Carsten Reidies Bjarkam

Publications (5)11.29 Total impact

• Article: Direct MRI-guided stereotaxic viral mediated gene transfer of alpha-synuclein in the Göttingen minipig CNS.

  Andreas Nørgaard Glud, Claus Hedegaard, Mette Slot Nielsen, Jens Christian Søorensen, Christian Bendixen, Poul Henning Jensen, Poul Henning Mogensen, Knud Larsen, Carsten Reidies Bjarkam
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  ABSTRACT: The aim was to establish a non-primate large animal PD model by lentiviral vector mediated mutant alpha-synuclein overexpression in the substantia nigra. Lentivirus encoding A53T alpha-synuclein (6 x 2.5 μl) was stereotaxically injected into the substantia nigra of six adult female Göttingen minipigs. Contralateral control injections encoding enhanced green fluorescent protein (EGFP) were performed. Gait-analysis was performed pre- and postoperatively. PCR of the transgenes and immunohistochemical staining against alpha-synuclein, EGFP, GFAP and TH was performed after 20 weeks. Gait analysis revealed a significant increase in step length and height, and a decrease in the double stand phase. PCR verified the mesencephalic presence of transgenes. IHC analysis showed alpha-synuclein expression in nigral neurons, around the injection tract and in related nigrostriatal projections. The alpha-synuclein positive neurons appeared swollen and vacuolated, in contrast to the EGFP-injected control side. To transduct all nigrostriatal cells with few microinjections, wider dissemination of the transgene must be achieved.
  Acta neurobiologiae experimentalis 01/2011; 71(4):508-18. · 2.11 Impact Factor
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  Article: Direct gene transfer in the Gottingen minipig CNS using stereotaxic lentiviral microinjections.

  Andreas Norgaard Glud, Claus Hedegaard, Mette Slot Nielsen, Jens Christian Sørensen, Christian Bendixen, Poul Henning Jensen, Knud Larsen, Carsten Reidies Bjarkam
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  ABSTRACT: We aim to induce direct viral mediated gene transfer in the substantia nigra (SN) of the Gottingen minipig using MRI guided stereotaxic injections of lentiviral vectors encoding enhanced green fluorescent protein (EGFP). Nine female Gottingen minipigs were injected unilaterally into the SN with 6 per 2.5 microliters lentivirus capable of transducing cells and mediating expression of recombinant EGFP. The animals were euthanized after four (n=3) or twenty weeks (n=6). Fresh brain tissue from three animals was used for PCR. The remaining six brains were cryo- or paraffin-sectioned for fluorescence, Nissl-, and immunohistochemical EGFP visualization. EGFP was seen in nigral neurons, axons, glial cells, endothelial cells, and in nigral fibers targeting the striatum. PCR-based detection confirmed the presence of the transgene in SN, whereas all other examined brain areas were negative, indicating that the immunohistochemically detected EGFP in the striatum derived from transfected nigral cells.
  Acta neurobiologiae experimentalis 01/2010; 70(3):308-15. · 2.11 Impact Factor
• Article: New surgical technique reduces the susceptibility artefact at air-tissue interfaces on in vivo cerebral MRI in the Göttingen minipig.

  Frederikke Rosendal, Jesper Frandsen, M Mallar Chakravarty, Carsten Reidies Bjarkam, Michael Pedersen, Ryan Sangill, Jens Christian Sørensen
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  ABSTRACT: Advanced and exclusive software solutions are offered to reduce susceptibility artefacts on MRI echo-planar sequences. We present a straightforward surgical technique to reduce the cortical distortion and signal loss that normally occur using diffusion tensor imaging (DTI) of the Göttingen minipig brain. Pronounced pneumatisation of the minipig cranium causes considerable susceptibility artefacts at the air/tissue interface around the frontal sinuses. Five Göttingen minipigs had burr holes drilled through the outer lamina of the skull bilaterally at the level of bregma. The underlying frontal sinuses were filled with a suspension of an MRI-compatible alginate. DTI was obtained before and after placing the medium in the sinus, quantifying the change using mutual information and Wilcoxon's rank-sum test. Fibertracking algorithms were applied to visualize the effect of treatment. We showed that the susceptibility artefacts were reduced at the air, bone and brain interfaces and that major cortical fiberbundles could be reliably visualized. This study demonstrated that DTI fibertracking of cortical bundles in experimental animals with extensive skull pneumatisation is feasible even when advanced software is unavailable.
  Brain research bulletin 09/2009; 80(6):403-7. · 2.18 Impact Factor
• Article: MRI protocol for in vivo visualization of the Göttingen minipig brain improves targeting in experimental functional neurosurgery.

  Frederikke Rosendal, Michael Pedersen, Ryan Sangill, Hans Stødkilde-Jørgensen, Mette Slot Nielsen, Carsten Reidies Bjarkam, Niels Sunde, Jens Christian Sørensen
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  ABSTRACT: The Göttingen minipig is increasingly used as an animal model in experimental neuroscience as a much needed alternative to non-human primates. Accurate spatial targeting in this species in vivo is challenging, and most clinically available magnetic resonance imaging (MRI) protocols do not provide sufficient spatial resolution for this purpose. Thus, the aim of this study was to develop an in vivo pre-operative MRI protocol allowing direct visualization of individual nuclei of major interest in the minipig brain. Three Göttingen minipigs underwent MRI using an inversion-recovery fast spin-echo sequence that was optimized with regards to the following parameters: inversion time, relaxation time, echo time and spatial and temporal resolution, giving a scan duration acceptable for the tight schedule usually employed in a neurosurgical procedure. The most optimal pulse sequence was applied in 8 Göttingen minipigs and the anatomical structures were identified. High-resolution images with excellent contrast were acquired, presenting negligible geometric distortions. Minor flow artifacts from the large neck vessels generated the most prominent artifact. Determination of coordinates necessary in experimental neurosurgery in the Göttingen minipig was considerably improved with this MRI protocol.
  Brain research bulletin 02/2009; 79(1):41-5. · 2.18 Impact Factor
• Article: Time evolution of cerebral perfusion and apparent diffusion coefficient measured by magnetic resonance imaging in a porcine stroke model.

  Lisbeth Røhl, Masaharuh Sakoh, Claus Ziegler Simonsen, Peter Vestergaard-Poulsen, Ryan Sangill, Jens Cristian Sørensen, Carsten Reidies Bjarkam, Carsten Gyldensted, Leif Østergaard
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  ABSTRACT: To demonstrate the feasibility of sequential diffusion-weighted (DW) and perfusion-weighted (PW) magnetic resonance imaging (MRI) of a recently developed porcine stroke model and to evaluate the evolution of cerebral perfusion and the apparent diffusion coefficient (ADC) over time. Materials and Methods In five pigs, DW imaging (DWI) and PW imaging (PWI) was carried out for 7 hours after stroke onset, starting 1 hour after middle cerebral artery occlusion (MCAO). The DWI lesion volume increased significantly with time, and final DWI lesion volume correlated well with lesion area on histological sections (r = 0.910). T2 changes could be recognized 3 hours after stroke onset. At 1 hour the ADC ratio (ischemic lesion/contralateral side) was reduced to 0.81 in the caudate-putamen and to 0.87 in the cortex, and the cerebral blood flow ratio was reduced to 0.40 in the caudate-putamen and 0.51 in the cortex. The level of flow reduction in the caudate-putamen and the cortex after 1 hour is in good correlation with human thresholds of irreversible and reversible ischemic damage, and accordingly, this model might be a model for mechanisms of infarct evolution and therapeutic intervention.
  Journal of Magnetic Resonance Imaging 03/2002; 15(2):123-9. · 2.70 Impact Factor