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Introduction to Lymphatic and Immune System01:22

Introduction to Lymphatic and Immune System

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Immunity is a crucial biological concept about our body's inherent capacity to prevent infections and diseases. A complex network of cells and tissues collectively known as the immune system facilitates this natural defense mechanism. The immune system plays an integral role in maintaining our health and well-being, shielding us from potential health threats.
The immune responses can be categorized into two types: innate and adaptive. Innate immunity comprises nonspecific defenses we are...
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Cytotoxic T Cells-mediated Immune Response01:27

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Cytotoxic T cells are a vital component of the immune system. They have the remarkable ability to identify and target antigens on infected or abnormal cells. These antigens often originate from intracellular pathogens such as viruses or abnormal proteins cancer cells produce.
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Immune Response Against Viral Pathogens01:29

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The immune system's response to viral infections is a complex and coordinated process involving natural killer (NK) cells, T cell-mediated responses, and antibody-mediated responses.
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T Cell Activation and Clonal Selection01:22

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T cells are integral to our adaptive immune system, recognizing and effectively responding to foreign antigens. T cell activation and clonal selection are pivotal in orchestrating this immune response. This article elucidates these mechanisms, detailing the roles of cluster of differentiation (CD) markers, major histocompatibility complex (MHC) molecules, costimulatory signals, and the process of clonal selection.
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B Cell Activation and Differentiation01:24

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The adaptive immune response, a sophisticated defense mechanism, relies on the activation and differentiation of B lymphocytes, or B cells. These processes enable our bodies to mount a tailored response against specific pathogens such as bacteria, free virus particles, toxins, and parasites.
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Pharmacokinetic models utilize mathematical analysis to achieve a detailed quantitative understanding of a drug's life cycle within the body. They are instrumental in simulating a drug's pharmacokinetic parameters, predicting drug concentrations over time, optimizing dosage regimens, linking concentrations with pharmacologic activity, and estimating potential toxicity.
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Updated: Jan 16, 2026

Microfluidic Co-Culture Models for Dissecting the Immune Response in in vitro Tumor Microenvironments
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The Invisible Lens: Why Theoretical Models Are Essential for Interpreting Immune Phenomena.

Masoud H Manjili1,2

  • 1Department of Microbiology and Immunology, Virginia Commonwealth University (VCU) School of Medicine, Richmond, Virginia, USA.

Scandinavian Journal of Immunology
|September 30, 2025
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Summary

The dominant self-non-self (SNS) model in immunology may hinder progress by overlooking crucial cues. Adopting diverse theoretical models can improve immune system understanding and therapeutic development.

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Area of Science:

  • Immunology
  • Theoretical Immunology
  • Conceptual Frameworks in Science

Background:

  • The self-non-self/infectious-non-self (SNS/INS) paradigm has dominated immunology for six decades, framing allogeneity as activating and 'self' as tolerogenic.
  • This conceptual monoculture may impede scientific breakthroughs by amplifying concordant findings while attenuating evidence for alternative immune system cues.
  • The SNS/INS paradigm's dominance influences research design, peer review, and scientific education, potentially limiting comprehensive understanding.

Purpose of the Study:

  • To challenge the prevailing SNS/INS paradigm in immunology.
  • To advocate for the institutionalization of theoretical immunology and the use of explicit, testable models.
  • To expand the conceptual toolkit available to immunologists for hypothesis generation and data interpretation.

Main Methods:

  • Review and overview of empirically grounded theoretical models in immunology.
  • Analysis of how conceptual frameworks (paradigms) shape scientific interpretation and research focus.
  • Discussion on institutionalizing theoretical immunology as a formal discipline.

Main Results:

  • The current conceptual monoculture in immunology, dominated by the SNS/INS paradigm, may be a hidden dogma.
  • Evidence suggests that tissue integrity, metabolic, symbiotic, and network-centric cues are often attenuated under the current paradigm.
  • Explicit, testable theoretical models can sharpen hypothesis generation and improve the understanding of existing immunological data.

Conclusions:

  • Moving beyond the SNS/INS paradigm is crucial for advancing immunology.
  • Adopting a broader range of theoretical models and treating them as testable tools can foster innovation.
  • Expanding the conceptual toolkit will lead to a more comprehensive understanding of the immune system and the development of novel therapies.