鶹ýɫƬ

Essay

Beyond basics in blood

Linking biochemistry, immunology, transfusion medicine and community health
Fatahiya Kashif
By Fatahiya Kashif
Oct. 3, 2024

In medical education, vertical integration, or VI, blends basic medical science with clinical practice. A vertically integrated curriculum embeds basic science within clinical settings to ensure students’ knowledge is both theoretical and practical. Students observe common medical procedures and learn necessary precautions, becoming more comfortable and confident in clinical environments as they advance in their studies.

The 鶹ýɫƬ and 鶹ýɫƬ Biology Student Chapter at Federal Medical College in Islamabad recently designed a vertically integrated module that combined medical biochemistry and immunology with transfusion medicine and public health. Within biochemistry, we integrated the study of lipids, proteins and carbohydrates.

This multifaceted module included large-group interactive sessions, small-group discussions and collaborative learning. We encouraged students to take deep dives into topics and present what they learned through role-playing activities.

A weeklong training at a local blood bank gave students practical insights into complex procedures. We also celebrated World Blood Donation Day, promoting awareness of the importance of giving blood at the community level.

Fatahiya Kashif, center, surrounded by members of the Federal College ASBMB Student Chapter. Back: Sidique, Ali Hassan, Ahmed, Ali Ahmed, Muhammad Ali, Hafsah and Romayssa. Middle: Javeria, Hira, Aqsa and Afreen. Front: Mahpara, Momina, Adina and Minahil.
Courtesy of Fatahiya Kashif
Fatahiya Kashif, center, surrounded by members of the Federal College ASBMB Student Chapter. Back: Sidique, Ali Hassan, Ahmed, Ali Ahmed, Muhammad Ali, Hafsah and Romayssa. Middle: Javeria, Hira, Aqsa and Afreen. Front: Mahpara, Momina, Adina and Minahil.

Macromolecular integration

First-year medical students need to understand the structure of macromolecules —carbohydrates, proteins and lipids. However, after a textbook introduction, students often have a hard time visualizing these macromolecules’ interactions and combined functions in real-life scenarios.

To show how they integrate in biological processes, we selected blood group antigens and antibodies as an example of molecular interplay. Complex sugars and lipids are found in the oligosaccharide and lipid components of ABO glycolipids, while is a transmembrane protein. Through our integrated approach, we showed the collaboration of these proteins, sugars and lipids at the molecular level.

First, the students looked at the structure of cell membranes, with emphasis on how complex oligosaccharides are attached to membrane lipids and proteins, forming the glycocalyx, which is crucial for cellular identity and antigenicity. They then studied the red blood cell membrane structure, especially the composition of blood group antigens, the H antigen, the transferase enzymes involved in antigen construction, and how the addition of a single sugar residue can make one particular type of blood group antigen.

The students then looked at lipids, beginning with the phospholipid and glycolipid composition of cell membranes and then shifting their focus to the glycolipids of ABO antigens. This foundation in sugars and lipids set the stage for learning about proteins.

The students explored the structural hierarchy of proteins from amino acid sequences to complex folding patterns, using membrane proteins as primary examples. They then delved into the complexities of the Rh antigen, a transmembrane protein, investigating its role in antigenicity as well as its role in the maintenance of red blood cell membrane integrity and the transport of ammonia and carbon dioxide.

The Federal College student designed these caps to represent red blood cell membrane–associated antigens responsible for ABO blood groups.
Fatahiya Kashif
The Federal College student designed these caps to represent red blood cell membrane–associated antigens responsible for ABO blood groups.

Immunology, role play and transfusion

The students explored the architecture of immunoglobulins as they looked deeper into the intricate world of protein structures. They started with the basic structure of these essential proteins, highlighting their role in the immune system. They then investigated the sophisticated V(D)J recombination process, which generates diverse immunoglobulins. They saw how specific genetic rearrangements create unique antigen-binding sites needed for effective immune responses.

The students also examined the interaction between immunoglobulins and blood group antigens and studied the importance of these interactions in contexts such as blood transfusions and immune responses to pathogens.

Role-playing in medicine often involves simulating doctor and patient roles, but in biochemistry, we modified this approach to focus on cellular interactions. Students assumed the roles of cells and their surface antigens, transforming the classroom into a dynamic interplay of cells and molecules. We crafted costumes by painting T-shirts for each blood type, designed caps to represent cell membranes with protruding antigens, and fashioned bracelets as IgM pentamers to represent antibodies. The students wrote the script and performed the .

Courtesy of Fatahiya Kashif
The Federal College students wore T-shirts and caps decorated to designate their roles as cells and their surface antigens. From left to right are Aamir Uddin, Hooria Waheed and Himat Ali.

We partnered with the blood bank, where director Farwa Sijjeel delivered a lecture on the clinical intricacies of blood transfusion. She organized and supervised their practical training in the blood bank. The students learned about biochemical processes underlying blood compatibility and transfusion reactions as well as how to address critical issues such as blood component preparation, blood storage and the biochemical basis of transfusion reactions.

We synchronized our activities with World Blood Donation Day. Rabia Mehmood, head of the department of community medicine at our college, provided insights into the public health dimensions of blood transfusion, explaining how understanding biochemical processes underpins effective health care practices. She encouraged the students to create awareness posters and organize a walk in conjunction with the event.

The students made bracelets with thermopore rings, colored straws and plastic tips to represent IgM immunoglobulins.
Courtesy of Fatahiya Kashif
The students made bracelets with thermopore rings, colored straws and plastic tips to represent IgM immunoglobulins.

Success and feedback

At the end of the module, we obtained student feedback through Google Forms. Students praised this project, saying that its engaging and informative approach enhanced their understanding of biochemistry and related topics. Many said they appreciated the setup, acting and overall experience and were eager to participate in future activities.

The students said they particularly valued the practical aspects, such as the hands-on training at the blood bank, for providing real-world insights into clinical practices and patient care. They also highlighted the benefits of teamwork, leadership and collaboration gained through the roles they played. They commended the innovative teaching approach and noted that this project not only clarified complex concepts but also inspired them to love biochemistry.

Suggestions for improvement included better teamwork, more inclusive participation and enhanced time management, along with a call for more frequent interdisciplinary seminars and workshops.

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Fatahiya Kashif
Fatahiya Kashif

Fatahiya Kashif is a biochemistry professor at Federal Medical College in Islamabad, Pakistan.

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