**Abstract**

Humans exhibit biotensegrity, whereby the whole body is a three-dimensional visco-elastic vehicle whatever position it adopts: bones form non-contact compression struts embedded in a networked and tensioned myofascial matrix; each part of the organism combines with the mechanical system to create an integrated functional movement unit and contributes to the stability of the whole system. When tissue at/below the dermis is breached by surgery/injury, healing leads to scar tissue formation. Scars can cause local and distant effects that are not purely cutaneous. Restriction of normal movement of underlying tissues from defective fascial sliding generates anomalous tension that affects the fascial continuum leading to distorted biomechanics, altered biotensegrity and chronic pain. Scars are common in children and significant contributors to chronic pain presentations. Scars can be released (soft tissue mobilization and/or needling) to sustainably improve pain, flexibility and range of motion. This chapter outlines the importance of skin and fascia in the biotensegrity model. Emphasis is placed on the fundamental need to assess scar history and scar characteristics to determine if scars should be treated as a component of multidisciplinary chronic pain management. Case studies outline some key clinical observations. Appropriately controlled research studies are required to fully demonstrate the highlighted benefits.

**Keywords:** chronic pain, paediatric pain, myofascial pain, scars, scar release, treatment approaches, fascia, biotensegrity
