Lecture

CA1 Anatomy

Related lectures (32)

Explores B cell activation, antibody production, isotype switching, and memory B cell formation in humoral immune responses.

Activation and Differentiation of T Cells

Explores the activation and differentiation of T lymphocytes, focusing on naive T cells recognizing antigens and differentiating into effector and memory cells.

Adaptive Immune Response: Steps and Activation

Explores the steps and phases of the adaptive immune response.

Immune System Defense

Explores the immune system's defense mechanisms, including epithelial barriers, innate immunity, adaptive immunity, B and T cells, antibodies, and immunological memory.

Immune System: T Cells and Antigen Presentation

Explores T cells, antigen presentation, cytotoxicity, MHC proteins, apoptosis, and vaccine principles.

Immunoengineering: Introduction

Introduces the theme of research in immunoengineering, covering basic principles and cutting-edge research in the field.

Antigen Recognition by T cells

Explores the principles of antigen recognition by T cells, including antigen capture, MHC processing, and T cell responses.

An Overview of Vaccines

Covers precision tumor recognition, challenges in T cell therapy, vaccination impact, history, types, and examples of vaccines, immune response, and COVID-19 vaccine types.

Immunoengineering: Introduction

Covers the basics of immunoengineering, including immune cell roles, antibody production, and defense mechanisms.

Bio Molecular NanoComputing: From Enzymes to Cells

Covers the evolution of Bio Molecular NanoComputing, exploring the potential of enzymes and cells for computational purposes.

Immune System Organs and Tissues

Explores the primary and secondary lymphoid organs of the immune system.

Radiotherapy: Basics & Classical Methods

Explores the basics of radiotherapy, including biological principles, types, techniques, and classical methods used in fighting cancer.

Immune Tissue Engineering: Mechanisms and Applications

Explores immune tissue engineering, focusing on cell manipulation, immune cell types, and adaptive immune response levels, highlighting the importance of engineering immune cells for targeted therapies.

Immunoengineering: The Emerging Field

Introduces the emerging field of immunoengineering, covering interactions between engineering and immunology, genetically engineered immune cells for cancer therapy, and key technologies in immunological analysis.

Immune Cell Engineering: Targeting Checkpoint Inhibitors

Explores immune cell engineering for cancer therapy, emphasizing checkpoint inhibitor targeting through innovative delivery methods.

Transplantation Immunology

Explores transplantation immunology, covering graft types, rejection mechanisms, MHC importance, and therapeutic strategies.

B Cell T-Dependent Activation: Response and Signaling

Explores B cell activation in response to T-dependent antigens, including signal transduction and antigen presentation to T cells.

Neurophysiological Data Analysis

Covers neurophysiological data analysis, including AP detection, firing rate computation, and spectral analysis, with a focus on predicting cell classes.

Immunometabolism: Basic Concepts and Translational Opportunities

Explores the basic concepts and translational opportunities in immunometabolism, emphasizing the intricate interactions between immune cells and different cell types.

Differentiation of T Cells: Th1/Th2

Explores the differentiation of CD4+ T cells into Th1 and Th2 subgroups, each with distinct immune response functions.