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ref: Bergman-1998.01 tags: basal ganglia globus pallidus electrophysiology parkinsons 2001 DBS date: 02-22-2012 18:52 gmt revision:5 [4] [3] [2] [1] [0] [head]

PMID-9464684[0] Physiological aspects of information processing in the basal ganglia of normal and parkinsonian primates.

  • The firing of neurons in the globus pallidus of normal monkeys is almost always uncorrelated.
  • after MPTP treatment, the firing patterns of GP became correlated and oscillatory (see the figures!!)
  • dopamine must support normal segregation of the informational channels in the basal ganglia, and breakdown of this causes the pathology of PD.
  • has a decent diagram of the basal ganglia-thalamo-cortical circuits.
  • two different hypotheses of BG function: segregated and convergent. data support the former.

____References____

[0] Bergman H, Feingold A, Nini A, Raz A, Slovin H, Abeles M, Vaadia E, Physiological aspects of information processing in the basal ganglia of normal and parkinsonian primates.Trends Neurosci 21:1, 32-8 (1998 Jan)

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ref: RodriguezOroz-2001.09 tags: STN SNr parkinsons disease single unit recording spain 2001 tremor oscillations DBS somatotopy organization date: 02-22-2012 18:24 gmt revision:12 [11] [10] [9] [8] [7] [6] [head]

PMID-11522580[0] The subthalamic nucleus in Parkinson's disease: somatotopic organization and physiological characteristics

  • Looks like they discovered exactly what we have discovered ... only in 2001. This is both good and bad.
    • From the abstract: "Neurones responding to movement were of the irregular or tonic type, and were found in the dorsolateral region of the STN. Neurones with oscillatory and low frequency activity did not respond to movement and were in the ventral one-third of the nucleus. Thirty-eight tremor-related neurones were recorded."
  • Again, from the abstract: "The findings of this study indicate that the somatotopic arrangement and electrophysiological features of the STN in Parkinson's disease patients are similar to those found in monkeys."
  • It may be that we want to test differential modulation / oscillation: look for differences between rest and activity, if there is sufficient support for both these in the files we have.
  • These people were much, much more careful about localization of their single-electrode tracks. E.g. they calculated electrode location relative the DBS electrode stereotatically, and referenced this to the postoperative MRI location of the treatment electrode.
  • Many more (32% of 350 neurons) responded to active or passive movement.
  • Of this same set, 15% (31 neurons) had a firing rate with rhythmical activity; 38 neurons had rhythmic activity associated with oscillatory EMG, but most of these were responsive to passive stimulation.
  • Autocorrelation of the neuronal bursting and tremor peaked at mean 7Hz, while autocorr. of EMG peaked at mean 5Hz.
  • This whole paragraph is highly interesting: ''The neuronal response associated with active movements was studied by simultaneous recording of neuronal EMG activity of the limbs. Five tremor-related neurons, recorded while a voluntary movement was performed, were available for analysis. Voluntary activation of a particular limb segment arrested the tremor. This was associated with a change in the discharges of the recorded neuron, which fired at a slower rate and in synchrony with the voluntary movement. On occasions, freezing of the voluntary movement ensued and tremor reappeared, changing the neuronal activity back to the typical 4-5Hz tremor-related activity. The cross-correlation analysis of two such neurons showed a peak frequency of 4.63 and 4.88 Hz for tremor-related activity, and 1.5 to 1.38 Hz during voluntary movement. Whether neuronal discharges in the STN preceded or followed EMG activity of the limbs could not be precisely established under the present conditions.
  • Somatotopic representation in the STN is expected from normal and MTPT-treated monkeys. Indeed, somatotopy is enhanced int he GPm of MTPT-treated monkeys.
    • This somatotopy is likely to result from organized afferent from the primary motor cortex (M1) to dorsolateral STN; this is the target of DBS treatment. Ventral and medial STN seems to project to associative and limbic cortical regions.
    • It seems they think the STN is generally not diseased, it is just a useful target for stimulating without evoked movement as in M1. This is consistent with optogenetic studies by Deisseroth [1].
    • Supporting this: "DBS of STN in Parkinson's disease improves executive motor functions, but aggravates conditional associative learning.
  • Interesting: In Parkinson's disease patients with tremor, Levy and colleagues found synchronization and a high firing rate (>10Hz) while recording pairs of neurons >600um apart.
  • Recordings of cortical activity through EEG and STN LFP showed significant coherence in the beta and gamma frequency bands during movement - consistent with corticosubthalamic motor projection. ... and suggest that the STN neurons involved in parkinsonian tremor are the same as the ones ativated during the performance of a voluntary movement. (! -- I agree with this.)
  • More: The reciprocal inhibitory-excitatory connections tightly linking the GPe and the STN may generate self-perpetuating oscillations.

Old notes:

  • this paper concentrates on STN electrophysiology in PD.
    • has a rather excellent list of references.
  • found a somatotopic organization in the STN, with most motor-related units more irregular and in the dorsolateral STN.
  • found a substantial fraction of tremor-synchronized neurons.
  • conclude that the somatotopic organization is about the same as in monkeys (?) (!)
  • M1 projects to STN, as verified through anterograde tracing studies. [1] These neurons increase their firing rate in response to passive movements.
  • there appears to be a relatively-complete representation of the body in the dorsolateral STN.

____References____

[0] Rodriguez-Oroz MC, Rodriguez M, Guridi J, Mewes K, Chockkman V, Vitek J, DeLong MR, Obeso JA, The subthalamic nucleus in Parkinson's disease: somatotopic organization and physiological characteristics.Brain 124:Pt 9, 1777-90 (2001 Sep)
[1] Gradinaru V, Mogri M, Thompson KR, Henderson JM, Deisseroth K, Optical deconstruction of parkinsonian neural circuitry.Science 324:5925, 354-9 (2009 Apr 17)

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ref: Guridi-2001.01 tags: STN DBS 2001 parkinsons hemiballismus Obeso date: 02-22-2012 15:14 gmt revision:8 [7] [6] [5] [4] [3] [2] [head]

PMID-11133783[0] The subthalamic nucleus, hemiballismus and Parkinson's disease: reappraisal of a neurosurgical dogma

  • Lesions of the globus pallidus, thalamus, as well as the STN can lead to hemiballismus
  • none-the-less, hemiballismus is a rather rare complication in STN DBS or lesion
  • GABA projection to the GPi is reduced in PD due to dopamine depletion
    • STN has projects glutamergic projections to GPi, so lesion would tend to worsten activity
    • STN also projects to the GPe, and lesioning it reduces hyper-activity there.
    • Therefore the balance of lesioning is to permit movements but not hemiballismus.
  • STN lesion in normal patients induces hemibalismus and chorea, but threshold for movements are raised with chronic dopamine depletion. cf {207}
  • Quality of life issues: perhaps everything has been learned already. {1124}

____References____

[0] Guridi J, Obeso JA, The subthalamic nucleus, hemiballismus and Parkinson's disease: reappraisal of a neurosurgical dogma.Brain 124:Pt 1, 5-19 (2001 Jan)

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ref: Gdowski-2001.02 tags: globus pallidus reward electrophysiology 2001 date: 0-0-2007 0:0 revision:0 [head]

PMID-11160530 Context Dependency in the Globus Pallidus Internal Segment During Targeted Arm Movements

  • most of the movement-responsive neurons had modulations in the cued segment of the task, not in the subsequent relaxed, self-paced phase.
  • this constitutes a reward or context-dependence.
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ref: Flash-2001.12 tags: Flash Sejnowski 2001 computational motor control learning PRR date: 0-0-2007 0:0 revision:0 [head]

PMID-11741014 Computational approaches to motor control. Tamar Flash and Terry Sejnowski.

  • PRR = parietal reach region
  • essential controviersies (to them):
    • the question of motor variables that are coded by neural populations.
    • equilibrium point control vs. inverse dynamics (the latter is obviously better/more correct)