Analog is Not the Opposite of Digital

Analog is Not the Opposite of Digital

Analog Is Not the Opposite of Digital

You’re Doing it Wrong.

Many of us in the dental field have been using the word ‘analog’ improperly. We often refer to analog technologies as being anything preceding digital technology. That’s definitely not the case. So this post is to collectively save us all from ever sounding stupid to technology nerds ever again. And don’t worry, it’s not just us, I’ve seen the same mistake made in the New York Times.

I recall a video that referred to 1950’s classrooms as ‘analog learning’ as opposed to our modern classrooms’ use of computers and the internet. I’ve heard the work of contemporary digital artists and designers compared to the ‘analog art’ of painters. The real kicker, and reason for this post, is those who position traditional handmade work as the ‘analog’ opposite of digital dental technology.

Handmade isn’t Analog.

Restorations that are handmade are not analog, period. As an analogy, I recently picked up a used Canon Rebel G from the ’90s used to shoot film. I have had a digital SLR from Canon for years now, and they’re obviously extremely different. But we have to be careful not to confuse ‘old’ and ‘new’, with two very specific terms like analog and digital.

The word digital, to most people, refers to a device that can capture, store, or display data in a binary fashion. Ones and zeros, on and off, digital is all about numbers. Digital shouldn’t be confused with binary, of course, as digital simply means concrete values. The root word is digits, after all. Any system that utilizes solid values (or digits) is digital, binary is simply the most common system. Digital cameras, and conversely digital 3d scanners capture light with a sensor, that light is converted into data (numbers), so the use of the word ‘digital’ for your cell phone camera, DSLR, or 3shape is accurate.

Analog, however, is a very abused word. I would venture a guess that the significant amount of technicians have used the word ‘analog’ to refer to anything done traditionally. If the new, fancy robot 3D scanners are ‘digital’ then our aging techniques are ‘analog’, right? Not at all. Leaning back on the camera analogy: Older cameras capture light with film, which is basically plastic, gelatin, and silver halide. When you take a photo (perhaps of an aesthetic full mouth restoration), photons hit this material and produce a latent (invisible) image, that can later be brought into view by bathing the film in various chemicals. You could write hundreds of blog posts on film development alone, but the point is that film photography is a chemical process. Conversely, when you stack porcelain, or process a denture, the materials go through various chemical and physical changes.

Digital 3D scanners and traditional techniques are quite different, but I’d rather hear the word ‘chemical’, ‘organic’, or ‘magic’ given to traditional techniques before ‘analog’.

 

Wait, What is Analog Then?

Analog, as its name suggests, refers to being analogous to something. If we’re referring to the adjective used in technology, the definition of analog is:

Of, relating to, or being a device in which data are represented by continuously variable, measurable, physical quantities, such as length, width, voltage, or pressure. – Wordnik

So a great example of an analog technology would be a vinyl record. The audio is stored as waves (variable data) within the grooves of the vinyl. Digital audio stores the data as numbers, as finite units of data per second found in mp3s and CDs. What’s important is that a vinyl record is legitimately something that deserves to be called ‘analog’. Dentures are not. Dentures and the techniques used to fabricate them are physical and chemical, there is no data (waves or otherwise) to be found as there would be on the record.

Plenty of older (and current) technologies are analog. Just be sure to ask yourself if that device has variable signals/data, or if that device is just really old. A television with a cathode ray tube (CRT) is an analog device; a cave painting of a man stabbing a mastodon with a spear is not. Ironically, CNC machines and 3D printers take digital signals and use transducers, pulse width modulation (PWM), or variable frquency drives (VFD) to produce analog signals that drive the spindles or lasers that ultimately produce a restoration. Those restorations are technically physical “analogs” of their corresponding digital designs.

Stop Saying Analog?

I know its hip to be anti-digital sometimes. But before we all drink a PBR and hop on our fixed gear bikes to the thrift store, we have to remember that just because something is old, that doesn’t make it ‘analog’. 35MM cameras, oscilloscopes, and the cotton gin are all old technologies, but only one of them is an analog device.

We pride ourselves in the dental lab industry for knowing tons of interesting things about art, science, and technology, but this is one adjective we should all cut back on a bit. The good news is we will always have our favorite noun: analogue! We can still say: “A picture is an analogue of a memory”, or “A cubic zirconia is an analogue of a diamond”, and “Cerec is an analogue of real lab work.”

Why the MCXL is the BEST e.max CAD Mill Out There

Why the MCXL is the BEST e.max CAD Mill Out There

Why the MCXL is the BEST e.max CAD Mill Out There

So I’ve got your attention. Do I really dare stake claim to a statement as bold as “the MCXL being THE BEST mill out there”? Absolutely not, the MCXL is a terrible mill.

Read the title over again carefully.

Truthfully, the MCXL is a terrible mill, but in my opinion, it is the “BEST e.max CAD mill” out there. It’s loud, its proprietary, and it’s track record is beyond unreliable. Personally, the one I’ve used at our lab since 2012 has gone through 10 motors, a few distribution boards, a fried main board that went POP and billowed smoke, 3 replacement PC towers, and approximately 2-3 chamber doors per year of ownership. Thankfully, mostly all covered under warranty. The Patterson service team member, David, practically lived at our lab at one point. Any more and we probably would’ve had to put him on the payroll.

Now, back to the main point of this post. The MXCL is indeed the best mill for e.max CAD, or blue blocks as they are colloquially referred to. (Even though they look more violet/purple to me personally. What do you think? Am I color blind? Throw your opinion down in the comments!) I didn’t reach this epiphany until a few months ago as a result of our lab purchasing an imes-icore 350i that was ‘capable’ of milling e.max. Notice the emphasis on ‘capable’.

Yes, with the 350i there was an option for a burr smaller than the width of my thumb. And yes, I was able to design in a CAD software package (3shape) that wasn’t intended for ‘clinically acceptable’ same-day restorations while the patient waits in the lobby with a magazine. And yes, I had CAM software that could nest at different angles and with different sprue sizes!

But when it came time to milling e.max with the 350i, the honeymoon period wore off quickly. Margins chipping, entire crowns breaking loose, poor tool life, longer mill times. How could this be possible? This machine can mill titanium! It weighs 500 lbs! It can tilt at 30 degrees in multiple directions. It can play game of thrones! It can mill everything… Click here to go to my YouTube channel and watch the full review. Now that I’ve finished shamelessly plugging my own content, back to our regularly scheduled programming.

It made me realize that I took that little MCXL money-pit for granted all these years. Sirona, for some odd reason, has had this unfounded vendetta against the dental lab industry and has been actively trying to eliminate the profession by directly targeting dentists as their usual modus operandi since… forever. Let’s set my personal feelings about that aside for a moment, and I’ve gotta say, Sirona did something very right with the MCXL. I can pay due respect to a feat of engineering when it is rightly earned.

My model of the inLab MCXL features 2 motors on each side, the grinding motion and simultaneous action rips through e.max blocks like a 2am run to taco bell does on its way through your digestive system. The torque driver supplied with the machine is dialed in to a specific setting to eliminate vibration in the mandrel. It took me almost 8 months before I thought to apply the same torquing principle to the 350i’s glass block adapter… which did indeed significantly reduce chipping rates!

Calling the MCXL a “Mill” is actually inaccurate. It is a grinding machine. The way that it operates compared to a standard mill is completely different. This gives it an edge over mills with “wet options” because it is a purpose built tool for a specific task. Yes, there are other purpose-built grinding machines out in the market like the Roland DWX-4W, the CORiTEC 140i, The IOS Technologies Ts150, Kavo Arctica, AG Ceramill Mikro IC, Carestream CS3000, VHF N4, and the Planmeca PlanMill40S. But I haven’t personally tested any of those machines to comment on their respective e.max grinding abilities.

Taking it a step further, when the coolant that is used gets mixed with leftover grindings from the e.max, it amounts to nothing less than what I’d like to describe as ‘liquid sandpaper’. This is catastrophic for the seals and gaskets it just destroys them. Those cheap plastic MCXL chamber doors never stood a chance. My newfound respect was confirmed earlier this year when I had a chance to chat with a bunch of colleagues. They also mill e.max cad blocks, but on Wieland Selects, Rolands and even on DMG Ultrasonics. The consensus is that any and all CNC machines that mill e.max are prone to rapid deterioration. It’s simply the nature of the beast. The MCXL just happens to mill e.max much more quickly and produces desirable margins more reliably. Finally, the Pièce De Résistance, and what makes the MCXL stand out in its specific category as opposed to other purpose built wet grinders: How popular it is, and as a direct result of that, how cheaply one can come across a unit second hand. The used market for MCXLs is ripe for the picking.

As much as dentists like to try their hand at eliminating lab bills from their practices, many of them lack the time/staff/patience/know-how to operate a mill effectively, and their MCXL’s end up sitting in a corner collecting dust. Eventually, those lightly used machines end up on the second-hand market. You could purchase an entire farm of second-hand MCXL units to mill glass blocks all day long for the fraction of cost of some other options I’ve previously listed.

Picture this: you pick up an inLab cam license from Sirona, and then network together a farm of these machines. Disclaimer: there would be no automation, occlusal anatomy detail would suck, and those who dare to enter the room would probably be required to wear noise-cancelling ear protection from the screaming of those motors.

But churning out units at an average of 15 minutes a piece and margin reliability that beats out half-million dollar, 15-kilowatt behemoths. You’ve got a golden solution for a high-volume production environment to take care of such a challenging material. And since you can pick up used ones on eBay for next to nothing. If one is irreparable, just hop on an auction site and pick up a slightly used replacement. Granted, if everyone did this, we’d simply drive up the price in the second hand market and do what mining cryptocurrency has done to the cost of graphics cards.

But for that particular enterprising individual, who has just the right amount of demand, this solution might be a good fit. Personally, I find my volume of milled e.max to be declining so this MCXL farm wouldn’t be a good fit for me. Newer generation zirconias that are being released now, are rivaling e.max in translucency and overall appearance, while also being much easier to mill and touting higher strength figures.

If someone does decide to venture into this MCXL farm idea, we’d love it if you could share some pictures of your progress/setup! One piece of advice though: make sure you have a very capable service team member on your staff at all times, those machines are notoriously unreliable. The MCXL may be a terrible mill, but in my opinion, it is the BEST e.max CAD mill out there!

Have any stories about the unreliability of this machine that you’d like to share? Or do you disagree with the opinions? Throw your thoughts down in the comments section and let us know what you think about the MCXL.

infiniDent and Compartis Dental have Merged

infiniDent and Compartis Dental have Merged

In a move to consolidate services, Dentsply Sirona (NASDAQ:XRAY), has merged their two outsourcing services, infiniDent and Compartis Dental, into one service operating under the Compartis name.

In an e-mail statement effective January 5th, 2018, “infiniDent merged with Compartis Dental. There is now a new enhanced customer portal for you to sign on to and submit your cases. If you have submitted any cases through your infiniDent portal since January 5th, please resend them through your new Compartis customer portal at www.compartisdental.com for processing. If you have not yet been able to log, please reply with the email address you would like us to use to re-send your regristration link to.”

The e-mail continues: “Once you sign on you will be able to resubmit your case for us to start processing. The only additional piece of information we would need in order to process your order is our credit card authorization. Please complete and return the form via fax (717) 326-1165 or email info@compartisdental.com. If you prefer, you may call us at 866-265-8440 with the required information.”

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