The present scenario, demands and requirement of highly compact ,low cost ,high rate devices, multifunctional devices is quite a challenge these days and it’s a prominent tools for analyzing biological and physiological parameter of breast cancer cells in patients for diagnosis. These days many researchers working on the antenna to make device more compact ,low cost with improvised radiations and operated at high rate for the biomedical applications. In this research work the antenna size of 8mm * 8mm with height of 1 mm operating at frequency range 30 GHz-70 GHz .Millimeter wave technology based structure designed size of 2mm*2mm for antenna with thickness 1 mm which enhanced the gain and reflection coefficient of antenna which makes it approachable and suitable for  many wireless  biomedical applications.

 The nondestructive examination of the tissue of an human body is possible with this microwave imaging because microwaves are non-ionizing and are less harmful while comparing with the existing techniques available in present. Microwave imaging can precisely pinpoint the location and size of the damaged cell tissue because the cancer cell is extremely small in the initial phase of breast cancer. Microwave frequency shall be used to detect the damaged tissue since their conductivity and permittivity values will vary while comparing the normal and healthy breast tissues infected cancer tissue. Patients don't experience any health problems during this cancer tissue detection procedure because the energy absorbed by the breast while using a Metamaterial based millimeter wave antenna .The  analytical result obtained from HFSS studio and compared with the real time data. The gain of antenna increases from upto 12 db . The designed structure placed on the substrate which is made of roger 5880 with the microstrip patch which shows enhanced results in overall performance makes this suitable for many mobile applications etc and can be integrated with many communication devices....