Ignite Creation Date:
2025-12-25 @ 4:27 AM
Ignite Modification Date:
2025-12-26 @ 3:30 AM
Study NCT ID:
NCT01370720
Status:
UNKNOWN
Last Update Posted:
2012-06-19
First Post:
2011-06-08
Is NOT Gene Therapy:
False
Has Adverse Events:
False
Brief Title:
Safety and Efficacy Study of PEA and Polydatin on Intestinal Inflammation and Visceral Hyperalgesia in IBS Patients
Sponsor:
MARIA CRISTINA COMELLI
Organization:
Study Overview
Official Title:
Effect of the Oral Administration in IBS Patients of the Association of 200 mg Micronised Palmitoylethanolamide (PEA) and 20 mg Polydatin, on Parameters of Intestinal Inflammation and Visceral Hyperalgesia.
Status:
UNKNOWN
Status Verified Date:
2012-06
Last Known Status:
RECRUITING
Delayed Posting:
No
If Stopped, Why?:
Not Stopped
Has Expanded Access:
False
If Expanded Access, NCT#:
N/A
Has Expanded Access, NCT# Status:
N/A
Acronym:
CMD-IBS09(2)
Brief Summary:
Despite the pathophysiology of IBS remains largely unsettled, several mechanisms have been proposed to explain symptom generation. These include psychosocial factors, altered gastrointestinal motor function and altered perception of visceral stimuli because of chronic low-grade inflammation and increased nociceptive mediator release by inflammatory cells, particularly mast cells.
The aim of this pilot study is to provide evidence of:
1. intestinal mast cell (MC) infiltration and activation in IBS patients;
2. down-modulation of MC activation by the oral administration of the association of palmitoylethanolamide (PEA) and polydatin in IBS patients.
The aim of this pilot study is to provide evidence of:
1. intestinal mast cell (MC) infiltration and activation in IBS patients;
2. down-modulation of MC activation by the oral administration of the association of palmitoylethanolamide (PEA) and polydatin in IBS patients.
Detailed Description:
The number of inflammatory cells in the gut wall of IBS patients is increased in comparison to asymptomatic controls. A significant increase in the number of both mast cells and T-lymphocytes in the mucosa of IBS patients have been reported. Electron microscopic studies demonstrated that mast cells were more frequently degranulated in IBS, suggesting their increased state of activation. Accordingly, an increased mucosal release of preformed mediators, such as histamine and tryptase, as well as de novo synthesis and secretion of arachidonic acid end products (e.g. prostaglandin E2) have been demonstrated. These mediators are known to target sensory nerve pathways, including those innervating the gastrointestinal tract, leading to visceral hyperalgesia.
Electron microscopic studies showed that the mean distance between inflammatory cells and enteric nerves is significantly reduced in IBS patients, thus providing a conceptual basis for a putative pathogenetic role of low-grade inflammation on sensory-motor dysfunction in IBS. Activated mast cells in close proximity to mucosal colonic innervation correlated with the frequency and severity of abdominal pain. Evidence that mast cell mediators of IBS patients, but not controls, evoked activation of nociceptive sensory afferent neurons are available, thus providing a possible mechanism through which mast cells can evoke pain in IBS patients. Similar results has been recently reported following the administration into the rat colon of supernatants collected from human IBS colonic biopsy samples in culture. This nociceptive effect on murine sensory neurons was inhibited by serine protease inhibitors and a Protease Activating Receptor-2 antagonist.
Electron microscopic studies showed that the mean distance between inflammatory cells and enteric nerves is significantly reduced in IBS patients, thus providing a conceptual basis for a putative pathogenetic role of low-grade inflammation on sensory-motor dysfunction in IBS. Activated mast cells in close proximity to mucosal colonic innervation correlated with the frequency and severity of abdominal pain. Evidence that mast cell mediators of IBS patients, but not controls, evoked activation of nociceptive sensory afferent neurons are available, thus providing a possible mechanism through which mast cells can evoke pain in IBS patients. Similar results has been recently reported following the administration into the rat colon of supernatants collected from human IBS colonic biopsy samples in culture. This nociceptive effect on murine sensory neurons was inhibited by serine protease inhibitors and a Protease Activating Receptor-2 antagonist.
Study Oversight
Has Oversight DMC:
False
Is a FDA Regulated Drug?:
None
Is a FDA Regulated Device?:
None
Is an Unapproved Device?:
None
Is a PPSD?:
None
Is a US Export?:
None
Is an FDA AA801 Violation?: