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Biomedical Science

DLD College London Biomedical Science IFP

The Biomedical Science International Foundation Programme (IFP) is a one-year intensive course, designed as an alternative to A Levels, which prepares students for undergraduate study for a variety of science courses at a range of prestigious universities. Students can progress to a variety of university courses such as biochemistry, nutrition, pharmacy or medicine. The entry requirements is to achieve an IELTS 5.0 (evidenced by official certification) prior to commencement of the programme.

Which students is it recommended for?

  • Most of the students on the IFP course have an international background. They may have great educational achievements in their own countries but unfortunately do not meet the UK university entrance qualifications.
  • The IFP also accepts British students with adequate GCSE grades who have attempted A or AS levels or IB but did not achieve the grades required to enter their desired university entrance course.

Course Structure

The course has three components: biology, chemistry and mathematics. The subject weightings are shown below.

BiologyChemistryAdvanced Maths
Biochemistry IFP35%35%30%

The biochemistry IFP course is 100% assessed by examinations held in January and June each year. There are 2 exams to be sat in biology, 2 in chemistry and 2 in mathematics.

BiologyChemistryAdvanced Maths
January ExamsBiology 1Chemistry 1Mathematics 1
June ExamsBiology 2Chemistry 2Mathematics 2 & Statistics

The percentages from each subject are added together to produce an overall grade (pass: 40%, merit: 65% or distinction 85%).

The IFP includes English Language tuition to prepare students for the IELTS examinations if needed. This ensures that all IFP students meet university English Language entry requirements.

On average, students have approximately 20 hours of lessons per week, and are expected to supplement this with at least 10 hours of independent study.

Biology Descriptors

The Foundations of Biology

This unit introduces the biochemical basis of living organisms, their cellular nature and how cells arise from other cells. It also considers the organs and mechanisms involved in human gas exchange, digestion and blood circulation. Compulsory practicals enable students to appreciate scientific methods and develop competence in handling apparatus.

1. Biological Molecules
2. Enzymes
3. Cell Structure
4. Biological Membranes
5. Communicable Diseases, Disease Prevention & The Immune System
6. Exchange Surfaces
7. Digestion & Absorption
8. Transport in Animals
9. Respiration

Nature and Nurture

This unit introduces more complex biochemical and physiological processes. More challenging topics are covered, including homeostasis and genetics. The mechanism and uses of gene manipulation and biotechnology are studied.

10. Communication & Homeostasis
11. Excretion as an Example of Homeostatic Control
12. Neuronal Communication
13. Animal Responses
14. Hormonal Communication
15. Nucleotides & Nucleic Acids
16. Cell Division (Mitosis)
17. Cell Division (Meiosis), Cell Diversity & Cellular Organisation
18. Classification & Evolution
19. Patterns of Inheritance
20. Cellular Control
21. Manipulating Genomes
22. Cloning & Biotechnology

Chemistry Descriptors

The Foundations of Chemistry

Students will learn the key thinking that underpins all chemistry. They will develop their quantitative skills and use their knowledge to relate macroscopic properties to the structure and bonding. They will also look at organic molecules and start to analyse the mechanism by which reactions occur. Relevant practical skills will be developed.

1. Development of Practical Skills
2. Atoms, Ions and Compounds
3. Amount of Substance
4. Acids & Redox
5. Electrons & Bonding
6. Shapes of Molecules & Intermolecular Forces
7. Periodicity
8. Reactivity Trends (Group 2 & Group 7)
9. Enthalpy Changes
10. Rates of Reaction & Equilibrium
11. Basic Concepts Organic Chemistry
12. Alkanes
13. Alkenes
14. Alcohols
15. Haloalkanes
16. Organic Synthesis
17. Spectroscopy (Infrared and Mass Spectroscopy)

The Applications of Chemistry

Students will learn more about the ways in which we can control and understand reactions, both qualitatively and quantitatively. The organic work is developed and introduces more mechanisms and ideas that have a huge impact on biochemistry and drug synthesis. Relevant practical skills will be developed.

18. Rates of Reaction
19. Equilibrium
20. Acids, Bases & pH
21. Buffers & Neutralisation
22. Enthalpy & Entropy
23. Redox & Electrode Potentials
24. Aromatic Chemistry
25. Carbonyls & Carboxylic Acids
26. Nitrogen Compounds
27. Spectroscopy (13C and 1H NMR)

Mathematical Descriptors

Advanced Mathematics 1

More than ever before in human history, we are discovering new chemicals. Future Medical Scientists need to be able to analysed and manipulate data. Advanced Mathematics 1 equips learners with the core skills required to embark on further study of this dynamic field.

1. Algebra & Functions
2. Quadratic Functions
3. Equations & Inequalities
4. Sketching Curves & Transformations
5. The Sine & Cosine Rule
6. Trigonometry
7. Coordinate Geometry
8. Arithmetic Sequences & Series
9. Geometric Sequences & Series
10. Exponentials & Logarithms
11. Differentiation

Advanced Mathematics 2

Building on prior study, in Advanced Mathematics II students will expand their knowledge and skills gained and apply them to more complex issues. This module demands an analytical and synthetic approach that allows learners to develop mathematical knowledge, skills, imagination and experience to the highest levels in readiness for their future studies and career.

12. Further Differentiation
13. Partial Functions
14. Binomial Expansions
15. Functions
16. Integration
17. Numerical Methods
18. Coordinate Geometry in the (x,y) Plane
19. Differentiation
20. More Integration & Differential Equations


21. Sampling Methods
22. Data Representation an Interpretation
23. Bivariate Data
24. Measures of Central Tendency (Location) & Spread (Dispersion)
25. Probability
26. Binomial Distribution
27. Normal Distribution
28. Hypothesis Testing

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