PerkinElmer

1.999赔率彩票网

OF

提取有效信息,提高置信度。我们的1.999赔率彩票网可以助您从细胞,组织或小动物活体样本中挖掘有价值的信息,推动转化医学的研究进展。

  • 高内涵: 利用我们的高内涵分析软件,解读细胞学数据,分析复杂的细胞模型,识别表型,有效管理海量高内涵数据。
  • 活体成像: 利用我们的活体影响软件分析复杂的活体数据,无论是2D还是3D光学数据,或是CT数据的综合分析都可以。
  • 组织样品: 组织原位的多标记染色图像分析,可以对细胞表型进行鉴别和统计定量。

仅供科学研究,非临床诊断用途。

产品与服务 (12)
Filters:

Filters :

型号兼容
  • Operetta CLS AND Opera Phenix (1)
  • Operetta (1)

1-12 的 12 产品与服务

  • HALO Link collaborative pathology information system

    HALO Link Collaborative Pathology Information System

    PerkinElmer has partnered with Indica Labs to bring to you HALO Link Collaborative Pathology Information System. HALO Link combines cloud-based image management with HALO image analysis and is compatible with images acquired on the Vectra®, Vectra Polaris and Mantra Multiplex Biomarker Imaging Systems.
  • HALO image analysis software for quantification of whole slide and multispectral imagery

    HALO Image Analysis Software

    PerkinElmer has partnered with Indica Labs to offer HALO, a full suite of image analysis solutions to extend quantification of biomarkers to whole tissue samples. HALO is an expandable, modular platform that enables fast and easy quantification of biomarkers in brightfield and fluorescent whole slide imagery and multispectral fields-of-view, ideal for use in immuno-oncology, neuroscience and many other research areas. It is compatible with images acquired on the Vectra®, Vectra Polaris and Mantra multiplex biomarker imaging systems.
  • Fluorescence tomograhy of mouse analyzed with TrueQuant

    TrueQuant Imaging Software

    Fluorescence Tomography Acquisition and Analysis for FMT Platform

    TrueQuant software makes 3D fluorescence tomography easy with streamlined tools for data management, automatic reconstruction, and high throughput data analysis.

  • Separation bone and vascular contrast agent using Living Image

    Living Image Software – IVIS Spectrum Series

    Advanced Acquisition and Analysis Tools for IVIS® Spectrum Imaging Systems

    Living Image® advanced in vivo imaging software designed for the IVIS Spectrum platform simplifies even the most complex image acquisition and analysis of bioluminescent and fluorescent probes. The Living Image software version for the IVIS Spectrum platform includes all 2D features of the IVIS Lumina software but adds 3D data analysis including optical tomography and co-registration with other modalities, Living Image in vivo imaging software sets the industry standard for ease of use and flexibility.
  • PreciScan intelligent acquisition software lets you first pre-scan at low magnification

    PreciScan Intelligent Acquisition

    Harness the power of intelligent image acquisition with PreciScan for more efficient high-content imaging and analysis. This optional plug-in for Harmony high-content analysis software enables you to more accurately target your object of interest for significantly reduced acquisition and analysis times, particularly valuable for 3D microtissue and rare event studies.
  • inForm monitor

    inForm Tissue Finder

    inForm® Tissue Finder adds exceptional functionality to inForm Cell Analysis to automate the detection and segmentation of specific tissues through powerful patented pattern recognition algorithms. Automation provides consistent reproducible results and enables comparative studies of multiple markers and specimens, supporting researchers to make faster discoveries of the indicators of disease.
  • Mice imaging using IVIS Lumina and Living Image Software

    Living Image Software – IVIS Lumina Series

    Advanced Acquisition and Analysis Tools for IVIS® Lumina Imaging Systems

    Living Image® advanced in vivo imaging software designed for the IVIS Lumina platform simplifies even the most complex image acquisition and analysis of 2D bioluminescent and fluorescent probes. With streamlined interfaces and workflows for longitudinal analysis of 2D data including co-registration with X-ray in applicable IVIS Lumina systems, Living Image in vivo imaging software sets the industry standard for ease of use and flexibility.
  • MicroCT Imaging Bone segmentation using AccuCT Software

    AccuCT microCT Analysis Software

    Advanced Bone Analysis for Quantum microCT Imaging Systems

    With AccuCT™ advanced microCT imaging software, researchers can perform ASBMR (American Society for Bone and Mineral Research) bone morphometry and BMD (Bone Mineral Density) analysis on data acquired on their Quantum (FX and GX) microCT system with just a few mouse clicks.
  • Harmony Software 1

    Harmony High-Content Imaging and Analysis Software

    Easily quantify complex cellular phenotypes with Harmony® high-content analysis software. Harmony software is designed for PerkinElmer high-content screening systems.
  • inForm monitor

    inForm Cell Analysis

    inForm® Cell Analysis enables quantitative per cell analysis of immunohistochemistry (IHC), immunofluorescence (IF), and RNA in-situ hybridization, enabling the separation of weak and spectrally overlapping markers, in single and multiplex assays.
  • Phenologic 1

    PhenoLOGIC Machine Learning

    PhenoLOGIC enables biologists using Harmony to train the software to develop the image analysis algorithms. While other systems may require an image analysis expert to create an algorithm, PhenoLOGIC uses proprietary machine-learning technology to make it easy for you to do it on your own. Using a learn-by-example approach, images can be segmented with just a few clicks of the mouse and then tailored algorithms developed quickly and easily.
  • Multimodality imaging PET, microCT, FLIT, using VivoQuant

    Multimodality Imaging Software Solutions

    When Modalities Combine You See Disease In All Its Dimensions

    Maximize your data and gain unique insights into your research by combining images from multiple modalities, including optical, microCT, and PET. Co-registration allows researchers to overlay images from multiple imaging modalities, providing more comprehensive insight into the molecular and anatomical features of a model subject.
Business Insights (3)
Filters:

1-3 的 3 Business Insights

  • 应用文献

    用高内涵筛选系统进行FRET测定

    在这个实验中,我们建立了一种快速稳定的基于FRET的高内涵检测...

  • 应用文献

    MicroCT Investigation of Bone Erosion and Deformation in an Osteoarthritic Rat Model

    Osteoarthritis (OA) is the most common form of arthritis and affects a considerable portion of the elderly population. In the U.S., it is estimated that more than 630 million people worldwide have this chronic condition, generally in the knees. OA occurs when the cartilage that cushions the ends of bones within the joints gradually deteriorates, causing synovitis and joint deformation.

    The goal of OA research is to identify new therapeutic strategies that could prevent, reduce, halt progression, or repair the existing damage to the joint. Non-invasive in vivo imaging such as microCT is the standard modality for bone research due to its ability to obtain high-resolution images at an x-ray dose low enough as not to harm the animal. This makes microCT ideal for monitoring disease progression and response to treatments in the same animal over time. However, microCT data visualization and analysis can be cumbersome and time consuming. In this application note, we compared standard microCT software and advanced bone software to investigate bone erosion in an OA rat model.

  • 应用文献

    Imaging Bile Canaliculi in 3D Liver Microtissues using the Opera Phenix HCS System

    Analyzing transport of biliary metabolites is essential to predict pharmacokinetics and hepatotoxicity during drug development. A functional impairment of hepatobilary transporters, such as bile salt export pump (BSEP) and multidrug resistance-associated protein 2 (MRP-2), is strongly associated with an increased risk of cholestatic liver injury. Here, we describe a 3D high-content screening assay to study hepatobiliary transporter function in InSphero human liver microtissues. Confocal imaging and automated image analysis were used to quantify BSEP and MRP-2-mediated efflux of fluorescent substrates into bile canaliculi.