Pathology is the bridge between basic sciences and clinical medicine, explaining the mechanisms of disease at the cellular and molecular level. This comprehensive guide covers essential pathology concepts that form the foundation for understanding clinical presentations, diagnosis, and treatment. Whether you're preparing for exams or enhancing your clinical knowledge, these core principles are indispensable.

Microscope and pathology slides

Cell Injury and Adaptation

Cellular Adaptations

Cells respond to stress through various adaptive mechanisms:

  • Hypertrophy: Increase in cell size (e.g., cardiac muscle in hypertension)
  • Hyperplasia: Increase in cell number (e.g., endometrial hyperplasia)
  • Atrophy: Decrease in cell size and function (e.g., muscle wasting in disuse)
  • Metaplasia: Replacement of one cell type with another (e.g., Barrett's esophagus)

Understanding these adaptations is crucial for recognizing early disease states. Learn more at NCBI Pathology.

Types of Cell Injury

Reversible Cell Injury:

  • Cellular swelling (hydropic degeneration)
  • Fatty change (steatosis)
  • Loss of microvilli and blebs
  • Mitochondrial swelling

Irreversible Cell Injury and Death:

  • Necrosis: Pathologic cell death with inflammation
  • Apoptosis: Programmed cell death without inflammation

Types of Necrosis

Medical laboratory equipment
  1. Coagulative Necrosis: Most common; seen in ischemic injury (MI, renal infarction)
  2. Liquefactive Necrosis: Brain infarcts, bacterial infections
  3. Caseous Necrosis: Tuberculosis (cheese-like appearance)
  4. Fat Necrosis: Acute pancreatitis, breast trauma
  5. Fibrinoid Necrosis: Immune-mediated vascular damage (vasculitis)
  6. Gangrenous Necrosis: Dry (coagulative) or wet (liquefactive) gangrene

For clinical correlations, see our Clinical Examination Guide.

Inflammation

Acute Inflammation

The body's immediate response to injury characterized by:

  • Vascular changes: Vasodilation, increased permeability
  • Cellular events: Neutrophil recruitment via rolling, adhesion, transmigration
  • Chemical mediators: Histamine, prostaglandins, leukotrienes, cytokines
  • Cardinal signs: Rubor (redness), Calor (heat), Tumor (swelling), Dolor (pain), Functio laesa (loss of function)

Chronic Inflammation

Persistent inflammation with tissue destruction and repair:

  • Predominant cells: Macrophages, lymphocytes, plasma cells
  • Granulomatous inflammation: Tuberculosis, sarcoidosis, Crohn's disease
  • Consequences: Fibrosis, tissue remodeling

Wound Healing

Primary Intention

  • Clean, approximated surgical wounds
  • Minimal scarring
  • Rapid epithelialization

Secondary Intention

  • Large wounds with tissue loss
  • Granulation tissue formation
  • Wound contraction and epithelialization
  • More extensive scarring
Medical research and pathology

Neoplasia

Benign vs Malignant Tumors

Benign characteristics:

  • Well-differentiated
  • Slow growth rate
  • Encapsulated
  • No metastasis
  • Suffix: -oma (e.g., fibroma, adenoma)

Malignant characteristics:

  • Poorly differentiated or anaplastic
  • Rapid, invasive growth
  • No capsule
  • Metastasis via blood or lymphatics
  • Carcinoma (epithelial) or Sarcoma (mesenchymal)

Carcinogenesis

The multistep process of cancer development:

  1. Initiation: DNA damage by carcinogens (chemical, radiation, viral)
  2. Promotion: Clonal expansion of initiated cells
  3. Progression: Additional mutations leading to malignant phenotype

Key concepts include oncogenes (e.g., RAS, MYC), tumor suppressor genes (p53, RB), and DNA repair genes. For more details, visit National Cancer Institute.

Tumor Markers

  • AFP (Alpha-fetoprotein): Hepatocellular carcinoma, germ cell tumors
  • CEA (Carcinoembryonic antigen): Colorectal cancer
  • PSA (Prostate-specific antigen): Prostate cancer
  • CA-125: Ovarian cancer
  • CA 19-9: Pancreatic cancer

Clinical Applications

Understanding pathology helps in:

  • Interpreting biopsy and cytology reports
  • Understanding disease progression and prognosis
  • Selecting appropriate investigations
  • Planning treatment strategies
  • Recognizing complications

Practice applying these concepts with our Question Bank and MCQ section.

External Resources

Conclusion

Pathology provides the scientific foundation for understanding disease mechanisms and clinical presentations. Master these fundamental concepts through regular revision, histology practice, and clinical correlation. Explore our other articles for more medical education content.