ライフサイエンスコーパス: electrolytic lesion

1 dologies, such as electrical stimulation and electrolytic lesion.

2 interpositus nucleus (muscimol) or permanent electrolytic lesions.

3 inactivation confirmed previous results with electrolytic lesions.

4 impairments were produced by neurotoxic and electrolytic lesions.

5 stigated using c-fos immunocytochemistry and electrolytic lesions.

6 n (PPI) of the acoustic startle reflex after electrolytic lesions aimed at the central NAcc, the NAcc

7 this question, we ablated the SCN of mice by electrolytic lesion and examined hippocampus-dependent m

8 tudies we tested the effects of bilateral of electrolytic lesions and reversible inactivation of the

9 of the rostral hypothalamus sustained large electrolytic lesions at either the rostral or the caudal

10 ing the anatomical and functional effects of electrolytic lesions at the level of the lateral hypotha

11 Electrolytic lesions before or after training were place

12 Pretraining bilateral electrolytic lesions blocked the acquisition of conditio

13 nd thus may be functionally equivalent to an electrolytic lesion, but without allowing time for neura

14 lesions of the Ce reduced flank marking and electrolytic lesions completely inhibited flank marking

15 However, electrolytic lesions damage both cell bodies and fibers

16 Moreover, electrolytic lesions demarcating physiological tuning pr

17 a by HPLC three weeks following placement of electrolytic lesions in DRN.

18 Using selective electrolytic lesions in rats, here we examined the role

19 9b and 29c/d, and was severely attenuated by electrolytic lesions in the dorsal hippocampus.

20 Three weeks following placement of electrolytic lesions in the DRN, the concentrations of 5

21 We discovered, however, that small electrolytic lesions in the midbrain severely impair a c

22 also inhibited in animals that had received electrolytic lesions in the rostral ventromedial medulla

23 In rats, electrolytic lesions in these regions may give rise to t

24 Large electrolytic lesions including the rostral ventral nucle

25 rats were subjected to either sham (SHAM) or electrolytic lesion of both the dorsal and ventral part

26 This study investigated the effects of an electrolytic lesion of the commissural subnucleus of the

27 We have shown previously that electrolytic lesion of the MnPO attenuated the increased

28 Electrolytic lesion of the SCN 2 d after training for co

29 This study examined whether a prior electrolytic lesion of the tissue surrounding the antero

30 nistration of an NMDA receptor antagonist or electrolytic lesioning of the pontine Kolliker-Fuse nucl

31 ellar cortex that was confirmed using small, electrolytic lesions of cerebellar cortex.

32 lar response and to CTA learning in general, electrolytic lesions of insular (gustatory) cortex (IC)

33 Electrolytic lesions of insular cortex blocked behaviora

34 ts were given either unilateral or bilateral electrolytic lesions of insular cortex or 'sham' operati

35 Bilateral electrolytic lesions of MCVA significantly reduced, by o

36 Bilateral electrolytic lesions of NaCN sensitive sites of RVL, whi

37 Bilateral electrolytic lesions of RVLM did not affect responses fr

38 Animals were given electrolytic lesions of the ACC and then trained in the

39 In contrast, electrolytic lesions of the AHN and VMH reduced freezing

40 Electrolytic lesions of the amygdala effectively blocked

41 ts were given either unilateral or bilateral electrolytic lesions of the amygdala or "sham' operation

42 lar response and to CTA learning in general, electrolytic lesions of the amygdala were combined with

43 in conscious rats which had received sham or electrolytic lesions of the anteroventral third ventricl

44 th bilateral, electrophysiologically guided, electrolytic lesions of the area was examined in Experim

45 to female rats demonstrating that bilateral electrolytic lesions of the BNST increased immobility an

46 ntrast to ibotenic lesions of the CeA, small electrolytic lesions of the CeA strongly affected both p

47 PPI was significantly reduced by electrolytic lesions of the central NAcc, as well as by

48 M. Kim and M. Davis previously reported that electrolytic lesions of the central nucleus of the amygd

49 ulation) in experimental rats [that received electrolytic lesions of the central nucleus of the amygd

50 After bilateral electrolytic lesions of the cPAGl,vl during gestation or

51 ive experiments that examined the effects of electrolytic lesions of the dlPAG and the vPAG in learne

52 We have shown previously that electrolytic lesions of the dorsal hippocampus (DH) prod

53 In each study, rats with electrolytic lesions of the dorsal hippocampus and sham-

54 startle almost completely, whereas the large electrolytic lesions of the dorsal hippocampus did not b

55 able to replicate our original finding that electrolytic lesions of the dorsal hippocampus render ra

56 Previous studies have shown that electrolytic lesions of the dorsal hippocampus render th

57 In the past, we showed that large electrolytic lesions of the dorsomedial hypothalamus (DM

58 nts for generating HD cell activity, we made electrolytic lesions of the DTN or LMN in rats and scree

59 Experiment I investigated the effects of electrolytic lesions of the entorhinal cortex on LI in a

60 Electrolytic lesions of the fasciculus retroflexus block

61 ions of the parahippocampal region (PARA) or electrolytic lesions of the fimbria-fornix (FNX) and wer

62 Bilateral electrolytic lesions of the globus pallidus (GP), superi

63 The learning capacities of rats with electrolytic lesions of the gustatory thalamus (GT) were

64 taste preferences and aversions of rats with electrolytic lesions of the gustatory thalamus (GT).

65 ive contrast, was eliminated after bilateral electrolytic lesions of the gustatory thalamus.

66 Mice received control lesions or bilateral electrolytic lesions of the habenula and were tested for

67 Bilateral electrolytic lesions of the lateral and ventrolateral ca

68 Importantly, this bias was abolished by both electrolytic lesions of the LHb and selective ablation o

69 den hamsters (Mesocricetus auratus) received electrolytic lesions of the Me or sham surgery and were

70 Electrolytic lesions of the medial septal area were perf

71 Electrolytic lesions of the medial septal region leads t

72 S. Berry and R. Thompson reported that electrolytic lesions of the medial septum significantly

73 n testing this hypothesis, it was found that electrolytic lesions of the medial septum, but not the l

74 anol consumption paradigm by confirming that electrolytic lesions of the NAc core decreased ethanol c

75 Electrolytic lesions of the NAc core increased locomotio

76 anterior thalamus after either neurotoxic or electrolytic lesions of the NPH.

77 Bilateral electrolytic lesions of the nucleus of the solitary trac

78 Adult female rats received either bilateral electrolytic lesions of the PDA or sham lesions.

79 Electrolytic lesions of the PMd did not reduce TMT-induc

80 amine this possibility, effects of bilateral electrolytic lesions of the POM on singing and other beh

81 In Experiment 1, electrolytic lesions of the POR or PER produced impairme

82 n AL and FR groups received either bilateral electrolytic lesions of the PVN (PVNx) or sham lesions (

83 Our laboratory recently demonstrated that electrolytic lesions of the retrosplenial cortex (RSP),

84 t this hypothesis, we produced neurotoxic or electrolytic lesions of the RSP and recorded HD cells in

85 Electrolytic lesions of the RT or MLF but not the LC/PVG

86 Electrolytic lesions of the SCN abolished circadian loco

87 Pretraining electrolytic lesions of the VH reproduced the effects of

88 Small electrolytic lesions of the VLL of ventrolateral tegment

89 Subtotal electrolytic lesions of this division of the Psol caused

90 e, separate animals were prepared with small electrolytic lesions placed in the RVM.

91 Electrolytic lesions placed in the ventromedial hypothal

92 essed the possibility that the effect of the electrolytic lesion resulted from damage to fibers origi

93 nt expression of AVP in the BNST and MeA and electrolytic lesions to eliminate the SCN, effectively e

94 e use the CPP procedure along with selective electrolytic lesions to examine the neural areas underly

95 We have used aspiration and electrolytic lesions to investigate the contributions of

96 Electrolytic lesions to the amygdala, a limbic structure

97 roup than in the sham group, suggesting that electrolytic lesions to the medial septum can enhance LI

98 Experiment 1 explored the role of electrolytic lesions to the MT in the formalin test.

99 It was hypothesized that animals with electrolytic lesions to the MT would have attenuated paw

100 Animals with electrolytic lesions to their cerebellum (targeting the

101 , suggesting that the blockade seen with the electrolytic lesions was caused by damage to fibers of p

102 Electrolytic lesions were made bilaterally in RN inhibit

103 Electrolytic lesions were made in the medial prefrontal

104 However, these electrolytic lesions were nonselective and may have also

105 Electrolytic lesions were produced in the medial or medi

106 Electrolytic lesions, which destroyed 31+/-0.04% of the

107 As expected, bilateral electrolytic lesions within the AV3V region (the ventral