This paper studies the dynamics of the Guillain-Barre syndrome model (GB’s) with Holling type II functional responses. Autoimmune disorders occur when the immune system is damaged where the immune system attacks tissues and organs. It was reported that a viral infection can be related to GB’s. A mathematical model about the mechanism of autoimmunity in GB’s was studied. The immune response used is assumed to follow the Holling Type II functional response. The dynamics of the model are analyzed to see system behavior. The GB’s model has three equilibrium points in its conditions. The equilibrium represents health, autoimmune disease, and complications. The local stability for each equilibrium point is analyzed with certain stability conditions. Numerical simulations are also performed to observe the dynamic behavior of the model. The results of the model analysis show the factors that determine the outcome of the disease.