Your search keyword '"Luc Tremblay"' showing total 11 results

1. Auditory cues for somatosensory targets invoke visuomotor transformations: Behavioral and electrophysiological evidence.

Author

Gerome A Manson, Luc Tremblay, Nicolas Lebar, John de Grosbois, Laurence Mouchnino, and Jean Blouin

Subjects

Medicine, Science

Abstract

Prior to goal-directed actions, somatosensory target positions can be localized using either an exteroceptive or an interoceptive body representation. The goal of the present study was to investigate if the body representation selected to plan reaches to somatosensory targets is influenced by the sensory modality of the cue indicating the target's location. In the first experiment, participants reached to somatosensory targets prompted by either an auditory or a vibrotactile cue. As a baseline condition, participants also performed reaches to visual targets prompted by an auditory cue. Gaze-dependent reaching errors were measured to determine the contribution of the exteroceptive representation to motor planning processes. The results showed that reaches to both auditory-cued somatosensory targets and auditory-cued visual targets exhibited larger gaze-dependent reaching errors than reaches to vibrotactile-cued somatosensory targets. Thus, an exteroceptive body representation was likely used to plan reaches to auditory-cued somatosensory targets but not to vibrotactile-cued somatosensory targets. The second experiment examined the influence of using an exteroceptive body representation to plan movements to somatosensory targets on pre-movement neural activations. Cortical responses to a task-irrelevant visual flash were measured as participants planned movements to either auditory-cued somatosensory or auditory-cued visual targets. Larger responses (i.e., visual-evoked potentials) were found when participants planned movements to somatosensory vs. visual targets, and source analyses revealed that these activities were localized to the left occipital and left posterior parietal areas. These results suggest that visual and visuomotor processing networks were more engaged when using the exteroceptive body representation to plan movements to somatosensory targets, than when planning movements to external visual targets.

Published

2019

2. Action possibility judgments of people with varying motor abilities due to spinal cord injury.

Author

Gerome A Manson, Dimitry G Sayenko, Kei Masani, Rachel Goodman, Lokman Wong, Milos R Popovic, Luc Tremblay, and Timothy N Welsh

Subjects

Medicine, Science

Abstract

Predictions about one's own action capabilities as well as the action capabilities of others are thought to be based on a simulation process involving linked perceptual and motor networks. Given the central role of motor experience in the formation of these networks, one's present motor capabilities are thought to be the basis of their perceptual judgments about actions. However, it remains unknown whether the ability to form these action possibility judgments is affected by performance related changes in the motor system. To determine if judgments of action capabilities are affected by long-term changes in one's own motor capabilities, participants with different degrees of upper-limb function due to their level (cervical vs. below cervical) of spinal cord injury (SCI) were tested on a perceptual-motor judgment task. Participants observed apparent motion videos of reciprocal aiming movements with varying levels of difficulty. For each movement, participants determined the shortest movement time (MT) at which they themselves and a young adult could perform the task while maintaining accuracy. Participants also performed the task. Analyses of MTs revealed that perceptual judgments for participant's own movement capabilities were consistent with their actual performance- people with cervical SCI had longer judged and actual MTs than people with below cervical SCI. However, there were no between-group differences in judged MTs for the young adult. Although it is unclear how the judgments were adjusted (altered simulation vs. threshold modification), the data reveal that people with different motor capabilities due to SCI are not completely biased by their present capabilities and can effectively adjust their judgments to estimate the actions of others.

Published

2014

3. Correction: Induction of Selective Blood-Tumor Barrier Permeability and Macromolecular Transport by a Biostable Kinin B1 Receptor Agonist in a Glioma Rat Model.

Author

Jérôme Côté, Veronica Bovenzi, Martin Savard, Céléna Dubuc, Audrey Fortier, Witold Neugebauer, Luc Tremblay, Werner Müller-Esterl, Ana-Maria Tsanaclis, Martin Lepage, David Fortin, and Fernand Gobeil

Subjects

Medicine, Science

Published

2012

4. Induction of selective blood-tumor barrier permeability and macromolecular transport by a biostable kinin B1 receptor agonist in a glioma rat model.

Author

Jérôme Côté, Veronica Bovenzi, Martin Savard, Céléna Dubuc, Audrey Fortier, Witold Neugebauer, Luc Tremblay, Werner Müller-Esterl, Ana-Maria Tsanaclis, Martin Lepage, David Fortin, and Fernand Gobeil

Subjects

Medicine, Science

Abstract

Treatment of malignant glioma with chemotherapy is limited mostly because of delivery impediment related to the blood-brain tumor barrier (BTB). B1 receptors (B1R), inducible prototypical G-protein coupled receptors (GPCR) can regulate permeability of vessels including possibly that of brain tumors. Here, we determine the extent of BTB permeability induced by the natural and synthetic peptide B1R agonists, LysdesArg(9)BK (LDBK) and SarLys[dPhe(8)]desArg(9)BK (NG29), in syngeneic F98 glioma-implanted Fischer rats. Ten days after tumor inoculation, we detected the presence of B1R on tumor cells and associated vasculature. NG29 infusion increased brain distribution volume and uptake profiles of paramagnetic probes (Magnevist and Gadomer) at tumoral sites (T(1)-weighted imaging). These effects were blocked by B1R antagonist and non-selective cyclooxygenase inhibitors, but not by B2R antagonist and non-selective nitric oxide synthase inhibitors. Consistent with MRI data, systemic co-administration of NG29 improved brain tumor delivery of Carboplatin chemotherapy (ICP-Mass spectrometry). We also detected elevated B1R expression in clinical samples of high-grade glioma. Our results documented a novel GPCR-signaling mechanism for promoting transient BTB disruption, involving activation of B1R and ensuing production of COX metabolites. They also underlined the potential value of synthetic biostable B1R agonists as selective BTB modulators for local delivery of different sized-therapeutics at (peri)tumoral sites.

Published

2012

5. Behavioral, medical imaging and histopathological features of a new rat model of bone cancer pain.

Author

Louis Doré-Savard, Valérie Otis, Karine Belleville, Myriam Lemire, Mélanie Archambault, Luc Tremblay, Jean-François Beaudoin, Nicolas Beaudet, Roger Lecomte, Martin Lepage, Louis Gendron, and Philippe Sarret

Subjects

Medicine, Science

Abstract

Pre-clinical bone cancer pain models mimicking the human condition are required to respond to clinical realities. Breast or prostate cancer patients coping with bone metastases experience intractable pain, which affects their quality of life. Advanced monitoring is thus required to clarify bone cancer pain mechanisms and refine treatments. In our model of rat femoral mammary carcinoma MRMT-1 cell implantation, pain onset and tumor growth were monitored for 21 days. The surgical procedure performed without arthrotomy allowed recording of incidental pain in free-moving rats. Along with the gradual development of mechanical allodynia and hyperalgesia, behavioral signs of ambulatory pain were detected at day 14 by using a dynamic weight-bearing apparatus. Osteopenia was revealed from day 14 concomitantly with disorganization of the trabecular architecture (µCT). Bone metastases were visualized as early as day 8 by MRI (T(1)-Gd-DTPA) before pain detection. PET (Na(18)F) co-registration revealed intra-osseous activity, as determined by anatomical superimposition over MRI in accordance with osteoclastic hyperactivity (TRAP staining). Pain and bone destruction were aggravated with time. Bone remodeling was accompanied by c-Fos (spinal) and ATF3 (DRG) neuronal activation, sustained by astrocyte (GFAP) and microglia (Iba1) reactivity in lumbar spinal cord. Our animal model demonstrates the importance of simultaneously recording pain and tumor progression and will allow us to better characterize therapeutic strategies in the future.

Published

2010

6. Real-time decreased sensitivity to an audio-visual illusion during goal-directed reaching.

Author

Luc Tremblay and Thanh Nguyen

Subjects

Medicine, Science

Abstract

In humans, sensory afferences are combined and integrated by the central nervous system (Ernst MO, Bülthoff HH (2004) Trends Cogn. Sci. 8: 162-169) and appear to provide a holistic representation of the environment. Empirical studies have repeatedly shown that vision dominates the other senses, especially for tasks with spatial demands. In contrast, it has also been observed that sound can strongly alter the perception of visual events. For example, when presented with 2 flashes and 1 beep in a very brief period of time, humans often report seeing 1 flash (i.e. fusion illusion, Andersen TS, Tiippana K, Sams M (2004) Brain Res. Cogn. Brain Res. 21: 301-308). However, it is not known how an unfolding movement modulates the contribution of vision to perception. Here, we used the audio-visual illusion to demonstrate that goal-directed movements can alter visual information processing in real-time. Specifically, the fusion illusion was linearly reduced as a function of limb velocity. These results suggest that cue combination and integration can be modulated in real-time by goal-directed behaviors; perhaps through sensory gating (Chapman CE, Beauchamp E (2006) J. Neurophysiol. 96: 1664-1675) and/or altered sensory noise (Ernst MO, Bülthoff HH (2004) Trends Cogn. Sci. 8: 162-169) during limb movements.

Published

2010

7. Action possibility judgments of people with varying motor abilities due to spinal cord injury

Author

Timothy N. Welsh, Rachel Goodman, Milos R. Popovic, Kei Masani, Dimitry G. Sayenko, Gerome A Manson, Luc Tremblay, and Lokman Wong

Subjects

Adult, Male, Time Factors, Critical Care and Emergency Medicine, media_common.quotation_subject, Movement, Science, Biology, Motion (physics), Task (project management), Judgment, Young Adult, Behavioral Neuroscience, Perception, Motor system, medicine, Medicine and Health Sciences, Humans, Psychology, Young adult, Function (engineering), Spinal Cord Injury, Spinal cord injury, Spinal Cord Injuries, Trauma Medicine, media_common, Aged, Multidisciplinary, Biology and Life Sciences, Experimental Psychology, Middle Aged, medicine.disease, Action (philosophy), Neurology, Medicine, Female, Cognitive psychology, Research Article, Neuroscience

Abstract

Predictions about one's own action capabilities as well as the action capabilities of others are thought to be based on a simulation process involving linked perceptual and motor networks. Given the central role of motor experience in the formation of these networks, one's present motor capabilities are thought to be the basis of their perceptual judgments about actions. However, it remains unknown whether the ability to form these action possibility judgments is affected by performance related changes in the motor system. To determine if judgments of action capabilities are affected by long-term changes in one's own motor capabilities, participants with different degrees of upper-limb function due to their level (cervical vs. below cervical) of spinal cord injury (SCI) were tested on a perceptual-motor judgment task. Participants observed apparent motion videos of reciprocal aiming movements with varying levels of difficulty. For each movement, participants determined the shortest movement time (MT) at which they themselves and a young adult could perform the task while maintaining accuracy. Participants also performed the task. Analyses of MTs revealed that perceptual judgments for participant's own movement capabilities were consistent with their actual performance- people with cervical SCI had longer judged and actual MTs than people with below cervical SCI. However, there were no between-group differences in judged MTs for the young adult. Although it is unclear how the judgments were adjusted (altered simulation vs. threshold modification), the data reveal that people with different motor capabilities due to SCI are not completely biased by their present capabilities and can effectively adjust their judgments to estimate the actions of others.

Published

2014

8. Behavioral, medical imaging and histopathological features of a new rat model of bone cancer pain

Author

Nicolas Beaudet, Louis Gendron, Mélanie Archambault, Philippe Sarret, Myriam Lemire, Jean-François Beaudoin, Karine Belleville, Roger Lecomte, Valérie Otis, Martin Lepage, Luc Tremblay, and Louis Doré-Savard

Subjects

Male, Pathology, medicine.medical_specialty, Anesthesiology and Pain Management/Basic Science of Pain Management, Pain, lcsh:Medicine, Bone Neoplasms, Bone remodeling, Rats, Sprague-Dawley, 03 medical and health sciences, Prostate cancer, 0302 clinical medicine, Cell Line, Tumor, Anesthesiology and Pain Management/Chronic Pain Management, medicine, Animals, Radiology and Medical Imaging/Computer Tomography, lcsh:Science, Anesthesiology and Pain Management, Multidisciplinary, business.industry, Bone cancer, Neuroscience/Sensory Systems, lcsh:R, Radiology and Medical Imaging/Magnetic Resonance Imaging, Bone fracture, medicine.disease, Spinal cord, Magnetic Resonance Imaging, Rats, 3. Good health, Osteopenia, Disease Models, Animal, medicine.anatomical_structure, Oncology, Positron-Emission Tomography, Oncology/Breast Cancer, 030220 oncology & carcinogenesis, Hyperalgesia, Radiology and Medical Imaging/PET and SPECT Imaging, Anesthesiology and Pain Management/Technology and Monitoring, Intractable pain, lcsh:Q, medicine.symptom, business, 030217 neurology & neurosurgery, Research Article

Abstract

Pre-clinical bone cancer pain models mimicking the human condition are required to respond to clinical realities. Breast or prostate cancer patients coping with bone metastases experience intractable pain, which affects their quality of life. Advanced monitoring is thus required to clarify bone cancer pain mechanisms and refine treatments. In our model of rat femoral mammary carcinoma MRMT-1 cell implantation, pain onset and tumor growth were monitored for 21 days. The surgical procedure performed without arthrotomy allowed recording of incidental pain in free-moving rats. Along with the gradual development of mechanical allodynia and hyperalgesia, behavioral signs of ambulatory pain were detected at day 14 by using a dynamic weight-bearing apparatus. Osteopenia was revealed from day 14 concomitantly with disorganization of the trabecular architecture (µCT). Bone metastases were visualized as early as day 8 by MRI (T(1)-Gd-DTPA) before pain detection. PET (Na(18)F) co-registration revealed intra-osseous activity, as determined by anatomical superimposition over MRI in accordance with osteoclastic hyperactivity (TRAP staining). Pain and bone destruction were aggravated with time. Bone remodeling was accompanied by c-Fos (spinal) and ATF3 (DRG) neuronal activation, sustained by astrocyte (GFAP) and microglia (Iba1) reactivity in lumbar spinal cord. Our animal model demonstrates the importance of simultaneously recording pain and tumor progression and will allow us to better characterize therapeutic strategies in the future.

Published

2010

9. Constraint-Based Modeling of Carbon Fixation and the Energetics of Electron Transfer in Geobacter metallireducens

Author

Kelly P. Nevin, Harish Nagarajan, Adam M. Feist, Tian Zhang, Pier-Luc Tremblay, Derek R. Lovley, Amelia-Elena Rotaru, and Karsten Zengler

Subjects

QH301-705.5, Applied Microbiology, carbon fixation, Bioengineering, Models, Biological, Microbiology, Modelling, Electron Transport, Industrial Microbiology, Cellular and Molecular Neuroscience, chemistry.chemical_compound, Electron transfer, Microbial Physiology, Biological Systems Engineering, Genetics, Formate, Biology (General), Geobacter metallireducens, Molecular Biology, Ecology, Evolution, Behavior and Systematics, Microbial Metabolism, chemistry.chemical_classification, Ecology, biology, Chemistry, Systems Biology, Carbon fixation, Biology and Life Sciences, Electron acceptor, biology.organism_classification, Electron transport chain, Carbon, Metabolic pathway, Computational Theory and Mathematics, Biochemistry, Chemical physics, Modeling and Simulation, Engineering and Technology, Energy Metabolism, Geobacter, Genome, Bacterial, Research Article, Biotechnology

Abstract

Geobacter species are of great interest for environmental and biotechnology applications as they can carry out direct electron transfer to insoluble metals or other microorganisms and have the ability to assimilate inorganic carbon. Here, we report on the capability and key enabling metabolic machinery of Geobacter metallireducens GS-15 to carry out CO2 fixation and direct electron transfer to iron. An updated metabolic reconstruction was generated, growth screens on targeted conditions of interest were performed, and constraint-based analysis was utilized to characterize and evaluate critical pathways and reactions in G. metallireducens. The novel capability of G. metallireducens to grow autotrophically with formate and Fe(III) was predicted and subsequently validated in vivo. Additionally, the energetic cost of transferring electrons to an external electron acceptor was determined through analysis of growth experiments carried out using three different electron acceptors (Fe(III), nitrate, and fumarate) by systematically isolating and examining different parts of the electron transport chain. The updated reconstruction will serve as a knowledgebase for understanding and engineering Geobacter and similar species., Author Summary The ability of microorganisms to exchange electrons directly with their environment has large implications for our knowledge of industrial and environmental processes. For decades, it has been known that microbes can use electrodes as electron acceptors in microbial fuel cell settings. Geobacter metallireducens has been one of the model organisms for characterizing microbe-electrode interactions as well as environmental processes such as bioremediation. Here, we significantly expand the knowledge of metabolism and energetics of this model organism by employing constraint-based metabolic modeling. Through this analysis, we build the metabolic pathways necessary for carbon fixation, a desirable property for industrial chemical production. We further discover a novel growth condition which enables the characterization of autotrophic (i.e., carbon-fixing) metabolism in Geobacter. Importantly, our systems-level modeling approach helped elucidate the key metabolic pathways and the energetic cost associated with extracellular electron transfer. This model can be applied to characterize and engineer the metabolism and electron transfer capabilities of Geobacter for biotechnological applications.

Published

2014

10. Induction of Selective Blood-Tumor Barrier Permeability and Macromolecular Transport by a Biostable Kinin B1 Receptor Agonist in a Glioma Rat Model

Author

David Fortin, Céléna Dubuc, Martin Savard, Veronica Bovenzi, Martin Lepage, Werner Müller-Esterl, Luc Tremblay, Fernand Gobeil, Witold Neugebauer, Audrey Fortier, Jérôme Côté, and Ana-Maria Tsanaclis

Subjects

Male, Cancer Treatment, lcsh:Medicine, Vascular permeability, Pharmacology, Receptor, Bradykinin B1, chemistry.chemical_compound, 0302 clinical medicine, lcsh:Science, Receptor, Neurological Tumors, Multidisciplinary, biology, Brain Neoplasms, Glioma, Kallidin, Middle Aged, Kinin, 3. Good health, Neurology, Oncology, 030220 oncology & carcinogenesis, Medicine, Oncology Agents, Female, Research Article, Adult, Agonist, Drugs and Devices, medicine.drug_class, Brain tumor, Bradykinin, Neuroimaging, Permeability, Capillary Permeability, 03 medical and health sciences, Neuropharmacology, ddc:570, medicine, Animals, Humans, ddc:610, Biology, Aged, Dose-Response Relationship, Drug, business.industry, lcsh:R, Cancers and Neoplasms, Biological Transport, Chemotherapy and Drug Treatment, medicine.disease, Rats, Inbred F344, Rats, Disease Models, Animal, chemistry, biology.protein, lcsh:Q, Cyclooxygenase, business, 030217 neurology & neurosurgery, Neuroscience

Abstract

Treatment of malignant glioma with chemotherapy is limited mostly because of delivery impediment related to the blood-brain tumor barrier (BTB). B1 receptors (B1R), inducible prototypical G-protein coupled receptors (GPCR) can regulate permeability of vessels including possibly that of brain tumors. Here, we determine the extent of BTB permeability induced by the natural and synthetic peptide B1R agonists, LysdesArg(9)BK (LDBK) and SarLys[dPhe(8)]desArg(9)BK (NG29), in syngeneic F98 glioma-implanted Fischer rats. Ten days after tumor inoculation, we detected the presence of B1R on tumor cells and associated vasculature. NG29 infusion increased brain distribution volume and uptake profiles of paramagnetic probes (Magnevist and Gadomer) at tumoral sites (T(1)-weighted imaging). These effects were blocked by B1R antagonist and non-selective cyclooxygenase inhibitors, but not by B2R antagonist and non-selective nitric oxide synthase inhibitors. Consistent with MRI data, systemic co-administration of NG29 improved brain tumor delivery of Carboplatin chemotherapy (ICP-Mass spectrometry). We also detected elevated B1R expression in clinical samples of high-grade glioma. Our results documented a novel GPCR-signaling mechanism for promoting transient BTB disruption, involving activation of B1R and ensuing production of COX metabolites. They also underlined the potential value of synthetic biostable B1R agonists as selective BTB modulators for local delivery of different sized-therapeutics at (peri)tumoral sites.

Published

2012

11. Constraint-based modeling of carbon fixation and the energetics of electron transfer in Geobacter metallireducens.

Author

Adam M Feist, Harish Nagarajan, Amelia-Elena Rotaru, Pier-Luc Tremblay, Tian Zhang, Kelly P Nevin, Derek R Lovley, and Karsten Zengler

Subjects

Biology (General), QH301-705.5

Abstract

Geobacter species are of great interest for environmental and biotechnology applications as they can carry out direct electron transfer to insoluble metals or other microorganisms and have the ability to assimilate inorganic carbon. Here, we report on the capability and key enabling metabolic machinery of Geobacter metallireducens GS-15 to carry out CO2 fixation and direct electron transfer to iron. An updated metabolic reconstruction was generated, growth screens on targeted conditions of interest were performed, and constraint-based analysis was utilized to characterize and evaluate critical pathways and reactions in G. metallireducens. The novel capability of G. metallireducens to grow autotrophically with formate and Fe(III) was predicted and subsequently validated in vivo. Additionally, the energetic cost of transferring electrons to an external electron acceptor was determined through analysis of growth experiments carried out using three different electron acceptors (Fe(III), nitrate, and fumarate) by systematically isolating and examining different parts of the electron transport chain. The updated reconstruction will serve as a knowledgebase for understanding and engineering Geobacter and similar species.

Published

2014