CaMP Small Animal Core Facility
The Department of Cell and Molecular Physiology Core Facility provides Loyola University and outside researchers, including industry scientists, with a central resource for creating and studying cardiovascular physiology and pathophysiology in animal models on a fee-for-service basis. While the central focus of the facility is cardiovascular research, the techniques employed are useful to a number of investigators in other fields. Currently, the facility is conducting studies on burn and shock trauma, gene targeting, heart failure and other cardiovascular diseases. The core also provides laboratory teaching for various surgical techniques and echocardiography.
Core facilities have become a vital resource in today's research environment. As Federal support of research continues to decline, it is essential that Loyola offer centralized resources allowing the scientific community access to instruments, technologies, and services that may otherwise be unattainable. The CaMP small animal core facility is one of several core facilities open to Loyola University and outside researchers. Here are just a few ways we can contribute to your outstanding research:
- We provide customized model development to meet the individual needs of the researcher at a fraction of the cost of an initial equipment investment and maintenance.
- We assist researchers in writing internal IACUC and IRB protocols.
- Data is produced efficiently and consistently.
- Our staff has a broad knowledge base in cardiovascular physiology and animal surgery.
The CaMP small animal core facility has a large variety of equipment at is disposal. Here is a list of some of our frequently used equipment:
- Visualsonic Vevo 2100 with 4 probes for performing echocardiography in small animals ranging from mice to rabbits.
- Sequoia Echocardiographic Machine for large animal echocardiography
- Zeiss ophthalmic surgical/operative microscope OPMI 6-SDFC
- Omano dissecting microscope with light source
- Ventilators for both rats and mice
- Transonic PV Catheters for rats, mice and rabbits
- Stereotaxic apparatuses for brain cannulation/drug delivery
- Intubation kits for small animals
- Isoflurane anesthesia delivery systems
- Drug infusion pumps
- STARR Pulse Ox
- Accuscan Treadmills
- DSI Acquisition System & Implantable probes for Arterial Pressure or ECG monitoring in mice or rats
- iWorx ECG monitoring system
- Metabolic cages for
- Surgical tools, Sterilizers and much more!!!
1. Abrol N, de Tombe PP, Robia SL. Acute Inotropic and Lusitropic Effects of Cardiomyopathic R9C Mutation of Phospholamban. The Journal of Biological Chemistry. 2015;290(11):7130-7140. doi:10.1074/jbc.M114.630319.
2. Pallikkuth S, Blackwell DJ, Hu Z, et al. Phosphorylated Phospholamban Stabilizes a Compact Conformation of the Cardiac Calcium-ATPase. Biophysical Journal. 2013;105(8):1812-1821. doi:10.1016/j.bpj.2013.08.045.
3. Bidwell P, Blackwell DJ, Hou Z, Zima AV, Robia SL. Phospholamban Binds with Differential Affinity to Calcium Pump Conformers. The Journal of Biological Chemistry. 2011;286(40):35044-35050. doi:10.1074/jbc.M111.266759.
4. Kottam, A., J. Dubois, A. McElligott and K.K. Henderson. Novel Approach to Admittance to Volume Conversion for Ventricular Volume Measurement. Conf Proc IEEE Eng Med Biol Soc. 2011:2514-7, 2011
5. Govindan S., A. McElligott, S. Muthusamy, N. Nair, D. Barefield, J.L. Martin, E. Gongora, K.D. Greis, P.K. Luther, S. Winegrad, K.K. Henderson, and S. Sadayappan. Cardiac myosin binding protein-C is a potential diagnostic biomarker for myocardial infarction. J Mol Cell Cardiol. Jan; 52(1): 154-64, 2012.