Ignite Creation Date:
2024-05-05 @ 5:34 PM
Last Modification Date:
2024-10-26 @ 9:33 AM
Study NCT ID:
NCT00484965
Status:
UNKNOWN
Last Update Posted:
2007-06-12
First Post:
2007-06-11
Brief Title:
Erythrocyte-Mediated Drug Delivery for the Prevention of Stent Restenosis
Sponsor:
University of Rome Tor Vergata
Organization:
University of Rome Tor Vergata
Study Overview
Official Title:
Erythrocyte-Mediated Drug Delivery for the Prevention of Restenosis After Coronary Artery Stent ImplantationTROY-Study
Status:
UNKNOWN
Status Verified Date:
2007-06
Last Known Status:
NOT_YET_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:
TROY
Brief Summary:
The purpose of this study is to determine whether erythrocyte mediated dexamethasone delivery reduces circulating inflammatory markers after coronary stent implantation and improves clinical and angiographic outcomes
Detailed Description:
In stent restenosis is still an unsolved problem We know that principally in stent restenosis depends on myointimal proliferation a biological process in which inflammatory mechanisms play a central role We have previously demonstrated that immunosuppressive therapy with prednisone administered for 45 days after the stenting procedure reduced the incidence of restenosis at six months and clinical events at 12 months in high risk patients with persistent higher C reactive protein levels after stenting implantation But this therapy needs a high dosage glucocorticoids and this is a contraindication in some subset of patients ie diabetics
Recently a new method for the encapsulation of drugs into human autologous erythrocytes using an apparatus and a disposable kit has been developed Its well known that blood erythrocytes change their membrane properties when in contact with suspensions of different osmotic values So we developed a method to modify erythrocytes membrane properties so that they became porous and be able to absorb and then release some specific molecules Experimental studies demonstrated that non diffusible pro-drug 21-phosphate dexamethasone can be loaded in human blood erythrocytes and then slowly dephosphorylated to the corresponding diffusible molecule to be released in human plasma Once in-vivo due to the presence of the hydrophilic phosphate group Dex 21-P encapsulated into RBCs cannot diffuse through RBC membrane until it is slowly dephosphorylated to the corresponding active corticosteroid by erythrocytes resident enzymes The novelty and the advantages of this procedure are that the red blood cells act as a slow and constant drug delivery system so that during the 30 days after the administration there is always a low level of corticosteroid in plasma When these erythrocytes are reinfused in the donor they release in a continuous way a low and constant level of drug This procedure has yet been used in some chronic inflammatory disease ie bowel disease in more than 1600 patients with significant clinical improvement The main objective of the study is 1 to evaluate if autologous erythrocytes modified as bioreceptor may be used to release glucocorticoids in blood circulation and 2 to reduce acute inflammatory proteins after coronary stent implantation with clinical and angiographic outcomes improvement For this purpose 100 patients undergoing coronary artery stent implantation will be prospectively randomized in two groups
1 group A bare metal stent implantation and treatment by 50 ml of autologous erythrocytes charged with dexamethasone 21-P
2 group B bare metal stent implantation and treatment by 50 ml of autologous erythrocytes not charged with dexamethasone 21-P The results of two groups will be compared
Recently a new method for the encapsulation of drugs into human autologous erythrocytes using an apparatus and a disposable kit has been developed Its well known that blood erythrocytes change their membrane properties when in contact with suspensions of different osmotic values So we developed a method to modify erythrocytes membrane properties so that they became porous and be able to absorb and then release some specific molecules Experimental studies demonstrated that non diffusible pro-drug 21-phosphate dexamethasone can be loaded in human blood erythrocytes and then slowly dephosphorylated to the corresponding diffusible molecule to be released in human plasma Once in-vivo due to the presence of the hydrophilic phosphate group Dex 21-P encapsulated into RBCs cannot diffuse through RBC membrane until it is slowly dephosphorylated to the corresponding active corticosteroid by erythrocytes resident enzymes The novelty and the advantages of this procedure are that the red blood cells act as a slow and constant drug delivery system so that during the 30 days after the administration there is always a low level of corticosteroid in plasma When these erythrocytes are reinfused in the donor they release in a continuous way a low and constant level of drug This procedure has yet been used in some chronic inflammatory disease ie bowel disease in more than 1600 patients with significant clinical improvement The main objective of the study is 1 to evaluate if autologous erythrocytes modified as bioreceptor may be used to release glucocorticoids in blood circulation and 2 to reduce acute inflammatory proteins after coronary stent implantation with clinical and angiographic outcomes improvement For this purpose 100 patients undergoing coronary artery stent implantation will be prospectively randomized in two groups
1 group A bare metal stent implantation and treatment by 50 ml of autologous erythrocytes charged with dexamethasone 21-P
2 group B bare metal stent implantation and treatment by 50 ml of autologous erythrocytes not charged with dexamethasone 21-P The results of two groups will be compared
Study Oversight
Has Oversight DMC:
None
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?:
None