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  The Relevance of the time domain to neural network models

  A. Ravishankar Rao, Guillermo A. Cecchi, editors.

  Contents:
  Introduction
  Adaptation and contraction theory for the synchronization of complex neural networks
  Temporal coding is not only about cooperation, it is also about competition
  Using non-oscillatory dynamics to disambiguate pattern mixtures
  Functional constraints on network topology via generalized sparse
  Evolution of time in neural networks, from the present to the past, and forward to the future
  Synchronization of coupled pulse-type hardware neuron models for CPG model
  A univesal abstract-time platform for real-time neural networks
  Solving complex control tasks via simple rule(s), using chaotic dynamics in a recurrent neural network model
  Time scale analysis of neuronal ensemble data used to feed neural network models
  Simultaneous EEG-fMRI, integrating spatial and temporal resolution
  Erratum to: Time scale analysis of neuronal ensemble data used to feed neural network models.

  Digital Access Springer 2012
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• Article

  Experimental studies of the translocation of plutonium from simulated wound sites in the rat.

  Harrison JD, David AJ, Stather JW.

  Int J Radiat Biol Relat Stud Phys Chem Med. 1978 May;33(5):457-72.

  Wound contamination with plutonium was simulated in rats by injection into either muscle or subcutaneous tissue. The distribution after the injection of plutonium nitrate indicated that: (i) clearance from the contaminated tissue was due mainly to the movement of soluble complexes of plutonium, principally to the skeleton and liver, but also involved slower movement of polymerized, particulate plutonium to lymph nodes; (ii) clearance of soluble plutonium, and hence the overall state of clearance, was dependent on the tissue fluid flow through the contiminated tissue and the mass of plutonium deposited; (iii) lymphatic clearance of particulate plutonium resulted in the release of some particles into the circulation and subsequent uptake by the liver. Intramuscular deposition of small plutonium dioxide particles (approximately 1 nm in diameter) resulted in a greater rate of clearance of plutonium than deposition of the nitrate. Although the solubility of these particles was evident from the level of skeletal uptake of plutonium, a high level of excretion indicated that some plutonium was filtered into the urine in an undissolved form.

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  PubMed