Seller assumes all responsibility for this listing.
Model: 3D OCT 1000 / 6 MONTHS OF WARRANTY
Warranty: 6 MONTHS
TOPCON 3D 1000 OCT
6 MONTHS WARRANTY INCLUDED.
SHIPPING IN USA $800.00 / CANADA $900.00
Shipping is only to the lower 48 states, international buyers are welcome as long as you are willing to pay the cost of international shipping, just contact me before bidding.
Paypal payment is preferred, but wire transfers, Check and money orders are also accepted.
This instrument is in excellent condition and has been fully refurbished by our staff.
- TOPCON IMAGENET SOFTWARE.
- HP PC.
- POWER TABLE.
- LCD LED MONITOR
- MOUSE AND KEYBOARD.
- DUST COVER.
- GUIDE MANUAL.
ALL THE EQUIPMENT WE OFFER IS BECAUSE WE HAVE THEM IN STOCK.
NO CREDIT CARD OR PAYPAL INTERNATIONAL PAYMENT.
We appreciate your business and strive to make sure all transactions are completed smoothly, professionally and efficiently. If you have any questions about any other items that we currently have available, please don't hesitate to ask! Thank you for your business.
Topcon has received approval from the Food and Drug Administration for its 3D OCT-1000, the world's first Fourier-domain OCT combined with a color non-mydriatic retinal camera. It provides high-resolution, cross-sectional imaging of the retina, aiding in the diagnosis of pathologies such as retinal detachments, macular holes, age-related macular degeneration and glaucoma. It features a true three-dimensional view of the mapped area and accurate Pin-Point retinal registration of the OCT image and the fundus image, according to the company.
Topcon High Definition Fourier Domain 3-D OCT
Optical Coherence Tomography (OCT) is a standard diagnostic and imaging technique in most clinical practices today. It is a fast and noninvasive scan of the macula. By imaging the retinal histological structure, an OCT scan obtains information similar to that from an optical biopsy, but without the need for excision and histopathologic specimen processing. The OCT employs the Michelson interferometry using near-infrared light (820 nm) produced by a super luminescent diode. The light is split, and the machine compares the echo time delay of the light reflected from the retina with the echo time delay of the same light reflected from a reference mirror at a known distance. The reflected light is recombined, and the resulting interference fringe is detected and measured by a photodiode detector. The information obtained is then used to produce an image of the retina.
Patients can expect a brief, comfortable experience with the OCT. Each scan acquisition usually takes slightly more than one second, and the entire test lasts only five to seven minutes.
The Fourier Domain spectral detection (SD) OCT (3D OCT-1000, Topcon Corporation, Tokyo, Japan) has been shown to be 50 times faster than the conventional Time Domain OCT system. More data can also be collected as compare to the conventional TD OCT due to its higher scanning speed. This new system extracts the necessary information from the spectrum of the light signal using its Fourier transform. The increased scanning speed dramatically reduces motion artifacts. In addition, multiple images may be acquired at different points on the retina at the same time thereby providing wider retinal coverage. The resolution of the scan has also improved to 5 to 6 micron axial image resolution, as compared to the 10-micron axial resolution of standard OCT system. In addition, the Fourier domain OCT is able to acquire three-dimensional (3D) data, allowing 3D reconstructions of the retinal image. It also provides precise point-to-point correlation (Topcon 3D OCT-1000 TruMap™ software) between the individual OCT images and the features of the fundus Retinal “histopathologic” images obtained by Fourier domain OCT are accurate enough to locate and identify macular holes, vitreomacular traction, macular schisis, retinal thickening and subretinal fluid. They can be used to elucidate vitreo-retinal relationships and guide the therapeutic approach. Serial imaging can also be used to monitor disease activity, progression and/or resolution, by demonstrating any changes in retinal elevation or thickness, changes in subretinal fluid or in retinal pigment epithelium (RPE) elevation.
The images can also be used to help patients understand their condition. The images give patients a clearer idea of what is going on in their eyes, and can better appreciate the effects of therapy.
The findings of Fourier domain OCTS are objective and quantitative, and are reproducible, making documentation much more reliable.