Servicecore – Do not remove
Service Cores
Indiana CTSI Research Service Cores and Resources
Purdue University
Bindley Bioscience Center
Biomolecular technologies, imaging and cytomics, bioinformatics support, and bionanotechnology with an emphasis on nanochemistry and functionalization of nanomaterials.
IU Indianapolis
Biospecimen Collection and Banking Core
The IUSCCC Biospecimen Collection and Banking Core (BC2) provides an extensive collection of well-annotated samples from patients with malignancy and normal controls to support studies exploring the biologic basis of cancer, move basic findings to the clinic, and probe the biology underlying clinical and population phenomena.
IU Indianapolis
Biostatistics and Health Data Science Core
The Biostatistics and Health Data Science Core collaborates with investigators in the planning, statistical design, data management, and analysis of health related clinical, laboratory and epidemiological research projects. Grant development assistance is provided without charge.
IU Indianapolis
Cellular Response Technologies Core
Conduct validated and highly reproducible in vitro and in vivo angiogenesis, endothelial, hematopoietic and multi-parametric flow cytometry assays and their role in normal and patient-related hematologic and cardiovascular disorders. The ABC also manages an IncuCyte Zoom and Seahorse XFp.
IU Indianapolis
Histology and Histomorphometry Core (HHC)
Histology and Histomorphetry Core (HHC) provides histological and histomorphometric services for basic science (non-clinical) research. Mineralized (plastic embedded), soft tissue (paraffin embedded), and cryopreserved specimens can be processed by the facility.
IU Indianapolis
Human Vascular Imaging Core (HVIC)
The HVIC performs functional and anatomic vascular imaging measuremetns (flow-mediated dilation and carotid intima-media thickness).
IU Indianapolis
Immunohistochemistry Research Lab (IHC Research Lab)
The Immunohistochemistry Research Lab specializes in assisting researchers with histologic and immunohistochemical labeling of cells or tissue sections as well as collaborations with surgical pathologists.
IU Indianapolis
In Vivo Therapeutics Core (IVT)
The In Vivo Therapeutics Core (IVTC) supports the research and development of safe and more efficacious drug treatment. The IVTC provides cost-effective and comprehensive services including, but not limited to, on-site breeding facilities as well as a numerous in vivo pharmacology models to facilitate the development and testing of novel pharmacological & cellular therapies.
IU Indianapolis
Indiana Center for Biological Microscopy (ICBM)
The ICBM provides researchers with access to laser-scanning confocal, 2-photon and epi-fluorescence microscopes (http://www.medicine.iupui.edu/ICBM/USING-THE-FACILITY). Center personnel train individual researchers to use all imaging systems and provide expert help in the design, conduct and analysis of imaging studies. As necessary, center personnel can also be hired to conduct microscopy studies for laboratories lacking the necessary expertise.
Notre Dame
Mass Spectrometry and Proteomics Facility
Analysis of large and small molecules using several ionization methods, low or high resolution, hyphenated techniques, proteomics, and metabolomics.
IU Indianapolis
Multiplex Analysis Core (MAC)
The Multiplex Analysis Core (MAC) offers microplate-based immunoassay systems that can perform multiplex analysis of multiple different analytes in a single sample. The MAC uses a Bio-Plex 200 Multiplex System with High Throughput Fluidics based on Luminex technology.
IU Bloomington
Oxidative Stress and Environmental Analysis Core
The Oxidative Stress Environmental Analysis Core laboratory has established a number of measurements for assessing oxidative stress and damage in a variety of biological samples with excellent accuracy and reproducibly using state of the art LC-MSMS, GC, and PCR equipment.
IU Indianapolis
SNRI Biomarker Core
The Stark Neurosciences Research Institute Biomarker Core provides biomarker services to investigators. Multiplexing of targets in tissues or on a slide, investigators can detect changes in their samples and target specific pathways of interest in disease.