Add to ORKGAbstract: Electrical excitation of peripheral somatosensory nerves is a first step in generation of most pain signals in mammalian nervous system. Such excitation is controlled by an intricate set of ion channels that are coordinated to produce a degree of excitation that is proportional to the strength of the external stimulation. However, in many disease states this coordination is disrupted resulting in deregulated peripheral excitability which, in turn, may underpin pathological pain states (i.e. migraine, neuralgia, neuropathic and inflammatory pains). One of the major groups of ion channels that are essential for controlling neuronal excitability is potassium channel family and, hereby, the focus of this review is on the K+ channels i...
Pain is a regular and unavoidable experience that dramatically impacts people’s quality of life. Cur...
Chronic neuropathic pain affects millions of people worldwide; however, there remain few effective t...
Voltage-gated K+ (Kv) channels are essential regulators of excitability in the nervous system. Thus,...
Chronic pain is associated with abnormal excitability of the somatosensory system and remains poorly...
Chronic pain is associated with abnormal excitability of the somatosensory system and remains poorly...
Pathological pain is a hyperexcitability disorder. Since the excitability of a neuron is set and con...
TRESK belongs to the K2P family of potassium channels, also known as background or leak potassium ch...
Pain is a fascinatingly malleable sensory percept, evoking a unique experience for each individual. ...
Summary: The in vivo function of large conductance calcium‐activated potassium channels in sensory n...
Fibromyalgia is a central sensitivity syndrome that presents with chronic pain, fatigue, cognitive d...
Inflammatory pain results from the increased excitability of peripheral nociceptive sensory fibres p...
Inflammatory pain results from the increased excitability of peripheral nociceptive sensory fibres p...
Pain signaling is an important biological process that is poorly understood. The mechanisms of physi...
The ATP-sensitive K+ channel (KATP) is involved in hypersensitivity during chronic pain and is presu...
Review articles from the 5th International Meeting of the IASP Special Interest Group on Neuropathic...
Pain is a regular and unavoidable experience that dramatically impacts people’s quality of life. Cur...
Chronic neuropathic pain affects millions of people worldwide; however, there remain few effective t...
Voltage-gated K+ (Kv) channels are essential regulators of excitability in the nervous system. Thus,...
Chronic pain is associated with abnormal excitability of the somatosensory system and remains poorly...
Chronic pain is associated with abnormal excitability of the somatosensory system and remains poorly...
Pathological pain is a hyperexcitability disorder. Since the excitability of a neuron is set and con...
TRESK belongs to the K2P family of potassium channels, also known as background or leak potassium ch...
Pain is a fascinatingly malleable sensory percept, evoking a unique experience for each individual. ...
Summary: The in vivo function of large conductance calcium‐activated potassium channels in sensory n...
Fibromyalgia is a central sensitivity syndrome that presents with chronic pain, fatigue, cognitive d...
Inflammatory pain results from the increased excitability of peripheral nociceptive sensory fibres p...
Inflammatory pain results from the increased excitability of peripheral nociceptive sensory fibres p...
Pain signaling is an important biological process that is poorly understood. The mechanisms of physi...
The ATP-sensitive K+ channel (KATP) is involved in hypersensitivity during chronic pain and is presu...
Review articles from the 5th International Meeting of the IASP Special Interest Group on Neuropathic...
Pain is a regular and unavoidable experience that dramatically impacts people’s quality of life. Cur...
Chronic neuropathic pain affects millions of people worldwide; however, there remain few effective t...
Voltage-gated K+ (Kv) channels are essential regulators of excitability in the nervous system. Thus,...