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Effect of intra-myocardial algisyl-LVR™ injectates on fiber structure in porcine heart failure

Effect of intra-myocardial algisyl-LVR™ injectates on fiber structure in porcine heart failure
Effect of intra-myocardial algisyl-LVR™ injectates on fiber structure in porcine heart failure
Recent preclinical trials have shown that alginate injections are a promising treatment for ischemic heart disease. Although improvements in heart function and global structure have been reported following alginate implants, the underlying structure is poorly understood. Using high resolution ex vivo MRI and DT-MRI of the hearts of normal control swine (n=8), swine with induced heart failure (n=5), and swine with heart failure and alginate injection treatment (n=6), we visualized and quantified the fiber distribution and implant material geometry. Our findings show that the alginate injectates form solid ellipsoids with a retention rate of 68.7%±21.3% (mean±SD) and a sphericity index of 0.37±0.03. These ellipsoidal shapes solidified predominantly at the mid-wall position with an inclination of -4.9°±31.4° relative to the local circumferential direction. Overall, the change to left ventricular wall thickness and myofiber orientation was minor and was associated with heart failure and not the presence of injectates. These results show that alginate injectates conform to the pre-existing tissue structure, likely expanding along directions of least resistance as mass is added to the injection sites. The alginate displaces the myocardial tissue predominantly in the longitudinal direction, causing minimal disruption to the surrounding myofiber orientations.
Heart Failure, Biomaterial injection therapy, Alginate, Diffusion tensor imaging, Myofiber orientation
1751-6161
1-22
Sack, K.L.
ecdad0f1-5231-42f7-97d0-d62fc88fc446
Aliotta, E
bb9e3ea2-b66a-4257-ae1f-20b0f9969ff8
Ennis, D. B.
b5067e72-d20b-4b77-9e9f-c5e53397f63f
Davies, N.H.
f843766c-2fc2-462c-8351-5eb7fde03814
Franz, Thomas
fe0873a7-c37b-4db5-99c0-70b62615ba3b
Kassab, G.S.
527c531a-7fa1-4a66-bc43-330b4591331d
Guccione, J.M.
295f15ee-a960-47e5-8c6d-a299a69a74e5
Sack, K.L.
ecdad0f1-5231-42f7-97d0-d62fc88fc446
Aliotta, E
bb9e3ea2-b66a-4257-ae1f-20b0f9969ff8
Ennis, D. B.
b5067e72-d20b-4b77-9e9f-c5e53397f63f
Davies, N.H.
f843766c-2fc2-462c-8351-5eb7fde03814
Franz, Thomas
fe0873a7-c37b-4db5-99c0-70b62615ba3b
Kassab, G.S.
527c531a-7fa1-4a66-bc43-330b4591331d
Guccione, J.M.
295f15ee-a960-47e5-8c6d-a299a69a74e5

Sack, K.L., Aliotta, E, Ennis, D. B., Davies, N.H., Franz, Thomas, Kassab, G.S. and Guccione, J.M. (2018) Effect of intra-myocardial algisyl-LVR™ injectates on fiber structure in porcine heart failure. Journal of the Mechanical Behavior of Biomedical Materials, 1-22.

Record type: Article

Abstract

Recent preclinical trials have shown that alginate injections are a promising treatment for ischemic heart disease. Although improvements in heart function and global structure have been reported following alginate implants, the underlying structure is poorly understood. Using high resolution ex vivo MRI and DT-MRI of the hearts of normal control swine (n=8), swine with induced heart failure (n=5), and swine with heart failure and alginate injection treatment (n=6), we visualized and quantified the fiber distribution and implant material geometry. Our findings show that the alginate injectates form solid ellipsoids with a retention rate of 68.7%±21.3% (mean±SD) and a sphericity index of 0.37±0.03. These ellipsoidal shapes solidified predominantly at the mid-wall position with an inclination of -4.9°±31.4° relative to the local circumferential direction. Overall, the change to left ventricular wall thickness and myofiber orientation was minor and was associated with heart failure and not the presence of injectates. These results show that alginate injectates conform to the pre-existing tissue structure, likely expanding along directions of least resistance as mass is added to the injection sites. The alginate displaces the myocardial tissue predominantly in the longitudinal direction, causing minimal disruption to the surrounding myofiber orientations.

Text
KSack_AlginateInjectionTherapy_29062018 - Accepted Manuscript
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More information

Accepted/In Press date: 2 July 2018
e-pub ahead of print date: 10 July 2018
Keywords: Heart Failure, Biomaterial injection therapy, Alginate, Diffusion tensor imaging, Myofiber orientation

Identifiers

Local EPrints ID: 422235
URI: http://eprints.soton.ac.uk/id/eprint/422235
ISSN: 1751-6161
PURE UUID: 70119585-0292-4bc7-929e-71b13d96c401

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Date deposited: 19 Jul 2018 16:30
Last modified: 16 Mar 2024 06:51

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Contributors

Author: K.L. Sack
Author: E Aliotta
Author: D. B. Ennis
Author: N.H. Davies
Author: Thomas Franz
Author: G.S. Kassab
Author: J.M. Guccione

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