Your search keyword '"Fregosi, Michela"' showing total 25 results

1. Variability of manual dexterity performance in non-human primates (Macaca fascicularis)

Author

Kaeser, Mélanie, Chatagny, Pauline, Gindrat, Anne-Dominique, Savidan, Julie, Badoud, Simon, Fregosi, Michela, Moret, Véronique, Roulin, Christine, Schmidlin, Eric, and Rouiller, Eric

Subjects

Behaviour, behavior, inter individual, intraindividual variability, motor learning, macaque, monkey, dexterity, learning, precision grip, reach, grasp, force, skill

Abstract

The goal of this study was to quantify the inter-individual and intra-individual variability of manual (digits) skill in adult macaque monkeys, over a motor learning phase and, lateron, when motor skills were consolidated. The hypothesis is that several attributes of the stable manual dexterity performance can be predicted from learning characteristics. The behavioral data were collected from 20 adult Macaca fascicularis, derived from their dominant hand, defined as the hand exhibiting a better performance than theother. Two manual dexterity tasks were tested: (i) the modified Brinkman board task, consisting in the retrieval of food pellets placed in 50 slots ina board, using the precision grip (opposition of the thumb and index finger);(ii) the reach and grasp drawer task, in which the grip force and the load force were continuously monitored while the monkey opened a drawer against a resistance, before grasping a pellet inside the drawer. The hypothesis was verified for the performance of manual dexterity after consolidation, correlated with the initial score before learning. Motor habit, reflected by the temporal order of sequential movements executed in the modified Brinkman board task, was established very early during the learning phase. As mostly expected, motor  learning led to an optimization of manual dexterity parameters, such as score, contact time, as well as a decrease in intra-individual variability. Overall,the data demonstrate the substantial inter-individual variability of manual dexterity in non-human primates, to be considered for further pre-clinical applications based on this animal model.

Published

2014

2. Ipsilateral corticotectal projections from the primary, premotor and supplementary motor cortical areas in adult macaque monkeys: a quantitative anterograde tracing study

Author

Fregosi, Michela and Rouiller, Eric M.

Published

2017

3. Fine manual dexterity assessment after autologous neural cell ecosystem (ANCE) transplantation in a non-human primate model of parkinson’s disease

Author

Borgognon, Simon, Cottet, Jérôme, Moret, Véronique, Chatagny, Pauline, Carrara, Laura, Fregosi, Michela, Bloch, Jocelyne, Brunet, Jean-François, Rouiller, Eric M., Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Moret, Véronique, Chatagny, Pauline, Carrara, Laura, Fregosi, Michela, Bloch, Jocelyne, Brunet, Jean-François, Rouiller, Eric M., and Badoud, Simon

Abstract

Autologous neural cell ecosystem (ANCE) transplantation improves motor recovery in MPTP monkeys. These motor symptoms were assessed using semi-quantitative clinical rating scales, widely used in many studies. However, limitations in terms of sensitivity, combined with relatively subjective assessment of their different items, make inter-study comparisons difficult to achieve. Objective. The aim of this study was to quantify the impact of MPTP intoxication in macaque monkeys on manual dexterity and assess whether ANCE can contribute to functional recovery. Methods. Four animals were trained to perform 2 manual dexterity tasks. After reaching a motor performance plateau, the animals were subjected to an MPTP lesion. After the occurrence of a spontaneous functional recovery plateau, all 4 animals were subjected to ANCE transplantation. Results. Two of 4 animals underwent a full spontaneous recovery before the ANCE transplantation, whereas the 2 other animals (symptomatic) presented moderate to severe Parkinson’s disease (PD)-like symptoms affecting manual dexterity. The time to grasp small objects using the precision grip increased in these 2 animals. After ANCE transplantation, the 2 symptomatic animals underwent a significant functional recovery, reflected by a decrease in time to execute the different tasks, as compared with the post-lesion phase. Conclusions. Manual dexterity is affected in symptomatic MPTP monkeys. The 2 manual dexterity tasks reported here as pilot are pertinent to quantify PD symptoms and reliably assess a treatment in MPTP monkeys, such as the present ANCE transplantation, to be confirmed in a larger cohort of animals before future clinical applications.

Published

2019

4. Corticotectal projections from the premotor or primary motor cortex after cortical lesion or parkinsonian symptoms in adult macaque monkeys: a pilot tracing study

Author

Fregosi, Michela, Contestabile, Alessandro, Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Brunet, Jean-François, Bloch, Jocelyne, Schwab, Martin E., Rouiller, Eric M., Fregosi, Michela, Contestabile, Alessandro, Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Brunet, Jean-François, Bloch, Jocelyne, Schwab, Martin E., and Rouiller, Eric M.

Abstract

The corticotectal projections, together with the corticobulbar (corticoreticular) projections, work in parallel with the corticospinal tract (CST) to influence motoneurons in the spinal cord both directly and indirectly via the brainstem descending pathways. The tectospinal tract (TST) originates in the deep layers of the superior colliculus. In the present study, we analyzed the corticotectal projections from two motor cortical areas, namely the premotor cortex (PM) and the primary motor cortex (M1) in eight macaque monkeys subjected to either a cortical lesion of the hand area in M1 (n = 4) or Parkinson’s disease-like symptoms PD (n = 4). A subgroup of monkeys with cortical lesion was subjected to anti-Nogo-A antibody treatment whereas all PD monkeys were transplanted with Autologous Neural Cell Ecosystems (ANCEs). The anterograde tracer BDA was used to label the axonal boutons both en passant and terminaux in the ipsilateral superior colliculus. Individual axonal boutons were charted in the different layers of the superior colliculus. In intact animals, we previously observed that corticotectal projections were denser when originating from PM than from M1. In the present M1 lesioned monkeys, as compared to intact ones the corticotectal projection originating from PM was decreased when treated with anti- Nogo-A antibody but not in untreated monkeys. In PD-like symptoms’ monkeys, on the other hand, there was no consistent change affecting the corticotectal projection as compared to intact monkeys. The present pilot study overall suggests that the corticotectal projection is less affected by M1 lesion or PD symptoms than the corticoreticular projection previously reported in the same animals.

Published

2019

5. Assessment of the effect of continuous theta burst stimulation of the motor cortex on manual dexterity in non-human primates in a direct comparison with invasive intracortical pharmacological inactivation

Author

Roux, Camille, Kaeser, Mélanie, Savidan, Julie, Fregosi, Michela, Rouiller, Eric M., Schmidlin, Eric, Roux, Camille, Kaeser, Mélanie, Savidan, Julie, Fregosi, Michela, Rouiller, Eric M., and Schmidlin, Eric

Abstract

Non-invasive reversible perturbation techniques of brain output such as continuous theta burst stimulation (cTBS), commonly used to modulate cortical excitability in humans, allow investigation of possible roles in functional recovery played by distinct intact cortical areas following stroke. To evaluate the potential of cTBS, the behavioural effects of this non-invasive transient perturbation of the hand representation of the primary motor cortex (M1) in non-human primates (two adult macaques) were compared with an invasive focal transient inactivation based on intracortical microinfusion of GABA-A agonist muscimol. The effects on the contralateral arm produced by cTBS or muscimol were directly compared based on a manual dexterity task performed by the monkeys, the “reach and grasp” drawer task, allowing quantitative assessment of the grip force produced between the thumb and index finger and exerted on the drawer's knob. cTBS only induced modest to moderate behavioural effects, with substantial variability on manual dexterity whereas the intracortical muscimol microinfusion completely impaired manual dexterity, producing a strong and clear cortical inhibition of the M1 hand area. In contrast, cTBS induced mixed inhibitory and facilitatory/excitatory perturbations of M1, though with predominant inhibition. Although cTBS impacted on manual dexterity, its effects appear too limited and variable in order to use it as a reliable proof of cortical vicariation mechanism (cortical area replacing another one) underlying functional recovery following a cortical lesion in the motor control domain, in contrast to potent pharmacological block generated by muscimol infusion, whose application is though limited to an animal model such as non-human primate.

Published

2019

6. Assessment of the effect of continuous theta burst stimulation of the motor cortex on manual dexterity in non‐human primates in a direct comparison with invasive intracortical pharmacological inactivation

Author

Roux, Camille, primary, Kaeser, Mélanie, additional, Savidan, Julie, additional, Fregosi, Michela, additional, Rouiller, Eric M., additional, and Schmidlin, Eric, additional

Published

2019

7. Fine Manual Dexterity Assessment After Autologous Neural Cell Ecosystem (ANCE) Transplantation in a Non-human Primate Model of Parkinson’s Disease

Author

Borgognon, Simon, primary, Cottet, Jérôme, additional, Moret, Véronique, additional, Chatagny, Pauline, additional, Carrara, Laura, additional, Fregosi, Michela, additional, Bloch, Jocelyne, additional, Brunet, Jean-François, additional, Rouiller, Eric M., additional, and Badoud, Simon, additional

Published

2019

8. Corticotectal Projections From the Premotor or Primary Motor Cortex After Cortical Lesion or Parkinsonian Symptoms in Adult Macaque Monkeys: A Pilot Tracing Study

Author

Fregosi, Michela, primary, Contestabile, Alessandro, additional, Badoud, Simon, additional, Borgognon, Simon, additional, Cottet, Jérôme, additional, Brunet, Jean-François, additional, Bloch, Jocelyne, additional, Schwab, Martin E., additional, and Rouiller, Eric M., additional

Published

2019

9. Changes of motor corticobulbar projections following different lesion types affecting the central nervous system in adult macaque monkeys

Author

Fregosi, Michela, Contestabile, Alessandro, Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Brunet, Jean-François, Bloch, Jocelyne, Schwab, Martin E., Rouiller, Eric M., Fregosi, Michela, Contestabile, Alessandro, Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Brunet, Jean-François, Bloch, Jocelyne, Schwab, Martin E., and Rouiller, Eric M.

Published

2018

10. Changes of motor corticobulbar projections following different lesion types affecting the central nervous system in adult macaque monkeys

Author

Fregosi, Michela, primary, Contestabile, Alessandro, additional, Badoud, Simon, additional, Borgognon, Simon, additional, Cottet, Jérôme, additional, Brunet, Jean‐François, additional, Bloch, Jocelyne, additional, Schwab, Martin E., additional, and Rouiller, Eric M., additional

Published

2018

11. Corticobulbar projections from distinct motor cortical areas to the reticular formation in macaque monkeys

Author

Fregosi, Michela, Contestabile, Alessandro, Hamadjida, Adjia, Rouiller, Eric M., Fregosi, Michela, Contestabile, Alessandro, Hamadjida, Adjia, and Rouiller, Eric M.

Abstract

Corticospinal and corticobulbar descending pathways act in parallel with brainstem systems, such as the reticulospinal tract, to ensure the control of voluntary movements via direct or indirect influences onto spinal motoneurons. The aim of this study was to investigate the corticobulbar projections from distinct motor cortical areas onto different nuclei of the reticular formation. Seven adult macaque monkeys were analysed for the location of corticobulbar axonal boutons, and one monkey for reticulospinal neurons' location. The anterograde tracer BDA was injected in the premotor cortex (PM), in the primary motor cortex (M1) or in the supplementary motor area (SMA), in 3, 3 and 1 monkeys respectively. BDA anterograde labelling of corticobulbar axons were analysed on brainstem histological sections and overlapped with adjacent Nissl-stained sections for cytoarchitecture. One adult monkey was analysed for retrograde CB tracer injected in C5-C8 hemispinal cord to visualise reticulospinal neurons. The corticobulbar axons formed bilateral terminal fields with boutons terminaux and en passant, which were quantified in various nuclei belonging to the Ponto-Medullary Reticular Formation (PMRF). The corticobulbar projections from both PM and SMA tended to end mainly ipsilaterally in PMRF, but contralaterally when originating from M1. Furthermore, the corticobulbar projection was less dense when originating from M1 than from non-primary motor areas (PM, SMA). The main nuclei of bouton terminals corresponded to the regions where reticulospinal neurons were located with CB retrograde tracing. In conclusion, the corticobulbar projection differs according to the motor cortical area of origin in density and laterality.

Published

2017

12. Effects of dorsolateral prefrontal cortex lesion on motor habit and performance assessed with manual grasping and control of force in macaque monkeys

Author

Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Chatagny, Pauline, Moret, Véronique, Fregosi, Michela, Kaeser, Mélanie, Fortis, Ekaterina, Schmidlin, Eric, Bloch, Jocelyne, Brunet, Jean-François, Rouiller, Eric M., Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Chatagny, Pauline, Moret, Véronique, Fregosi, Michela, Kaeser, Mélanie, Fortis, Ekaterina, Schmidlin, Eric, Bloch, Jocelyne, Brunet, Jean-François, and Rouiller, Eric M.

Abstract

In the context of an autologous adult neural cell ecosystem (ANCE) transplantation study, four intact adult female macaque monkeys underwent a unilateral biopsy of the dorsolateral prefrontal cortex (dlPFC) to provide the cellular material needed to obtain the ANCE. Monkeys were previously trained to perform quantitative motor (manual dexterity) tasks, namely, the “modified-Brinkman board” task and the “reach and grasp drawer” task. The aim of the present study was to extend preliminary data on the role of the prefrontal cortex in motor habit and test the hypothesis that dlPFC contributes to predict the grip force required when a precise level of force to be generated is known beforehand. As expected for a small dlPFC biopsy, neither the motor performance (score) nor the spatiotemporal motor sequences were affected in the “modified- Brinkman board” task, whereas significant changes (mainly decreases) in the maximal grip force (force applied on the drawer knob) were observed in the “reach and grasp drawer” task. The present data in the macaque monkey related to the prediction of grip force are well in line with the previous fMRI data reported for human subjects. Moreover, the ANCE transplantation strategy (in the case of stroke or Parkinson’s disease) based on biopsy in dlPFC does not generate unwanted motor consequences, at least as far as motor habit and motor performance are concerned in the context of a sequential grasping a small objects, which does not require the development of significant force levels.

Published

2017

13. Corticobulbar projections from distinct motor cortical areas to the reticular formation in macaque monkeys

Author

Fregosi, Michela, primary, Contestabile, Alessandro, additional, Hamadjida, Adjia, additional, and Rouiller, Eric M., additional

Published

2017

14. Adult neural progenitor cells auto transplantation in a non-human primate model of Parkinson’s disease: A pre-clinical study

Author

Cottet, Jerome, primary, Badoud, Simon, additional, Borgognon, Simom, additional, Chatagny, Pauline, additional, Fregosi, Michela, additional, Moret, Véronique, additional, Bloch, Jocelyne, additional, Brunet, Jean-François, additional, and Rouiller, Eric, additional

Published

2016

15. Distinction between hand dominance and hand preference in primates: a behavioral investigation of manual dexterity in nonhuman primates (macaques) and human subjects

Author

Chatagny, Pauline, Badoud, Simon, Kaeser, Mélanie, Gindrat, Anne-Dominique, Savidan, Julie, Fregosi, Michela, Moret, Véronique, Roulin, Christine, Schmidlin, Eric, Rouiller, Eric M., Chatagny, Pauline, Badoud, Simon, Kaeser, Mélanie, Gindrat, Anne-Dominique, Savidan, Julie, Fregosi, Michela, Moret, Véronique, Roulin, Christine, Schmidlin, Eric, and Rouiller, Eric M.

Abstract

The present study aimed to determine and confront hand preference (hand chosen in priority to perform a manual dexterity task) and hand dominance (hand with best motor performance) in eight macaques (Macaca fascicularis) and in 20 human subjects (10 left-handers and 10 right-handers).Methods: Four manual dexterity tests have been executed by the monkeys, over several weeks during learning and stable performance phases (in controlled body position): the modified Brinkman board, the reach and grasp drawer, the tube and the bimanual board tasks. Three behavioral tests, adapted versions from the monkeys tasks (modified Brinkman board, tube and bimanual board tasks), as well as a handedness questionnaire, have been conducted in human subjects.Results: In monkeys, there was a large disparity across individuals and motor tasks. For hand dominance, two monkeys were rather right lateralized, three monkeys rather left lateralized, whereas in three monkeys, the different parameters measured were not consistent. For hand preference, none of the eight monkeys exhibited a homogeneous lateralization across the four motor tasks. Macaca fascicularis do not exhibit a clear hand preference. Furthermore, hand preference often changed with task repetition, both during training and plateau phases. For human subjects, the hand preference mostly followed the self-assessment of lateralization by the subjects and the questionnaire (in the latter, right-handers were more lateralized than left-handers), except a few discrepancies based on the tube task. There was no hand dominance in seven right-handers (the other three performed better with the right hand) and in four left-handers. Five left-handers showed left-hand dominance, whereas surprisingly, one left-hander performed better with the right hand. In the modified Brinkman board task, females performed better than males, right-handers better than left-handers.Conclusions: The present study argues for a distinction between hand preference a

Published

2013

16. Distinction between hand dominance and hand preference in primates: a behavioral investigation of manual dexterity in nonhuman primates (macaques) and human subjects

Author

Chatagny, Pauline, primary, Badoud, Simon, additional, Kaeser, Mélanie, additional, Gindrat, Anne-Dominique, additional, Savidan, Julie, additional, Fregosi, Michela, additional, Moret, Véronique, additional, Roulin, Christine, additional, Schmidlin, Eric, additional, and Rouiller, Eric M., additional

Published

2013

17. Ipsilateral corticotectal projections from the primary, premotor and supplementary motor cortical areas in adult macaque monkeys: a quantitative anterograde tracing study

Author

Fregosi, Michela, Rouiller, Eric M., Fregosi, Michela, and Rouiller, Eric M.

Abstract

Ipsilateral corticotectal projections from the primary, premotor and supplementary motor cortical areas in adult macaque monkeys

18. Ipsilateral corticotectal projections from the primary, premotor and supplementary motor cortical areas in adult macaque monkeys: a quantitative anterograde tracing study

Author

Fregosi, Michela, Rouiller, Eric M., Fregosi, Michela, and Rouiller, Eric M.

Abstract

Ipsilateral corticotectal projections from the primary, premotor and supplementary motor cortical areas in adult macaque monkeys

19. Assessment of the effect of continuous theta burst stimulation of the motor cortex on manual dexterity in non-human primates in a direct comparison with invasive intracortical pharmacological inactivation

Author

Roux, Camille, Kaeser, Mélanie, Savidan, Julie, Fregosi, Michela, Rouiller, Eric M., Schmidlin, Eric, Roux, Camille, Kaeser, Mélanie, Savidan, Julie, Fregosi, Michela, Rouiller, Eric M., and Schmidlin, Eric

Abstract

Non-invasive reversible perturbation techniques of brain output such as continuous theta burst stimulation (cTBS), commonly used to modulate cortical excitability in humans, allow investigation of possible roles in functional recovery played by distinct intact cortical areas following stroke. To evaluate the potential of cTBS, the behavioural effects of this non-invasive transient perturbation of the hand representation of the primary motor cortex (M1) in non-human primates (two adult macaques) were compared with an invasive focal transient inactivation based on intracortical microinfusion of GABA-A agonist muscimol. The effects on the contralateral arm produced by cTBS or muscimol were directly compared based on a manual dexterity task performed by the monkeys, the “reach and grasp” drawer task, allowing quantitative assessment of the grip force produced between the thumb and index finger and exerted on the drawer's knob. cTBS only induced modest to moderate behavioural effects, with substantial variability on manual dexterity whereas the intracortical muscimol microinfusion completely impaired manual dexterity, producing a strong and clear cortical inhibition of the M1 hand area. In contrast, cTBS induced mixed inhibitory and facilitatory/excitatory perturbations of M1, though with predominant inhibition. Although cTBS impacted on manual dexterity, its effects appear too limited and variable in order to use it as a reliable proof of cortical vicariation mechanism (cortical area replacing another one) underlying functional recovery following a cortical lesion in the motor control domain, in contrast to potent pharmacological block generated by muscimol infusion, whose application is though limited to an animal model such as non-human primate.

20. Corticotectal projections from the premotor or primary motor cortex after cortical lesion or parkinsonian symptoms in adult macaque monkeys: a pilot tracing study

Author

Fregosi, Michela, Contestabile, Alessandro, Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Brunet, Jean-François, Bloch, Jocelyne, Schwab, Martin E., Rouiller, Eric M., Fregosi, Michela, Contestabile, Alessandro, Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Brunet, Jean-François, Bloch, Jocelyne, Schwab, Martin E., and Rouiller, Eric M.

Abstract

The corticotectal projections, together with the corticobulbar (corticoreticular) projections, work in parallel with the corticospinal tract (CST) to influence motoneurons in the spinal cord both directly and indirectly via the brainstem descending pathways. The tectospinal tract (TST) originates in the deep layers of the superior colliculus. In the present study, we analyzed the corticotectal projections from two motor cortical areas, namely the premotor cortex (PM) and the primary motor cortex (M1) in eight macaque monkeys subjected to either a cortical lesion of the hand area in M1 (n = 4) or Parkinson’s disease-like symptoms PD (n = 4). A subgroup of monkeys with cortical lesion was subjected to anti-Nogo-A antibody treatment whereas all PD monkeys were transplanted with Autologous Neural Cell Ecosystems (ANCEs). The anterograde tracer BDA was used to label the axonal boutons both en passant and terminaux in the ipsilateral superior colliculus. Individual axonal boutons were charted in the different layers of the superior colliculus. In intact animals, we previously observed that corticotectal projections were denser when originating from PM than from M1. In the present M1 lesioned monkeys, as compared to intact ones the corticotectal projection originating from PM was decreased when treated with anti- Nogo-A antibody but not in untreated monkeys. In PD-like symptoms’ monkeys, on the other hand, there was no consistent change affecting the corticotectal projection as compared to intact monkeys. The present pilot study overall suggests that the corticotectal projection is less affected by M1 lesion or PD symptoms than the corticoreticular projection previously reported in the same animals.

21. Fine manual dexterity assessment after autologous neural cell ecosystem (ANCE) transplantation in a non-human primate model of parkinson’s disease

Author

Borgognon, Simon, Cottet, Jérôme, Moret, Véronique, Chatagny, Pauline, Carrara, Laura, Fregosi, Michela, Bloch, Jocelyne, Brunet, Jean-François, Rouiller, Eric M., Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Moret, Véronique, Chatagny, Pauline, Carrara, Laura, Fregosi, Michela, Bloch, Jocelyne, Brunet, Jean-François, Rouiller, Eric M., and Badoud, Simon

Abstract

Autologous neural cell ecosystem (ANCE) transplantation improves motor recovery in MPTP monkeys. These motor symptoms were assessed using semi-quantitative clinical rating scales, widely used in many studies. However, limitations in terms of sensitivity, combined with relatively subjective assessment of their different items, make inter-study comparisons difficult to achieve. Objective. The aim of this study was to quantify the impact of MPTP intoxication in macaque monkeys on manual dexterity and assess whether ANCE can contribute to functional recovery. Methods. Four animals were trained to perform 2 manual dexterity tasks. After reaching a motor performance plateau, the animals were subjected to an MPTP lesion. After the occurrence of a spontaneous functional recovery plateau, all 4 animals were subjected to ANCE transplantation. Results. Two of 4 animals underwent a full spontaneous recovery before the ANCE transplantation, whereas the 2 other animals (symptomatic) presented moderate to severe Parkinson’s disease (PD)-like symptoms affecting manual dexterity. The time to grasp small objects using the precision grip increased in these 2 animals. After ANCE transplantation, the 2 symptomatic animals underwent a significant functional recovery, reflected by a decrease in time to execute the different tasks, as compared with the post-lesion phase. Conclusions. Manual dexterity is affected in symptomatic MPTP monkeys. The 2 manual dexterity tasks reported here as pilot are pertinent to quantify PD symptoms and reliably assess a treatment in MPTP monkeys, such as the present ANCE transplantation, to be confirmed in a larger cohort of animals before future clinical applications.

22. Changes of motor corticobulbar projections following different lesion types affecting the central nervous system in adult macaque monkeys

Author

Fregosi, Michela, Contestabile, Alessandro, Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Brunet, Jean-François, Bloch, Jocelyne, Schwab, Martin E., Rouiller, Eric M., Fregosi, Michela, Contestabile, Alessandro, Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Brunet, Jean-François, Bloch, Jocelyne, Schwab, Martin E., and Rouiller, Eric M.

23. Corticobulbar projections from distinct motor cortical areas to the reticular formation in macaque monkeys

Author

Fregosi, Michela, Contestabile, Alessandro, Hamadjida, Adjia, Rouiller, Eric M., Fregosi, Michela, Contestabile, Alessandro, Hamadjida, Adjia, and Rouiller, Eric M.

Abstract

Corticospinal and corticobulbar descending pathways act in parallel with brainstem systems, such as the reticulospinal tract, to ensure the control of voluntary movements via direct or indirect influences onto spinal motoneurons. The aim of this study was to investigate the corticobulbar projections from distinct motor cortical areas onto different nuclei of the reticular formation. Seven adult macaque monkeys were analysed for the location of corticobulbar axonal boutons, and one monkey for reticulospinal neurons' location. The anterograde tracer BDA was injected in the premotor cortex (PM), in the primary motor cortex (M1) or in the supplementary motor area (SMA), in 3, 3 and 1 monkeys respectively. BDA anterograde labelling of corticobulbar axons were analysed on brainstem histological sections and overlapped with adjacent Nissl-stained sections for cytoarchitecture. One adult monkey was analysed for retrograde CB tracer injected in C5-C8 hemispinal cord to visualise reticulospinal neurons. The corticobulbar axons formed bilateral terminal fields with boutons terminaux and en passant, which were quantified in various nuclei belonging to the Ponto-Medullary Reticular Formation (PMRF). The corticobulbar projections from both PM and SMA tended to end mainly ipsilaterally in PMRF, but contralaterally when originating from M1. Furthermore, the corticobulbar projection was less dense when originating from M1 than from non-primary motor areas (PM, SMA). The main nuclei of bouton terminals corresponded to the regions where reticulospinal neurons were located with CB retrograde tracing. In conclusion, the corticobulbar projection differs according to the motor cortical area of origin in density and laterality.

24. Effects of dorsolateral prefrontal cortex lesion on motor habit and performance assessed with manual grasping and control of force in macaque monkeys

Author

Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Chatagny, Pauline, Moret, Véronique, Fregosi, Michela, Kaeser, Mélanie, Fortis, Ekaterina, Schmidlin, Eric, Bloch, Jocelyne, Brunet, Jean-François, Rouiller, Eric M., Badoud, Simon, Borgognon, Simon, Cottet, Jérôme, Chatagny, Pauline, Moret, Véronique, Fregosi, Michela, Kaeser, Mélanie, Fortis, Ekaterina, Schmidlin, Eric, Bloch, Jocelyne, Brunet, Jean-François, and Rouiller, Eric M.

Abstract

In the context of an autologous adult neural cell ecosystem (ANCE) transplantation study, four intact adult female macaque monkeys underwent a unilateral biopsy of the dorsolateral prefrontal cortex (dlPFC) to provide the cellular material needed to obtain the ANCE. Monkeys were previously trained to perform quantitative motor (manual dexterity) tasks, namely, the “modified-Brinkman board” task and the “reach and grasp drawer” task. The aim of the present study was to extend preliminary data on the role of the prefrontal cortex in motor habit and test the hypothesis that dlPFC contributes to predict the grip force required when a precise level of force to be generated is known beforehand. As expected for a small dlPFC biopsy, neither the motor performance (score) nor the spatiotemporal motor sequences were affected in the “modified- Brinkman board” task, whereas significant changes (mainly decreases) in the maximal grip force (force applied on the drawer knob) were observed in the “reach and grasp drawer” task. The present data in the macaque monkey related to the prediction of grip force are well in line with the previous fMRI data reported for human subjects. Moreover, the ANCE transplantation strategy (in the case of stroke or Parkinson’s disease) based on biopsy in dlPFC does not generate unwanted motor consequences, at least as far as motor habit and motor performance are concerned in the context of a sequential grasping a small objects, which does not require the development of significant force levels.

25. Distinction between hand dominance and hand preference in primates: a behavioral investigation of manual dexterity in nonhuman primates (macaques) and human subjects

Author

Chatagny, Pauline, Badoud, Simon, Kaeser, Mélanie, Gindrat, Anne-Dominique, Savidan, Julie, Fregosi, Michela, Moret, Véronique, Roulin, Christine, Schmidlin, Eric, Rouiller, Eric M., Chatagny, Pauline, Badoud, Simon, Kaeser, Mélanie, Gindrat, Anne-Dominique, Savidan, Julie, Fregosi, Michela, Moret, Véronique, Roulin, Christine, Schmidlin, Eric, and Rouiller, Eric M.

Abstract

The present study aimed to determine and confront hand preference (hand chosen in priority to perform a manual dexterity task) and hand dominance (hand with best motor performance) in eight macaques (Macaca fascicularis) and in 20 human subjects (10 left-handers and 10 right-handers).Methods: Four manual dexterity tests have been executed by the monkeys, over several weeks during learning and stable performance phases (in controlled body position): the modified Brinkman board, the reach and grasp drawer, the tube and the bimanual board tasks. Three behavioral tests, adapted versions from the monkeys tasks (modified Brinkman board, tube and bimanual board tasks), as well as a handedness questionnaire, have been conducted in human subjects.Results: In monkeys, there was a large disparity across individuals and motor tasks. For hand dominance, two monkeys were rather right lateralized, three monkeys rather left lateralized, whereas in three monkeys, the different parameters measured were not consistent. For hand preference, none of the eight monkeys exhibited a homogeneous lateralization across the four motor tasks. Macaca fascicularis do not exhibit a clear hand preference. Furthermore, hand preference often changed with task repetition, both during training and plateau phases. For human subjects, the hand preference mostly followed the self-assessment of lateralization by the subjects and the questionnaire (in the latter, right-handers were more lateralized than left-handers), except a few discrepancies based on the tube task. There was no hand dominance in seven right-handers (the other three performed better with the right hand) and in four left-handers. Five left-handers showed left-hand dominance, whereas surprisingly, one left-hander performed better with the right hand. In the modified Brinkman board task, females performed better than males, right-handers better than left-handers.Conclusions: The present study argues for a distinction between hand preference a