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A numerical investigation of intrathecal isobaric drug dispersion within the cervical subarachnoid space
- Source :
- PLoS ONE, Vol 12, Iss 3, p e0173680 (2017), PLoS ONE
- Publication Year :
- 2017
- Publisher :
- Public Library of Science (PLoS), 2017.
-
Abstract
- Intrathecal drug and gene vector delivery is a procedure to release a solute within the cerebrospinal fluid. This procedure is currently used in clinical practice and shows promise for treatment of several central nervous system pathologies. However, intrathecal delivery protocols and systems are not yet optimized. The aim of this study was to investigate the effects of injection parameters on solute distribution within the cervical subarachnoid space using a numerical platform. We developed a numerical model based on a patient-specific three dimensional geometry of the cervical subarachnoid space with idealized dorsal and ventral nerve roots and denticulate ligament anatomy. We considered the drug as massless particles within the flow field and with similar properties as the CSF, and we analyzed the effects of anatomy, catheter position, angle and injection flow rate on solute distribution within the cerebrospinal fluid by performing a series of numerical simulations. Results were compared quantitatively in terms of drug peak concentration, spread, accumulation rate and appearance instant over 15 seconds following the injection. Results indicated that solute distribution within the cervical spine was altered by all parameters investigated within the time range analyzed following the injection. The presence of spinal cord nerve roots and denticulate ligaments increased drug spread by 60% compared to simulations without these anatomical features. Catheter position and angle were both found to alter spread rate up to 86%, and catheter flow rate altered drug peak concentration up to 78%. The presented numerical platform fills a first gap towards the realization of a tool to parametrically assess and optimize intrathecal drug and gene vector delivery protocols and systems. Further investigation is needed to analyze drug spread over a longer clinically relevant time frame.
- Subjects :
- Central Nervous System
Physiology
Amperometry
02 engineering and technology
Nervous System
0302 clinical medicine
Cerebrospinal fluid
Medicine and Health Sciences
Medicine
Denticulate ligaments
Cerebrospinal Fluid
Flow Rate
Drug Distribution
Multidisciplinary
Pharmaceutics
Physics
Classical Mechanics
Body Fluids
3. Good health
Bioassays and Physiological Analysis
medicine.anatomical_structure
Anesthesia
Physical Sciences
Drug delivery
Cervical Vertebrae
Anatomy
Research Article
Biotechnology
Cervical vertebrae
Catheters
Nerve root
Science
0206 medical engineering
Fluid Mechanics
Research and Analysis Methods
Continuum Mechanics
Subarachnoid Space
03 medical and health sciences
Humans
Distribution (pharmacology)
Pharmacokinetics
Bioelectrochemical Analysis
Pharmacology
Drug Screening
business.industry
Biology and Life Sciences
Fluid Dynamics
Spinal cord
020601 biomedical engineering
Isobaric process
Medical Devices and Equipment
Biochemical Analysis
Drug Delivery
business
030217 neurology & neurosurgery
Biomedical engineering
Subjects
Details
- Language :
- English
- ISSN :
- 19326203
- Volume :
- 12
- Issue :
- 3
- Database :
- OpenAIRE
- Journal :
- PLoS ONE
- Accession number :
- edsair.doi.dedup.....32a9dd21c5de1fa4d336cdc78087325e