printed circuit board development

Projects demonstrating this capability:

Electron Paramagnetic Resonance (EPR) Imaging of in-vivo Oxygen Status Associated with Cancer Treatment Studies

In this collaboration, EPR imaging technology is demonstrated to be a novel physiological imaging modality useful in obtaining maps of tissue oxygenation quantitatively and non-invasively with high spatial and temporal resolution. In vivo EPR imaging has been successfully implemented in small animal experiments, specifically in mouse models of human cancer to obtain information (e.g., dynamics of tumor physiology, hypoxia) critical for treatment selection (e.g., chemotherapy, anti-angiogenic drug therapy, and radiotherapy) and response monitoring.

EPR imaging system instrumentation

Hematoma Detector - A Practical Application of Instrumental Motion as Signal in Near Infra-Red Imaging

Functional neuroimaging, particularly functional MRI (fMRI) which provides a measure of regional brain blood flow during behavior, is widely used in the investigation of cognitive processes and has been proposed as a means of evaluating deficits due to traumatic brain injury (TBI) and guiding rehabilitation.

Test setup for prototype hematoma detector system

High-resolution Gamma Imager for Small Animal Imaging of Radioisotopes for Cancer Treatment

SPIS collaborated with NCI’s Molecular Imaging Program (MIP) to develop novel imaging systems used in the development of radionuclide-labeled compounds. Successfully developed radionuclide-labeled compounds offer the ultimate prospect of PET, SPECT and planar imaging in human subjects for medical diagnostic and management purposes.  Equally powerful applications exist in basic science when used for probe validation in small laboratory animals.

MONICA detector module and electronics

Illumination Control System for Mouse Visual Cycle Studies

The goal of this project is to enable light stress experiments at chronic light exposure duration on transgenic mice harboring knockin mutations in the RPE65 gene.

Image of System in NEI Animal Facility

Large Scale Sensor-based System for Mouse Cage Environment Monitoring (MIOS)

Rodents are used in large numbers at research institutions aiming to understand mechanisms of disease and develop new therapies. To assess a research hypothesis or treatment efficacy, for example, the behavior and welfare of the animal must be monitored. Traditional methods for behavior assessment rely on trained staff specialists performing daily checks of each cage.  Given the large number of cages housed in each institution, these manual checks are laborious and susceptible to bias.


Portable Fluorescence Camera System for Offsite Ovarian Tumor Imaging

In collaboration with the NCI Molecular Imaging Program (MIP), SPIS designed and implemented a novel portable fluorescence imaging system which has proven to be a valuable asset in the clinical translation of molecular imaging probes. Molecular imaging probes allow surgeons and endoscopists to visualize tumor tissue which normally would not be visible to the naked eye.

3D rendering of portable fluorescence camera system

PRiME - Physiological Recording in MRI Environment

A multidisciplinary intramural team led by CIT in collaboration with the NHLBI Cardiovascular Intervention Program developed and implemented a fundamental electronics and signal processing tool facilitating MRI catheterization procedure innovation.  As an alternative to surgical techniques in the treatment of cardiovascular disease, NHLBI is developing innovative techniques in cardiovascular catheterization with the use of real-time MRI. The use of MRI greatly reduces the patient’s exposure to ionizing radiation from X-ray imaging, which is typically used in catheterization procedures.

PRiME reduces MRI-induced noise in ECG and IBP signals

SCORHE: System for Continuous Observation of Rodents in Home-cage Environment

In collaboration with NCI, NIDDK, NIMH, and FDA, SCORHE is designed to meet the demands of NIH IRP researchers and animal care staff to automatically assess laboratory mice ethology in large-scale settings. SCORHE is comprised of custom video-acquisition and analysis tools developed to quantify mice activity and behavior for short and long (multi-day) durations while housed within a typical home-cage. The specialized hardware was designed to be space efficient, compatible with vivarium cage racks, and animal-facility user friendly.

SCORHE 3D CAD and prototype in ventilated rack

System to Measure Rodent Vestibular Sensory Evoked Potentials

The Mouse Auditory Testing Core within NIDCD provides investigators with assistance in testing auditory function in rodents. In addition to the standard auditory testing (such as auditory brainstem response), NIDCD is expanding core capabilities to include the often needed testing of vestibular sensory evoked potentials (VsEPs). VsEPs are used to assess the vestibular system, which is a critical component associated with a sense of balance.

3D model of the custom mouse head clip and mounting hardware for the VsEPs system

Technologies for Neuronal Mapping of Motion Detection and Color Vision Systems of Drosophila

SPIS has been collaborating with NICHD's section on neuronal connectivity and NIBIB to develop one-of-kind virtual-reality (VR) behavioral systems to assess the functions of Drosophila visual circuits. These VR systems are comprised of custom electronics, opto-electronics, imaging systems, mechanical hardware, and software. Since vertebrates share similar visual functions and neural circuit architectures, the research will provide a better understanding of how these systems receive, process, and interpret visual stimuli associated with motion and color.

VR motion detection prototype system

Tissue Microdissection for Molecular Analysis of Disease States and Normal Development – Target Activated Microdissection (TAM)

Laser Capture Microdissection (LCM) is a well-established technology used to isolate cells of interest from surrounding tissue cells on a microscope slide. As early co-inventors of LCM in the mid-90s, SPIS staff have continued to develop innovative tissue microdissection technologies, working with partners in NCI, NICHD, NIBIB, NIMH, NIDA, and industry.  Although LCM is already commercially successful, the method requires a skilled operator to select the cells for capture, which leads to operator variability and limits overall throughput.

Internal components of fTAM device

Video Analysis System for Behavior and Activity Assessment of Fruit Flies in High-Throughput Studies

Over the past decade, there has been a growing interest in the development of monitoring devices and automated systems for detecting behavioral changes in D. melanogaster in response to different stimuli, aiming to reduce the cost and duration of standard assays.

3D CAD of MUFFIN unit

Visible and IR Optical Scanning Spectrometry To Study Energy Transduction by Bacteriorhodopsin

Energy-driven proton pumps are of major importance for energy-transduction in living systems. The respiratory chain of animals, as well as single cellular organisms, uses energy released from electron transport to oxygen to form an electrochemical gradient for protons, which is then used to synthesize ATP, a critical element in intracellular energy transfer.

Custom printed circuit boards designed by SPIS