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14 results on '"Lall, Varinder"'

1. Enhancing plasticity in spinal sensorimotor circuits following injuries to facilitate recovery of motor control

Author

Dickson, Richard G, Lall, Varinder K, and Ichiyama, Ronaldo M

Subjects
Biomedical and Clinical Sciences, Neurosciences, Regenerative Medicine, Physical Rehabilitation, Physical Injury - Accidents and Adverse Effects, Stem Cell Research, Neurodegenerative, Stem Cell Research - Nonembryonic - Non-Human, Traumatic Head and Spine Injury, Rehabilitation, Behavioral and Social Science, Spinal Cord Injury, Neurological, Medical physiology
Abstract

After spinal cord injury (SCI), considerable reorganization and plasticity are necessary for behavioral recovery. Plasticity enhancing interventions following SCI are varied and include but are not limited to: targeting the inhibitory environment, growth promoting transcription factors, stem cell therapy, neuromodulation via electrical stimulation and rehabilitation itself. These recent advances have led to extensive axonal growth and reorganization. However, this plasticity is not always accompanied by increased behavioral recovery. Here, we review the most recent literature demonstrating how combining these plasticity enhancing treatments with rehabilitation often leads to functional behavioral recovery. However, only few studies have attempted these combinatorial approaches and more work is needed to determine the type and timing of rehabilitation necessary for recovery.

Published
2019

2. The influence of connexin 36 containing gap junctions on autonomic activity

Author

Lall, Varinder Kaur

Subjects
571.6
Abstract

Gap junctions (GJ) connect the cytoplasm of two adjacent cells and have two probable functions, synchronisation of networks by direct electrical communication and allowing. the passage of small molecules. This thesis examines the distribution patterns and physiological roles of the neuronal GJ sub unit connexin 36 (Cx36) in autonomic and respiratory control. Using the working heart brainstem preparation of the rat and mouse recordings were made during baseline and during peripheral chemoreceptor and baroreceptor stimulation. Central sympathetic drive was attenuated with the addition of 1 μM of mefloquine (M F) to the perfusate. MF (which blocks Cx36 containing GJs) induced a resting bradycardia, attenuated the amplitude of respiratory related sympathetic bursts, attenuated chemoreceptor-induced sympathoexcitation and increased heart rate recovery time after chemoreceptor stimulation. Attenuated respiratory responses to autonomic reflex stimulation were observed with MF, no significant alterations in baroreflex sensitivity were observed. Studies in Cx36 knockout mice were analogous to data obtained with MF. Telemetric probes inserted in free running wild type and Cx36 knockout mice which continually recorded heart rate and arterial pressure revealed significantly augmented variations in resting heart rate and arterial pressure in Cx36 knockout mice in comparison to wild type mice. Autonomic reflexes examined in anaesthetised Cx36 knockout mice revealed attenuated heart rate changes in response to chemoreceptor stimulation. Cx36 immunoreactivity and Cx36 cyan fluorescent protein expression was reported at various brainstem and spinal cord sites involved in autonomic function including, the nucleus of the solitary tract and sympathetic preganglionic neurones (SPNs). The results revealed that Cx36, at the level of the SPNs, plays important roles in regulating sympathetic outflow. This may have important clinical implications as an imbalance in the sympathetic and parasympathetic outflow to the heart for example, underlies various maladies from hypertension to cardiac arrhythmias

Published
2012

3. Dorsal root ganglia control nociceptive input to the central nervous system

Author

Smith, Cody J, Hao, Han, Ramli, Rosmaliza, Wang, Caixue, Liu, Chao, Shah, Shihab, Mullen, Pierce, Lall, Varinder, Jones, Frederick, Shao, Jicheng, Zhang, Hailin, Jaffe, David B, Gamper, Nikita, Du, Xiaona, Smith, Cody J, Hao, Han, Ramli, Rosmaliza, Wang, Caixue, Liu, Chao, Shah, Shihab, Mullen, Pierce, Lall, Varinder, Jones, Frederick, Shao, Jicheng, Zhang, Hailin, Jaffe, David B, Gamper, Nikita, and Du, Xiaona

Abstract

Accumulating observations suggest that peripheral somatosensory ganglia may regulate nociceptive transmission, yet direct evidence is sparse. Here, in experiments on rats and mice, we show that the peripheral afferent nociceptive information undergoes dynamic filtering within the dorsal root ganglion (DRG) and suggest that this filtering occurs at the axonal bifurcations (t-junctions). Using synchronous in vivo electrophysiological recordings from the peripheral and central processes of sensory neurons (in the spinal nerve and dorsal root), ganglionic transplantation of GABAergic progenitor cells, and optogenetics, we demonstrate existence of tonic and dynamic filtering of action potentials traveling through the DRG. Filtering induced by focal application of GABA or optogenetic GABA release from the DRG-transplanted GABAergic progenitor cells was specific to nociceptive fibers. Light-sheet imaging and computer modeling demonstrated that, compared to other somatosensory fiber types, nociceptors have shorter stem axons, making somatic control over t-junctional filtering more efficient. Optogenetically induced GABA release within DRG from the transplanted GABAergic cells enhanced filtering and alleviated hypersensitivity to noxious stimulation produced by chronic inflammation and neuropathic injury in vivo. These findings support "gating" of pain information by DRGs and suggest new therapeutic approaches for pain relief.

Published
2023

4. Dorsal root ganglia control nociceptive input to the central nervous system

Author

Hao, Han, primary, Ramli, Rosmaliza, additional, Wang, Caixue, additional, Liu, Chao, additional, Shah, Shihab, additional, Mullen, Pierce, additional, Lall, Varinder, additional, Jones, Frederick, additional, Shao, Jicheng, additional, Zhang, Hailin, additional, Jaffe, David B., additional, Gamper, Nikita, additional, and Du, Xiaona, additional

Published
2023
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7. Dorsal root ganglia control nociceptive input to the central nervous system

Author

Han, Hao, primary, Ramli, Rosmaliza, additional, Wang, Caixue, additional, Liu, Chao, additional, Shah, Shihab, additional, Mullen, Pierce, additional, Lall, Varinder, additional, Jones, Frederick, additional, Shao, Jicheng, additional, Zhang, Hailin, additional, Jaffe, David B, additional, Gamper, Nikita, additional, and Du, Xiaona, additional

Published
2021
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8. The anti-malarial drug Mefloquine disrupts central autonomic and respiratory control in the working heart brainstem preparation of the rat

Author

Lall Varinder K, Dutschmann Mathias, Deuchars Jim, and Deuchars Susan A

Subjects
Mefloquine, Malaria, Sympathetic, Connexin, Respiratory, Medicine
Abstract

Abstract Background Mefloquine is an anti-malarial drug that can have neurological side effects. This study examines how mefloquine (MF) influences central nervous control of autonomic and respiratory systems using the arterially perfused working heart brainstem preparation (WHBP) of the rat. Recordings of nerve activity were made from the thoracic sympathetic chain and phrenic nerve, while heart rate (HR) and perfusion pressure were also monitored in the arterially perfused, decerebrate, rat WHBP. MF was added to the perfusate at 1 μM to examine its effects on baseline parameters as well as baroreceptor and chemoreceptor reflexes. Results MF caused a significant, atropine resistant, bradycardia and increased phrenic nerve discharge frequency. Chemoreceptor mediated sympathoexcitation (elicited by addition of 0.1 ml of 0.03% sodium cyanide to the aortic cannula) was significantly attenuated by the application of MF to the perfusate. Furthermore MF significantly decreased rate of return to resting HR following chemoreceptor induced bradycardia. An increase in respiratory frequency and attenuated respiratory-related sympathetic nerve discharge during chemoreceptor stimulation was also elicited with MF compared to control. However, MF did not significantly alter baroreceptor reflex sensitivity. Conclusions These studies indicate that in the WHBP, MF causes profound alterations in autonomic and respiratory control. The possibility that these effects may be mediated through actions on connexin 36 containing gap junctions in central neurones controlling sympathetic nervous outflow is discussed.

Published
2012
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