Abstract
Bones are the hardest tissue in the human body, but they may also sustain
injuries when stressed. The most common injury that can occur to bone is fractures.
Bones are unique in that they can heal themselves. However, failure of healing may
occur if the bone defect is large. The healing process that occurred may not be perfect;
nonunion and scar formation may occur, which eventually impair the function of the
bone. The elderly is prone to the incidence of falling, which may cause bone fractures.
This age group of individuals, especially women who are experiencing menopause, will
face delays in fracture healing. This will ultimately affect the quality of life of these
individuals. This situation has led researchers to venture into bone engineering or bone
regeneration in order to facilitate bone healing and induce new bone formation which
can restore bone function. Bone regeneration involves the usage of the bone scaffold as
a starting point for new bone formation. The scaffolds must have specific
characteristics to allow new bone growth without causing adverse effects on the
surrounding tissue. This chapter discusses the biomaterials that can be used in
developing scaffolds for use in bone regeneration. Their characteristics (advantages and
disadvantages) and modifications of the scaffold to enhance their performance are also
highlighted. Their usage as a drug delivery system is also described.