizing.

This module provides the opportunity for you to learn about a range of different chronic diseases that can affect human health and quality of life. The underlying biology associated with some of these chronic diseases will be studied, the mechanism(s) by which they arise or develop and current treatments. There will be a particular focus on cancer as an example of a complex chronic disease. Other chronic diseases to be studied will be chosen to reflect recent advances in knowledge or treatment of a disease.

For more information on when and how we update our modules please see the ‘Legal Information’ section below.

Teaching and Assessment

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Global Professional Award

At Huddersfield, you’ll study the award-winning Global Professional Award (GPA) alongside your degree* — so you’re ready for the career you want, whatever subject you choose.

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Interested in a placement?

Placements

In the third year of this course, you’ll get the chance to step out of the classroom and into the real world on an optional placement year working for an organisation related to your areas of interest. This is when you’ll really be able to see your knowledge in action, pick up invaluable skills for your future career and boost your employability to help you hit the ground running after graduation.

You could stay to do your placement in the UK or experience a new culture and work abroad for one year. Where could this year take you?

Previous students in the Chemistry subject area have undertaken placements with Arxada, Barentz, Chemfix, Thornton & Ross and University of Huddersfield.

Placement information
I gained more confidence through my placement in an academic research lab abroad. I also worked with high-end equipment, which has reinforced my knowledge and improved my technical skills. I now have an appreciation for the role of a Medicinal Chemist in drug discovery.

- Priscilla Ogunmola
Pharmaceutical Chemistry MSci, placement with The Laboratory for Drug Discovery in Neurodegeneration in USA

Where could this lead you?

Your Career

As a graduate of this course, you may consider a career in a wide range of scientific areas, including chemical analysis, chemical manufacturing, healthcare, pharmaceutics, pharmaceutical analysis, production and process control, research and teaching.

Previous graduates from courses in the subject area of Chemistry have gone on to roles such as Analyst at ALS Environmental, Analytical Scientist at Sequani, Microbiological Analyst at Microsearch Laboratories Ltd, QC Analyst at Ernest Jackson & Co Ltd and Operations and Technical Support Assistant at National Nuclear Laboratory.**

**LinkedIn

80%
80% of students were employed or in further study within 15 months after graduation.

* HESA Graduate Outcomes 2021/22, UK Domiciled

89.6%
89.6% of participants from the School of Applied Sciences agreed learning resources were high quality.

* National Student Survey (NSS) 2025

1st
Ranked 1st in Yorkshire and the Humber for Pharmacy and Pharmacology.

* Guardian League Tables, 2026

What I enjoy most about my current career is the ability to work in a laboratory with chemicals that have unique properties. I was readily prepared for this by the teaching labs at the University of Huddersfield.

- Dylan Watmough
Chemistry MChem graduate, now Operations & Technical Support Assistant at National Nuclear Laboratory.

How much will it cost?

Fees and Finance

£9,790 per year

This information is for Home students applying to study at the University of Huddersfield in the academic year 2026/27.

Please note that tuition fees for subsequent years may rise in line with inflation (RPI-X) and/or Government policy. 

From January 2027 the UK government is launching a new student funding system for people starting university education. Read more about the Lifelong Learning Entitlement (LLE).

For detailed information please visit https://www.hud.ac.uk/study/fees/

£17,600 per year

This information is for international students applying to study at the University of Huddersfield in the academic year 2026/27.

Please note that tuition fees for subsequent years may rise in line with inflation (RPI-X) and/or Government policy. 

For detailed information please visit https://www.hud.ac.uk/international/fees-and-funding/

Home

The tuition fee for a placement year is £1000. If you go on work experience or work placement, you will need to fund your own travel and/or accommodation costs to and from the placement.  Please be aware that if your placement is outside of the UK, you will still be responsible for your travel and living expenses and may need to consider issues like health care and insurance costs.

International

The tuition fee for a placement year is £3,300. If you go on work experience or work placement, you will need to fund your own travel and/or accommodation costs to and from the placement.  Please be aware that if your placement is outside of the UK, you will still be responsible for your travel and living expenses and may need to consider issues like health care and insurance costs.

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Make Huddersfield your home. A Yorkshire town, surrounded by beautiful countryside, with easy access to neighbouring cities; Leeds, Manchester and Sheffield. You’ll find plenty of places to eat, drink, shop and socialise, there’s ambitious plans for future development. Our campus is situated next to the town centre - making your commute a breeze.

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Get involved in great opportunities helping you to make friends from all across the world and create lifelong memories. Join one of over 100 societies with the Students’ Union, experience new cultures through global events, earn whilst you learn and build your skills via our Global Professional Award.

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Budget Friendly

Huddersfield is not only one of the friendliest towns, it also offers you a lower cost of living than most big cities. This means you could have more money to spend, making your uni experience even better. On campus you’ll also find plenty of facilities and services to help you budget and make your money go further.

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At the University of Huddersfield, you’ll find support networks and services to help you get ahead in your studies and social life. Whether you study at undergraduate or postgraduate level, you’ll soon discover that you’re never far away from our dedicated staff and resources to help you to navigate through your personal student journey.

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Our researchers carry out world-leading work that makes a real difference to people’s lives. Staff within the Department of Physical and Life Sciences may teach you on this course.

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Research Excellence

You’ll be taught by staff who want to support your learning and share the latest knowledge and research.

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Legal information

When you enrol as a student of the University, your study and time with us will be governed by our terms and conditions, Handbook of Regulations and associated policies. It is important that you familiarise yourself with these as you will be asked to agree to them when you join us as a student. You will find a guide to the key terms here, along with the Student Protection Plan.

Although we always try and ensure we deliver our courses as described, sometimes we may have to make changes for the following reasons:

Changes to a course you have applied for but are not yet enrolled on

If we propose to make a major change to a course that you are holding an offer for, then we will tell you as soon as possible so that you can decide whether to withdraw your application prior to enrolment. We may occasionally have to withdraw a course you have applied for or combine your programme with another programme if we consider this reasonably necessary to ensure a good student experience, for example if there are not enough applicants. Where this is the case we will notify you as soon as reasonably possible and if you are unhappy with the change we will discuss with you other suitable courses we can transfer your application to. If you do not wish to transfer to another course with us, you may cancel your application and we will refund you any deposits or fees you have paid to us.

Changes to your course after you enrol as a student

Changes to option modules

Where your course allows you to choose modules from a range of options, we will review these each year and change them to reflect the expertise of our staff, current trends in research and as a result of student feedback or demand for certain modules. We will always ensure that you have an equivalent range of options to that advertised for the course. We will let you know in good time the options available for you to choose for the following year.

Major changes

We will only make major changes to non-optional modules on a course if it is necessary for us to do so and provided such changes are reasonable. A major change is a change that substantially changes the outcomes, or a significant part of your course, such as the nature of the award or a substantial change to module content, teaching days (part time provision), type of delivery or assessment of the core curriculum. For example, it may be necessary to make a major change to reflect changes in the law or the requirements of the University’s regulators or a commissioning or accrediting body. We may also make changes to improve the course in response to student, examiners’ or other course evaluators’ feedback or to ensure you are being taught current best practice. Major changes may also be necessary because of circumstances outside our reasonable control, such as a key member of staff being unable to teach due to illness, where they have a particular specialism that can’t be adequately covered by other members of staff; or due to pandemics, other disasters (such as fire, flood or war) or changes made by the government.

Major changes would usually be made with effect from the next academic year, but may happen sooner in an emergency. We will notify you as soon as possible should we need to make a major change and will consult with affected groups of students and any changes would only be made in accordance with our regulations. If you reasonably believe that the proposed change will cause you detriment or hardship we will, if appropriate, work with you to try to reduce the adverse effect on you or find an appropriate solution. Where an appropriate solution cannot be found and you let us know before the change takes effect you can cancel your registration and withdraw from the University without liability to the University for any additional tuition fees. We will provide reasonable support to assist you with transferring to another university if you wish to do so and you may be eligible for an exit award depending on how far through your course you are.

In exceptional circumstances, we may, for reasons outside of our control, be forced to discontinue or suspend your course. Where this is the case, a formal exit strategy will be followed in accordance with the student protection plan.

The Office for Students (OfS) is the principal regulator for the University.

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