The best feature, by far, of a digital impression is simply that it is digital. That changes everything. To understand how significant this is, let’s compare it to another digital system you are more familiar with—digital photography.
Infrastructure: Last century, BC (before computer) we took photographs with a film camera. This required a complex infrastructure that was purpose built and exclusive to photography. That is the film, the camera, the chemicals, the processing equipment and the printing materials were all exclusive to photography. In other words, you could not use the photography system to send a post card or take an impression.
Conventional impressions also need single-purpose systems—from trays to impression materials or “goo” and various stones, vibrators, mixers and vacuum pumps—to create a model. You cannot use the impression system infrastructure to send a postcard or take a photograph.
Since the film infrastructure was single purpose, complex and expensive, most people did not try and do it themselves. They sent the film to a special lab to be processed and printed.
Of course the same is true of impressions. Most are sent to a special lab to be processed and the restoration created.
Process: When you take a film photo, you need to put it through a long and complex process of developing and printing before you can use it—usually hours or even days later. If there is an error, like poor focus or over exposure, you do not know about it until the photo has been developed printed and returned to you. Then, of course, it was too late to fix it and you have already spent the time and money to create it.
The conventional “goo” impression process is similar. You take the impression but do not get to see or use the model for hours or days later. If there is an error, a bad margin a void or distortion it is too late to fix it.
Storage: Once you finally get the film photo print that you want you, then have to store it. At home that means throwing the snapshot in a shoebox randomly with all the rest or taking the time to put it neatly in a photo album. At the office it means labeling and dating the image and putting it in a patient chart.
Impressions are even harder to store. They need to be labeled, dated, boxed and stored on shelves in a manner where they can be found later. Because this is so tedious, most models end up stored with the random shoe box technique or just thrown away.
Distribution: If you wanted to send a film photo to a friend or a clinical film photo to a colleague it would need to be copied back at the lab, put in an envelope and mailed. The process would be expensive, the quality of the image would be degraded and it would take days to accomplish.
Sending a copy of an impression would be similar but even more complex time consuming and expensive.
Digital: With digital photography, everything changes. The infrastructure is a computer network. This digital infrastructure can be used to capture, process, display, store and transmit the photograph. However it can also be used to send a post card; that is, an e-mail. It can be used for impressions, records, diagnostics and a whole lot more.
With the digital photo process, the user can see the image immediately. If there is an error, it can be corrected right now. There is no need to pay the processing costs—simply hit the delete button. The same is true of a digital impression. The user sees the image immediately and can make corrections if they are needed and discard the mistakes.
Digital photos don’t fill up shoe boxes or bulge out of files but are stored as part of the patient record on a hard drive. Digital impressions can also be stored on a hard drive. The storage process usually requires three or four mouse clicks and the hard drive is smaller than a shoe box and costs less than a file cabinet.
Sending a digital photo to a friend or colleague can be done online with just a few mouse clicks. It costs nothing, it happens instantly and the image is exactly the same quality as the original. The same is true of a digital impression.
Digital impressions can be sent to a lab, sent to a mill for onsite fabrication, used for ortho or simply kept as part of the record like a study model.
It is the digital part that makes all the difference.