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3. A Wave-Space Model for Acoustic Scattering from Elastic Cylinders

Author

NAVAL COASTAL SYSTEMS CENTER PANAMA CITY FL, Nelander, J. C., NAVAL COASTAL SYSTEMS CENTER PANAMA CITY FL, and Nelander, J. C.

Abstract

Starting from the wave equation, a formalism for acoustic scattering from minelike targets is derived. A spatial Fourier transform relationship between the target characteristic function and the Fourier or wave-space structure factor is discussed and illustrated. An empirical, plane-wave model for scattering from a finite right circular cylinder is dervied. Impedance boundary conditions are incorporated into the model for the cylinder., See also Rept. no. NCSC-TN-477.

Published
1979

4. Current Systems Deficiencies Report. Identified Deficiencies Between USAKA (United States Army Kwajalein Atoll) Instrumentation Capabilities and Users Needs.

Author

ENVIRONMENTAL RESEARCH INST OF MICHIGAN ANN ARBOR, Sampson, R. E., Nelander, J. C., ENVIRONMENTAL RESEARCH INST OF MICHIGAN ANN ARBOR, Sampson, R. E., and Nelander, J. C.

Abstract

This report describes the existing measurement capability at the United States Army Kwajalein Atoll. This is compared with reported current and projected user needs and shortfalls determined. This is part of a series of reports aimed at developing a long range plan for the sensors at Kwajalein. Keywords: Instrumentation shortfalls; Radar equipment; Optical equipment; Guided missile ranges; Army equipment; Sensors; Ballistic test measurements.

Published
1989

10. Tracking differentiating neural progenitors in pluripotent cultures using microRNA-regulated lentiviral vectors

Author

Jenny Nelander, Malin Parmar, Anders Björklund, Carolina Guibentif, Agnete Kirkeby, Luigi Naldini, Johan Jakobsson, Rohit Sachdeva, Marie E. Jönsson, Bernhard Gentner, Sachdeva, R, Jonsson, Me, Nelander, J, Kirkeby, A, Guibentif, C, Gentner, B, Naldini, Luigi, Bjorklund, A, Parmar, M, and Jakobsson, J.

Subjects
Cellular differentiation, Green Fluorescent Proteins, Cell Culture Techniques, Cell Separation, Biology, Viral vector, Mice, 03 medical and health sciences, 0302 clinical medicine, Animals, Humans, Cell Lineage, Progenitor cell, Induced pluripotent stem cell, Embryonic Stem Cells, 030304 developmental biology, Neurons, 0303 health sciences, Multidisciplinary, Stem Cells, Lentivirus, Cell Differentiation, Biological Sciences, Flow Cytometry, Embryonic stem cell, Cell biology, Transplantation, MicroRNAs, Cell culture, Stem cell, 030217 neurology & neurosurgery
Abstract

In this study, we have used a microRNA-regulated lentiviral reporter system to visualize and segregate differentiating neuronal cells in pluripotent cultures. Efficient suppression of transgene expression, specifically in undifferentiated pluripotent cells, was achieved by using a lentiviral vector expressing a fluorescent reporter gene regulated by microRNA-292. Using this strategy, it was possible to track progeny from murine ES, human ES cells, and induced pluripotent stem cells as they differentiated toward the neural lineage. In addition, this strategy was successfully used to FACS purify neuronal progenitors for molecular analysis and transplantation. FACS enrichment reduced tumor formation and increased survival of ES cell–derived neuronal progenitors after transplantation. The properties and versatility of the microRNA-regulated vectors allows broad use of these vectors in stem cell applications.

Published
2010
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11. Identifying secreted biomarkers of dopaminergic ventral midbrain progenitor cells.

Author

Rifes P, Isaksson M, Rusimbi C, Ramón Santonja A, Nelander J, Laurell T, and Kirkeby A

Subjects
Humans, Dopaminergic Neurons metabolism, Mesencephalon metabolism, Cell Differentiation physiology, Biomarkers metabolism, Pluripotent Stem Cells metabolism, Parkinson Disease therapy
Abstract

Background: Ventral midbrain (VM) dopaminergic progenitor cells derived from human pluripotent stem cells have the potential to replace endogenously lost dopamine neurons and are currently in preclinical and clinical development for treatment of Parkinson's Disease (PD). However, one main challenge in the quality control of the cells is that rostral and caudal VM progenitors are extremely similar transcriptionally though only the caudal VM cells give rise to dopaminergic (DA) neurons with functionality relevant for cell replacement in PD. Therefore, it is critical to develop assays which can rapidly and reliably discriminate rostral from caudal VM cells during clinical manufacturing., Methods: We performed shotgun proteomics on cell culture supernatants from rostral and caudal VM progenitor cells to search for novel secreted biomarkers specific to DA progenitors from the caudal VM. Key hits were validated by qRT-PCR and ELISA., Results: We identified and validated novel secreted markers enriched in caudal VM progenitor cultures (CPE, LGI1 and PDGFC), and found these markers to correlate strongly with the expression of EN1, which is a predictive marker for successful graft outcome in DA cell transplantation products. Other markers (CNTN2 and CORIN) were found to conversely be enriched in the non-dopaminergic rostral VM cultures. Key novel ELISA markers were further validated on supernatant samples from GMP-manufactured caudal VM batches., Conclusion: As a non-invasive in-process quality control test for predicting correctly patterned batches of caudal VM DA cells during clinical manufacturing, we propose a dual ELISA panel measuring LGI1/CORIN ratios around day 16 of differentiation., (© 2023. The Author(s).)

Published
2023
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12. Preclinical quality, safety, and efficacy of a human embryonic stem cell-derived product for the treatment of Parkinson's disease, STEM-PD.

Author

Kirkeby A, Nelander J, Hoban DB, Rogelius N, Bjartmarz H, Storm P, Fiorenzano A, Adler AF, Vale S, Mudannayake J, Zhang Y, Cardoso T, Mattsson B, Landau AM, Glud AN, Sørensen JC, Lillethorup TP, Lowdell M, Carvalho C, Bain O, van Vliet T, Lindvall O, Björklund A, Harry B, Cutting E, Widner H, Paul G, Barker RA, and Parmar M

Subjects
Humans, Rats, Animals, Tissue Distribution, Cell Differentiation physiology, Stem Cell Transplantation methods, Dopaminergic Neurons physiology, Human Embryonic Stem Cells, Parkinson Disease therapy
Abstract

Cell replacement therapies for Parkinson's disease (PD) based on transplantation of pluripotent stem cell-derived dopaminergic neurons are now entering clinical trials. Here, we present quality, safety, and efficacy data supporting the first-in-human STEM-PD phase I/IIa clinical trial along with the trial design. The STEM-PD product was manufactured under GMP and quality tested in vitro and in vivo to meet regulatory requirements. Importantly, no adverse effects were observed upon testing of the product in a 39-week rat GLP safety study for toxicity, tumorigenicity, and biodistribution, and a non-GLP efficacy study confirmed that the transplanted cells mediated full functional recovery in a pre-clinical rat model of PD. We further observed highly comparable efficacy results between two different GMP batches, verifying that the product can be serially manufactured. A fully in vivo-tested batch of STEM-PD is now being used in a clinical trial of 8 patients with moderate PD, initiated in 2022., Competing Interests: Declaration of interests M.P. is the owner of Parmar Cells AB. A.K. is the owner of Kirkeby Cell Therapy APS. M.P. and A.K. are co-inventors on patents WO2016162747A2/A3 and WO2019016113A1. M.P., A.K., R.A.B., H.W., H.B., A.B., E.C., D.B.H., G.P., and B.H. have performed paid consultancy for Novo Nordisk A/S, and members of NNCT R&D are current or previous employees of Novo Nordisk A/S. T.C., A.F.A., Y.Z., S.V., and D.B.H. performed the work as employees of Lund University but are currently employed by Novo Nordisk A/S (T.C., A.F.A., and S.V.), Takara Bio (Y.Z.), and D.B.H. at Eli Lilly and Company, where she is also a minor share holder. Novo Nordisk A/S is developing the STEM-PD product for commercial use., (Copyright © 2023 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2023
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13. High-protein compared with standard parenteral nutrition in palliative cancer care.

Author

Goodrose-Flores C, Schedin A, Nelander J, Almerud A, Trolle-Lagerros Y, Bonn S, and Björkhem-Bergman L

Subjects
Albumins therapeutic use, Enteral Nutrition, Humans, Palliative Care, Retrospective Studies, Neoplasms therapy, Parenteral Nutrition
Abstract

Objectives: High-protein parenteral nutrition (PN) has been developed to counteract muscle loss in patients with cancer treated with PN. Nevertheless, it is not clear if high-protein PN is as safe as standard PN in patients with palliative cancer. Our primary aim was to compare the proportion of patients with elevated liver enzymes between high-protein and standard PN in patients with palliative cancer enrolled to Medical Home Care. Our secondary aim was to compare the two treatments with regard to weight and albumin levels during treatment., Methods: Medical records from 2016 to 2018 were retrospectively reviewed to identify palliative cancer patients that had received PN for more than 3 weeks. Data on weight, height, albumin, liver enzymes, socioeconomic factors and dietitian consultations were collected at baseline and after 3-8 weeks of PN treatment. The odds of having elevated liver enzymes or having a maintained weight and/or stable albumin levels were calculated using logistic regression., Results: 20 patients treated with high-protein PN were compared with 104 patients treated with standard PN. Patients treated with high-protein PN had a significantly higher weight at follow-up compared with patients treated with standard PN (p<0.05). There was no significant difference in the proportion of patients with elevated liver enzymes (OR 0.20; 95% CI 0.02 to 1.86), or maintained weight and/or albumin levels (OR 1.62; 95% CI 0.46 to 5.76) between high-protein and standard PN., Conclusion: High-protein PN was as safe, and at least as effective, as standard PN to patients with palliative cancer., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2022. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2022
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14. Human foetal brain tissue as quality control when developing stem cells towards cell replacement therapy for neurological diseases.

Author

Nelander J, Grealish S, and Parmar M

Subjects
Cell- and Tissue-Based Therapy standards, Humans, Quality Control, Brain Tissue Transplantation standards, Embryonic Stem Cells, Fetal Tissue Transplantation standards, Neurodegenerative Diseases therapy
Abstract

Human foetal brain tissue has been used in experimental and clinical trials to develop cell replacement therapy in neurodegenerative disorders such as Parkinson's disease and Huntington's disease. These pioneering clinical studies have shown proof of principle that cell replacement therapy can be effective and is worthwhile to develop as a therapeutic strategy for repairing the damaged brain. However, because of the limited availability of foetal brain material, and difficulties in producing standardized and quality-tested cell preparations from this source, there have been extensive efforts in investigating the potential use of alternative cell sources for generating a large number of transplantable, authentic neural progenitors and neurons. In this review, we highlight the value of using human foetal tissue as a reference material for quality control of acquired cell fate of in vitro generated neurons before and after transplantation.

Published
2013
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15. Generating regionalized neuronal cells from pluripotency, a step-by-step protocol.

Author

Kirkeby A, Nelander J, and Parmar M

Abstract

Human pluripotent stem cells possess the potential to generate cells for regenerative therapies in patients with neurodegenerative diseases, and constitute an excellent cell source for studying human neural development and disease modeling. Protocols for neural differentiation of human pluripotent stem cells have undergone significant progress during recent years, allowing for rapid and synchronized neural conversion. Differentiation procedures can further be combined with accurate and efficient positional patterning to yield regionalized neural progenitors and subtype-specific neurons corresponding to different parts of the developing human brain. Here, we present a step-by-step protocol for neuralization and regionalization of human pluripotent cells for transplantation studies or in vitro analysis.

Published
2013
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16. Identification of embryonic stem cell-derived midbrain dopaminergic neurons for engraftment.

Author

Ganat YM, Calder EL, Kriks S, Nelander J, Tu EY, Jia F, Battista D, Harrison N, Parmar M, Tomishima MJ, Rutishauser U, and Studer L

Subjects
Animals, Cell Differentiation, Cell Line, Cell Separation methods, Cell Survival, Dopaminergic Neurons cytology, Dopaminergic Neurons metabolism, Embryonic Stem Cells cytology, Embryonic Stem Cells metabolism, Genes, Reporter, Graft Survival, Luminescent Proteins genetics, Luminescent Proteins metabolism, Mesencephalon cytology, Mesencephalon metabolism, Mice, Mice, Transgenic, Neural Stem Cells cytology, Neural Stem Cells metabolism, Recombinant Proteins genetics, Recombinant Proteins metabolism, Transcriptome, Dopaminergic Neurons transplantation, Embryonic Stem Cells transplantation, Neural Stem Cells transplantation
Abstract

Embryonic stem cells (ESCs) represent a promising source of midbrain dopaminergic (DA) neurons for applications in Parkinson disease. However, ESC-based transplantation paradigms carry a risk of introducing inappropriate or tumorigenic cells. Cell purification before transplantation may alleviate these concerns and enable identification of the specific DA neuron stage most suitable for cell therapy. Here, we used 3 transgenic mouse ESC reporter lines to mark DA neurons at 3 stages of differentiation (early, middle, and late) following induction of differentiation using Hes5::GFP, Nurr1::GFP, and Pitx3::YFP transgenes, respectively. Transplantation of FACS-purified cells from each line resulted in DA neuron engraftment, with the mid-stage and late-stage neuron grafts being composed almost exclusively of midbrain DA neurons. Mid-stage neuron cell grafts had the greatest amount of DA neuron survival and robustly induced recovery of motor deficits in hemiparkinsonian mice. Our data suggest that the Nurr1+ stage (middle stage) of neuronal differentiation is particularly suitable for grafting ESC-derived DA neurons. Moreover, global transcriptome analysis of progeny from each of the ESC reporter lines revealed expression of known midbrain DA neuron genes and also uncovered previously uncharacterized midbrain genes. These data demonstrate remarkable fate specificity of ESC-derived DA neurons and outline a sequential stage-specific ESC reporter line paradigm for in vivo gene discovery.

Published
2012
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17. Generation of regionally specified neural progenitors and functional neurons from human embryonic stem cells under defined conditions.

Author

Kirkeby A, Grealish S, Wolf DA, Nelander J, Wood J, Lundblad M, Lindvall O, and Parmar M

Subjects
Aging pathology, Animals, Body Patterning drug effects, Body Patterning genetics, Cell Differentiation drug effects, Cell Differentiation genetics, Cell Lineage drug effects, Cell Lineage genetics, Cell Proliferation drug effects, Cell Survival drug effects, Cell Survival genetics, Cells, Cultured, Dopamine metabolism, Dopaminergic Neurons drug effects, Dopaminergic Neurons metabolism, Electrophysiological Phenomena drug effects, Embryonic Stem Cells drug effects, Embryonic Stem Cells metabolism, Gene Expression Regulation drug effects, Glycogen Synthase Kinase 3 antagonists & inhibitors, Glycogen Synthase Kinase 3 metabolism, Humans, Motor Activity drug effects, Neural Stem Cells drug effects, Neural Stem Cells metabolism, Neural Stem Cells transplantation, Neural Tube drug effects, Neural Tube embryology, Neurons drug effects, Neurons metabolism, Organ Specificity drug effects, Organ Specificity genetics, Phenotype, Protein Kinase Inhibitors pharmacology, Rats, Telencephalon cytology, Telencephalon drug effects, Telencephalon metabolism, Wnt Signaling Pathway drug effects, Wnt Signaling Pathway genetics, Cell Culture Techniques methods, Embryonic Stem Cells cytology, Neural Stem Cells cytology, Neurons cytology
Abstract

To model human neural-cell-fate specification and to provide cells for regenerative therapies, we have developed a method to generate human neural progenitors and neurons from human embryonic stem cells, which recapitulates human fetal brain development. Through the addition of a small molecule that activates canonical WNT signaling, we induced rapid and efficient dose-dependent specification of regionally defined neural progenitors ranging from telencephalic forebrain to posterior hindbrain fates. Ten days after initiation of differentiation, the progenitors could be transplanted to the adult rat striatum, where they formed neuron-rich and tumor-free grafts with maintained regional specification. Cells patterned toward a ventral midbrain (VM) identity generated a high proportion of authentic dopaminergic neurons after transplantation. The dopamine neurons showed morphology, projection pattern, and protein expression identical to that of human fetal VM cells grafted in parallel. VM-patterned but not forebrain-patterned neurons released dopamine and reversed motor deficits in an animal model of Parkinson's disease., (Copyright © 2012 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2012
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18. Direct conversion of human fibroblasts to dopaminergic neurons.

Author

Pfisterer U, Kirkeby A, Torper O, Wood J, Nelander J, Dufour A, Björklund A, Lindvall O, Jakobsson J, and Parmar M

Subjects
Action Potentials physiology, Animals, Cells, Cultured, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Fibroblasts cytology, Homeodomain Proteins genetics, Homeodomain Proteins metabolism, Humans, Mice, Neurons cytology, POU Domain Factors genetics, POU Domain Factors metabolism, Transcription Factors genetics, Transcription Factors metabolism, Cell Transdifferentiation physiology, Dopamine metabolism, Fibroblasts physiology, Neurons physiology
Abstract

Recent reports demonstrate that somatic mouse cells can be directly converted to other mature cell types by using combined expression of defined factors. Here we show that the same strategy can be applied to human embryonic and postnatal fibroblasts. By overexpression of the transcription factors Ascl1, Brn2, and Myt1l, human fibroblasts were efficiently converted to functional neurons. We also demonstrate that the converted neurons can be directed toward distinct functional neurotransmitter phenotypes when the appropriate transcriptional cues are provided together with the three conversion factors. By combining expression of the three conversion factors with expression of two genes involved in dopamine neuron generation, Lmx1a and FoxA2, we could direct the phenotype of the converted cells toward dopaminergic neurons. Such subtype-specific induced neurons derived from human somatic cells could be valuable for disease modeling and cell replacement therapy.

Published
2011
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19. Tracking differentiating neural progenitors in pluripotent cultures using microRNA-regulated lentiviral vectors.

Author

Sachdeva R, Jönsson ME, Nelander J, Kirkeby A, Guibentif C, Gentner B, Naldini L, Björklund A, Parmar M, and Jakobsson J

Subjects
Animals, Cell Differentiation, Cell Lineage, Cell Separation, Embryonic Stem Cells cytology, Flow Cytometry, Green Fluorescent Proteins metabolism, Humans, Mice, Cell Culture Techniques, Lentivirus genetics, MicroRNAs genetics, Neurons cytology, Stem Cells cytology
Abstract

In this study, we have used a microRNA-regulated lentiviral reporter system to visualize and segregate differentiating neuronal cells in pluripotent cultures. Efficient suppression of transgene expression, specifically in undifferentiated pluripotent cells, was achieved by using a lentiviral vector expressing a fluorescent reporter gene regulated by microRNA-292. Using this strategy, it was possible to track progeny from murine ES, human ES cells, and induced pluripotent stem cells as they differentiated toward the neural lineage. In addition, this strategy was successfully used to FACS purify neuronal progenitors for molecular analysis and transplantation. FACS enrichment reduced tumor formation and increased survival of ES cell-derived neuronal progenitors after transplantation. The properties and versatility of the microRNA-regulated vectors allows broad use of these vectors in stem cell applications.

Published
2010
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20. Organization of the human embryonic ventral mesencephalon.

Author

Nelander J, Hebsgaard JB, and Parmar M

Subjects
Basic Helix-Loop-Helix Transcription Factors biosynthesis, Cell Differentiation genetics, Cell Differentiation physiology, Dopamine physiology, Embryo, Mammalian metabolism, Female, Gene Expression Profiling, Gene Expression Regulation, Developmental, Hepatocyte Nuclear Factor 3-beta biosynthesis, Homeodomain Proteins biosynthesis, Humans, LIM-Homeodomain Proteins, Mesencephalon metabolism, Nerve Tissue Proteins biosynthesis, Neurogenesis physiology, Nuclear Receptor Subfamily 4, Group A, Member 2 biosynthesis, Transcription Factor Brn-3A biosynthesis, Transcription Factors biosynthesis, Tyrosine 3-Monooxygenase biosynthesis, Mesencephalon embryology, Neurons physiology
Abstract

The neurons in the ventral mesencephalon (VM) are organized into several nuclei consisting of distinct neuronal populations. These include the dopaminergic (DA) neurons of the substania nigra and ventral tegmental area, the oculomotor (OM) neurons that innervate the muscles controlling eye movement, and the reticular neurons of the red nucleus (RN) involved in motor control and coordination reviewed in Puelles (2007). The factors and genes that control the differentiation of the various neuronal populations in the VM have been extensively studied in the mouse and other model organisms but little is known about the progenitors and their protein expression in the developing human brain. In this study we analyze if key regulators identified in rodents are also expressed in the human VM during embryonic development. We report that BLBP and LMX1A mark the floor plate and that FOXA2 is expressed in both the floor plate and basal plate of the human VM. The proneural transcription factors NGN2 and MASH1 are expressed in the ventricular zone of the human VM within and lateral to the floor plate. The post-mitotic DA neurons express TH as well as NURR1 and PITX3. ISL1 and BRN3A can be used to detect the cells of OM and RN, respectively. We show that many key developmental control factors are expressed in a temporal and spatial manner in the human VM essentially corresponding to what has been observed in the mouse. This data therefore suggest similar roles for these factors also in human VM development and dopamine neurogenesis.

Published
2009
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21. Dopamine neuron precursors within the developing human mesencephalon show radial glial characteristics.

Author

Hebsgaard JB, Nelander J, Sabelström H, Jönsson ME, Stott S, and Parmar M

Subjects
Animals, Carrier Proteins metabolism, Cell Differentiation physiology, Cells, Cultured, Embryo, Mammalian, Excitatory Amino Acid Transporter 1 metabolism, Fatty Acid-Binding Protein 7, Fetus, Homeodomain Proteins metabolism, Humans, LIM-Homeodomain Proteins, Mesencephalon embryology, Mice, Nerve Tissue Proteins metabolism, Rats, SOXB1 Transcription Factors metabolism, Transcription Factors, Tumor Suppressor Proteins metabolism, Tyrosine 3-Monooxygenase metabolism, Dopamine metabolism, Embryonic Stem Cells physiology, Mesencephalon cytology, Neuroglia physiology, Neurons physiology
Abstract

Specification and differentiation of neural precursors into dopaminergic neurons within the ventral mesencephalon has been subject to much attention due to the implication of dopaminergic neurons in Parkinson's disease and the perspective of generating sources of therapeutically active cells to be used for cell replacement therapy for the disease. However, despite intensive research efforts, little is known about the characteristics of the dopamine neuron progenitors in human. We show that the dopamine neuron determinant LMX1a is expressed in the diencephalic and mesencephalic dopaminergic neuron domains during human development. Within the mesencephalon, LMX1a is expressed in the dopaminergic neurons and their progenitors located in the ventricular zone of the floor plate region. Furthermore, the neural progenitors in the developing human ventral mesencephalon have a radial morphology and express the radial glial markers Vimentin and BLBP. These radial glia are mitotic and act as precursors for the dopaminergic neurons. Finally, we show that progenitors isolated from the human ventral mesencephalon maintain their radial glial characteristics and neurogenic capacity after expansion in vitro, making them a promising future source of cells to be used in cell replacement therapy for Parkinson's disease., ((c) 2009 Wiley-Liss, Inc.)

Published
2009
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