Implant

A processing technique that can increase biocompatibility by using a high-strength raw material (titanium)

→ Maximize synergy between materials in the way of “melting” different materials by applying nano-second laser rather
than artificial bone coating

(Existing process) CNC machining → Washing → Sanding → Washing → Acid etching → Washing → HA Plasma Coating → Washing → Packaging

The development of implant technology has led to the growth of technology to process the surface where the implant meets osteoblasts and melts
with bone

However, implants manufactured through existing surface treatment technologies (RBM, SLA) were recognized as metal by the human body, that is
why the osseointegration process is very difficult and takes long time

As a innovative product with improved bio-fusion, Hap-Ti implant has excellent efficacy thanks to for patients with diabetes and
osteoporosis, who have high possibility to experience surgical failure due to early inflammation

Peeling rate exists due to limitations of existing HA coating technology→ Ossteo Bionics improves interfacial peeling rate 3 times

Lano Laser HA is expected to be the major product in the implant market. It is expected to replace HA Coating and then
attract SLA customers.

In addition, through seminar and other marketing channels, it is expected to expand to the marker targeting diabetes and
osteoporosis patients.

Technology transfer from Korea Institute of Science and Technology (KIST) in January 2022 (Korean patent registration on November 01, 2021, US patent
registration completed on May 27, 2022)

Safety evaluation such as ICP (Koptri) and KTR completed

Net new technology certification in progress, Green Production (no use of sulfuric acid or hydrochloric acid)