MBF Bioscience receives NIH funding to support innovative research program on the peripheral nervous system

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FOR IMMEDIATE RELEASE

MBF Bioscience Williston, VT – January 9, 2019 – MBF Bioscience is pleased to announce our participation in the Stimulating Peripheral Activity to Relieve Conditions (SPARC) program. Funded by the National Institutes of Health (NIH), this extensive research initiative is a vast collaborative effort, which aims to deepen the understanding of how the peripheral nervous system impacts internal organ function.

“We are honored to be working in collaboration with over 40 research teams in the United States and around the world who are making revolutionary discoveries about how the network of nerves located outside the brain and spinal cord affect organs such as the heart, stomach, and bladder, and what role these nerves play in diseases like hypertension and type II diabetes as well as gastrointestinal and inflammatory disorders,” says Jack Glaser, President of MBF Bioscience.

To facilitate this important research, MBF Bioscience will provide the collaborating research scientists with both software and support. Specifically, we will provide image segmentation tools developed to handle large and diverse amounts of scientific image data. Software applications such as Neurolucida 360®, Tissue Mapper™ and Tissue Maker™ will enable researchers to image and analyze nerves, tissues, and entire organs in 2D and 3D.

“Representing the innervation patterns accurately and robustly is an essential contribution to the generation of representative models that can be used for simulations.  We are working with our partners at the University of Auckland, under the direction of Professor Peter Hunter, to create these models for each organ system that will be an enduring resource for scientists for years to come,” says Susan Tappan, Scientific Director at MBF Bioscience.

Researchers involved in the SPARC program are making important advances in health and medicine, which may lead to the development of new therapies for managing an array of illnesses and disorders. Some examples of research areas include subcutaneous nerve stimulation for arrhythmia control, sensory neuromodulation of the esophagus, and mapping of the neural circuitry of bone marrow. We are thrilled about this opportunity to work in partnership with such an impressive array of research teams on this ground-breaking project.

About MBF Bioscience
MBF Bioscience creates quantitative imaging and visualization software for stereology, neuron reconstruction, vascular analysis, C. elegans behavior analysis, and medical education—integrated with the world’s leading microscope systems—to empower research. Our development team and staff scientists are actively engaged with leading bioscience researchers, and constantly work to refine our products based on state-of-the-art scientific advances.

Founded as MicroBrightField, Inc. in 1988, we changed our name to MBF Bioscience in 2005 to reflect the expansion of our products and services to new microscopy techniques in all fields of biological research and education. While we continue to specialize in neuroscience research, our products are also used extensively in pulmonary, cardiac, kidney, cancer, stem cell, and toxicology research.

Our commitment to innovative products and unrivaled customer support has gained high praise from distinguished scientists all over the world and resulted in MBF expanding into a global business with offices in North America, Europe, Japan, and China. Our flagship products, Stereo Investigator® and Neurolucida®, are the most widely-used analysis systems of their kind.

About SPARC

Stimulating Peripheral Activity to Relieve Conditions (SPARC) is a National Institutes of Health (NIH) program that focuses on understanding peripheral nerves — nerves that connect the brain and spinal cord to the rest of the body — and how their electrical signals control internal organ function. Methods and medical devices that modulate these nerve signals are a potentially powerful way to treat many diseases and conditions, such as hypertension, heart failure, gastrointestinal disorders, type II diabetes, inflammatory disorders, and more.

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Researchers cited MBF Bioscience systems in 9 papers between 12/14/2018 and 12/21/2018

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Stereo Investigator:

Kumar, A. J., Motta-Teixeira, L. C., Takada, S. H., Lee, V. Y., Machado-Nils, A. V., Xavier, G. F., & Nogueira, M. I. (2018). Behavioral, cognitive and histological changes following neonatal anoxia: male and female rats’ differences at adolescent age. International Journal of Developmental Neuroscience. doi: https://doi.org/10.1016/j.ijdevneu.2018.12.002.

Martínez Cerdeño, V., Hong, T., Amina, S., Lechpammer, M., Ariza, J., Tassone, F., . . . Hagerman, R. (2018). Microglial cell activation and senescence are characteristic of the pathology FXTAS. Movement Disorders, 0(0). doi: 10.1002/mds.27553.

Osipovitch, M., Asenjo Martinez, A., Mariani, J. N., Cornwell, A., Dhaliwal, S., Zou, L., . . . Goldman, S. A. (2018). Human ESC-Derived Chimeric Mouse Models of Huntington’s Disease Reveal Cell-Intrinsic Defects in Glial Progenitor Cell Differentiation. Cell Stem Cell. doi: https://doi.org/10.1016/j.stem.2018.11.010.

Neurolucida:

Chaaya, N., Jacques, A., Belmer, A., Richard, D. J., Bartlett, S. E., Battle, A. R., & Johnson, L. R. (2018). Localization of Contextual and Context Removed Auditory Fear Memory within the Basolateral Amygdala Complex. Neuroscience. doi: https://doi.org/10.1016/j.neuroscience.2018.12.004.

Eastwood, B. S., Hooks, B. M., Paletzki, R. F., O’Connor, N. J., Glaser, J. R., & Gerfen, C. R. (2018). Whole Mouse Brain Reconstruction and Registration to a Reference Atlas with Standard Histochemical Processing of Coronal Sections. Journal of Comparative Neurology, 0(ja), e24602. doi: 10.1002/cne.24602.  Continue reading “Researchers cited MBF Bioscience systems in 9 papers between 12/14/2018 and 12/21/2018” »

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Researchers cited MBF Bioscience systems in 14 papers between 12/7/2018 and 12/14/2018

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Stereo Investigator:

Aldehri, M., Temel, Y., Jahanshahi, A., & Hescham, S. (2018). Fornix deep brain stimulation induces reduction of hippocampal synaptophysin levels. Journal of Chemical Neuroanatomy. doi: https://doi.org/10.1016/j.jchemneu.2018.12.001.

Carrica, L., Li, L., Newville, J., Kenton, J., Gustus, K., Brigman, J., & Cunningham, L. A. (2019). Genetic inactivation of hypoxia inducible factor 1-alpha (HIF-1α) in adult hippocampal progenitors impairs neurogenesis and pattern discrimination learning. Neurobiology of Learning and Memory, 157, 79-85. doi: https://doi.org/10.1016/j.nlm.2018.12.002.

Fowke, T. M., Galinsky, R., Davidson, J. O., Wassink, G., Karunasinghe, R. N., Prasad, J. D., . . . Dean, J. M. (2018). Loss of interneurons and disruption of perineuronal nets in the cerebral cortex following hypoxia-ischaemia in near-term fetal sheep. Scientific Reports, 8(1), 17686. doi: 10.1038/s41598-018-36083-y.

Gibson, E. M., Nagaraja, S., Ocampo, A., Tam, L. T., Wood, L. S., Pallegar, P. N., . . . Monje, M. (2018). Methotrexate Chemotherapy Induces Persistent Tri-glial Dysregulation that Underlies Chemotherapy-Related Cognitive Impairment. Cell. doi: https://doi.org/10.1016/j.cell.2018.10.049. Continue reading “Researchers cited MBF Bioscience systems in 14 papers between 12/7/2018 and 12/14/2018” »

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Researchers cited MBF Bioscience systems in 16 papers between 11/26/2018 and 12/7/2018

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Stereo Investigator

Beldick, S. R., Hong, J., Altamentova, S., Khazaei, M., Hundal, A., Zavvarian, M.-M., . . . Fehlings, M. G. (2018). Severe-combined immunodeficient rats can be used to generate a model of perinatal hypoxic-ischemic brain injury to facilitate studies of engrafted human neural stem cells. Plos one, 13(11). doi: 10.1371/journal.pone.0208105.

Guimarães, M. R., Soares, A. R., Cunha, A. M., Esteves, M., Borges, S., Magalhães, R., . . . Leite-Almeida, H. (2018). Evidence for lack of direct causality between pain and affective disturbances in a rat peripheral neuropathy model. Genes, Brain and Behavior, 0(ja), e12542. doi: 10.1111/gbb.12542.

Killoran, K. E., Kropp, L. E., Lindrose, A. R., Curtis, H. E., Cook, D., & Mitre, E. (2018). Rush desensitization with a single antigen induces subclinical activation of mast cells and protects against bystander challenge in dually sensitized mice. Clinical and Experimental Allergy, 0(ja). doi: 10.1111/cea.13323.

Korkmaz, O. T., Ay, H., Aytan, N., Carreras, I., Kowall, N. W., Dedeoglu, A., & Tuncel, N. (2018). Vasoactive Intestinal Peptide Decreases β-Amyloid Accumulation and Prevents Brain Atrophy in the 5xFAD Mouse Model of Alzheimer’s Disease. Journal of Molecular Neuroscience. doi: 10.1007/s12031-018-1226-8. Continue reading “Researchers cited MBF Bioscience systems in 16 papers between 11/26/2018 and 12/7/2018” »

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Researchers cited MBF Bioscience systems in 11 papers between 11/3/2018 and 11/26/2018

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Stereo Investigator

Buchman, A. S., Leurgans, S. E., VanderHorst, V. G. J. M., Nag, S., Schneider, J. A., & Bennett, D. A. (2018). Spinal motor neurons and motor function in older adults. Journal of Neurology. doi: 10.1007/s00415-018-9118-y.

Chew, C., Kiley, B. J., & Sengelaub, D. R. (2018). Neuroprotective effects on the morphology of somatic motoneurons following the death of neighboring motoneurons: A role for microglia? Developmental Neurobiology, 0(ja). doi: 10.1002/dneu.22652.

Karasawa, M., Yokouchi, K., Kawagishi, K., Moriizumi, T., & Fukushima, N. (2018). Effects of various lengths of hypoglossal nerve resection on motoneuron survival. Journal of Clinical Neuroscience. doi: https://doi.org/10.1016/j.jocn.2018.11.020.

Khattak, S., Gupta, N., Zhou, X., Pires, L., Wilson, B. C., & Yucel, Y. (2018). Non-invasive dynamic assessment of conjunctival melanomas using photoacoustic imaging. Experimental Eye Research. doi: https://doi.org/10.1016/j.exer.2018.11.014. Continue reading “Researchers cited MBF Bioscience systems in 11 papers between 11/3/2018 and 11/26/2018” »

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Researchers cited MBF Bioscience systems in 26 papers between 10/19/2018 and 11/2/2018

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Stereo Investigator

Castillo-Ruiz, A., Mosley, M., Jacobs, A. J., Hoffiz, Y. C., & Forger, N. G. (2018). Birth delivery mode alters perinatal cell death in the mouse brain. Proceedings of the National Academy of Sciences. doi: https://doi.org/10.1073/pnas.1811962115.

Chen, Y.-H., Lee, H.-J., Lee, M. T., Wu, Y.-T., Lee, Y.-H., Hwang, L.-L., . . . Chiou, L.-C. (2018). Median nerve stimulation induces analgesia via orexin-initiated endocannabinoid disinhibition in the periaqueductal gray. Proceedings of the National Academy of Sciences. doi: https://doi.org/10.1073/pnas.1807991115.

Garcia-Miralles, M., Yusof, N. A. B. M., Tan, J. Y., Radulescu, C. I., Sidik, H., Tan, L. J., . . . Pouladi, M. A. (2018). Laquinimod Treatment Improves Myelination Deficits at the Transcriptional and Ultrastructural Levels in the YAC128 Mouse Model of Huntington Disease. Molecular Neurobiology. doi: 10.1007/s12035-018-1393-1.

Illouz, T., Madar, R., Biragyn, A., & Okun, E. (2018). Restoring microglial and astroglial homeostasis using DNA immunization in a Down Syndrome mouse model. Brain, Behavior, and Immunity. doi: https://doi.org/10.1016/j.bbi.2018.10.004. Continue reading “Researchers cited MBF Bioscience systems in 26 papers between 10/19/2018 and 11/2/2018” »

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Huron Digital Pathology and MBF Bioscience Partner to Enable Large-scale, Repeatable Whole Slide Imaging Workflows for Life Science Research

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MBF Bioscience now offers customized models of Huron Digital Pathology’s TissueScope™, a line of whole slide scanners, and supports TissueScope images across its range of analysis software.

October 23, 2018 – Huron Digital Pathology and MBF Bioscience are proud to announce their partnership to offer customized models of Huron’s TissueScope whole slide scanners integrated with MBF’s Stereo Investigator® – Whole Slide Edition, NeuroInfo®, Biolucida®, and BrainMaker® software. The partnership gives researchers new tools to visualize and analyze tissue specimens throughout entire organs, large and small, at high-resolution.

“Combining our analysis software with Huron’s whole slide scanners means that researchers can get the most advanced systems for large-scale, repeatable whole slide imaging workflows,” says Jack Glaser, President of MBF Bioscience. “We are pleased to partner with Huron Digital Pathology to provide Huron/MBF whole slide research systems. As the recognized leader in the fields of stereology, brain mapping, and neuron tracing, we are proud to offer systems with such a distinguished company as Huron. This partnership will now allow researchers to effectively work with microscopic specimens that range in size from mice brains to human brains. It is invaluable for researchers working with large brain specimens, especially those investigating the microscopic intricacies of the human brain.”

“By partnering with MBF Bioscience, our goal is to help accelerate life science research,” says Patrick Myles, CEO of Huron Digital Pathology. “Being able to scan any size tissue and then easily manage, visualize, and quantify the data opens up amazing new possibilities for scientific research and exploration.”

The partnership enables Stereo Investigator, NeuroInfo, Biolucida, and BrainMaker software to efficiently provide quantitative analysis workflows for large sets of slides from both individual tissue sections and series of tissue sections. Stereo Investigator – Whole Slide Edition offers analyses for counting and measuring morphological aspects relevant to disease state characterization. BrainMaker and NeuroInfo offer full-resolution section alignment and brain mapping. Biolucida offers slide management and slide access for viewing and analysis at unprecedented speeds from any web-enabled device. The customized versions of TissueScope scanners are available for purchase from MBF Bioscience.

Continue reading “Huron Digital Pathology and MBF Bioscience Partner to Enable Large-scale, Repeatable Whole Slide Imaging Workflows for Life Science Research” »

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Researchers cited MBF Bioscience systems in 14 papers between 10/12/2018 and 10/19/2018

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Stereo Investigator

Issa, H. A., Staes, N., Diggs-Galligan, S., Stimpson, C. D., Gendron-Fitzpatrick, A., Taglialatela, J. P., . . . Sherwood, C. C. (2018). Comparison of bonobo and chimpanzee brain microstructure reveals differences in socio-emotional circuits. Brain Structure and Function. doi: 10.1007/s00429-018-1751-9.

Jiang, Y., Cao, Z., Ma, H., Wang, G., Wang, X., Wang, Z., . . . Feng, T. (2018). Auricular Vagus Nerve Stimulation Exerts Antiinflammatory Effects and Immune Regulatory Function in a 6-OHDA Model of Parkinson’s Disease. Neurochemical Research, 43(11), 2155-2164. doi: 10.1007/s11064-018-2639-z.

Nuber, S., Rajsombath, M., Minakaki, G., Winkler, J., Müller, C. P., Ericsson, M., . . . Selkoe, D. J. (2018). Abrogating Native α-Synuclein Tetramers in Mice Causes a L-DOPA-Responsive Motor Syndrome Closely Resembling Parkinson’s Disease. Neuron, 100(1), 75-90.e75. doi: https://doi.org/10.1016/j.neuron.2018.09.014.

Wood, T. E., Barry, J., Yang, Z., Cepeda, C., Levine, M. S., & Gray, M. (2018). Mutant huntingtin reduction in astrocytes slows disease progression in the bachd conditional Huntington’s disease mouse model. Human Molecular Genetics, ddy363-ddy363. doi: 10.1093/hmg/ddy363.  Continue reading “Researchers cited MBF Bioscience systems in 14 papers between 10/12/2018 and 10/19/2018” »

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Researchers cited MBF Bioscience systems in 12 papers between 10/5/2018 and 10/12/2018

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Stereo Investigator:

Dufour, B. D., & McBride, J. L. (2019). Normalizing glucocorticoid levels attenuates metabolic and neuropathological symptoms in the R6/2 mouse model of huntington’s disease. Neurobiology of Disease, 121, 214-229. doi: https://doi.org/10.1016/j.nbd.2018.09.025.

Heermann, T., Garrett, L., Wurst, W., Fuchs, H., Gailus-Durner, V., Hrabě de Angelis, M., . . . Hölter, S. M. (2018). Crybb2 Mutations Consistently Affect Schizophrenia Endophenotypes in Mice. Molecular Neurobiology. doi: 10.1007/s12035-018-1365-5.

Hussain, T., Kil, H., Hattiangady, B., Lee, J., Kodali, M., Shuai, B., . . . Aldaz, C. M. (2019). Wwox deletion leads to reduced GABA-ergic inhibitory interneuron numbers and activation of microglia and astrocytes in mouse hippocampus. Neurobiology of Disease, 121, 163-176. doi: https://doi.org/10.1016/j.nbd.2018.09.026.

Maxan, A., Mason, S., Saint-Pierre, M., Smith, E., Ho, A., Harrower, T., . . . Cicchetti, F. (2018). Outcome of cell suspension allografts in a patient with Huntington’s disease. Annals of Neurology, 0(ja). doi: 10.1002/ana.25354.

Southwell, A. L., Kordasiewicz, H. B., Langbehn, D., Skotte, N. H., Parsons, M. P., Villanueva, E. B., . . . Hayden, M. R. (2018). Huntingtin suppression restores cognitive function in a mouse model of Huntington’s disease. Science translational medicine, 10(461). doi: 10.1126/scitranslmed.aar3959
Continue reading “Researchers cited MBF Bioscience systems in 12 papers between 10/5/2018 and 10/12/2018” »

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Visit MBF Bioscience at Booth 2235 at SfN 2018 in San Diego

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Every year, we look forward to showcasing our new products and latest developments at the Society for Neuroscience’s annual meeting. This year, from November 3 – 7, we’ll be at SfN 2018 in San Diego, at Booth #2235, where our team of expert scientists and engineers will be on hand to offer personalized demonstrations of all of our products.

This year, we are thrilled to introduce two major new software solutions: Vesselucida 360, an application for reconstructing microvascular networks in 3D, and NeuroInfo for automatic identification of brain anatomy in your sections.

We are also excited to showcase the following:

➛ Software and systems

Continue reading “Visit MBF Bioscience at Booth 2235 at SfN 2018 in San Diego” »

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