Exciting new features have been described concerning neurogenic bowel dysfunction,including interactions between the central nervous system,the enteric nervous system,axonal injury,neuronal loss,neurotransmission of n...Exciting new features have been described concerning neurogenic bowel dysfunction,including interactions between the central nervous system,the enteric nervous system,axonal injury,neuronal loss,neurotransmission of noxious and non-noxious stimuli,and the fields of gastroenterology and neurology.Patients with spinal cord injury,myelomeningocele,multiple sclerosis and Parkinson's disease present with serious upper and lower bowel dysfunctions characterized by constipation,incontinence,gastrointestinal motor dysfunction and altered visceral sensitivity.Spinal cord injury is associated with severe autonomic dysfunction,and bowel dysfunction is a major physical and psychological burden for these patients.An adult myelomeningocele patient commonly has multiple problems reflecting the multisystemic nature of the disease.Multiple sclerosis is a neurodegenerative disorder in which axonal injury,neuronal loss,and atrophy of the central nervous system can lead to permanent neurological damage and clinical disability.Parkinson's disease is a multisystem disorder involving dopaminergic,noradrenergic,serotoninergic and cholinergic systems,characterizedby motor and non-motor symptoms.Parkinson's disease affects several neuronal structures outside the substantia nigra,among which is the enteric nervous system.Recent reports have shown that the lesions in the enteric nervous system occur in very early stages of the disease,even before the involvement of the central nervous system.This has led to the postulation that the enteric nervous system could be critical in the pathophysiology of Parkinson's disease,as it could represent the point of entry for a putative environmental factor to initiate the pathological process.This review covers the data related to the etiology,epidemiology,clinical expression,pathophysiology,genetic aspects,gastrointestinal motor dysfunction,visceral sensitivity,management,prevention and prognosis of neurogenic bowel dysfunction patients with these neurological diseases.Embryological,morphological and experimental studies on animal models and humans are also taken into account.展开更多
Voltage-gated sodium channels (VGSCs) play a fundamental role in controlling cellular excitability,and their abnormal activity is related to several pathological processes,including cardiac arrhythmias,epilepsy,neurod...Voltage-gated sodium channels (VGSCs) play a fundamental role in controlling cellular excitability,and their abnormal activity is related to several pathological processes,including cardiac arrhythmias,epilepsy,neurodegenerative diseases,spasticity and chronic pain.In particular,chronic visceral pain,the central symptom of functional gastrointestinal disorders such as irritable bowel syndrome,is a serious clinical problem that affects a high percentage of the world population.In spite of intense research efforts and after the dedicated decade of pain control and research,there are not many options to treat chronic pain conditions.However,there is a wealth of evidence emerging to give hope that a more refined approach may be achievable.By using electronic databases,available data on structural and functional properties of VGSCs in chronic pain,particularly functional gastrointestinal hypersensitivity,were reviewed.We summarize the involvement and molecular bases of action of VGSCs in the pathophysiology of several organic and functionalgastrointestinal disorders.We also describe the efficacy of VGSC blockers in the treatment of these neurological diseases,and outline future developments that may extend the therapeutic use of compounds that target VGSCs.Overall,clinical and experimental data indicate that isoform-specific blockers of these channels or targeting of their modulators may provide effective and novel approaches for visceral pain therapy.展开更多
文摘Exciting new features have been described concerning neurogenic bowel dysfunction,including interactions between the central nervous system,the enteric nervous system,axonal injury,neuronal loss,neurotransmission of noxious and non-noxious stimuli,and the fields of gastroenterology and neurology.Patients with spinal cord injury,myelomeningocele,multiple sclerosis and Parkinson's disease present with serious upper and lower bowel dysfunctions characterized by constipation,incontinence,gastrointestinal motor dysfunction and altered visceral sensitivity.Spinal cord injury is associated with severe autonomic dysfunction,and bowel dysfunction is a major physical and psychological burden for these patients.An adult myelomeningocele patient commonly has multiple problems reflecting the multisystemic nature of the disease.Multiple sclerosis is a neurodegenerative disorder in which axonal injury,neuronal loss,and atrophy of the central nervous system can lead to permanent neurological damage and clinical disability.Parkinson's disease is a multisystem disorder involving dopaminergic,noradrenergic,serotoninergic and cholinergic systems,characterizedby motor and non-motor symptoms.Parkinson's disease affects several neuronal structures outside the substantia nigra,among which is the enteric nervous system.Recent reports have shown that the lesions in the enteric nervous system occur in very early stages of the disease,even before the involvement of the central nervous system.This has led to the postulation that the enteric nervous system could be critical in the pathophysiology of Parkinson's disease,as it could represent the point of entry for a putative environmental factor to initiate the pathological process.This review covers the data related to the etiology,epidemiology,clinical expression,pathophysiology,genetic aspects,gastrointestinal motor dysfunction,visceral sensitivity,management,prevention and prognosis of neurogenic bowel dysfunction patients with these neurological diseases.Embryological,morphological and experimental studies on animal models and humans are also taken into account.
文摘Voltage-gated sodium channels (VGSCs) play a fundamental role in controlling cellular excitability,and their abnormal activity is related to several pathological processes,including cardiac arrhythmias,epilepsy,neurodegenerative diseases,spasticity and chronic pain.In particular,chronic visceral pain,the central symptom of functional gastrointestinal disorders such as irritable bowel syndrome,is a serious clinical problem that affects a high percentage of the world population.In spite of intense research efforts and after the dedicated decade of pain control and research,there are not many options to treat chronic pain conditions.However,there is a wealth of evidence emerging to give hope that a more refined approach may be achievable.By using electronic databases,available data on structural and functional properties of VGSCs in chronic pain,particularly functional gastrointestinal hypersensitivity,were reviewed.We summarize the involvement and molecular bases of action of VGSCs in the pathophysiology of several organic and functionalgastrointestinal disorders.We also describe the efficacy of VGSC blockers in the treatment of these neurological diseases,and outline future developments that may extend the therapeutic use of compounds that target VGSCs.Overall,clinical and experimental data indicate that isoform-specific blockers of these channels or targeting of their modulators may provide effective and novel approaches for visceral pain therapy.
