**Core Concept**
Skeletal traction involves the application of a force to a bone through a pin or wire inserted into the bone, typically to immobilize or align a fracture. The maximum weight that can be applied is limited by the strength of the bone and the pin, as well as the risk of avascular necrosis or other complications.

**Why the Correct Answer is Right**
The maximum weight that can be given with skeletal traction is typically around 10-15 kg (22-33 lbs), although this can vary depending on the location and type of fracture. The weight is limited by the strength of the bone and the pin, as well as the risk of avascular necrosis or other complications. The pin is usually inserted into the bone under fluoroscopic guidance, and the weight is gradually increased over time as the bone and surrounding tissue adapt.

**Why Each Wrong Option is Incorrect**
* **Option A:** This option is incorrect because it is too low. Skeletal traction typically requires a higher weight to be effective.
* **Option B:** This option is incorrect because it is too high. Applying too much weight can lead to complications such as avascular necrosis or pin loosening.
* **Option C:** This option is incorrect because it is not a commonly used weight for skeletal traction.

**Clinical Pearl / High-Yield Fact**
When applying skeletal traction, it is essential to monitor the patient closely for signs of complications such as avascular necrosis or pin loosening. The weight should be gradually increased over time as the bone and surrounding tissue adapt.

**Correct Answer:** C.