Multinucleated giant cells



Definition:

Multinucleated giant cells are large cells that contain multiple nuclei. These cells are formed by the fusion of smaller cells, typically macrophages, which are immune cells involved in the body’s response to infection, inflammation, or foreign substances. Multinucleated giant cells are commonly seen in various inflammatory conditions and certain types of tumours.

What do these cells look like under the microscope?

Under the microscope, multinucleated giant cells appear as large cells with several nuclei. Depending on the type of giant cell, the nuclei may be arranged in different patterns. Some have their nuclei clustered in the center, while others are arranged in a ring or scattered throughout the cell. The appearance of these cells helps pathologists identify the specific condition or type of tumour associated with them.

This image shows multiple large multinucleated giant cells.
This image shows multiple large multinucleated giant cells.

What conditions are associated with multinucleated giant cells?

Multinucleated giant cells are associated with a variety of conditions, including:

  • Granulomatous inflammation: This type of inflammation occurs in diseases such as tuberculosis, sarcoidosis, and fungal infections, where the body forms clusters of immune cells to wall off foreign material or infectious agents.
  • Foreign body reaction: When a foreign object, such as a splinter or surgical material, enters the body, multinucleated giant cells can form as part of the immune system’s response.
  • Chronic inflammation: Conditions such as rheumatoid arthritis and Crohn’s disease can cause the formation of multinucleated giant cells as part of the ongoing inflammatory process.

Are there different types of multinucleated giant cells?

Yes, there are different types of multinucleated giant cells, each with unique characteristics and associated conditions. Some well-described types include:

  • Foreign body type giant cells: These giant cells form in response to foreign material in the body. The nuclei are typically scattered throughout the cell. They are often seen in foreign body reactions, such as around sutures, implants, or other foreign objects.
  • Touton type giant cells: These giant cells are characterized by a ring of nuclei surrounding a central area of foamy cytoplasm. Touton type giant cells are commonly seen in conditions such as xanthomas, which are benign growths made up of lipid-laden macrophages.
  • Langhans type giant cells: These giant cells have a characteristic horseshoe or ring-like arrangement of their nuclei. Langhans giant cells are commonly associated with granulomatous conditions, such as tuberculosis and sarcoidosis.
  • Osteoclast type multinucleated giant cells: These giant cells resemble osteoclasts, the cells responsible for breaking down bone. They are typically found in bone-related conditions and tumors, such as giant cell tumour of bone, where they play a role in bone resorption (breakdown).

Are multinucleated giant cells cancerous?

Multinucleated giant cells themselves are not cancerous. They are a reaction of the immune system to various stimuli, such as inflammation, infection, or foreign material. However, multinucleated giant cells can be seen in both benign and malignant (cancerous) tumors.

What types of tumours are associated with multinucleated giant cells?

Several types of tumours can be associated with multinucleated giant cells. Some examples include:

  • Giant cell tumor of bone: A benign tumuor of the bone that contains numerous multinucleated giant cells. Despite being benign, it can be locally aggressive and cause bone destruction.
  • Giant cell tumour of tendon sheath: A benign tumor found in the soft tissues around joints that contains multinucleated giant cells resembling osteoclasts (bone-destroying cells).
  • Giant cell-rich sarcoma: A rare malignant tumor that contains large numbers of multinucleated giant cells mixed with cancerous cells.

These tumors vary in their behavior and prognosis, and the presence of multinucleated giant cells helps pathologists make a diagnosis and determine the appropriate treatment.

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