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5. Influence of the varieties of differentiation training and prefrontal lesions on retention and reversal learning of avoidance responding in dogs. Kowalska DM; Zieliński K Acta Neurobiol Exp (Wars); 1986; 46(2-3):75-104. PubMed ID: 3776709 [TBL] [Abstract][Full Text] [Related]
6. Effects of partial prefrontal lesions in dogs on go-no go avoidance reflex differentiation and reversal learning. Kowalska D; Dabrowska J; Zieliński K Acta Neurobiol Exp (Wars); 1975; 35(5-6):549-80. PubMed ID: 1211247 [TBL] [Abstract][Full Text] [Related]
7. Stimulus control of instrumental reflexes in dogs: a comparison of alimentary and avoidance behaviors after prefrontal damage. Brennan J; Kowalska D; Zieliński K Acta Neurobiol Exp (Wars); 1982; 42(1):5-28. PubMed ID: 7180590 [TBL] [Abstract][Full Text] [Related]
8. Effects of medial and dorsal prefrontal ablations on a go left-go right time discrimination task in dogs. Rosenkilde CE; Lawicka W Acta Neurobiol Exp (Wars); 1977; 37(4):209-21. PubMed ID: 906898 [TBL] [Abstract][Full Text] [Related]
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10. Auditory frequency generalization with differing extinction influences in normal and prefrontal dogs trained in instrumental alimentary reflexes. Brennan J; Kowalska D; Zieliński K Acta Neurobiol Exp (Wars); 1976; 36(5):475-516. PubMed ID: 1007973 [TBL] [Abstract][Full Text] [Related]
11. Avoidance responding in dogs trained in symmetrical or asymmetrical go, no-go differentiation. Kowalska DM; Zieliński K Acta Neurobiol Exp (Wars); 1980; 40(1):403-32. PubMed ID: 7424591 [TBL] [Abstract][Full Text] [Related]
12. Auditory frequency generalization in normal and prefrontal dogs trained in varieties of active avoidance reflexes. Zieliński K; Brennan J; Kowalska D Acta Neurobiol Exp (Wars); 1979; 39(5):285-311. PubMed ID: 539475 [TBL] [Abstract][Full Text] [Related]
13. Collateral innervation of the medial and lateral prefrontal cortex by amygdaloid, thalamic, and brain-stem neurons. Sarter M; Markowitsch HJ J Comp Neurol; 1984 Apr; 224(3):445-60. PubMed ID: 6715589 [TBL] [Abstract][Full Text] [Related]
14. Place and response learning of rats in a Morris water maze: differential effects of fimbria fornix and medial prefrontal cortex lesions. de Bruin JP; Moita MP; de Brabander HM; Joosten RN Neurobiol Learn Mem; 2001 Mar; 75(2):164-78. PubMed ID: 11222058 [TBL] [Abstract][Full Text] [Related]
15. Functional dissociation between medial and lateral prefrontal cortical spatiotemporal activation in negative and positive emotions: a combined fMRI/MEG study. Northoff G; Richter A; Gessner M; Schlagenhauf F; Fell J; Baumgart F; Kaulisch T; Kötter R; Stephan KE; Leschinger A; Hagner T; Bargel B; Witzel T; Hinrichs H; Bogerts B; Scheich H; Heinze HJ Cereb Cortex; 2000 Jan; 10(1):93-107. PubMed ID: 10639399 [TBL] [Abstract][Full Text] [Related]
16. Prefrontal cortex and manipulatory go left-go right differentiation to acoustic directional cues in dogs. Stepień I; Stepień L; Toeplitz Z Acta Neurobiol Exp (Wars); 1975; 35(5-6):537-48. PubMed ID: 1211246 [TBL] [Abstract][Full Text] [Related]
17. Delayed-alternation performance after selective lesions of the medial and sulcal prefrontal cortex of the guinea pig. Markowitsch HJ; Riess R Brain Behav Evol; 1981; 18(1-2):96-104. PubMed ID: 7237108 [TBL] [Abstract][Full Text] [Related]
18. Effects of prefrontal lesions on left leg-right leg differentiation to nondirectional acoustic cues in dogs. Stepień I Acta Neurobiol Exp (Wars); 1975; 35(4):343-9. PubMed ID: 1189996 [TBL] [Abstract][Full Text] [Related]
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