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  1. Despite advances in in vivo imaging and experimental techniques, the nature of transport mechanisms in the brain remain elusive. Mathematical modelling verified using available experimental data offers a power...

    Authors: Lori Ray, Jeffrey J. Iliff and Jeffrey J. Heys
    Citation: Fluids and Barriers of the CNS 2019 16:6

    The Letter to the Editor to this article has been published in Fluids and Barriers of the CNS 2019 16:24

  2. Idiopathic normal pressure hydrocephalus (iNPH) is a subtype of hydrocephalus that occurs more often in the elderly population. It is usually characterized by gait disturbance, dementia and urinary incontinenc...

    Authors: Miles Hudson, Caden Nowak, Richard J. Garling and Carolyn Harris
    Citation: Fluids and Barriers of the CNS 2019 16:5
  3. Tight junction proteins of the blood–brain barrier are vital for maintaining integrity of endothelial cells lining brain blood vessels. The presence of these protein complexes in the space between endothelial ...

    Authors: Chris Greene, Nicole Hanley and Matthew Campbell
    Citation: Fluids and Barriers of the CNS 2019 16:3
  4. This study investigated cerebrospinal fluid (CSF) hydrodynamics using cine phase-contrast MRI in the cerebral aqueduct and the prepontine cistern between three distinct groups: pre-shunt normal pressure hydroc...

    Authors: Robert B. Hamilton, Fabien Scalzo, Kevin Baldwin, Amber Dorn, Paul Vespa, Xiao Hu and Marvin Bergsneider
    Citation: Fluids and Barriers of the CNS 2019 16:2
  5. Type II diabetes is a vascular risk factor for cognitive impairment and increased risk of dementia. Disruption of the blood–retinal barrier (BRB) and blood–brain barrier (BBB) are hallmarks of subsequent retin...

    Authors: Therese S. Salameh, William G. Mortell, Aric F. Logsdon, D. Allan Butterfield and William A. Banks
    Citation: Fluids and Barriers of the CNS 2019 16:1
  6. Type 1 Chiari malformation (CM-I) has been historically defined by cerebellar tonsillar position (TP) greater than 3–5 mm below the foramen magnum (FM). Often, the radiographic findings are highly variable, wh...

    Authors: Braden J. Lawrence, Aintzane Urbizu, Philip A. Allen, Francis Loth, R. Shane Tubbs, Alexander C. Bunck, Jan-Robert Kröger, Brandon G. Rocque, Casey Madura, Jason A. Chen, Mark G. Luciano, Richard G. Ellenbogen, John N. Oshinski, Bermans J. Iskandar and Bryn A. Martin
    Citation: Fluids and Barriers of the CNS 2018 15:33
  7. The roles of the choroid plexus (CP) and cerebrospinal fluid (CSF) production have drawn increasing attention in Alzheimer’s disease (AD) research. Specifically, studies document markedly decreased CSF product...

    Authors: Shawn Kant, Edward G. Stopa, Conrad E. Johanson, Andrew Baird and Gerald D. Silverberg
    Citation: Fluids and Barriers of the CNS 2018 15:34
  8. The blood–brain barrier (BBB) plays a key role in regulating transport into and out of the brain. With increasing interest in the role of the BBB in health and disease, there have been significant advances in ...

    Authors: Jackson G. DeStefano, John J. Jamieson, Raleigh M. Linville and Peter C. Searson
    Citation: Fluids and Barriers of the CNS 2018 15:32
  9. The distribution of cranio-spinal compliance (CSC) in the brain and spinal cord is a fundamental question, as it would determine the overall role of the compartments in modulating ICP in healthy and diseased s...

    Authors: Ritambhar Burman, Noam Alperin, Sang H. Lee and Brigit Ertl-Wagner
    Citation: Fluids and Barriers of the CNS 2018 15:29
  10. Cerebrospinal fluid (CSF) analysis is a crucial method in the diagnostic process for suspected subarachnoid hemorrhage (SAH), especially when cerebral imaging is negative or inconclusive. CSF cytology (detecti...

    Authors: R. Dersch, D. Benkler, T. Robinson, A. Baumgartner, S. Rauer and O. Stich
    Citation: Fluids and Barriers of the CNS 2018 15:31
  11. This review considers efflux of substances from brain parenchyma quantified as values of clearances (CL, stated in µL g−1 min−1). Total clearance of a substance is the sum of clearance values for all available ro...

    Authors: Stephen B. Hladky and Margery A. Barrand
    Citation: Fluids and Barriers of the CNS 2018 15:30
  12. Nanotubular structures, denoted tunneling nanotubes (TNTs) have been described in recent times as involved in cell-to-cell communication between distant cells. Nevertheless, TNT-like, long filopodial processes...

    Authors: Mariella Errede, Domenica Mangieri, Giovanna Longo, Francesco Girolamo, Ignazio de Trizio, Antonella Vimercati, Gabriella Serio, Karl Frei, Roberto Perris and Daniela Virgintino
    Citation: Fluids and Barriers of the CNS 2018 15:28
  13. Cerebral edema can cause life-threatening increase in intracranial pressure. Besides surgical craniectomy performed in severe cases, osmotherapy may be employed to lower the intracranial pressure by osmotic ex...

    Authors: Eva Kjer Oernbo, Kasper Lykke, Annette Buur Steffensen, Kathrin Töllner, Christina Kruuse, Martin Fredensborg Rath, Wolfgang Löscher and Nanna MacAulay
    Citation: Fluids and Barriers of the CNS 2018 15:27
  14. Hypertension is an important risk factor for cerebrovascular disease, including stroke and dementia. Both in humans and animal models of hypertension, neuropathological features such as brain atrophy and oedem...

    Authors: Daphne M. P. Naessens, Judith de Vos, Ed VanBavel and Erik N. T. P. Bakker
    Citation: Fluids and Barriers of the CNS 2018 15:26
  15. Breakdown of the blood–brain barrier (BBB) or inner blood–retinal barrier (BRB), induced by pathologically elevated levels of vascular endothelial growth factor (VEGF) or other mediators, can lead to vasogenic...

    Authors: Esmeralda K. Bosma, Cornelis J. F. van Noorden, Reinier O. Schlingemann and Ingeborg Klaassen
    Citation: Fluids and Barriers of the CNS 2018 15:24
  16. Targeting endogenous blood–brain barrier (BBB) transporters such as organic anion transporting polypeptide 1a4 (Oatp1a4) can facilitate drug delivery for treatment of neurological diseases. Advancement of Oatp...

    Authors: Hrvoje Brzica, Wazir Abdullahi, Bianca G. Reilly and Patrick T. Ronaldson
    Citation: Fluids and Barriers of the CNS 2018 15:25
  17. Receptor-mediated transcytosis is one of the major routes for drug delivery of large molecules into the brain. The aim of this study was to develop a novel model of the human blood–brain barrier (BBB) in a hig...

    Authors: Nienke R. Wevers, Dhanesh G. Kasi, Taylor Gray, Karlijn J. Wilschut, Benjamin Smith, Remko van Vught, Fumitaka Shimizu, Yasuteru Sano, Takashi Kanda, Graham Marsh, Sebastiaan J. Trietsch, Paul Vulto, Henriëtte L. Lanz and Birgit Obermeier
    Citation: Fluids and Barriers of the CNS 2018 15:23
  18. Choroid plexus epithelial cells express high levels of transthyretin, produce cerebrospinal fluid and many of its proteins, and make up the blood-cerebrospinal fluid barrier. Choroid plexus epithelial cells ar...

    Authors: Brett A. Johnson, Margaret Coutts, Hillary M. Vo, Xinya Hao, Nida Fatima, Maria J. Rivera, Robert J. Sims, Michael J. Neel, Young-Jin Kang and Edwin S. Monuki
    Citation: Fluids and Barriers of the CNS 2018 15:22
  19. Idiopathic intracranial hypertension (IIH) is a condition of abnormally high intracranial pressure with an unknown etiology. The objective of this study is to characterize craniospinal compliance and measure t...

    Authors: Monica D. Okon, Cynthia J. Roberts, Ashraf M. Mahmoud, Andrew N. Springer, Robert H. Small, John M. McGregor and Steven E. Katz
    Citation: Fluids and Barriers of the CNS 2018 15:21
  20. Cerebrospinal fluid (CSF) circulation disturbances may occur during the course of disease in patients with glioblastoma. Ventriculoperitoneal shunting has generally been recommended to improve symptoms in glio...

    Authors: Bujung Hong, Manolis Polemikos, Hans E. Heissler, Christian Hartmann, Makoto Nakamura and Joachim K. Krauss
    Citation: Fluids and Barriers of the CNS 2018 15:16
  21. In Alzheimer’s disease, there are striking changes in CSF composition that relate to altered choroid plexus (CP) function. Studying CP tissue gene expression at the blood–cerebrospinal fluid barrier could prov...

    Authors: Edward G. Stopa, Keith Q. Tanis, Miles C. Miller, Elena V. Nikonova, Alexei A. Podtelezhnikov, Eva M. Finney, David J. Stone, Luiz M. Camargo, Lisan Parker, Ajay Verma, Andrew Baird, John E. Donahue, Tara Torabi, Brian P. Eliceiri, Gerald D. Silverberg and Conrad E. Johanson
    Citation: Fluids and Barriers of the CNS 2018 15:18
  22. Zika virus (ZIKV) is a flavivirus that is highly neurotropic causing congenital abnormalities and neurological damage to the central nervous systems (CNS). In this study, we used a human induced pluripotent st...

    Authors: Judie B. Alimonti, Maria Ribecco-Lutkiewicz, Caroline Sodja, Anna Jezierski, Danica B. Stanimirovic, Qing Liu, Arsalan S. Haqqani, Wayne Conlan and Mahmud Bani-Yaghoub
    Citation: Fluids and Barriers of the CNS 2018 15:15
  23. Prior research on 3-week hydrocephalic rats showed that behavioral deficits and white matter damage could be reduced by treatment with Ca2+ channel blocker nimodipine. We hypothesized that treatment with nimodipi...

    Authors: Domenico L. Di Curzio, Xiaoyan Mao, Aidan Baker and Marc R. Del Bigio
    Citation: Fluids and Barriers of the CNS 2018 15:14
  24. Cerebrospinal fluid (CSF) is thought to flow into the brain via perivascular spaces around arteries, where it mixes with interstitial fluid. The precise details concerning fluid outflow remain controversial. A...

    Authors: Shinuo Liu, Magdalena A. Lam, Alisha Sial, Sarah J. Hemley, Lynne E. Bilston and Marcus A. Stoodley
    Citation: Fluids and Barriers of the CNS 2018 15:13
  25. The vertebrate blood–brain barrier (BBB) is composed of cerebral microvascular endothelial cells (CEC). The BBB acts as a semi-permeable cellular interface that tightly regulates bidirectional molecular transp...

    Authors: Midrelle E. Noumbissi, Bianca Galasso and Monique F. Stins
    Citation: Fluids and Barriers of the CNS 2018 15:12
  26. X-linked adrenoleukodystrophy (X-ALD) is caused by mutations in the ABCD1 gene. 40% of X-ALD patients will convert to the deadly childhood cerebral form (ccALD) characterized by increased permeability of the brai...

    Authors: Catherine A. A. Lee, Hannah S. Seo, Anibal G. Armien, Frank S. Bates, Jakub Tolar and Samira M. Azarin
    Citation: Fluids and Barriers of the CNS 2018 15:9
  27. The Hydrocephalus Association Posthemorrhagic Hydrocephalus Workshop was held on July 25 and 26, 2016 at the National Institutes of Health. The workshop brought together a diverse group of researchers includin...

    Authors: Jenna E. Koschnitzky, Richard F. Keep, David D. Limbrick Jr., James P. McAllister II, Jill A. Morris, Jennifer Strahle and Yun C. Yung
    Citation: Fluids and Barriers of the CNS 2018 15:11
  28. Many studies have focused on the challenges of small molecule uptake across the blood–brain barrier, whereas few in-depth studies have assessed the challenges with the uptake of antibodies into the central ner...

    Authors: Qin Wang, Luisette Delva, Paul H. Weinreb, Robert B. Pepinsky, Danielle Graham, Elvana Veizaj, Anne E. Cheung, Weiping Chen, Ivan Nestorov, Ellen Rohde, Robin Caputo, Geoffrey M. Kuesters, Tonika Bohnert and Liang-Shang Gan
    Citation: Fluids and Barriers of the CNS 2018 15:10
  29. It has been estimated that paediatric meningitis without elevated CSF white cell count (pleocytosis) accounts for 0.5–12% of all cases of bacterial meningitis. CSF protein and glucose measurements are therefor...

    Authors: Mona Noureldein, Roxana Mardare, Jack Pickard, Hoi Lun Shing and Michael Eisenhut
    Citation: Fluids and Barriers of the CNS 2018 15:8
  30. Transwell-based models of the blood–brain barrier (BBB) incorporating monolayers of human brain microvascular endothelial cells (dhBMECs) derived from induced pluripotent stem cells show many of the key featur...

    Authors: Moriah E. Katt, Raleigh M. Linville, Lakyn N. Mayo, Zinnia S. Xu and Peter C. Searson
    Citation: Fluids and Barriers of the CNS 2018 15:7
  31. Many radiological signs are known for the diagnosis of idiopathic normal pressure hydrocephalus (iNPH). However, there is little information about these signs in the pre-symptomatic phase. For pathophysiologic...

    Authors: D. C. Engel, S. D. Adib, M. U. Schuhmann and C. Brendle
    Citation: Fluids and Barriers of the CNS 2018 15:5
  32. The blood–brain barrier (BBB) severely limits the entry of systemically administered drugs including chemotherapy to the brain. In rodents, regadenoson activation of adenosine A2A receptors causes transient BBB d...

    Authors: Sadhana Jackson, Jon Weingart, Edjah K. Nduom, Thura T. Harfi, Richard T. George, Dorothea McAreavey, Xiaobu Ye, Nicole M. Anders, Cody Peer, William D. Figg, Mark Gilbert, Michelle A. Rudek and Stuart A. Grossman
    Citation: Fluids and Barriers of the CNS 2018 15:2
  33. After publication of the article [1], it has been brought to our attention that there are some errors in the formatting of names in the final version of the article.

    Authors: John Greenwood, Margareta Hammarlund-Udenaes, Hazel C. Jones, Alan W. Stitt, Roosmarijn E. Vandenbroucke, Ignacio A. Romero, Matthew Campbell, Gert Fricker, Birger Brodin, Heiko Manninga, Pieter J. Gaillard, Markus Schwaninger, Carl Webster, Krzysztof B. Wicher and Michel Khrestchatisky
    Citation: Fluids and Barriers of the CNS 2018 15:3

    The original article was published in Fluids and Barriers of the CNS 2017 14:31

  34. para-Tyramine (p-TA) is a biogenic amine which is involved in multiple neuronal signal transductions. Since the concentration of p-TA in dog cerebrospinal fluid (CSF) has been reported to be ...

    Authors: Shin-ichi Akanuma, Yuhei Yamazaki, Yoshiyuki Kubo and Ken-ichi Hosoya
    Citation: Fluids and Barriers of the CNS 2018 15:1
  35. The spinal subarachnoid space (SSS) has a complex 3D fluid-filled geometry with multiple levels of anatomic complexity, the most salient features being the spinal cord and dorsal and ventral nerve rootlets. An...

    Authors: Lucas R. Sass, Mohammadreza Khani, Gabryel Connely Natividad, R. Shane Tubbs, Olivier Baledent and Bryn A. Martin
    Citation: Fluids and Barriers of the CNS 2017 14:36
  36. Neuroinflammation has been implicated in the pathophysiology of post-hemorrhagic hydrocephalus (PHH) of prematurity, but no comprehensive analysis of signaling molecules has been performed using human cerebros...

    Authors: Gakwaya Habiyaremye, Diego M. Morales, Clinton D. Morgan, James P. McAllister, Travis S. CreveCoeur, Rowland H. Han, Mohamed Gabir, Brandon Baksh, Deanna Mercer and David D. Limbrick Jr.
    Citation: Fluids and Barriers of the CNS 2017 14:35
  37. We previously described inflammatory cerebrospinal fluid (CSF) alterations in a subgroup of patients with schizophreniform disorders and the synthesis of polyspecific intrathecal antibodies against different n...

    Authors: Dominique Endres, Daniela Huzly, Rick Dersch, Oliver Stich, Benjamin Berger, Florian Schuchardt, Evgeniy Perlov, Nils Venhoff, Sabine Hellwig, Bernd L. Fiebich, Daniel Erny, Tilman Hottenrott and Ludger Tebartz van Elst
    Citation: Fluids and Barriers of the CNS 2017 14:34
  38. Opioids are currently the primary treatment method used to manage both acute and chronic pain. In the past two to three decades, there has been a surge in the use, abuse and misuse of opioids. The mechanism by...

    Authors: Charles P. Schaefer, Margaret E. Tome and Thomas P. Davis
    Citation: Fluids and Barriers of the CNS 2017 14:32
  39. Symptomatic intracerebral haemorrhage (sICH) following tissue-type plasminogen activator (rt-PA) administration is the most feared and lethal complication of thrombolytic therapy for ischaemic stroke, creating...

    Authors: Be’eri Niego, Brad R. S. Broughton, Heidi Ho, Christopher G. Sobey and Robert L. Medcalf
    Citation: Fluids and Barriers of the CNS 2017 14:33
  40. This is a report on the CNS barrier congress held in London, UK, March 22–23rd 2017 and sponsored by Kisaco Research Ltd. The two 1-day sessions were chaired by John Greenwood and Margareta Hammarlund-Udenaes,...

    Authors: John Greenwood, Margareta Hammarlund-Udenaes, Hazel C. Jones, Alan W. Stitt, Roosmarijn E. Vandenbroucke, Ignacio A. Romero, Matthew Campbell, Gert Fricker, Birger Brodin, Heiko Manninga, Pieter J. Gaillard, Markus Schwaninger, Carl Webster, Krzysztof B. Wicher and Michel Khrestchatisky
    Citation: Fluids and Barriers of the CNS 2017 14:31

    The Correction to this article has been published in Fluids and Barriers of the CNS 2018 15:3

  41. Atenolol, a hydrophilic beta blocker, has been used as a model drug for studying passive permeability of biological membranes such as the blood–brain barrier (BBB) and the intestinal epithelium. However, the e...

    Authors: Xiaomei Chen, Tim Slättengren, Elizabeth C. M. de Lange, David E. Smith and Margareta Hammarlund-Udenaes
    Citation: Fluids and Barriers of the CNS 2017 14:30
  42. Authors: Andrzej MaÅ‚ecki, Janina Skipor-Lahuta, Michal Toborek, N. Joan Abbott, David A. Antonetti, Enming Joe Su, Daniel A. Lawrence, Müge Atış, UÄŸur Akcan, Canan UÄŸur Yılmaz, Nurcan Orhan, Poyraz Düzgün, Umut Deniz Ceylan, Nadir Arıcan, Serçin KarahüseyinoÄŸlu, Gizem Nur Åžahin…
    Citation: Fluids and Barriers of the CNS 2017 14(Suppl 2):27

    This article is part of a Supplement: Volume 14 Supplement 2

  43. Magnetic resonance imaging (MRI) does not only ascertain morphological features, but also measures physiological properties such as fluid velocity or pressure gradient. The purpose of this study was to investi...

    Authors: Ken Takizawa, Mitsunori Matsumae, Naokazu Hayashi, Akihiro Hirayama, Satoshi Yatsushiro and Kagayaki Kuroda
    Citation: Fluids and Barriers of the CNS 2017 14:29