**Question:** Filigree burns seen in

A. Chemical burns
B. Electrical burns
C. Thermal burns
D. Radiation burns

**Core Concept:** Filigree burns are a specific type of thermal burn characterized by the formation of fine, delicate, and intricate blisters over a larger area.

**Why the Correct Answer is Right:** Filigree burns are primarily seen in **thermal burns**. This type of burn occurs due to exposure to heat, including direct flame contact, scalding, or heat exposure from a distance (e.g., hot surfaces or steam). The formation of filigree burns is a result of the intense heat causing deep tissue damage and subsequent blistering over a larger area.

**Why Each Wrong Option is Incorrect:**

A. **Chemical burns** usually present as a single or multiple, round, and well-defined areas of erythema, edema, and necrosis. Filigree burns are not typically seen in chemical burns.

B. **Electrical burns** typically involve high-voltage injuries, resulting in widespread necrosis and charring. Filigree burns are not commonly observed in electrical burns.

C. **Radiation burns** are caused by exposure to ionizing radiation and are characterized by non-blistering, erythematous, and necrotic skin lesions. Filigree burns are not seen in radiation burns.

D. **Radiation burns** are caused by exposure to ionizing radiation and are characterized by non-blistering, erythematous, and necrotic skin lesions. Filigree burns are not seen in radiation burns.

**Clinical Pearl:** Filigree burns are a unique feature of thermal burns, highlighting the importance of distinguishing between burn types to guide appropriate treatment and prognosis.

In conclusion, understanding the specific characteristics of each burn type is crucial for accurate diagnosis, treatment, and management of burn patients.