For an artificial cartilage to be developed, a combination of biomaterials and cells are required. Researchers have developed biomaterials, but they fail to match with the native cartilage; when an artificial cartilage is developed and placed in a damaged part of the body, it might fail to heal that body part because of the inability to produce similar native biomaterials (Bhardwaj, Devi & Mandal, 2014). Therefore, understanding the changes in the matrix composition is an absolute necessity before placing the engineered tissue in the joint. There are various techniques to assess the compositional changes within an engineered cartilage, but most are destructive. Therefore, the problem addressed here is of the artificial cartilage losing viability and dying when placed directly into the spectrometer. So, it is necessary to build a system that can prevent the cartilage
For an artificial cartilage to be developed, a combination of biomaterials and cells are required. Researchers have developed biomaterials, but they fail to match with the native cartilage; when an artificial cartilage is developed and placed in a damaged part of the body, it might fail to heal that body part because of the inability to produce similar native biomaterials (Bhardwaj, Devi & Mandal, 2014). Therefore, understanding the changes in the matrix composition is an absolute necessity before placing the engineered tissue in the joint. There are various techniques to assess the compositional changes within an engineered cartilage, but most are destructive. Therefore, the problem addressed here is of the artificial cartilage losing viability and dying when placed directly into the spectrometer. So, it is necessary to build a system that can prevent the cartilage