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BI4.3

Masterfile Competency Based

SUBJECTTOPICSNumberCompetencyDomainLevel K/KH/ SH/PCore Y/NTeaching learning methodsAssesment methodsNumber required to certify PVertical integration
BIOCHEMISTRYChemistry and Metabolism of Lipids(07)BI4.3Explain the regulation of lipoprotein metabolism & associated disorders.KKHYLecture, Small groupdiscussionWritten/ Viva voceGeneral Medicine
GENERAL MEDICINEIntegrationBI4.3Explain the regulation of lipoprotein metabolism & associateddisordersKKHYLecture, Small groupdiscussionWritten/ Viva voceGeneral Medicine

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Interactive Session Plan for Medical Biochemistry: Lipoprotein Metabolism and Associated Disorders
Session Objective: By the end of this session, students should be able to describe the key pathways of lipoprotein metabolism, identify major lipoproteins and their functions, and understand the biochemical basis of disorders related to lipoprotein metabolism.
Duration: 90 minutes

1. Introduction (10 minutes)
Objective: Set the context and outline the session.
Activity: Brief lecture using slides.
Introduction to lipoproteins and their importance in metabolism.
Overview of session objectives and structure.

2. Pre-Session Quiz (10 minutes)
Objective: Assess baseline knowledge.
Activity: Online quiz using a tool like Kahoot or Google Forms.
Multiple-choice questions covering basic concepts of lipids and lipoproteins.
Immediate feedback provided to correct misconceptions.

3. Interactive Lecture with Visual Aids (20 minutes)
Objective: Explain the pathways of lipoprotein metabolism.
Activity: Interactive lecture with visual aids.
Use diagrams and animations to illustrate:
Structure and classification of lipoproteins (chylomicrons, VLDL, LDL, HDL).
Exogenous and endogenous pathways of lipoprotein metabolism.
Role of key enzymes and proteins (lipoprotein lipase, hepatic lipase, apolipoproteins).
Emphasize the function of each lipoprotein type in transporting lipids.

4. Group Activity: Case Study Analysis (20 minutes)
Objective: Apply knowledge to clinical scenarios.
Activity: Case study analysis in small groups.
Provide case studies on common lipoprotein disorders (e.g., familial hypercholesterolemia, hypertriglyceridemia).
Each group analyses the pathophysiology, biochemical basis, and clinical presentation of the disorder.
Groups present their findings to the class.

5. Interactive Simulation: Lipoprotein Metabolism (20 minutes)
Objective: Reinforce learning through practical application.
Activity: Virtual simulation or interactive module.
Use a simulation tool (e.g., Osmosis or Labster) to visualize lipoprotein metabolism.
Students manipulate variables (e.g., enzyme levels, dietary fat intake) to observe effects on lipoprotein levels.
Discuss the impact of these changes on overall metabolism and health.

6. Wrap-Up and Q&A (10 minutes)
Objective: Summarize key points and address questions.
Activity: Open floor for questions and discussion.
Recap the main points of the session.
Answer any remaining questions from students.
Provide additional resources for further study.

7. Post-Session Assessment (Optional Homework)
Objective: Assess understanding and reinforce learning.
Activity: Assign a homework problem set.
Questions involving analysis of lipid profiles, diagnosis, and treatment options for lipoprotein disorders.
Provide feedback on submissions to ensure comprehension.
Materials and Tools:
Lecture slides and animations
Online quiz platform (Kahoot, Google Forms)
Diagrams and animations for visual aids
Case study handouts
Virtual simulation tool (Osmosis, Labster)
Post-session assessment problems
Assessment:
Pre-session quiz results.
Participation in group activities and discussions.
Performance in the interactive simulation.
Post-session homework accuracy.
By integrating these elements, the interactive session aims to provide a thorough understanding of lipoprotein metabolism and associated disorders, ensuring that students can connect biochemical principles with clinical applications.
 Thanks & Regards
Dr.Nadeem_2024A