Add to ORKGMicroglial activation in the spinal cord plays a central role in the development and maintenance of chronic pain after a peripheral nerve injury (PNI). There has not yet been a thorough assessment of microglial activation in brain regions associated with pain and reward. To this end, this study uses a mouse model of neuropathic pain in which the left sciatic nerve of male C57Bl/6J mice is loosely constricted (chronic constriction injury) to assess microglial activation in several brain regions 2 weeks after injury, a time point at which pain hypersensitivity is well established. We found significant microglial activation in brain regions associated with sensory pain transmission and affect, including the thalamus, sensory cortex, and amygda...
S. 1, ACC (Anterior cingulate cortex); 2, Cingulate cortex, area 1; 3, Prelimbic cortex; 4, Infralim...
Glial activation is known to contribute to pain hypersensitivity following spinal sensory nerve inju...
S. 1, Central amygdaloid nucleus; 2, medial amygdaloid nucleus; 3, Posteromedial amydaloid nucleus; ...
Microglial activation in the spinal cord plays a central role in the development and maintenance of ...
Abstract Neuronal plasticity along the pathway for sensory transmission including the ...
In this review, we report existing preclinical evidence on how the CNS compartment as well as sex af...
Neuropathic pain after peripheral nerve damage is a lasting condition that generally persists even w...
The reactivity of microglia within the spinal cord in response to nerve injury, has been associated ...
Pain serves an important purpose in warning of potential or actual damage to the body. When the nerv...
Multiple brain regions are involved in pain processing, contributing to a complex pattern of neurona...
Neuropathic pain develops in over 80% of spinal cord injury (SCI) patients. Negative affective disor...
International audienceHuman and animal imaging studies demonstrated that chronic pain profoundly alt...
The chronic constriction injury (CCI) of the sciatic nerve is a nerve injury-based model of neuropat...
The time. Significant higher scores of allodynia were observed on the nerve injured side than the in...
The time. Significant higher scores of allodynia were observed on the nerve injured side than the in...
S. 1, ACC (Anterior cingulate cortex); 2, Cingulate cortex, area 1; 3, Prelimbic cortex; 4, Infralim...
Glial activation is known to contribute to pain hypersensitivity following spinal sensory nerve inju...
S. 1, Central amygdaloid nucleus; 2, medial amygdaloid nucleus; 3, Posteromedial amydaloid nucleus; ...
Microglial activation in the spinal cord plays a central role in the development and maintenance of ...
Abstract Neuronal plasticity along the pathway for sensory transmission including the ...
In this review, we report existing preclinical evidence on how the CNS compartment as well as sex af...
Neuropathic pain after peripheral nerve damage is a lasting condition that generally persists even w...
The reactivity of microglia within the spinal cord in response to nerve injury, has been associated ...
Pain serves an important purpose in warning of potential or actual damage to the body. When the nerv...
Multiple brain regions are involved in pain processing, contributing to a complex pattern of neurona...
Neuropathic pain develops in over 80% of spinal cord injury (SCI) patients. Negative affective disor...
International audienceHuman and animal imaging studies demonstrated that chronic pain profoundly alt...
The chronic constriction injury (CCI) of the sciatic nerve is a nerve injury-based model of neuropat...
The time. Significant higher scores of allodynia were observed on the nerve injured side than the in...
The time. Significant higher scores of allodynia were observed on the nerve injured side than the in...
S. 1, ACC (Anterior cingulate cortex); 2, Cingulate cortex, area 1; 3, Prelimbic cortex; 4, Infralim...
Glial activation is known to contribute to pain hypersensitivity following spinal sensory nerve inju...
S. 1, Central amygdaloid nucleus; 2, medial amygdaloid nucleus; 3, Posteromedial amydaloid nucleus; ...