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1. Reduction of the hand representation in the ipsilateral primary motor cortex following unilateral section of the corticospinal tract at cervical level in monkeys

Author

Wyss Alexander F, Belhaj-Saif Abderraouf, Bloch Jocelyne, Wannier Thierry, Schmidlin Eric, and Rouiller Eric M

Subjects
Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Neurophysiology and neuropsychology, QP351-495
Abstract

Abstract Background After sub-total hemi-section of cervical cord at level C7/C8 in monkeys, the ipsilesional hand exhibited a paralysis for a couple of weeks, followed by incomplete recovery of manual dexterity, reaching a plateau after 40–50 days. Recently, we demonstrated that the level of the plateau was related to the size of the lesion and that progressive plastic changes of the motor map in the contralesional motor cortex, particularly the hand representation, took place following a comparable time course. The goal of the present study was to assess, in three macaque monkeys, whether the hand representation in the ipsilesional primary motor cortex (M1) was also affected by the cervical hemi-section. Results Unexpectedly, based on the minor contribution of the ipsilesional hemisphere to the transected corticospinal (CS) tract, a considerable reduction of the hand representation was also observed in the ipsilesional M1. Mapping control experiments ruled out the possibility that changes of motor maps are due to variability of the intracortical microstimulation mapping technique. The extent of the size reduction of the hand area was nearly as large as in the contralesional hemisphere in two of the three monkeys. In the third monkey, it represented a reduction by a factor of half the change observed in the contralesional hemisphere. Although the hand representation was modified in the ipsilesional hemisphere, such changes were not correlated with a contribution of this hemisphere to the incomplete recovery of the manual dexterity for the hand affected by the lesion, as demonstrated by reversible inactivation experiments (in contrast to the contralesional hemisphere). Moreover, despite the size reduction of M1 hand area in the ipsilesional hemisphere, no deficit of manual dexterity for the hand opposite to the cervical hemi-section was detected. Conclusion After cervical hemi-section, the ipsilesional motor cortex exhibited substantial reduction of the hand representation, whose extent did not match the small number of axotomized CS neurons. We hypothesized that the paradoxical reduction of hand representation in the ipsilesional hemisphere is secondary to the changes taking place in the contralesional hemisphere, possibly corresponding to postural adjustments and/or re-establishing a balance between the two hemispheres.

Published
2005
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9. Influence of anti-Nogo-A antibody treatment on the reorganization of callosal connectivity of the premotor cortical areas following unilateral lesion of primary motor cortex (M1) in adult macaque monkeys

Author

Abderaouf Belhaj-Saif, Martin E. Schwab, Eric M. Rouiller, Adjia Hamadjida, Alexander F. Wyss, and Anis Mir

Subjects
Nogo Proteins, Neuroscience(all), Corpus callosum, Macaque, Corpus Callosum, Premotor cortex, Lesion, 03 medical and health sciences, Callosal connectivity, 0302 clinical medicine, Cortex (anatomy), biology.animal, medicine, Animals, Reorganization, Antibodies, Blocking, Tract-tracing, 030304 developmental biology, Brain Diseases, 0303 health sciences, Biotinylated dextran amine, Neuronal Plasticity, biology, General Neuroscience, Motor Cortex, Somatosensory Cortex, Anatomy, 3. Good health, Macaca fascicularis, medicine.anatomical_structure, Primary motor cortex, medicine.symptom, Myelin Proteins, 030217 neurology & neurosurgery, Research Article, Motor cortex
Abstract

Following unilateral lesion of the primary motor cortex, the reorganization of callosal projections from the intact hemisphere to the ipsilesional premotor cortex (PM) was investigated in 7 adult macaque monkeys, in absence of treatment (control; n = 4) or treated with function blocking antibodies against the neurite growth inhibitory protein Nogo-A (n = 3). After functional recovery, though incomplete, the tracer biotinylated dextran amine (BDA) was injected in the ipsilesional PM. Retrogradely labelled neurons were plotted in the intact hemisphere and their number was normalized with respect to the volume of the core of BDA injection sites. (1) The callosal projections to PM in the controls originate mainly from homotypic PM areas and, but to a somewhat lesser extent, from the mesial cortex (cingulate and supplementary motor areas). (2) In the lesioned anti-Nogo-A antibody-treated monkeys, the normalized number of callosal retrogradely labelled neurons was up to several folds higher than in controls, especially in the homotypic PM areas. (3) Except one control with a small lesion and a limited, transient deficit, the anti-Nogo-A antibody-treated monkeys recovered to nearly baseline levels of performance (73–90 %), in contrast to persistent deficits in the control monkeys. These results are consistent with a sprouting and/or sparing of callosal axons promoted by the anti-Nogo-A antibody treatment after lesion of the primary motor cortex, as compared to untreated monkeys.

Published
2018

10. Short-term effects of unilateral lesion of the primary motor cortex (M1) on ipsilesional hand dexterity in adult macaque monkeys

Author

Bashir, Shahid, Kaeser, Mélanie, Wyss, Alexander, Hamadjida, Adjia, Liu, Yu, Bloch, Jocelyne, Brunet, Jean-François, Belhaj-Saif, Abderraouf, Rouiller, Eric, Bashir, Shahid, Kaeser, Mélanie, Wyss, Alexander, Hamadjida, Adjia, Liu, Yu, Bloch, Jocelyne, Brunet, Jean-François, Belhaj-Saif, Abderraouf, and Rouiller, Eric

Abstract

Although the arrangement of the corticospinal projection in primates is consistent with a more prominent role of the ipsilateral motor cortex on proximal muscles, rather than on distal muscles involved in manual dexterity, the role played by the primary motor cortex on the control of manual dexterity for the ipsilateral hand remains a matter a debate, either in the normal function or after a lesion. We, therefore, tested the impact of permanent unilateral motor cortex lesion on the manual dexterity of the ipsilateral hand in 11 macaque monkeys, within a time window of 60days post-lesion. For comparison, unilateral reversible pharmacological inactivation of the motor cortex was produced in an additional monkey. Manual dexterity was assessed quantitatively based on three motor parameters derived from two reach and grasp manual tasks. In contrast to the expected dramatic, complete deficit of manual dexterity of the contralesional hand that persists for several weeks, the impact on the manual dexterity of the ipsilesional hand was generally moderate (but statistically significant) and, when present, lasted less than 20days. Out of the 11 monkeys, only 3 showed a deficit of the ipsilesional hand for 2 of the 3 motor parameters, and 4 animals had a deficit for only one motor parameter. Four monkeys did not show any deficit. The reversible inactivation experiment yielded results consistent with the permanent lesion data. In conclusion, the primary motor cortex exerts a modest role on ipsilateral manual dexterity, most likely in the form of indirect hand postural control

Published
2018

11. Influence of anti-Nogo-A antibody treatment on the reorganization of callosal connectivity of the premotor cortical areas following unilateral lesion of primary motor cortex (M1) in adult macaque monkeys

Author

Hamadjida, Adjia, Wyss, Alexander, Mir, Anis, Schwab, Martin, Belhaj-Saif, Abderaouf, Rouiller, Eric, Hamadjida, Adjia, Wyss, Alexander, Mir, Anis, Schwab, Martin, Belhaj-Saif, Abderaouf, and Rouiller, Eric

Abstract

Following unilateral lesion of the primary motor cortex, the reorganization of callosal projections from the intact hemisphere to the ipsilesional premotor cortex (PM) was investigated in 7 adult macaque monkeys, in absence of treatment (control; n=4) or treated with function blocking antibodies against the neurite growth inhibitory protein Nogo-A (n=3). After functional recovery, though incomplete, the tracer biotinylated dextran amine (BDA) was injected in the ipsilesional PM. Retrogradely labelled neurons were plotted in the intact hemisphere and their number was normalized with respect to the volume of the core of BDA injection sites. (1) The callosal projections to PM in the controls originate mainly from homotypic PM areas and, but to a somewhat lesser extent, from the mesial cortex (cingulate and supplementary motor areas). (2) In the lesioned anti-Nogo-A antibody-treated monkeys, the normalized number of callosal retrogradely labelled neurons was up to several folds higher than in controls, especially in the homotypic PM areas. (3) Except one control with a small lesion and a limited, transient deficit, the anti-Nogo-A antibody-treated monkeys recovered to nearly baseline levels of performance (73-90%), in contrast to persistent deficits in the control monkeys. These results are consistent with a sprouting and/or sparing of callosal axons promoted by the anti-Nogo-A antibody treatment after lesion of the primary motor cortex, as compared to untreated monkeys

Published
2018

14. Long-term motor cortical map changes following unilateral lesion of the hand representation in the motor cortex in macaque monkeys showing functional recovery of hand functions

Author

Anis Mir, Adjia Hamadjida, Martin E. Schwab, Shahid Bashir, Alexander F. Wyss, Julie Savidan, Eric M. Rouiller, Abderaouf Belhaj-Saif, Yu Liu, and University of Zurich

Subjects
Male, Nogo Proteins, 610 Medicine & health, Biology, Macaque, Functional Laterality, Lesion, Stereotaxic Techniques, 03 medical and health sciences, 2806 Developmental Neuroscience, 0302 clinical medicine, Developmental Neuroscience, biology.animal, Neuroplasticity, medicine, Animals, 030304 developmental biology, 0303 health sciences, Brain Mapping, 10242 Brain Research Institute, Motor Cortex, Anatomy, Infusion Pumps, Implantable, Recovery of Function, Hand, Numerical digit, Electric Stimulation, Electrodes, Implanted, Macaca fascicularis, medicine.anatomical_structure, Cortical map, 2728 Neurology (clinical), Neurology, Motor Skills, 2808 Neurology, Brain Injuries, 570 Life sciences, biology, Female, Neurology (clinical), Primary motor cortex, Forelimb, medicine.symptom, Neuroscience, 030217 neurology & neurosurgery, Myelin Proteins, Psychomotor Performance, Motor cortex
Abstract

Purpose: How are motor maps modified within and in the immediate vicinity of a damaged zone in the motor cortex of non-human primates? Methods: In eight adult macaque monkeys subjected to a restricted chemical lesion of the hand area in the primary motor cortex (M1), motor maps were established using intracortical micro-stimulation (ICMS) techniques. The monkeys were subdivided into five animals without treatment, whereas three monkeys received an anti-Nogo-A antibody treatment. Results: Following permanent M1 injury, the lesion territory became largely non micro-excitable several months post-lesion, in spite of some recovery of hand function. Few sites within the lesion territory remained excitable, though irrespective to the degree of functional recovery. Around the lesion in M1, there was no reallocation of proximal shoulder/arm territories into distal hand functions. However, ICMS delivered at supra-threshold intensities in these proximal territories elicited digit movements. Post-lesion ICMS thresholds to elicit movements of forelimb muscle territories increased, independently from the degree of functional recovery. Further behavioural evidence for an enhancement of functional recovery promoted by the anti-Nogo-A antibody treatment is provided. Conclusion: The degree of functional recovery is not related to a reorganization of motor maps within, and in the vicinity of, a M1 lesion.

Published
2013

15. Functional linkages between motor cortical cells and elbow flexor muscles. Evidence for and characteristics of postspike facilitation

Author

A. Belhaj-Saif, B. Maton, and A. Fourment

Subjects
Elbow flexor, Electromyography, Physiology, business.industry, General Neuroscience, Elbow, Motor Cortex, Brachioradialis, Isometric exercise, Coactivation, Biceps, body regions, Macaca fascicularis, Amplitude, medicine.anatomical_structure, Isometric Contraction, Synapses, Facilitation, Animals, Medicine, Female, Muscle, Skeletal, business, Biomedical engineering
Abstract

1. Two monkeys (Macaca fascicularis) making high-level but submaximal isometric flexions of the elbow were investigated for the output effect of motor cortical cells on the electromyogram (EMG) activity of two main elbow flexors using the method of spike-triggered averaging of rectified EMGs (STAs). 2. Monkeys were trained to perform individual isometric contractions for > 2 s, and two series of > or = 20 contractions, the second series being at a greater force. EMG electrodes pairs were implanted in the biceps brachii and brachioradialis. A total of 257 cortical cells were found that discharged with the active and passive movements of the elbow. We examined the EMG postspike facilitations (PSFs) produced in either one or the two flexors for only those cells that discharged during the isometric contraction, and provoked PSFs in the two series of contractions. 3. The main characteristics of the EMG isometric contractions in the agonists were analyzed. Spectral analysis showed that the increases in the EMG median frequency with force stabilized at the force levels performed by monkeys. Cross correlation methods showed no cross talk between agonists. 4. The 26 selected cortical cells had a regular discharge frequency. Ten cells did not change frequency with a 22-30% force increase, 14 cells discharged at a higher frequency, and 2 cells discharged at a lower frequency. For single-cell frequencies of 5-65 Hz, interspike intervals < 10 ms were rare: the median and modal intervals were 20-30 ms. 5. The significance of PSFs with respect to the EMG background noise was estimated statistically. STAs from successive epochs under identical load conditions, and STAs performed at a distance from the trigger, showed that PSFs were authentic postspike effects and not sudden EMG changes synchronized by chance with the triggering cell. The features distinguishing PSF from secondary postspike EMG changes or coactivation and task-related effects were studied in simultaneous STAs of flexors and autocorrelogram of cortical spikes. 6. The magnitude of the PSF was expressed as the percent peak amplitude above the mean EMG baseline. The mean percent amplitude of the 90 PSFs produced in both muscles and series was 4.0 +/- 2.4% (mean +/- SD). There was no difference in the average amplitude of PSFs in the two flexors, although the baseline voltages in the biceps brachii were higher. Neither was there any significant change with force while the baseline level increased by 29 +/- 10%, indicating that the absolute PSF amplitude increased in the same proportion as baseline.(ABSTRACT TRUNCATED AT 400 WORDS)

Published
1995
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17. Effects of unilateral motor cortex lesion on ipsilesional hand's reach and grasp performance in monkeys: relationship with recovery in the contralesional hand

Author

Kaeser, Mélanie, Wyss, Alexander F., Bashir, Shahid, Hamadjida, Adjia, Liu, Yu, Bloch, Jocelyne, Brunet, Jean-François, Belhaj-Saif, Abderraouf, and Rouiller, Eric M.

Abstract

Manual dexterity, a prerogative of primates, is under the control of the corticospinal (CS) tract. As 90-95% of CS axons decussate, it is assumed that this control is exerted essentially on the contralateral hand. Consistently, unilateral lesion of the hand representation in the motor cortex is followed by a complete loss of dexterity of the contralesional hand. During the months following lesion, spontaneous recovery of manual dexterity takes place to a highly variable extent across subjects, although largely incomplete. In the present study, we tested the hypothesis that after a significant post-lesion period, manual performance in the ipsilesional hand is correlated with the extent of functional recovery in the contralesional hand. To this aim, ten adult macaque monkeys were subjected to permanent unilateral motor cortex lesion. Monkeys' manual performance was assessed for each hand during several months post-lesion, using our standard behavioral test (modified Brinkman board task) that provides a quantitative measure of reach and grasp ability. The ipsilesional hand's performance was found to be significantly enhanced on the long-term (100-300 days post-lesion) in 6 out of 10 monkeys, with the six exhibiting the best, though incomplete, recovery of the contralesional hand. There was a statistically significant correlation (r=0.932; p0.001) between performance in the ipsilesional hand after significant post-lesion period and the extent of recovery of the contralesional hand. This observation is interpreted in terms of different possible mechanisms of recovery, dependent on the recruitment of motor areas in the lesioned and/or intact hemispheres.

Published
2010

18. Refined methodology for implantation of a head fixation device and chronic recording chambers in non-human primates

Author

Lanz, Florian, Lanz, X., Scherly, A., Moret, Véronique, Gaillard, A., Gruner, P., Hoogewoud, Henri-Marcel, Belhaj-Saif, Abderraouf, Loquet, Gérard, Rouiller, Eric M., Lanz, Florian, Lanz, X., Scherly, A., Moret, Véronique, Gaillard, A., Gruner, P., Hoogewoud, Henri-Marcel, Belhaj-Saif, Abderraouf, Loquet, Gérard, and Rouiller, Eric M.

Abstract

The present study was aimed at developing a new strategy to design and anchor custom-fitted implants, consisting of a head fixation device and a chronic recording chamber, on the skull of adult macaque monkeys. This was done without the use of dental resin or orthopedic cement, as these modes of fixation exert a detrimental effect on the bone. The implants were made of titanium or tekapeek and anchored to the skull with titanium screws. Two adult macaque monkeys were initially implanted with the head fixation device several months previous to electrophysiological investigation, to allow optimal osseous-integration, including growth of the bone above the implant's footplate. In a second step, the chronic recording chamber was implanted above the brain region of interest. The present study proposes two original approaches for both implants. First, based on a CT scan of the monkey, a plastic replicate of the skull was obtained in the form of a 3D print, used to accurately shape and position the two implants. This would ensure a perfect match with the skull surface. Second, the part of the implants in contact with the bone was coated with hydroxyapatite, presenting chemical similarity to natural bone, thus promoting excellent osseous-integration. The longevity of the implants used here was 4 years for the head fixation device and 1.5 years for the chronic chamber. There were no adverse events and daily care was easy. This is clear evidence that the present implanting strategy was successful and provokes less discomfort to the animals.

Published
2014

20. Comparison of functional recovery of manual dexterity after unilateral spinal cord lesion or motor cortex lesion in adult macaque monkeys

Author

Hoogewoud, Florence, Hamadjida, Adjia, Wyss, Alexander F, Mir, Anis, Schwab, Martin E, Belhaj-Saif, Abderraouf, Rouiller, Eric M, Hoogewoud, Florence, Hamadjida, Adjia, Wyss, Alexander F, Mir, Anis, Schwab, Martin E, Belhaj-Saif, Abderraouf, and Rouiller, Eric M

Abstract

In relation to mechanisms involved in functional recovery of manual dexterity from cervical cord injury or from motor cortical injury, our goal was to determine whether the movements that characterize post-lesion functional recovery are comparable to original movement patterns or do monkeys adopt distinct strategies to compensate the deficits depending on the type of lesion? To this aim, data derived from earlier studies, using a skilled finger task (the modified Brinkman board from which pellets are retrieved from vertical or horizontal slots), in spinal cord and motor cortex injured monkeys were analyzed and compared. Twelve adult macaque monkeys were subjected to a hemi-section of the cervical cord (n = 6) or to a unilateral excitotoxic lesion of the hand representation in the primary motor cortex (n = 6). In addition, in each subgroup, one half of monkeys (n = 3) were treated for 30 days with a function blocking antibody against the neurite growth inhibitory protein Nogo-A, while the other half (n = 3) represented control animals. The motor deficits, and the extent and time course of functional recovery were assessed. For some of the parameters investigated (wrist angle for horizontal slots and movement types distribution for vertical slots after cervical injury; movement types distribution for horizontal slots after motor cortex lesion), post-lesion restoration of the original movement patterns ("true" recovery) led to a quantitatively better functional recovery. In the motor cortex lesion groups, pharmacological reversible inactivation experiments showed that the peri-lesion territory of the primary motor cortex or re-arranged, spared domain of the lesion zone, played a major role in the functional recovery, together with the ipsilesional intact premotor cortex.

Published
2013

21. Follow-up of cortical activity and structure after lesion with laser speckle imaging and magnetic resonance imaging in nonhuman primates

Author

Peuser, Jörn, Belhaj-Saif, Abderraouf, Hamadjida, Adjia, Schmidlin, Eric, Gindrat, Anne-Dominique, Völker, Andreas Charles, Zakharov, Pavel, Hoogewoud, Henri-Marcel, Rouiller, Eric M., Scheffold, Frank, Peuser, Jörn, Belhaj-Saif, Abderraouf, Hamadjida, Adjia, Schmidlin, Eric, Gindrat, Anne-Dominique, Völker, Andreas Charles, Zakharov, Pavel, Hoogewoud, Henri-Marcel, Rouiller, Eric M., and Scheffold, Frank

Abstract

The nonhuman primate model is suitable to study mechanisms of functional recovery following lesion of the cerebral cortex (motor cortex), on which therapeutic strategies can be tested. To interpret behavioral data (time course and extent of functional recovery), it is crucial to monitor the properties of the experimental cortical lesion, induced by infusion of the excitotoxin ibotenic acid. In two adult macaque monkeys, ibotenic acid infusions produced a restricted, permanent lesion of the motor cortex. In one monkey, the lesion was monitored over 3.5 weeks, combining laser speckle imaging (LSI) as metabolic readout (cerebral blood flow) and anatomical assessment with magnetic resonance imaging (T2-weighted MRI). The cerebral blood flow, measured online during subsequent injections of the ibotenic acid in the motor cortex, exhibited a dramatic increase, still present after one week, in parallel to a MRI hypersignal. After 3.5 weeks, the cerebral blood flow was strongly reduced (below reference level) and the hypersignal disappeared from the MRI scan, although the lesion was permanent as histologically assessed post-mortem. The MRI data were similar in the second monkey. Our experiments suggest that LSI and MRI, although they reflect different features, vary in parallel during a few weeks following an excitotoxic cortical lesion.

Published
2012

22. Autologous adult cortical cell transplantation enhances functional recovery following unilateral lesion of motor cortex in primates: a pilot study

Author

Kaeser, Melanie, Brunet, Jean-Francois, Wyss, Alexander, Belhaj-Saif, Abderraouf, Liu, Yu, Hamadjida, Adjia, Rouiller, Eric M., Bloch, Jocelyne, Kaeser, Melanie, Brunet, Jean-Francois, Wyss, Alexander, Belhaj-Saif, Abderraouf, Liu, Yu, Hamadjida, Adjia, Rouiller, Eric M., and Bloch, Jocelyne

Abstract

BACKGROUND: Although cell therapy is a promising approach after cerebral cortex lesion, few studies assess quantitatively its behavioral gain in nonhuman primates. Furthermore, implantations of fetal grafts of exogenous stem cells are limited by safety and ethical issues.OBJECTIVE: To test in nonhuman primates the transplantation of autologous adult neural progenitor cortical cells with assessment of functional outcome.METHODS: Seven adult macaque monkeys were trained to perform a manual dexterity task, before the hand representation in motor cortex was chemically lesioned unilaterally. Five monkeys were used as control, compared with 2 monkeys subjected to different autologous cells transplantation protocols performed at different time intervals.RESULTS: After lesion, there was a complete loss of manual dexterity in the contralesional hand. The 5 "control" monkeys recovered progressively and spontaneously part of their manual dexterity, reaching a unique and definitive plateau of recovery, ranging from 38% to 98% of prelesion score after 10 to 120 days. The 2 "treated" monkeys reached a first spontaneous recovery plateau at about 25 and 40 days postlesion, representing 35% and 61% of the prelesion performance, respectively. In contrast to the controls, a second recovery plateau took place 2 to 3 months after cell transplantation, corresponding to an additional enhancement of functional recovery, representing 24% and 37% improvement, respectively.CONCLUSIONS: These pilot data, derived from 2 monkeys treated differently, suggest that, in the present experimental conditions, autologous adult brain progenitor cell transplantation in a nonhuman primate is safe and promotes enhancement of functional recovery.

Published
2012

23. Fate of rubrospinal neurons after unilateral section of the cervical spinal cord in adult macaque monkeys: Effects of an antibody treatment neutralizing Nogo-A

Author

Wannier-Morino, Patrizia, Schmidlin, Eric, Freund, Patrick, Belhaj-Saif, Abderraouf, Bloch, Jocelyne, Mir, Anis, Schwab, Martin E., Rouiller, Eric M., Wannier, Tierry, Wannier-Morino, Patrizia, Schmidlin, Eric, Freund, Patrick, Belhaj-Saif, Abderraouf, Bloch, Jocelyne, Mir, Anis, Schwab, Martin E., Rouiller, Eric M., and Wannier, Tierry

Abstract

The present study describes in primates the effects of a spinal cord injury on the number and size of the neurons in the magnocellular part of the red nucleus (RNm), the origin of the rubrospinal tract, and evaluates whether a neutralization of Nogo-A reduces the lesioned-induced degenerative processes observed in RNm. Two groups of monkeys were subjected to unilateral section of the spinal cord affecting the rubrospinal tract; one group was subsequently treated with an antibody neutralizing Nogo-A; the second group received a control antibody. Intact animals were also included in the study. Counting neurons stained with a monoclonal antibody recognizing non-phosphorylated epitopes on neurofilaments (SMI-32) indicated that their number in the contralesional RNm was consistently inferior to that in the ipsilesional RNm, in a proportion amounting up to 35%. The lesion also induced shrinkage of the soma of the neurons detected in the contralesional RNm. Infusing an anti-Nogo-A antibody at the site of the lesion did not increase the proportion of SMI-32 positive rubrospinal neurons in the contralesional RNm nor prevent shrinkage.

Published
2008

26. Adaptation of the precentral cortical command to elbow muscle fatigue

Author

A. Fourment, B. Maton, and A. Belhaj-Saif

Subjects
Brachioradialis, Electromyography, Isometric exercise, Biceps, Tonic (physiology), Isometric Contraction, medicine, Elbow, Animals, Neurons, Muscle fatigue, medicine.diagnostic_test, business.industry, General Neuroscience, Motor Cortex, Body movement, Anatomy, musculoskeletal system, Evoked Potentials, Motor, Adaptation, Physiological, Macaca fascicularis, medicine.anatomical_structure, Muscle Fatigue, Female, business, Motor cortex
Abstract

The control exerted by individual motor cortical cells on their fatigued target muscles was assessed by analyzing the discharge patterns and electromyographic (EMG) postspike effects of cortical cells in monkeys making repeated forceful, but submaximal, isometric flexions of the elbow to produce fatigue. Two monkeys were trained to perform self-paced isometric contractions (for longer than 2 s) at forces greater than 35% maximal contraction, with three sets of 20 consecutive contractions; the first and last sets were at the same force level. Pairs of EMG electrodes were implanted in the biceps brachii, brachioradialis, and triceps brachii. The cortical cell discharges were modulated with the active and passive movements of the elbow and produced consistent EMG postspike effects during isometric contraction. Muscle fatigue was assessed as a statistically significant (P

Published
1996

27. Responses of motor cortical cells to short trains of vibration

Author

A. Belhaj-Saif, A. Fourment, B. Maton, and J. M. Chennevelle

Subjects
Neurons, Reflex, Stretch, Time Factors, medicine.diagnostic_test, Electromyography, Chemistry, General Neuroscience, Muscle spindle, Motor Cortex, Motor control, Vibration, Tonic (physiology), Tendons, Macaca fascicularis, Electrophysiology, medicine.anatomical_structure, Pulmonary stretch receptors, medicine, Animals, Stretch reflex, Muscle, Skeletal, Evoked Potentials, Neuroscience, Motor cortex
Abstract

The response discharges of precentral motor cortical cells to brief trains of vibration applied to the tendon of biceps brachii were analyzed in two alert but passive monkeys. The activity of 20 phasic-tonic and 6 tonic cells was analyzed. All had functional linkages with flexor muscles during a preceding flexion task and responded to passive movement of the elbow. Taking as a reference the stereotyped reflex response in the stretched muscle, the effect of changes in the amplitude of a constant frequency vibration (4 vibrations at 58 Hz) was quantified statistically in peristimulus histograms of the cortical cell discharges. All cells were transiently influenced by low vibration amplitudes. Most responses (71%) were excitatory and occurred at a mean latency of 24 ms, which is consistent with cells activated by input from stretch receptors. Excitatory, reproducible responses to the lowest vibration amplitudes were more frequent in phasic-tonic than in pure tonic cells. Large-amplitude vibrations always excited the motor cortical cells. The sign of the responses to vibration matched that to passive elbow movements for most cells. These findings show that elbow-related motor cortical cells are very sensitive to proprioceptive input from primary spindle afferents.

Published
1996
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28. Reduction of the hand representation in the ipsilateral primary motor cortex following unilateral section of the corticospinal tract at cervical level in monkeys

Author

Schmidlin, Eric, Wannier, Thierry, Bloch, Jocelyne, Belhaj-Saif, Abderraouf, Wyss, Alexander F., Rouiller, Eric M., Schmidlin, Eric, Wannier, Thierry, Bloch, Jocelyne, Belhaj-Saif, Abderraouf, Wyss, Alexander F., and Rouiller, Eric M.

Abstract

Background: After sub-total hemi-section of cervical cord at level C7/C8 in monkeys, the ipsilesional hand exhibited a paralysis for a couple of weeks, followed by incomplete recovery of manual dexterity, reaching a plateau after 40–50 days. Recently, we demonstrated that the level of the plateau was related to the size of the lesion and that progressive plastic changes of the motor map in the contralesional motor cortex, particularly the hand representation, took place following a comparable time course. The goal of the present study was to assess, in three macaque monkeys, whether the hand representation in the ipsilesional primary motor cortex (M1) was also affected by the cervical hemi-section. Results: Unexpectedly, based on the minor contribution of the ipsilesional hemisphere to the transected corticospinal (CS) tract, a considerable reduction of the hand representation was also observed in the ipsilesional M1. Mapping control experiments ruled out the possibility that changes of motor maps are due to variability of the intracortical microstimulation mapping technique. The extent of the size reduction of the hand area was nearly as large as in the contralesional hemisphere in two of the three monkeys. In the third monkey, it represented a reduction by a factor of half the change observed in the contralesional hemisphere. Although the hand representation was modified in the ipsilesional hemisphere, such changes were not correlated with a contribution of this hemisphere to the incomplete recovery of the manual dexterity for the hand affected by the lesion, as demonstrated by reversible inactivation experiments (in contrast to the contralesional hemisphere). Moreover, despite the size reduction of M1 hand area in the ipsilesional hemisphere, no deficit of manual dexterity for the hand opposite to the cervical hemi-section was detected. Conclusion: After cervical hemi-section, the ipsilesional motor cortex exhibited substantial reduction of t

Published
2005

29. Reduction of the hand representation in the ipsilateral primary motor cortex following unilateral section of the corticospinal tract at cervical level in monkeys

Author

Schmidlin, E D, Wannier, T, Bloch, J, Belhaj-Saif, A M, Wyss, A F, Rouiller, E M, Schmidlin, E D, Wannier, T, Bloch, J, Belhaj-Saif, A M, Wyss, A F, and Rouiller, E M

Abstract

BACKGROUND: After sub-total hemi-section of cervical cord at level C7/C8 in monkeys, the ipsilesional hand exhibited a paralysis for a couple of weeks, followed by incomplete recovery of manual dexterity, reaching a plateau after 40-50 days. Recently, we demonstrated that the level of the plateau was related to the size of the lesion and that progressive plastic changes of the motor map in the contralesional motor cortex, particularly the hand representation, took place following a comparable time course. The goal of the present study was to assess, in three macaque monkeys, whether the hand representation in the ipsilesional primary motor cortex (M1) was also affected by the cervical hemi-section. RESULTS: Unexpectedly, based on the minor contribution of the ipsilesional hemisphere to the transected corticospinal (CS) tract, a considerable reduction of the hand representation was also observed in the ipsilesional M1. Mapping control experiments ruled out the possibility that changes of motor maps are due to variability of the intracortical microstimulation mapping technique. The extent of the size reduction of the hand area was nearly as large as in the contralesional hemisphere in two of the three monkeys. In the third monkey, it represented a reduction by a factor of half the change observed in the contralesional hemisphere. Although the hand representation was modified in the ipsilesional hemisphere, such changes were not correlated with a contribution of this hemisphere to the incomplete recovery of the manual dexterity for the hand affected by the lesion, as demonstrated by reversible inactivation experiments (in contrast to the contralesional hemisphere). Moreover, despite the size reduction of M1 hand area in the ipsilesional hemisphere, no deficit of manual dexterity for the hand opposite to the cervical hemi-section was detected. CONCLUSION: After cervical hemi-section, the ipsilesional motor cortex exhibited substantial reduction of the hand representatio

Published
2005

30. Behavioral Assessment of Manual Dexterity in Non-Human Primates

Author

Schmidlin, Eric, primary, Kaeser, Mélanie, primary, Gindrat, Anne- Dominique, primary, Savidan, Julie, primary, Chatagny, Pauline, primary, Badoud, Simon, primary, Hamadjida, Adjia, primary, Beaud, Marie-Laure, primary, Wannier, Thierry, primary, Belhaj-Saif, Abderraouf, primary, and Rouiller, Eric M., primary

Published
2011
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33. Follow-up of cortical activity and structure after lesion with laser speckle imaging and magnetic resonance imaging in nonhuman primates

Author

Peuser, Jörn, primary, Belhaj-Saif, Abderraouf, additional, Hamadjida, Adjia, additional, Schmidlin, Eric, additional, Gindrat, Anne-Dominique, additional, Völker, Andreas Charles, additional, Zakharov, Pavel, additional, Hoogewoud, Henri-Marcel, additional, Rouiller, Eric M., additional, and Scheffold, Frank, additional

Published
2011
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41. Influence of anti-Nogo-A antibody treatment on the reorganization of callosal connectivity of the premotor cortical areas following unilateral lesion of primary motor cortex (M1) in adult macaque monkeys

Author

Hamadjida, Adjia, Wyss, Alexander F., Mir, Anis, Schwab, Martin E., Belhaj-Saif, Abderaouf, Rouiller, Eric M., Hamadjida, Adjia, Wyss, Alexander F., Mir, Anis, Schwab, Martin E., Belhaj-Saif, Abderaouf, and Rouiller, Eric M.

Abstract

Following unilateral lesion of the primary motor cortex, the reorganization of callosal projections from the intact hemisphere to the ipsilesional premotor cortex (PM) was investigated in 7 adult macaque monkeys, in absence of treatment (control; n = 4) or treated with function blocking antibodies against the neurite growth inhibitory protein Nogo-A (n = 3). After functional recovery, though incomplete, the tracer biotinylated dextran amine (BDA) was injected in the ipsilesional PM. Retrogradely labelled neurons were plotted in the intact hemisphere and their number was normalized with respect to the volume of the core of BDA injection sites. (1) The callosal projections to PM in the controls originate mainly from homotypic PM areas and, but to a somewhat lesser extent, from the mesial cortex (cingulate and supplementary motor areas). (2) In the lesioned anti-Nogo-A antibody-treated monkeys, the normalized number of callosal retrogradely labelled neurons was up to several folds higher than in controls, especially in the homotypic PM areas. (3) Except one control with a small lesion and a limited, transient deficit, the anti-Nogo-A antibody-treated monkeys recovered to nearly baseline levels of performance (73–90 %), in contrast to persistent deficits in the control monkeys. These results are consistent with a sprouting and/or sparing of callosal axons promoted by the anti-Nogo-A antibody treatment after lesion of the primary motor cortex, as compared to untreated monkeys.

42. Short-term effects of unilateral lesion of the primary motor cortex (M1) on ipsilesional hand dexterity in adult macaque monkeys

Author

Bashir, Shahid, Kaeser, Mélanie, Wyss, Alexander, Hamadjida, Adjia, Liu, Yu, Bloch, Jocelyne, Brunet, Jean-François, Belhaj-Saif, Abderraouf, Rouiller, Eric M., Bashir, Shahid, Kaeser, Mélanie, Wyss, Alexander, Hamadjida, Adjia, Liu, Yu, Bloch, Jocelyne, Brunet, Jean-François, Belhaj-Saif, Abderraouf, and Rouiller, Eric M.

Abstract

Although the arrangement of the corticospinal projection in primates is consistent with a more prominent role of the ipsilateral motor cortex on proximal muscles, rather than on distal muscles involved in manual dexterity, the role played by the primary motor cortex on the control of manual dexterity for the ipsilateral hand remains a matter a debate, either in the normal function or after a lesion. We, therefore, tested the impact of permanent unilateral motor cortex lesion on the manual dexterity of the ipsilateral hand in 11 macaque monkeys, within a time window of 60 days post-lesion. For comparison, unilateral reversible pharmacological inactivation of the motor cortex was produced in an additional monkey. Manual dexterity was assessed quantitatively based on three motor parameters derived from two reach and grasp manual tasks. In contrast to the expected dramatic, complete deficit of manual dexterity of the contralesional hand that persists for several weeks, the impact on the manual dexterity of the ipsilesional hand was generally moderate (but statistically significant) and, when present, lasted less than 20 days. Out of the 11 monkeys, only 3 showed a deficit of the ipsilesional hand for 2 of the 3 motor parameters, and 4 animals had a deficit for only one motor parameter. Four monkeys did not show any deficit. The reversible inactivation experiment yielded results consistent with the permanent lesion data. In conclusion, the primary motor cortex exerts a modest role on ipsilateral manual dexterity, most likely in the form of indirect hand postural control.

43. Autologous adult cortical cell transplantation enhances functional recovery following unilateral lesion of motor cortex in primates: a pilot study

Author

Kaeser, Melanie, Brunet, Jean-Francois, Wyss, Alexander, Belhaj-Saif, Abderraouf, Liu, Yu, Hamadjida, Adjia, Rouiller, Eric M., Bloch, Jocelyne, Kaeser, Melanie, Brunet, Jean-Francois, Wyss, Alexander, Belhaj-Saif, Abderraouf, Liu, Yu, Hamadjida, Adjia, Rouiller, Eric M., and Bloch, Jocelyne

Abstract

BACKGROUND: Although cell therapy is a promising approach after cerebral cortex lesion, few studies assess quantitatively its behavioral gain in nonhuman primates. Furthermore, implantations of fetal grafts of exogenous stem cells are limited by safety and ethical issues.OBJECTIVE: To test in nonhuman primates the transplantation of autologous adult neural progenitor cortical cells with assessment of functional outcome.METHODS: Seven adult macaque monkeys were trained to perform a manual dexterity task, before the hand representation in motor cortex was chemically lesioned unilaterally. Five monkeys were used as control, compared with 2 monkeys subjected to different autologous cells transplantation protocols performed at different time intervals.RESULTS: After lesion, there was a complete loss of manual dexterity in the contralesional hand. The 5 "control" monkeys recovered progressively and spontaneously part of their manual dexterity, reaching a unique and definitive plateau of recovery, ranging from 38% to 98% of prelesion score after 10 to 120 days. The 2 "treated" monkeys reached a first spontaneous recovery plateau at about 25 and 40 days postlesion, representing 35% and 61% of the prelesion performance, respectively. In contrast to the controls, a second recovery plateau took place 2 to 3 months after cell transplantation, corresponding to an additional enhancement of functional recovery, representing 24% and 37% improvement, respectively.CONCLUSIONS: These pilot data, derived from 2 monkeys treated differently, suggest that, in the present experimental conditions, autologous adult brain progenitor cell transplantation in a nonhuman primate is safe and promotes enhancement of functional recovery.

44. Follow-up of cortical activity and structure after lesion with laser speckle imaging and magnetic resonance imaging in nonhuman primates

Author

Peuser, Jörn, Belhaj-Saif, Abderraouf, Hamadjida, Adjia, Schmidlin, Eric, Gindrat, Anne-Dominique, Völker, Andreas Charles, Zakharov, Pavel, Hoogewoud, Henri-Marcel, Rouiller, Eric M., Scheffold, Frank, Peuser, Jörn, Belhaj-Saif, Abderraouf, Hamadjida, Adjia, Schmidlin, Eric, Gindrat, Anne-Dominique, Völker, Andreas Charles, Zakharov, Pavel, Hoogewoud, Henri-Marcel, Rouiller, Eric M., and Scheffold, Frank

Abstract

The nonhuman primate model is suitable to study mechanisms of functional recovery following lesion of the cerebral cortex (motor cortex), on which therapeutic strategies can be tested. To interpret behavioral data (time course and extent of functional recovery), it is crucial to monitor the properties of the experimental cortical lesion, induced by infusion of the excitotoxin ibotenic acid. In two adult macaque monkeys, ibotenic acid infusions produced a restricted, permanent lesion of the motor cortex. In one monkey, the lesion was monitored over 3.5 weeks, combining laser speckle imaging (LSI) as metabolic readout (cerebral blood flow) and anatomical assessment with magnetic resonance imaging (T2-weighted MRI). The cerebral blood flow, measured online during subsequent injections of the ibotenic acid in the motor cortex, exhibited a dramatic increase, still present after one week, in parallel to a MRI hypersignal. After 3.5 weeks, the cerebral blood flow was strongly reduced (below reference level) and the hypersignal disappeared from the MRI scan, although the lesion was permanent as histologically assessed post-mortem. The MRI data were similar in the second monkey. Our experiments suggest that LSI and MRI, although they reflect different features, vary in parallel during a few weeks following an excitotoxic cortical lesion.

45. Effects of unilateral motor cortex lesion on ipsilesional hand's reach and grasp performance in monkeys: relationship with recovery in the contralesional hand

Author

Kaeser, Mélanie, Wyss, Alexander F., Bashir, Shahid, Hamadjida, Adjia, Liu, Yu, Bloch, Jocelyne, Brunet, Jean-François, Belhaj-Saif, Abderraouf, Rouiller, Eric M., Kaeser, Mélanie, Wyss, Alexander F., Bashir, Shahid, Hamadjida, Adjia, Liu, Yu, Bloch, Jocelyne, Brunet, Jean-François, Belhaj-Saif, Abderraouf, and Rouiller, Eric M.

Abstract

Manual dexterity, a prerogative of primates, is under the control of the corticospinal (CS) tract. As 90-95% of CS axons decussate, it is assumed that this control is exerted essentially on the contralateral hand. Consistently, unilateral lesion of the hand representation in the motor cortex is followed by a complete loss of dexterity of the contralesional hand. During the months following lesion, spontaneous recovery of manual dexterity takes place to a highly variable extent across subjects, although largely incomplete. In the present study, we tested the hypothesis that after a significant post-lesion period, manual performance in the ipsilesional hand is correlated with the extent of functional recovery in the contralesional hand. To this aim, ten adult macaque monkeys were subjected to permanent unilateral motor cortex lesion. Monkeys' manual performance was assessed for each hand during several months post-lesion, using our standard behavioral test (modified Brinkman board task) that provides a quantitative measure of reach and grasp ability. The ipsilesional hand's performance was found to be significantly enhanced on the long-term (100-300 days post-lesion) in 6 out of 10 monkeys, with the six exhibiting the best, though incomplete, recovery of the contralesional hand. There was a statistically significant correlation (r=0.932; p0.001) between performance in the ipsilesional hand after significant post-lesion period and the extent of recovery of the contralesional hand. This observation is interpreted in terms of different possible mechanisms of recovery, dependent on the recruitment of motor areas in the lesioned and/or intact hemispheres.

46. Fate of rubrospinal neurons after unilateral section of the cervical spinal cord in adult macaque monkeys: Effects of an antibody treatment neutralizing Nogo-A

Author

Wannier-Morino, Patrizia, Schmidlin, Eric, Freund, Patrick, Belhaj-Saif, Abderraouf, Bloch, Jocelyne, Mir, Anis, Schwab, Martin E., Rouiller, Eric M., Wannier, Tierry, Wannier-Morino, Patrizia, Schmidlin, Eric, Freund, Patrick, Belhaj-Saif, Abderraouf, Bloch, Jocelyne, Mir, Anis, Schwab, Martin E., Rouiller, Eric M., and Wannier, Tierry

Abstract

The present study describes in primates the effects of a spinal cord injury on the number and size of the neurons in the magnocellular part of the red nucleus (RNm), the origin of the rubrospinal tract, and evaluates whether a neutralization of Nogo-A reduces the lesioned-induced degenerative processes observed in RNm. Two groups of monkeys were subjected to unilateral section of the spinal cord affecting the rubrospinal tract; one group was subsequently treated with an antibody neutralizing Nogo-A; the second group received a control antibody. Intact animals were also included in the study. Counting neurons stained with a monoclonal antibody recognizing non-phosphorylated epitopes on neurofilaments (SMI-32) indicated that their number in the contralesional RNm was consistently inferior to that in the ipsilesional RNm, in a proportion amounting up to 35%. The lesion also induced shrinkage of the soma of the neurons detected in the contralesional RNm. Infusing an anti-Nogo-A antibody at the site of the lesion did not increase the proportion of SMI-32 positive rubrospinal neurons in the contralesional RNm nor prevent shrinkage.

47. Reduction of the hand representation in the ipsilateral primary motor cortex following unilateral section of the corticospinal tract at cervical level in monkeys

Author

Schmidlin, Eric, Wannier, Thierry, Bloch, Jocelyne, Belhaj-Saif, Abderraouf, Wyss, Alexander F., Rouiller, Eric M., Schmidlin, Eric, Wannier, Thierry, Bloch, Jocelyne, Belhaj-Saif, Abderraouf, Wyss, Alexander F., and Rouiller, Eric M.

Abstract

Background: After sub-total hemi-section of cervical cord at level C7/C8 in monkeys, the ipsilesional hand exhibited a paralysis for a couple of weeks, followed by incomplete recovery of manual dexterity, reaching a plateau after 40–50 days. Recently, we demonstrated that the level of the plateau was related to the size of the lesion and that progressive plastic changes of the motor map in the contralesional motor cortex, particularly the hand representation, took place following a comparable time course. The goal of the present study was to assess, in three macaque monkeys, whether the hand representation in the ipsilesional primary motor cortex (M1) was also affected by the cervical hemi-section. Results: Unexpectedly, based on the minor contribution of the ipsilesional hemisphere to the transected corticospinal (CS) tract, a considerable reduction of the hand representation was also observed in the ipsilesional M1. Mapping control experiments ruled out the possibility that changes of motor maps are due to variability of the intracortical microstimulation mapping technique. The extent of the size reduction of the hand area was nearly as large as in the contralesional hemisphere in two of the three monkeys. In the third monkey, it represented a reduction by a factor of half the change observed in the contralesional hemisphere. Although the hand representation was modified in the ipsilesional hemisphere, such changes were not correlated with a contribution of this hemisphere to the incomplete recovery of the manual dexterity for the hand affected by the lesion, as demonstrated by reversible inactivation experiments (in contrast to the contralesional hemisphere). Moreover, despite the size reduction of M1 hand area in the ipsilesional hemisphere, no deficit of manual dexterity for the hand opposite to the cervical hemi-section was detected. Conclusion: After cervical hemi-section, the ipsilesional motor cortex exhibited substantial reduction of t

48. Short-term effects of unilateral lesion of the primary motor cortex (M1) on ipsilesional hand dexterity in adult macaque monkeys

Author

Bashir, Shahid, Kaeser, Mélanie, Wyss, Alexander, Hamadjida, Adjia, Liu, Yu, Bloch, Jocelyne, Brunet, Jean-François, Belhaj-Saif, Abderraouf, Rouiller, Eric, Bashir, Shahid, Kaeser, Mélanie, Wyss, Alexander, Hamadjida, Adjia, Liu, Yu, Bloch, Jocelyne, Brunet, Jean-François, Belhaj-Saif, Abderraouf, and Rouiller, Eric

Abstract

Although the arrangement of the corticospinal projection in primates is consistent with a more prominent role of the ipsilateral motor cortex on proximal muscles, rather than on distal muscles involved in manual dexterity, the role played by the primary motor cortex on the control of manual dexterity for the ipsilateral hand remains a matter a debate, either in the normal function or after a lesion. We, therefore, tested the impact of permanent unilateral motor cortex lesion on the manual dexterity of the ipsilateral hand in 11 macaque monkeys, within a time window of 60days post-lesion. For comparison, unilateral reversible pharmacological inactivation of the motor cortex was produced in an additional monkey. Manual dexterity was assessed quantitatively based on three motor parameters derived from two reach and grasp manual tasks. In contrast to the expected dramatic, complete deficit of manual dexterity of the contralesional hand that persists for several weeks, the impact on the manual dexterity of the ipsilesional hand was generally moderate (but statistically significant) and, when present, lasted less than 20days. Out of the 11 monkeys, only 3 showed a deficit of the ipsilesional hand for 2 of the 3 motor parameters, and 4 animals had a deficit for only one motor parameter. Four monkeys did not show any deficit. The reversible inactivation experiment yielded results consistent with the permanent lesion data. In conclusion, the primary motor cortex exerts a modest role on ipsilateral manual dexterity, most likely in the form of indirect hand postural control

49. Influence of anti-Nogo-A antibody treatment on the reorganization of callosal connectivity of the premotor cortical areas following unilateral lesion of primary motor cortex (M1) in adult macaque monkeys

Author

Hamadjida, Adjia, Wyss, Alexander, Mir, Anis, Schwab, Martin, Belhaj-Saif, Abderaouf, Rouiller, Eric, Hamadjida, Adjia, Wyss, Alexander, Mir, Anis, Schwab, Martin, Belhaj-Saif, Abderaouf, and Rouiller, Eric

Abstract

Following unilateral lesion of the primary motor cortex, the reorganization of callosal projections from the intact hemisphere to the ipsilesional premotor cortex (PM) was investigated in 7 adult macaque monkeys, in absence of treatment (control; n=4) or treated with function blocking antibodies against the neurite growth inhibitory protein Nogo-A (n=3). After functional recovery, though incomplete, the tracer biotinylated dextran amine (BDA) was injected in the ipsilesional PM. Retrogradely labelled neurons were plotted in the intact hemisphere and their number was normalized with respect to the volume of the core of BDA injection sites. (1) The callosal projections to PM in the controls originate mainly from homotypic PM areas and, but to a somewhat lesser extent, from the mesial cortex (cingulate and supplementary motor areas). (2) In the lesioned anti-Nogo-A antibody-treated monkeys, the normalized number of callosal retrogradely labelled neurons was up to several folds higher than in controls, especially in the homotypic PM areas. (3) Except one control with a small lesion and a limited, transient deficit, the anti-Nogo-A antibody-treated monkeys recovered to nearly baseline levels of performance (73-90%), in contrast to persistent deficits in the control monkeys. These results are consistent with a sprouting and/or sparing of callosal axons promoted by the anti-Nogo-A antibody treatment after lesion of the primary motor cortex, as compared to untreated monkeys

50. Refined methodology for implantation of a head fixation device and chronic recording chambers in non-human primates

Author

Lanz, Florian, Lanz, X., Scherly, A., Moret, Véronique, Gaillard, A., Gruner, P., Hoogewoud, Henri-Marcel, Belhaj-Saif, Abderraouf, Loquet, Gérard, Rouiller, Eric M., Lanz, Florian, Lanz, X., Scherly, A., Moret, Véronique, Gaillard, A., Gruner, P., Hoogewoud, Henri-Marcel, Belhaj-Saif, Abderraouf, Loquet, Gérard, and Rouiller, Eric M.

Abstract

The present study was aimed at developing a new strategy to design and anchor custom-fitted implants, consisting of a head fixation device and a chronic recording chamber, on the skull of adult macaque monkeys. This was done without the use of dental resin or orthopedic cement, as these modes of fixation exert a detrimental effect on the bone. The implants were made of titanium or tekapeek and anchored to the skull with titanium screws. Two adult macaque monkeys were initially implanted with the head fixation device several months previous to electrophysiological investigation, to allow optimal osseous-integration, including growth of the bone above the implant's footplate. In a second step, the chronic recording chamber was implanted above the brain region of interest. The present study proposes two original approaches for both implants. First, based on a CT scan of the monkey, a plastic replicate of the skull was obtained in the form of a 3D print, used to accurately shape and position the two implants. This would ensure a perfect match with the skull surface. Second, the part of the implants in contact with the bone was coated with hydroxyapatite, presenting chemical similarity to natural bone, thus promoting excellent osseous-integration. The longevity of the implants used here was 4 years for the head fixation device and 1.5 years for the chronic chamber. There were no adverse events and daily care was easy. This is clear evidence that the present implanting strategy was successful and provokes less discomfort to the animals.

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