Titanium alloys have always satisfied both research and commercial fields. Drawbacks of these alloys are well documented which include high modulus of elasticity, observed corrosion and content of elemental components that are hazardous if leached into the body fluids and around implants. Titanium alloy (Ti13Nb13Zr) that promises to deliver superior qualities to the alloys already in use, especially covering the aforementioned shortages. Furthermore, the application of laser to achieve surface adjustment that boosts surface characters that have long accepted to be of profound effect on the dental implant service in general. The aim of this study is to evaluation of commercially pure Titanium and Ti13Nb13Zr with and without Laser surface zigzag lines structuring using computerized CNC laser machine by measuring the new bone formation area and the removal torque value after (2 and 6) weeks of implantation.