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Laser Incision of Urethral Strictures
Urethral stricture disease, characterized by a narrowing of the urethra, may develop after trauma, indwelling catheterization, endoscopic urological procedures or radical prostatectomy surgery for prostate cancer. Those with stricture disease may experience obstructive voiding, recurrent urinary tract infections and even urinary retention. The gold standard for treatment of urethral strictures is open reconstructive surgery of the urethra, or urethroplasty. This procedure has a success rate...
BioPhotonics, June 2007
New and Improved Fluorescent Proteins
As with the microscopes and detectors that measure their emissions, fluorescent proteins are constantly being improved. Three recent projects promise a new spatially confined imaging method, offer more reliability in what has been a mistrusted...
BioPhotonics, June 2007
Thinking Small
Research in biotechnology and biopharmaceuticals can be a daunting process, involving costly reagents, complex interactions and time-consuming analysis. Fortunately, an emerging family of technologies promises to cut some of those expenses,...
BioPhotonics, June 2007
Understanding Ancient Life
Photonic techniques are helping researchers dig deeper than ever into the past, unearthing new findings about some of the oldest — as well as some of the largest — skeletonized organisms known in the geological record. Raman spectroscopy and...
BioPhotonics, June 2007
Yellow Lasers Target Macular Degeneration
Age-related macular degeneration (AMD) is a leading cause of blindness and diminished eyesight and is associated with bleeding in the retina. There are two recognized forms of AMD: wet and dry. The wet form is characterized by abnormal growth of...
BioPhotonics, June 2007
Better Fluorescent Probes Facilitate Cellular Imaging
Fluorescent probes are small but powerful, shedding light on the inner working of cells and the diseases that afflict them. However, sometimes the right probe for a particular job does not exist. That is why research and development of new probes...
BioPhotonics, May 2007
Medical Lighting
The state-of-the-art surgical suite is a streamlined center where efficient work flow is key. Fluoroscopes, ultrasound units, electrocauteries, cutting devices, video cameras, robots and more are positioned where needed and pushed out of the way...
BioPhotonics, May 2007
Microtomy with Femtosecond Lasers
A microtome is an instrument used to prepare thin sections of human, animal or plant tissue for microscopic examination. Usually, sectioning biological specimens is performed by microtomes that work mechanically. These instruments require that...
BioPhotonics, May 2007
A Fluorescent Phantom for Small-Animal Imaging
Small animals represent vital model systems for the study of organism development and human disease. They are increasingly recognized as powerful discovery tools in genetic, proteomic and cancer research. For example, animal studies have vast...
BioPhotonics, April 2007
Controlled Light Exposure Microscopy for Confocal Imaging
Fluorescence imaging of live cells and tissues is a powerful technique that is increasingly finding new applications in the biological sciences.1 However, photobleaching and phototoxicity can present significant challenges for many types of...
BioPhotonics, April 2007
Taking It to the Streets with SPR
Surface plasmon resonance (SPR) — a label-free technique for measuring biomolecular interactions in real time — benefits a wide variety of applications, from basic science to drug discovery. The technique monitors the refractive index of materials...
BioPhotonics, April 2007
LEDs Have a Bright Future in Biomedical Instruments
Bright but not yet brilliant might be the best way to describe LEDs as they are used in biomedical instruments and research applications. The advent of high-brightness LEDs that produce light across the visible and ultraviolet spectra, along with...
BioPhotonics, March 2007
Measuring Colocalization within Fluorescence Microscopy Images
Intermolecular interactions between receptors and small ligands, nucleic acids and proteins, as well as between various proteins, are tightly regulated within cells as the molecular-level mechanism that controls almost all biochemical processes —...
BioPhotonics, March 2007
Probes Light the Way for Advances in FRET
First described almost 60 years ago, Förster resonance energy transfer (FRET) traditionally uses two molecules — donor and acceptor — to visualize biological activity. Today the technique continues to evolve. In FRET, if molecules are close...
BioPhotonics, February 2007
Ultrafast, Ultrawide-Band Spectroscopy
The interdisciplinary study of molecular science aims to expand our knowledge of everything around us, from the molecular bonds that give plastic widgets their strength to the electron transitions that power microprocessors, lasers and society as a...
BioPhotonics, February 2007
Adaptive Optics Under the Microscope
Originally developed to see the very large and far away, adaptive optics is now being used to see the very small and relatively near. Astronomers perform a technique that rapidly adjusts optical elements, typically mirrors, to remove the twinkle...
BioPhotonics, January 2007
Detection Systems Reduce Collisions with Wildlife on Rural Highways
As vehicular traffic increases, so do animal-vehicle collisions. Detection systems that sense when an animal may be near the road are installed in a few US states and at several locations in Europe to warn motorists to exercise caution. The...
BioPhotonics, January 2007
Molecular Imaging via MRI
When it comes to peering inside the body, MRI offers some significant advantages over other imaging techniques. It is noninvasive and rapid, does not involve potentially damaging ionizing radiation, and can spot problems deep within tissue. That is...
BioPhotonics, January 2007
Seeing Deeper with Multiphoton Microscopy
Multiphoton imaging has become a widespread and successful technique for high-resolution 3-D imaging of sensitive living samples, thick tissue sections and even of living animals. However, scientists using the technique are always looking to image...
BioPhotonics, January 2007
Finding Photonic Ways to Monitor Blood Sugar
Spectroscopic and fluorescence techniques might someday take the sting out of self-checking by diabetics. People afflicted with diabetes mellitus do not naturally produce enough insulin to process the sugars that they ingest into useful energy for...
BioPhotonics, December 2006
Frequency Division Multiplexed Fluorescence Confocal Microscopy
High-speed, multichannel fluorescence confocal imaging can be achieved by encoding the spatial location information into the frequency domain. Fluorescence confocal microscopy is an important tool for studying live biological cells, and it can...
BioPhotonics, December 2006
New Tools and Methods Accelerate Drug Discovery and Development
Microfluidics and optical imaging are bridging the productivity gap in drug development. The pharmaceutical industry is under intense pressure to improve the efficiency of drug discovery and development. Despite continued increases in research and...
BioPhotonics, December 2006
Endoscopic Confocal Microscopy Moves into the Clinic
Endoscopy is a minimally invasive procedure used to screen patients and to investigate a wide variety of suspected health issues. It often involves a biopsy for subsequent laboratory analysis with various methods that include visual microscopy....
BioPhotonics, November 2006
Flow Cytometry Moves Ahead
When it comes to counting, examining and sorting cells in a moving fluid stream, researchers are not content to go with the flow. They are constantly looking for ways to improve the flow cytometers that are used for these tasks. In a flow cytometer,...
BioPhotonics, November 2006
Optical Filters for Multiphoton Microscopy
Multiphoton fluorescence microscopy is similar to conventional fluorescence microscopy in that it images fluorescence from molecules that tag a target of interest in a cell. However, in a two-photon microscope, each fluorescent photon results not...
BioPhotonics, November 2006
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