62 resultados para bovine spine
Resumo:
Aim : To determine the internalization and protective effects of potential ophthalmic formulations and nanoformulated natural proteins in ex-vivo bovine corneal alkali burn model.
Methods : The bovine cornea obtained were subjected to the 0.5 N NaOH insult that induced alkali burn and inflammation as observed in the in vivo situation. The toxic effects of the nanoformulation were evaluated in the normal and insult induced cornea using histological analysis. Internalization studies were carried out using in vivo imaging and analysis (IVIS, PerkinElmer, USA).
Results : The nanoformulations employed in this study showed no obvious changes in the integrity of the cornea. Further, improvements in the light transmittance and reduced inflammation were observed. The IVIS showed a dose dependant increase in the uptake of the nanoformulations with time.
Conclusion : The nanoformulated bovine lactoferrin and SurR9-C84A (SR9) proteins evaluated in the ex vivo bovine corneal irritation model is the first of its kind, and we report here the non-toxic and therapeutic potential of these formulations for topical applications.
Resumo:
The spine is an important and complex skeletal structure in the human body. It is a vulnerable part of our skeleton that is open to many medical problems. Hence it is necessary to establish a virtual spine model to assist surgeons to understand biomechanics of the spine. In this study, we aim to propose a virtual spine multi-body model. The computational biomechanical modeling of the spine is based on the theory of multi-body dynamics and implemented with SimBody open-source SDK. Simbody was then used to solve the kinetic equations and simulate the movement of spine. The spine model was validated by comparing its simulation results with experimental results from literature. The spine model will be helpful to understand biomechanics of the spine under loading.
