Microscopy Image Browser: A Platform for Segmentation and Analysis of Multidimensional Datasets
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{"title"=>"Microscopy Image Browser: A Platform for Segmentation and Analysis of Multidimensional Datasets", "type"=>"journal", "authors"=>[{"first_name"=>"Ilya", "last_name"=>"Belevich", "scopus_author_id"=>"6506082474"}, {"first_name"=>"Merja", "last_name"=>"Joensuu", "scopus_author_id"=>"23035189700"}, {"first_name"=>"Darshan", "last_name"=>"Kumar", "scopus_author_id"=>"57187548300"}, {"first_name"=>"Helena", "last_name"=>"Vihinen", "scopus_author_id"=>"6602829836"}, {"first_name"=>"Eija", "last_name"=>"Jokitalo", "scopus_author_id"=>"6603491822"}], "year"=>2016, "source"=>"PLoS Biology", "identifiers"=>{"scopus"=>"2-s2.0-84961335080", "sgr"=>"84961335080", "issn"=>"15457885", "doi"=>"10.1371/journal.pbio.1002340", "pmid"=>"1000237817", "isbn"=>"1545-7885 (Electronic)\\r1544-9173 (Linking)", "pui"=>"607981244"}, "id"=>"e3b0a31e-642c-3ed5-a07c-96c9a983b231", "abstract"=>"Understanding the structure–function relationship of cells and organelles in their natural context requires multidimensional imaging. As techniques for multimodal 3-D imaging have become more accessible, effective processing, visualization, and analysis of large datasets are posing a bottleneck for the workflow. Here, we present a new software package for high-performance segmentation and image processing of multidimensional datasets that improves and facilitates the full utilization and quantitative analysis of acquired data, which is freely available from a dedicated website. The open-source environment enables modification and insertion of new plug-ins to customize the program for specific needs. We provide practical examples of program features used for processing, segmentation and analysis of light and electron microscopy datasets, and detailed tutorials to enable users to rapidly and thoroughly learn how to use the program.\\n\\nThis Community Page describes a freely available, open-source software that implements and integrates a range of manual and semi-automated segmentation tools for processing and quantifying light and electron microscopy data.", "link"=>"http://www.mendeley.com/research/microscopy-image-browser-platform-segmentation-analysis-multidimensional-datasets", "reader_count"=>106, "reader_count_by_academic_status"=>{"Unspecified"=>5, "Professor > Associate Professor"=>10, "Librarian"=>1, "Researcher"=>31, "Student > Doctoral Student"=>2, "Student > Ph. D. Student"=>22, "Student > Postgraduate"=>5, "Student > Master"=>11, "Other"=>4, "Student > Bachelor"=>8, "Professor"=>7}, "reader_count_by_user_role"=>{"Unspecified"=>5, "Professor > Associate Professor"=>10, "Librarian"=>1, "Researcher"=>31, "Student > Doctoral Student"=>2, "Student > Ph. D. Student"=>22, "Student > Postgraduate"=>5, "Student > Master"=>11, "Other"=>4, "Student > Bachelor"=>8, "Professor"=>7}, "reader_count_by_subject_area"=>{"Unspecified"=>10, "Engineering"=>8, "Biochemistry, Genetics and Molecular Biology"=>15, "Agricultural and Biological Sciences"=>46, "Medicine and Dentistry"=>4, "Neuroscience"=>5, "Physics and Astronomy"=>4, "Psychology"=>1, "Chemistry"=>1, "Social Sciences"=>2, "Computer Science"=>10}, "reader_count_by_subdiscipline"=>{"Engineering"=>{"Engineering"=>8}, "Medicine and Dentistry"=>{"Medicine and Dentistry"=>4}, "Neuroscience"=>{"Neuroscience"=>5}, "Chemistry"=>{"Chemistry"=>1}, "Social Sciences"=>{"Social Sciences"=>2}, "Physics and Astronomy"=>{"Physics and Astronomy"=>4}, "Psychology"=>{"Psychology"=>1}, "Agricultural and Biological Sciences"=>{"Agricultural and Biological Sciences"=>46}, "Computer Science"=>{"Computer Science"=>10}, "Biochemistry, Genetics and Molecular Biology"=>{"Biochemistry, Genetics and Molecular Biology"=>15}, "Unspecified"=>{"Unspecified"=>10}}, "reader_count_by_country"=>{"United States"=>3, "Finland"=>2, "United Kingdom"=>2, "Slovenia"=>1, "France"=>3, "Switzerland"=>2, "Germany"=>1}, "group_count"=>3}

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Figshare

  • {"files"=>["https://ndownloader.figshare.com/files/2620321"], "description"=>"<p>Generated models may be quantified to extract different parameters of the segmented objects and visualized using a number of programs. As an example, the volumes (μm<sup>3</sup>) and numbers of segmented mitochondria were calculated (the plot in red). The quantifications results can either be plotted directly in MIB or exported to MATLAB or Microsoft Excel. The manual measurements of angles, distances, caliper, and radius complement automatic quantification. The visualization of the mitochondria model (in green) is demonstrated using six alternative programs (the lower row).</p>", "links"=>[], "tags"=>["program features", "electron microscopy datasets", "Image processing", "software package", "segmentation", "imaging", "Microscopy Image Browser", "analysis", "Multidimensional Datasets"], "article_id"=>1632690, "categories"=>["Uncategorised"], "users"=>["Ilya Belevich", "Merja Joensuu", "Darshan Kumar", "Helena Vihinen", "Eija Jokitalo"], "doi"=>"https://dx.doi.org/10.1371/journal.pbio.1002340.g004", "stats"=>{"downloads"=>0, "page_views"=>28, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Quantification_and_visualization_of_results_are_the_final_steps_of_the_imaging_workflow_/1632690", "title"=>"Quantification and visualization of results are the final steps of the imaging workflow.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2016-01-05 14:56:25"}
  • {"files"=>["https://ndownloader.figshare.com/files/2620323"], "description"=>"<p>(A) A screenshot of the MIB user interface. The program menu, toolbar, and panels are highlighted. A brief description of each element is provided. (B) A dedicated website includes direct links for software download and covers various topics and aspects of MIB functionality. <i>Image credit</i>: <i>Ilya Belevich</i>, <i>on behalf of MIB</i>.</p>", "links"=>[], "tags"=>["program features", "electron microscopy datasets", "Image processing", "software package", "segmentation", "imaging", "Microscopy Image Browser", "analysis", "Multidimensional Datasets"], "article_id"=>1632692, "categories"=>["Uncategorised"], "users"=>["Ilya Belevich", "Merja Joensuu", "Darshan Kumar", "Helena Vihinen", "Eija Jokitalo"], "doi"=>"https://dx.doi.org/10.1371/journal.pbio.1002340.g005", "stats"=>{"downloads"=>1, "page_views"=>25, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_MIB_has_a_user_friendly_graphical_user_interface_and_is_freely_available_from_the_website_/1632692", "title"=>"MIB has a user-friendly graphical user interface and is freely available from the website.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2016-01-05 14:56:25"}
  • {"files"=>["https://ndownloader.figshare.com/files/2620329", "https://ndownloader.figshare.com/files/2620330", "https://ndownloader.figshare.com/files/2620331", "https://ndownloader.figshare.com/files/2620332", "https://ndownloader.figshare.com/files/2620333"], "description"=>"<div><p>Understanding the structure–function relationship of cells and organelles in their natural context requires multidimensional imaging. As techniques for multimodal 3-D imaging have become more accessible, effective processing, visualization, and analysis of large datasets are posing a bottleneck for the workflow. Here, we present a new software package for high-performance segmentation and image processing of multidimensional datasets that improves and facilitates the full utilization and quantitative analysis of acquired data, which is freely available from a dedicated website. The open-source environment enables modification and insertion of new plug-ins to customize the program for specific needs. We provide practical examples of program features used for processing, segmentation and analysis of light and electron microscopy datasets, and detailed tutorials to enable users to rapidly and thoroughly learn how to use the program.</p></div>", "links"=>[], "tags"=>["program features", "electron microscopy datasets", "Image processing", "software package", "segmentation", "imaging", "Microscopy Image Browser", "analysis", "Multidimensional Datasets"], "article_id"=>1632698, "categories"=>["Uncategorised"], "users"=>["Ilya Belevich", "Merja Joensuu", "Darshan Kumar", "Helena Vihinen", "Eija Jokitalo"], "doi"=>["https://dx.doi.org/10.1371/journal.pbio.1002340.s001", "https://dx.doi.org/10.1371/journal.pbio.1002340.s002", "https://dx.doi.org/10.1371/journal.pbio.1002340.s003", "https://dx.doi.org/10.1371/journal.pbio.1002340.s004", "https://dx.doi.org/10.1371/journal.pbio.1002340.s005"], "stats"=>{"downloads"=>4, "page_views"=>41, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Microscopy_Image_Browser_A_Platform_for_Segmentation_and_Analysis_of_Multidimensional_Datasets_/1632698", "title"=>"Microscopy Image Browser: A Platform for Segmentation and Analysis of Multidimensional Datasets", "pos_in_sequence"=>0, "defined_type"=>4, "published_date"=>"2016-01-05 14:56:27"}
  • {"files"=>["https://ndownloader.figshare.com/files/2620303"], "description"=>"<p>(A) Most common image formats can be imported to (left column) and exported from (right column) MIB. Most commonly used image processing tools are listed in the middle column (see MIB website for the full list). (B) Image segmentation workflow usually comprises a combination of several approaches. Datasets can be segmented iteratively using various manual and semiautomatic tools combined with quantification filtering of results in order to generate a model. Data in MIB are organized in four layers: Image (raw data), Selection (active layer for segmentation), Mask (an optional supporting layer for temporal storage of the segmentation results for evaluation and filtering), and Model (containing the final segmentation).</p>", "links"=>[], "tags"=>["program features", "electron microscopy datasets", "Image processing", "software package", "segmentation", "imaging", "Microscopy Image Browser", "analysis", "Multidimensional Datasets"], "article_id"=>1632683, "categories"=>["Uncategorised"], "users"=>["Ilya Belevich", "Merja Joensuu", "Darshan Kumar", "Helena Vihinen", "Eija Jokitalo"], "doi"=>"https://dx.doi.org/10.1371/journal.pbio.1002340.g001", "stats"=>{"downloads"=>4, "page_views"=>22, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_MIB_recognizes_a_large_array_of_imaging_formats_and_offers_many_essential_image_processing_tools_/1632683", "title"=>"MIB recognizes a large array of imaging formats and offers many essential image processing tools.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2016-01-05 14:56:24"}
  • {"files"=>["https://ndownloader.figshare.com/files/2620316"], "description"=>"<p>Five examples are given: in (A–D), the top row of each image shows a preprocessed slice and a segmentation overlay, and the bottom row shows the final 3-D visualization. Segmentation was done with MIB, and the 3-D rendering using different freeware (A–D) and commercial (E) software packages. (A) <i>Trypanosoma brucei</i> was chemically fixed and imaged with electron tomography (ET). Each Golgi cisternae (four shades of blue) was manually segmented using the brush tool, while ER and ER-derived vesicles (yellow) were segmented using a combination of the brush tool and shape interpolation. The resulting 3-D model was rendered directly in MIB. (B) A Huh-7 cell was high-pressure frozen and freeze-substituted, and a portion of the cell was subjected to ET [<a href=\"http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002340#pbio.1002340.ref011\" target=\"_blank\">11</a>]. ER (yellow) was segmented using the brush tool with shape interpolation and microtubules (magenta) using the line tracker tool. The resulting model was exported in the IMOD-compatible format and rendered in IMOD [<a href=\"http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002340#pbio.1002340.ref006\" target=\"_blank\">6</a>]. (C) A Huh-7 cell transiently expressing ssHRP-KDEL was cytochemically stained (dark precipitate) and imaged with a serial block-face scanning electron microscope (SB-EM) [<a href=\"http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002340#pbio.1002340.ref011\" target=\"_blank\">11</a>]. The ER network (yellow) was segmented semiautomatically using global black-and-white thresholding and further polished using quantification filtering [<a href=\"http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002340#pbio.1002340.ref011\" target=\"_blank\">11</a>]. The model was exported in the nearly raw raster data (NRRD) format and rendered in 3D Slicer [<a href=\"http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002340#pbio.1002340.ref008\" target=\"_blank\">8</a>]. (D) Mouse cochlea was perilymphatically fixed, and the sensory epithelium of the medial part of the cochlear duct was imaged with SB-EM [<a href=\"http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002340#pbio.1002340.ref013\" target=\"_blank\">13</a>]. Different cell types of the organ of Corti (inner hairs in green, outer hair cells in yellow, external rod in vermilion, internal rod in sapphire blue, and phalangeal part of the Deiters’ cells in greyish blue) were segmented using local thresholding combined with shape interpolation and model rendered using 3D Slicer. (E) Stepwise segmentation workflow is needed to generate a 3-D model of a complex structure. A metaphase Huh-7 cell transiently expressing ssHRP-KDEL was cytochemically stained (dark precipitate in ER lumen) and imaged with SB-EM [<a href=\"http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002340#pbio.1002340.ref010\" target=\"_blank\">10</a>]. The modelling workflow for ER consists of 13 steps (<a href=\"http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002340#pbio.1002340.s002\" target=\"_blank\">S1 Table</a>). For the visualization, the model was exported in the AmiraMesh format and rendered in Amira. Scale bars: A, B 500 nm; C, D, E 5 μm.</p>", "links"=>[], "tags"=>["program features", "electron microscopy datasets", "Image processing", "software package", "segmentation", "imaging", "Microscopy Image Browser", "analysis", "Multidimensional Datasets"], "article_id"=>1632685, "categories"=>["Uncategorised"], "users"=>["Ilya Belevich", "Merja Joensuu", "Darshan Kumar", "Helena Vihinen", "Eija Jokitalo"], "doi"=>"https://dx.doi.org/10.1371/journal.pbio.1002340.g002", "stats"=>{"downloads"=>4, "page_views"=>40, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_The_selection_of_the_best_suitable_tool_for_segmentation_depends_on_specimen_and_object_of_interest_/1632685", "title"=>"The selection of the best suitable tool for segmentation depends on specimen and object of interest.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2016-01-05 14:56:25"}
  • {"files"=>["https://ndownloader.figshare.com/files/2620318"], "description"=>"<p>(A) The Random Forest classifier was used to segment ER from wide-field time-lapse LM videos of Huh-7 cells. Labels were assigned (central image) to mark ER (Hsp47-GFP marker seen in green) and background (red), which were then used to train the classifier and segment ER throughout the time-lapse video (right image). (B) The semiautomatic watershed segmentation was used for segmentation of nucleus in the sieve element of <i>A</i>. <i>thaliana</i> root imaged with SB-EM [<a href=\"http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002340#pbio.1002340.ref014\" target=\"_blank\">14</a>]. Assigning of just two labels (green for nucleus and vermilion for background) was sufficient to segment the complete nucleus in 3-D (light blue, image on the right). (C) The separation of the fused objects using the watershed segmentation. The human U251MG astrocytoma cells were loaded with oleic acid producing a large amount of lipid droplets (LDs) (left image) that tend to form clusters. LDs were segmented using marker-controlled watershed; however, because of close proximity, most of the LDs appear merged (the second image). The object separation mode of the watershed tool was used to separate individual LDs for quantitative analysis (third and fourth images). The 3-D models were rendered with 3D Slicer [<a href=\"http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.1002340#pbio.1002340.ref008\" target=\"_blank\">8</a>]. Scale bars: 2 μm.</p>", "links"=>[], "tags"=>["program features", "electron microscopy datasets", "Image processing", "software package", "segmentation", "imaging", "Microscopy Image Browser", "analysis", "Multidimensional Datasets"], "article_id"=>1632687, "categories"=>["Uncategorised"], "users"=>["Ilya Belevich", "Merja Joensuu", "Darshan Kumar", "Helena Vihinen", "Eija Jokitalo"], "doi"=>"https://dx.doi.org/10.1371/journal.pbio.1002340.g003", "stats"=>{"downloads"=>2, "page_views"=>22, "likes"=>0}, "figshare_url"=>"https://figshare.com/articles/_Semiautomatic_image_segmentation_in_MIB_can_dramatically_decrease_the_time_spent_on_modelling_/1632687", "title"=>"Semiautomatic image segmentation in MIB can dramatically decrease the time spent on modelling.", "pos_in_sequence"=>0, "defined_type"=>1, "published_date"=>"2016-01-05 14:56:24"}

PMC Usage Stats | Further Information

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  • {"unique-ip"=>"15", "full-text"=>"17", "pdf"=>"6", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"19", "supp-data"=>"6", "cited-by"=>"0", "year"=>"2016", "month"=>"2"}
  • {"unique-ip"=>"20", "full-text"=>"24", "pdf"=>"6", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"5", "supp-data"=>"5", "cited-by"=>"0", "year"=>"2016", "month"=>"3"}
  • {"unique-ip"=>"23", "full-text"=>"32", "pdf"=>"6", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"5", "supp-data"=>"1", "cited-by"=>"0", "year"=>"2016", "month"=>"4"}
  • {"unique-ip"=>"31", "full-text"=>"31", "pdf"=>"9", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"7", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2016", "month"=>"5"}
  • {"unique-ip"=>"28", "full-text"=>"32", "pdf"=>"9", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"16", "supp-data"=>"2", "cited-by"=>"0", "year"=>"2016", "month"=>"6"}
  • {"unique-ip"=>"29", "full-text"=>"29", "pdf"=>"6", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"8", "supp-data"=>"2", "cited-by"=>"0", "year"=>"2016", "month"=>"7"}
  • {"unique-ip"=>"16", "full-text"=>"14", "pdf"=>"0", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"11", "supp-data"=>"3", "cited-by"=>"0", "year"=>"2016", "month"=>"8"}
  • {"unique-ip"=>"21", "full-text"=>"20", "pdf"=>"7", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"14", "supp-data"=>"2", "cited-by"=>"0", "year"=>"2016", "month"=>"9"}
  • {"unique-ip"=>"27", "full-text"=>"25", "pdf"=>"4", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"9", "supp-data"=>"8", "cited-by"=>"0", "year"=>"2016", "month"=>"10"}
  • {"unique-ip"=>"23", "full-text"=>"23", "pdf"=>"6", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"15", "supp-data"=>"5", "cited-by"=>"0", "year"=>"2016", "month"=>"11"}
  • {"unique-ip"=>"13", "full-text"=>"13", "pdf"=>"0", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"10", "supp-data"=>"5", "cited-by"=>"0", "year"=>"2016", "month"=>"12"}
  • {"unique-ip"=>"15", "full-text"=>"13", "pdf"=>"6", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"5", "supp-data"=>"3", "cited-by"=>"0", "year"=>"2017", "month"=>"1"}
  • {"unique-ip"=>"18", "full-text"=>"19", "pdf"=>"2", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"7", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2017", "month"=>"2"}
  • {"unique-ip"=>"21", "full-text"=>"18", "pdf"=>"3", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"8", "supp-data"=>"0", "cited-by"=>"1", "year"=>"2017", "month"=>"3"}
  • {"unique-ip"=>"16", "full-text"=>"14", "pdf"=>"2", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"3", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2017", "month"=>"4"}
  • {"unique-ip"=>"25", "full-text"=>"30", "pdf"=>"1", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"5", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2017", "month"=>"5"}
  • {"unique-ip"=>"24", "full-text"=>"28", "pdf"=>"7", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"11", "supp-data"=>"6", "cited-by"=>"0", "year"=>"2017", "month"=>"6"}
  • {"unique-ip"=>"15", "full-text"=>"15", "pdf"=>"3", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"5", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2017", "month"=>"7"}
  • {"unique-ip"=>"18", "full-text"=>"23", "pdf"=>"4", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"12", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2017", "month"=>"8"}
  • {"unique-ip"=>"47", "full-text"=>"50", "pdf"=>"5", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"27", "supp-data"=>"3", "cited-by"=>"0", "year"=>"2017", "month"=>"9"}
  • {"unique-ip"=>"40", "full-text"=>"41", "pdf"=>"3", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"7", "supp-data"=>"3", "cited-by"=>"0", "year"=>"2017", "month"=>"10"}
  • {"unique-ip"=>"31", "full-text"=>"35", "pdf"=>"7", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"34", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2017", "month"=>"11"}
  • {"unique-ip"=>"21", "full-text"=>"20", "pdf"=>"5", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"4", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2017", "month"=>"12"}
  • {"unique-ip"=>"30", "full-text"=>"36", "pdf"=>"7", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"15", "supp-data"=>"2", "cited-by"=>"0", "year"=>"2018", "month"=>"1"}
  • {"unique-ip"=>"36", "full-text"=>"35", "pdf"=>"10", "abstract"=>"0", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"10", "supp-data"=>"4", "cited-by"=>"0", "year"=>"2018", "month"=>"3"}
  • {"unique-ip"=>"22", "full-text"=>"30", "pdf"=>"12", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"1", "supp-data"=>"8", "cited-by"=>"0", "year"=>"2019", "month"=>"1"}
  • {"unique-ip"=>"28", "full-text"=>"28", "pdf"=>"2", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"5", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2018", "month"=>"5"}
  • {"unique-ip"=>"24", "full-text"=>"25", "pdf"=>"2", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"0", "supp-data"=>"4", "cited-by"=>"0", "year"=>"2018", "month"=>"6"}
  • {"unique-ip"=>"28", "full-text"=>"27", "pdf"=>"5", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"8", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2018", "month"=>"4"}
  • {"unique-ip"=>"32", "full-text"=>"32", "pdf"=>"2", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"0", "supp-data"=>"2", "cited-by"=>"5", "year"=>"2018", "month"=>"7"}
  • {"unique-ip"=>"26", "full-text"=>"31", "pdf"=>"3", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"1", "supp-data"=>"4", "cited-by"=>"0", "year"=>"2018", "month"=>"8"}
  • {"unique-ip"=>"32", "full-text"=>"35", "pdf"=>"6", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"0", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2018", "month"=>"9"}
  • {"unique-ip"=>"22", "full-text"=>"23", "pdf"=>"1", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"0", "supp-data"=>"1", "cited-by"=>"0", "year"=>"2018", "month"=>"10"}
  • {"unique-ip"=>"18", "full-text"=>"18", "pdf"=>"2", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"0", "supp-data"=>"3", "cited-by"=>"0", "year"=>"2018", "month"=>"11"}
  • {"unique-ip"=>"22", "full-text"=>"31", "pdf"=>"8", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"1", "supp-data"=>"2", "cited-by"=>"0", "year"=>"2018", "month"=>"12"}
  • {"unique-ip"=>"20", "full-text"=>"24", "pdf"=>"4", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"1", "supp-data"=>"0", "cited-by"=>"1", "year"=>"2019", "month"=>"2"}
  • {"unique-ip"=>"21", "full-text"=>"21", "pdf"=>"2", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"4", "supp-data"=>"0", "cited-by"=>"1", "year"=>"2019", "month"=>"3"}
  • {"unique-ip"=>"20", "full-text"=>"20", "pdf"=>"3", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"3", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2019", "month"=>"4"}
  • {"unique-ip"=>"24", "full-text"=>"28", "pdf"=>"8", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"0", "supp-data"=>"5", "cited-by"=>"0", "year"=>"2019", "month"=>"5"}
  • {"unique-ip"=>"20", "full-text"=>"18", "pdf"=>"8", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"5", "supp-data"=>"0", "cited-by"=>"0", "year"=>"2019", "month"=>"8"}
  • {"unique-ip"=>"19", "full-text"=>"20", "pdf"=>"4", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"2", "supp-data"=>"1", "cited-by"=>"0", "year"=>"2019", "month"=>"9"}
  • {"unique-ip"=>"26", "full-text"=>"27", "pdf"=>"7", "scanned-summary"=>"0", "scanned-page-browse"=>"0", "figure"=>"1", "supp-data"=>"2", "cited-by"=>"0", "year"=>"2019", "month"=>"10"}

Relative Metric

{"start_date"=>"2016-01-01T00:00:00Z", "end_date"=>"2016-12-31T00:00:00Z", "subject_areas"=>[]}
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