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Highâspeed visualization of ingested, ejected, adherent, and disintegrated thrombus in contemporary ventricular assist devices
- Source :
- Artificial Organs. 44
- Publication Year :
- 2020
- Publisher :
- Wiley, 2020.
-
Abstract
- Biocompatibility of ventricular assist devices (VADs) has been steadily improving, yet the rate of neurological events remains unacceptably high. Recent speculation for elevated stroke rates centers on ingestion of thrombi originating upstream of the pump, such as in the ventricle or left atrial appendage. These thrombi may be ejected by the VAD or become deposited within the blood flow pathway, presenting serious complications to the patient. This study was performed to visualize and quantify the degree of disruption, adherence, and disintegration of thrombi that are ingested by the three most implanted VADs: the HeartMate II, HeartMate 3, and HVAD. Clot analogs of varying microstructure compositions (red, white) and sizes (0.5, 1, 2 cm3 ) were synthesized in vitro based on clinical explant data. These were introduced individually into an in vitro flow loop with a transparent replica of the HMII, HM3, and HVAD operated at nominal steady flow (2.3-4.0 L/min). High-speed videography (up to 10 000 fps) revealed the ingestion, disruption, ejection, and adherence of thrombus fragments. Thromboemboli of varying compositions and sizes were observed mechanically attaching to components in all 3 VAD models. In some instances, ingested thrombi physically obstructed portions of the blood flow path; 18% (3 of 17 total) of red thrombi adhered to the inflow straightener of the transparent HMII. In the HVAD model, fewer than 4% of clots were adherent or trapped within the pump, irrespective of microstructure or initial volume. In comparison, 100% (4 of 4 total) of 1-cm3 white (fibrin) clots became lodged within the transparent HM3 while, in contrast, less than 5% of macerated red clots (3 of 63 total) of the same volume were adherent inside the pump. A significant proportion of ingested thrombi were macerated into infinitesimal fragments; 84% and 74% of 2-cm3 red thrombi in the HVAD and HM3 models, respectively, were found to have disintegrated upon ingestion. However, large emboli were also discharged from both centrifugal VADs; these fragments, ranging from 0.01 to 0.29 cm3 regardless of microstructure and original volume, may be capable of occluding an intracranial vessel. Therefore, ingested thrombus may explain, in part, elevated stroke rates in contemporary blood pumps in the absence of adherent pump thrombosis.
- Subjects :
- medicine.medical_specialty
0206 medical engineering
Biomedical Engineering
Medicine (miscellaneous)
Biocompatible Materials
Bioengineering
02 engineering and technology
030204 cardiovascular system & hematology
High speed visualization
Fibrin
Biomaterials
03 medical and health sciences
0302 clinical medicine
Internal medicine
medicine
Humans
cardiovascular diseases
Thrombus
Pump thrombosis
Stroke
Heartmate ii
biology
business.industry
Thrombosis
Equipment Design
General Medicine
Blood flow
medicine.disease
020601 biomedical engineering
medicine.anatomical_structure
Ventricle
Blood Circulation
Cardiology
biology.protein
Heart-Assist Devices
business
Subjects
Details
- ISSN :
- 15251594 and 0160564X
- Volume :
- 44
- Database :
- OpenAIRE
- Journal :
- Artificial Organs
- Accession number :
- edsair.doi.dedup.....808ed544fdeb86429e4bf49ffd123997