Add to ORKGWe analyse a mathematical model specifying profound networks of idyotypic interactions amongst B cell clones. In the model we incorporate only fundamental assumptions about idiotypic interactions. Nevertheless, this "reasonable" idiotypic network model displays very "unreasonable" behaviour. As soon as the network is formulated as a profound network structure it displays "extensive percolation" of idiotypic signals. Thus the first antigenic perturbation of the network is expected to affect most of the clones. We have attempted to solve these problems by extending the model with seemingly important theoretical and/or immunological insights, but as yet we have failed. Therefore, our present interpretation of these "unrealistic" results...
AbstractWe numerically study the dynamics of model immune networks with random and scale-free topolo...
We consider the problem of self-tolerance in the frame of a minimalistic model of the idiotypic netw...
In this work we introduce and analyze the stochastic dynamics obeyed by a model of an immune network...
We first analyse a simple symmetric model of the idiotypic network. In the model idiotypic interacti...
We investigate a model where idiotypes (characterizing B-lymphocytes and antibodies of an immune sys...
We present a network model that incorporates: 1) symmetric idiotypic interactions, 2) an explicit a...
Idiotypic interactions may be a factor in the selection of the B cell repertoire. Simulations of an ...
Previous work was concerned with symmetric immune networks of idiotypic interactions amongst B cell ...
Previous work was concerned with symmetric immune networks of idiotypic interactions amongst B cell ...
We study a model of an idiotypic immune network which was introduced by N. K. Jerne. It is known tha...
Within the network hypothesis proposed by Jerne, the immune response is interpreted as a collective ...
We introduce a class of weighted graphs whose properties are meant to mimic the topological features...
According to the network theory of the immune response, the various B and T lymphocyte clones that c...
We consider the problem of self-tolerance in the frame of a minimalistic model of the idiotypic netw...
AbstractWe numerically study the dynamics of model immune networks with random and scale-free topolo...
AbstractWe numerically study the dynamics of model immune networks with random and scale-free topolo...
We consider the problem of self-tolerance in the frame of a minimalistic model of the idiotypic netw...
In this work we introduce and analyze the stochastic dynamics obeyed by a model of an immune network...
We first analyse a simple symmetric model of the idiotypic network. In the model idiotypic interacti...
We investigate a model where idiotypes (characterizing B-lymphocytes and antibodies of an immune sys...
We present a network model that incorporates: 1) symmetric idiotypic interactions, 2) an explicit a...
Idiotypic interactions may be a factor in the selection of the B cell repertoire. Simulations of an ...
Previous work was concerned with symmetric immune networks of idiotypic interactions amongst B cell ...
Previous work was concerned with symmetric immune networks of idiotypic interactions amongst B cell ...
We study a model of an idiotypic immune network which was introduced by N. K. Jerne. It is known tha...
Within the network hypothesis proposed by Jerne, the immune response is interpreted as a collective ...
We introduce a class of weighted graphs whose properties are meant to mimic the topological features...
According to the network theory of the immune response, the various B and T lymphocyte clones that c...
We consider the problem of self-tolerance in the frame of a minimalistic model of the idiotypic netw...
AbstractWe numerically study the dynamics of model immune networks with random and scale-free topolo...
AbstractWe numerically study the dynamics of model immune networks with random and scale-free topolo...
We consider the problem of self-tolerance in the frame of a minimalistic model of the idiotypic netw...
In this work we introduce and analyze the stochastic dynamics obeyed by a model of an immune network...