E.max Press vs. Mill: Un Análisis Profundo del Ajuste Marginal y la Fractura de Coronas Cerámicas de Disilicato de Litio

I’ve been in this business a long time, and I’ve seen technologies come and go. But the debate between pressed and milled coronas cerámicas is one that sticks around. Why? Because it gets to the very heart of what we do: creating restorations that fit perfectly and last for years. We’re all chasing that perfect marginal adaptation and want to avoid any chance of fractura. This article is for you if you’ve ever wondered which method, E.max Press o un CAD/CAM molino system, really delivers the best lithium disilicate ceramic crowns. We’ll dig into the vitro study evidence, look at the evaluation of marginal fit, and I’ll share my own experiences to give you a clear, simple answer. This is about making the best choice for your patients and your practice.

What Is Lithium Disilicate and Why Is It So Popular?

Let’s start with the basics. When we talk about coronas totalmente cerámicas, one material stands out: vitrocerámica de disilicato de litio. You probably know it by the brand name IPS e.max from Ivoclar Vivadent. Este material cerámico is a mix of glass and tiny lithium disilicate crystals. This combination gives it two things we love: it looks great, and it’s strong.

For years, we had to choose between strength and beauty. Metal-ceramic crowns were strong but didn’t always look natural. Early all-ceramic options looked good but had a risk of fractura. Lithium disilicate ceramic changed the game. It gave us a material cerámico with high fractura resistance that could be used for coronas individuales in both the anterior and posterior parts of the mouth. It’s a reliable choice for fixed dental prostheses and offers excellent mechanical properties. The success of this material is why the debate over how to make crowns fabricated from it—to press or to molino—is so important.

How Are E.max Press Crowns Actually Made?

En press technique feels like true craftsmanship to me. It’s an advanced version of the classic lost wax technique that dentists have used for decades to make metal crowns. First, a technician creates a waxed crown model. This model is then placed in a mold. The wax is melted out, leaving a perfect empty space in the shape of the crown.

This is where the magic happens. A small pellet of Prensa IPS e.max lithium disilicate glass ceramics is heated until it becomes like thick honey. Then, it’s pressed into the mold under high pressure. This process forces the material into every tiny detail of the mold. The result is a monolithic crown that is very dense and uniform. After it cools, the crown is finished and glazed. This press technique is known for creating crowns produced with amazing marginal adaptation. Many believe these pressed crowns offer the best marginal fit.

How Does a CAD/CAM System Mill a Crown?

Now, let’s talk about the high-tech way: CAD/CAM. The term stands for Computer-Aided Design and Computer-Aided Manufacturing. Instead of a wax model, we start with a digital scan of the tooth. This can be done with an intraoral scanner or by scanning a physical model from conventional impressions. A technician then uses special software for the crown design. Once the design is perfect, it’s sent to a milling machine.

En milling machine is the star of the show. It takes a solid block of cerámica de disilicato de litio, often IPS e.max CAD, and carves the crown out of it. It’s like a robot sculptor. The crowns were milled using diamond burs that carefully grind away the block until only the crown is left. This CAD/CAM process is fast. You can molino a monolithic crown in your office in a single visit. The question many people ask is whether a crown that a machine has to molino can have the same precise marginal edge as a pressed one. We must evaluate si el molino process can cause issues.

What Is a Marginal Gap, and Why Should We Care?

I can’t stress this enough: the marginal gap is everything. Imagine a perfect crown, but it leaves a tiny shelf or space where it meets the tooth. That space is the marginal gap. We measure this gap in micrometers, or μm. A micrometer is one-thousandth of a millimeter. It’s tiny! But even a tiny gap can cause big problems.

A large marginal gap allows bacteria and plaque to hide. This can lead to decay under the crown. It also exposes the cement, or luting agents, that we use to glue the crown on. Over time, the cement can wash out, causing the crown to fail. A good marginal fit means a very small marginal gap. This is what we mean by marginal adaptation. A good crown adaptation is the number one goal for long-term success, as it prevents fractura and failure. The evaluation of marginal and internal fit is a critical step to evaluate any crown. We are always trying to get the best marginal seal possible. This marginal issue is key.

Which Gives a Better Ajuste marginal: Pressed or Milled Crowns?

This is the million-dollar question. For years, the common belief was that e.max press crowns offered a better, more consistent marginal fit. The logic was that pressing a liquid-like material into a mold would create a more passive and exact fit than a molino could achieve by grinding a block. Many early vitro study reports seemed to support this. A systematic review of studies often found that the mean marginal gap for pressed coronas totalmente cerámicas was smaller.

Sin embargo, CAD/CAM technology has gotten much, much better. Modern milling machines are incredibly precise. The software used for crown design is also more advanced. Today, many vitro study papers show that crowns fabricated con CAD/CAM can achieve a marginal fit that is just as good as pressed crowns. A study by Seyyedan et al. found very little difference. Another vitro study published in BMC Oral Health showed that while pressed crowns showed better results sometimes, the CAD/CAM crowns were well within the clinically acceptable range for a good marginal fit. En marginal fit of lithium disilicate crowns is a hot topic. We need to evaluate el marginal and internal fit de LD crowns from both methods. The marginal edge is the focus.

What About Fracture Resistance? Is a Milled Crown Weaker?

Strength is the other big piece of the puzzle. A crown with a perfect marginal seal is useless if it is likely to fractura. En cerámica de disilicato de litio material itself has a high fracture resistance. The question is whether the way we make the crown affects that strength. Here, the press technique has a natural advantage. Pressing creates a very dense monolithic crown with few internal flaws.

Cuando molino a crown, the grinding process can create tiny micro-cracks on the surfaces of the crowns. These can become weak points where a fractura might start. This is a real concern, and it’s why the finishing steps for coronas fresadas are so important. After the molino is done, the crown must be carefully polished and then put through a crystallization firing process. This process not only hardens the IPS e.max CAD material but also helps to “heal” some of those surface flaws. A well-finished milled crown can have excellent mechanical properties y fractura resistance. The fracture resistance of lithium disilicate is high, but we must not introduce flaws during the molino process that could lead to fractura. A fractura is a failure.

What Do the Vitro Study Papers Really Tell Us?

When I need answers, I turn to the science. There are hundreds of vitro study papers on this topic. A vitro study means the test was done in a laboratorio, not in a patient’s mouth. Scientists evaluate things like the marginal gap using tools like a scanning electron microscopy o un replica technique. They also do tests to measure fractura strength. What does all this research, like reports from BMC Oral Health or work by researchers like Anusavice et al., tell us?

Most studies, including a systematic review, conclude that both crowns fabricated by using the press and the CAD/CAM molino methods can produce clinically excellent dental crowns. Some studies, like one by Guess et al., might show a slight statistical advantage for the e.max press en marginal fit. For example, they might find a mean marginal gap of 60 μm for pressed vs. 75 μm para coronas fresadas. Both are excellent values! The null hypotheses in many studies, which assume there is no difference, are often not rejected. So, while we can compare the marginal gaps, the differences are often not large enough to matter in a real mouth. We need to evaluate el marginal and internal gaps.

How Much Does the CAD/CAM Milling Machine Matter?

This is a point that gets lost sometimes. Not all CAD/CAM systems are the same. The quality of the scanner, the sophistication of the design software, and the precision of the molino itself all play a huge role in the final marginal fit and internal fit of LD crowns. A brand-new, high-end 5-axis molino will produce a better marginal edge than an older, 3-axis machine.

The settings used by the operator also matter. Things like the size of the bur, the milling speed, and the parameters set in the software can change the marginal accuracy. This is why you can see different results from different labs, even if they both use a CAD/CAM molino. It’s not just about molino vs. press; it’s about the quality of the entire CAD/CAM workflow. A good CAD/CAM system is crucial for a good marginal adaptation and fatigue behavior. The way you molino a crown affects its marginal quality.

Does the Cement Choice Affect the Marginal Seal?

Yes, absolutely. The crown is only one part of the equation. The luting agent, or cement, is what fills the marginal gap and bonds the crown restorations to the tooth. For vitrocerámica de disilicato de litio e.max crowns, we almost always use adhesive bonding. This involves etching the inside of the crown with hydrofluoric acid and using a silane coupling agent and a resin cement.

This process creates a very strong bond strength between the crown and the tooth. A strong bond helps support the material cerámico and reduces the risk of fractura. It also seals the marginal gap, protecting the tooth from bacteria. So, even if there is a small marginal gap (and there always is), a good bonding protocol can make it a non-issue. The marginal fit and internal fit are important, but the final seal depends on good cementation. The marginal adaptation and fracture resistance are linked to this final step.

My Final Take: When to Press and When to Molino?

After looking at all the evidence and relying on my own experience, here is my conclusion. For the absolute best, most consistent marginal adaptation, especially for a tricky case in the front of the mouth, I still have a soft spot for Prensa IPS e.max. En press technique just seems to produce a beautiful, passive fit. The marginal edges are often flawless.

However, modern CAD/CAM technology is amazing. For posterior fixed dental prostheses o un monolithic crown where speed is a factor, a molino is a fantastic choice. The survival and complication rates para lithium-disilicate crowns made with a quality CAD/CAM system are excellent. You can molino a crown with a marginal fit that is easily within the best clinical standards. The key is to evaluate su CAD/CAM system and have great finishing protocols to avoid fractura. Ultimately, both crowns were fabricated to do the same job. The choice between two distinct fabrication methods often comes down to the specific clinical situation and the tools you have. There’s no single wrong answer, only what’s best for that tooth, that day.

Key Takeaways to Remember:

• Both Are Great: Ambos E.max Press and modern CAD/CAM molino systems can create excellent lithium disilicate ceramic crowns with a good marginal fit.
• Fit vs. Speed: Traditionally, pressed crowns were known for a slightly better marginal fitmientras que coronas fresadas offer incredible speed and convenience.
• Technology Matters: The quality of the CAD/CAM molino and software is a huge factor. A high-end molino can produce results as good as the press technique.
• Finishing is Crucial: Para coronas fresadas, proper polishing and firing are essential to reduce the risk of fractura and improve strength.
• Don’t Forget Cement: The final marginal seal and fractura resistance depend heavily on using the right luting agents and bonding protocol.
• Evaluate Each Case: The best choice between press and molino may change depending on the tooth, the patient’s needs, and your lab’s capabilities.