TY - JOUR
T1 - Controlled release implants for cardiovascular disease
AU - Levy, Robert J.
AU - Johnston, Thomas P.
AU - Sintov, Amnon
AU - Golomb, Gershon
N1 - Funding Information:
This work was supported in part by NIH Grants HL38118 and HL36574. Dr. Johnston was a Fellow of the American Heart Association of Michigan and Dr. Levy is an Established Investigator of the American Heart Association. We thank Mrs. Catherine Wongstrom for her expertise in preparing this manuscript and we also thank Mrs. Maria Lehto and Mrs. Kathleen Beekel for their expert technical assistance. We also thank our illustrators, Ted Huff (Fig. 1 ) and Chris Burke (Fig. 2) of the Biomedical Communications Dept. of the University of Michigan Medical School. We are also grateful to both Dr. William Pfister of Dow Corning for his advice concerning the use of Silastic, and to Dr. Kent Buckingham of Norwich Eaton for providing EHDP.
PY - 1990/1/1
Y1 - 1990/1/1
N2 - The systemic therapy of many cardiovascular diseases is often hampered by adverse drug effects. The present paper examines the use of controlled release implants as a means for optimizing drug concentrations at the affected site in the cardiovascular system, while using a relatively low systemic dose. Controlled release systems have been prepared by combining a drug of choice with either a non-degradable polymer, such as a silicone rubber, polyurethane, and ethylene vinylacetate, or a biodegradable compound such as poly(glycolic-lactic acid) or a high molecular weight polyanhydride. Controlled release matrices containing ethylenehydroxydiphosphonate (EHDP), when implanted next to a bioprosthetic heart valve leaflet, prevented pathologic calcification. Similarly, controlled release matrices containing lidocaine-HCl have been used experimentally as epicardial implants to convert ventricular tachycardia to normal sinus rhythm in dogs. A matrix system containing gentamicin has been used by others [35] to prevent experimental valvular endocarditis. Other workers have used a dexamethasone-releasing cardiac pacing lead in clinical studies, to prevent scar tissue formation, which leads to elevated electrical pacing threshold [15,16]. Future controlled release systems for cardiovascular use will very likely incorporate innovative design features including: a reservoir configuration to replenish or change drug therapy, modulatable drug release to vary drug dosing as desired, and closed-loop feedback to increase or decrease release rates in response to disease status.
AB - The systemic therapy of many cardiovascular diseases is often hampered by adverse drug effects. The present paper examines the use of controlled release implants as a means for optimizing drug concentrations at the affected site in the cardiovascular system, while using a relatively low systemic dose. Controlled release systems have been prepared by combining a drug of choice with either a non-degradable polymer, such as a silicone rubber, polyurethane, and ethylene vinylacetate, or a biodegradable compound such as poly(glycolic-lactic acid) or a high molecular weight polyanhydride. Controlled release matrices containing ethylenehydroxydiphosphonate (EHDP), when implanted next to a bioprosthetic heart valve leaflet, prevented pathologic calcification. Similarly, controlled release matrices containing lidocaine-HCl have been used experimentally as epicardial implants to convert ventricular tachycardia to normal sinus rhythm in dogs. A matrix system containing gentamicin has been used by others [35] to prevent experimental valvular endocarditis. Other workers have used a dexamethasone-releasing cardiac pacing lead in clinical studies, to prevent scar tissue formation, which leads to elevated electrical pacing threshold [15,16]. Future controlled release systems for cardiovascular use will very likely incorporate innovative design features including: a reservoir configuration to replenish or change drug therapy, modulatable drug release to vary drug dosing as desired, and closed-loop feedback to increase or decrease release rates in response to disease status.
KW - arrhythmia
KW - calcification
KW - controlled release implants
KW - pacemaker
KW - sustained release preparation
UR - http://www.scopus.com/inward/record.url?scp=0025159222&partnerID=8YFLogxK
U2 - 10.1016/0168-3659(90)90137-I
DO - 10.1016/0168-3659(90)90137-I
M3 - Article
AN - SCOPUS:0025159222
SN - 0168-3659
VL - 11
SP - 245
EP - 254
JO - Journal of Controlled Release
JF - Journal of Controlled Release
IS - 1-3
ER -