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A new dynamic model for in vitro evaluation of intravascular devices

Edward Baert (UGent) , Jelle Vandersteene (UGent) , Frank Dewaele (UGent) , Anna Vantilborgh (UGent) , Dirk Van Roost (UGent) and Filip De Somer (UGent)
(2019) INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS. 42(1). p.42-48
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Abstract
Introduction: A dynamic model to evaluate thrombus formation on intravascular catheters in vitro is presented. The model enables fluid infusion, variation in the catheter orientation, and variable flow conditions. It was applied on a catheter used to shunt cerebrospinal fluid to a vein, a dural venous sinus, for the treatment of hydrocephalus. Methods: Fresh human blood-filled circuits were circulated in a non-occlusive roller pump. A catheter infused either with cerebrospinal fluid, Ringer's lactate, or no fluid (control) was inserted through each circuit's wall. Sixteen circuits (six cerebrospinal fluid, six Ringer's lactate, four control) ran for 60 min. Qualitative assessment was performed by measuring viscoelastic properties of blood at the start and end of the experiment; quantitative evaluation of clot formation by scanning electron microscope. Results: Average blood velocity was 79 mm/s, with a pressure wave between 5 and 15 mm Hg. At the experiment's end, the infused fluid represented 5.88% of the blood/infusion volume in the circuit. The control circuits showed no statistical difference between the start and end for viscoelastic testing, whereas both Ringer's lactate and cerebrospinal fluid enhanced coagulation, most pronounced for the latter. Most thrombus material was observed on catheters in the cerebrospinal fluid group. Clot formation was less pronounced on the surface of the catheter facing the blood flow. Discussion: A dynamic model for intravascular catheter testing mimics better clinical conditions when evaluating blood-material interaction. Catheter position, blood flow around the catheter, and infusion fluid all have a potential impact on the hemocompatibility of a given catheter.
Keywords
SUPERIOR SAGITTAL SINUS, PULMONARY-HYPERTENSION, CEREBROSPINAL-FLUID, BLOOD-FLOW, VENTRICULOATRIAL, HYDROCEPHALUS, COMPLICATIONS, IMPLANTATION, COAGULATION, THROMBOSIS, Blood, cerebrospinal fluid, dynamic in vitro model, thrombogenicity, venous catheter

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MLA
Baert, Edward, et al. “A New Dynamic Model for in Vitro Evaluation of Intravascular Devices.” INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS, vol. 42, no. 1, 2019, pp. 42–48, doi:10.1177/0391398818806158.
APA
Baert, E., Vandersteene, J., Dewaele, F., Vantilborgh, A., Van Roost, D., & De Somer, F. (2019). A new dynamic model for in vitro evaluation of intravascular devices. INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS, 42(1), 42–48. https://doi.org/10.1177/0391398818806158
Chicago author-date
Baert, Edward, Jelle Vandersteene, Frank Dewaele, Anna Vantilborgh, Dirk Van Roost, and Filip De Somer. 2019. “A New Dynamic Model for in Vitro Evaluation of Intravascular Devices.” INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS 42 (1): 42–48. https://doi.org/10.1177/0391398818806158.
Chicago author-date (all authors)
Baert, Edward, Jelle Vandersteene, Frank Dewaele, Anna Vantilborgh, Dirk Van Roost, and Filip De Somer. 2019. “A New Dynamic Model for in Vitro Evaluation of Intravascular Devices.” INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS 42 (1): 42–48. doi:10.1177/0391398818806158.
Vancouver
1.
Baert E, Vandersteene J, Dewaele F, Vantilborgh A, Van Roost D, De Somer F. A new dynamic model for in vitro evaluation of intravascular devices. INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS. 2019;42(1):42–8.
IEEE
[1]
E. Baert, J. Vandersteene, F. Dewaele, A. Vantilborgh, D. Van Roost, and F. De Somer, “A new dynamic model for in vitro evaluation of intravascular devices,” INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS, vol. 42, no. 1, pp. 42–48, 2019.
@article{8693618,
  abstract     = {{Introduction: A dynamic model to evaluate thrombus formation on intravascular catheters in vitro is presented. The model enables fluid infusion, variation in the catheter orientation, and variable flow conditions. It was applied on a catheter used to shunt cerebrospinal fluid to a vein, a dural venous sinus, for the treatment of hydrocephalus. Methods: Fresh human blood-filled circuits were circulated in a non-occlusive roller pump. A catheter infused either with cerebrospinal fluid, Ringer's lactate, or no fluid (control) was inserted through each circuit's wall. Sixteen circuits (six cerebrospinal fluid, six Ringer's lactate, four control) ran for 60 min. Qualitative assessment was performed by measuring viscoelastic properties of blood at the start and end of the experiment; quantitative evaluation of clot formation by scanning electron microscope. Results: Average blood velocity was 79 mm/s, with a pressure wave between 5 and 15 mm Hg. At the experiment's end, the infused fluid represented 5.88% of the blood/infusion volume in the circuit. The control circuits showed no statistical difference between the start and end for viscoelastic testing, whereas both Ringer's lactate and cerebrospinal fluid enhanced coagulation, most pronounced for the latter. Most thrombus material was observed on catheters in the cerebrospinal fluid group. Clot formation was less pronounced on the surface of the catheter facing the blood flow. Discussion: A dynamic model for intravascular catheter testing mimics better clinical conditions when evaluating blood-material interaction. Catheter position, blood flow around the catheter, and infusion fluid all have a potential impact on the hemocompatibility of a given catheter.}},
  author       = {{Baert, Edward and Vandersteene, Jelle and Dewaele, Frank and Vantilborgh, Anna and Van Roost, Dirk and De Somer, Filip}},
  issn         = {{0391-3988}},
  journal      = {{INTERNATIONAL JOURNAL OF ARTIFICIAL ORGANS}},
  keywords     = {{SUPERIOR SAGITTAL SINUS,PULMONARY-HYPERTENSION,CEREBROSPINAL-FLUID,BLOOD-FLOW,VENTRICULOATRIAL,HYDROCEPHALUS,COMPLICATIONS,IMPLANTATION,COAGULATION,THROMBOSIS,Blood,cerebrospinal fluid,dynamic in vitro model,thrombogenicity,venous catheter}},
  language     = {{eng}},
  number       = {{1}},
  pages        = {{42--48}},
  title        = {{A new dynamic model for in vitro evaluation of intravascular devices}},
  url          = {{http://doi.org/10.1177/0391398818806158}},
  volume       = {{42}},
  year         = {{2019}},
}
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