Irrigation

Flow Surfer

Dual Rinse HEDP ensures continuous chelation and disinfection during shaping, maintaining a smooth, consistent, and highly efficient workflow. With all functions concentrated in a single product, handling is optimized for greater simplicity and ease.

Dual Rinse HEDP redefines endodontic irrigation by combining essential chemical actions into one continuous solution—supporting speed, focus, and clinical clarity.

Time Efficiency

Dual Rinse HEDP helps you save time and reduce unnecessary steps—so you can stay focused on treatment, not on the transitions between, while improving both the shaping and irrigation phases of treatment.

Combined Chemical Action

With Dual Rinse HEDP, you achieve complete cleaning—dissolution, chelation, and disinfection—without ever interrupting your flow.

Time Efficiency

Dual Rinse HEDP replaces sequential irrigants like EDTA and saline rinses with a single solution. Mixed with NaOCl, it supports uninterrupted irrigation throughout canal instrumentation. By reducing syringe changes and eliminating transitional rinses, you save valuable chair time—especially during multi-canal or retreatment procedures—while maintaining procedural focus.

Combined Chemical Action

In conventional irrigation protocols, sodium hypochlorite (NaOCl) and chelating or disinfecting agents are typically used separately due to their chemical incompatibility. Dual Rinse HEDP offers a different approach. Its formulation is compatible with NaOCl, allowing both solutions to be used simultaneously without compromising their respective effects. This combined action supports an efficient irrigation process and helps simplify clinical protocols.


Dual Rinse HEDP delivers dual-function performance, enabling simultaneous smear layer removal, tissue dissolution, and disinfection. Its formulation keeps chemical activity consistent during instrumentation, reducing debris buildup and procedural variability. With fewer steps and variables, clinicians are able to achieve clean canals with greater ease and predictability.

Simplicity Means Nothing without Performance

“Dual Rinse HEDP redefines efficiency in irrigation. By combining smear layer removal and tissue dissolution into a single, continuous step, it eliminates the procedural fragmentation we’ve long accepted as standard.

The result is a cleaner canal, a more fluid workflow, and a noticeable reduction in chair time with no compromise in disinfection.

It brings consistency to a step that has traditionally been difficult to standardize.”


Pr. Matthias Zehnder
DMD, PhD / Zürich, Switzerland

Curious? Here's more details about the Dual Rinse HEDP:

All-in one Irrigation Solution

Simplify continuous irrigation, effectively removing debris and the smear layer without requiring additional EDTA or intermediate rinsing with water. Enhance adhesion to the root dentin for more effective root canal treatment.

Effortless Application

Simply mix the powder with NaOCl, stir, and use immediately in your syringe for quick, easy irrigation and activation during root canal procedures.

Reduces Shaping Time

By significantly reducing working time through its unique simultaneous chelation, Dual Rinse HEDP simplifies the irrigation phase, boosting instrumentation efficiency.

Effortless Application

Lowering torsional load during shaping, Dual Rinse HEDP helps protect rotary instruments, optimizing both safety and efficiency throughout the procedure.

Safe Composition

Formulated with ingredients commonly used in food hygiene and personal care products, Dual Rinse HEDP ensures safe, reliable performance.

Proven Capability

A scientifically proven soft chelator, made from ingredients commonly used in food hygiene, and compatible with NaOCl and calcium hydroxide, to ensure safe and reliable performance.

References

What’s next on your list?

Patent pending.

Based on internal laboratory results compared with equivalent competitors’ instruments.

Based on internal laboratory results ; time to fracture at recommended speed.

Based on internal laboratory results, using RACE EVO 4%.

Siddique R, Nivedhitha MS, Ranjan M, Jacob B, Solete P. Comparison of antibacterial effectiveness of three rotary file system with different geometry in infected root canals before and after instrumentation-a double-blinded randomized controlled clinical trial. BDJ Open. 2020;6:8. Published 2020 Jun 8. doi:10.1038/s41405-020-0035-7

Al Omari T, Mustafa R, Al-Fodeh R, El-Farraj H, Khaled W, Jamleh A. Debris Extrusion Using Reciproc Blue and XP Endo Shaper Systems in Root Canal Retreatment.Int J Dent. 2021;2021:6697587. Published 2021 Mar 24. doi:10.1155/2021/6697587

Internal testing. Data on file.

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Zhao Y, Fan W, Xu T, Tay FR, Gutmann JL, Fan B. Evaluation of several instrumentation techniques and irrigation methods on the percentage of untouched canal wall and accumulated dentine debris in C-shaped canals. Int Endod J. 2019;52(9):1354-1365. doi:10.1111/iej.13119

De-Deus G, Belladonna FG, Zuolo AS, et al. XP-endo Finisher R instrument optimizes the removal of root filling remnants in oval-shaped canals.Int Endod J. 2019;52(6):899907. doi:10.1111/iej.13077

Azim AA, Piasecki L, da Silva Neto UX, Cruz ATG, Azim KA. XP Shaper, A Novel Adaptive Core Rotary Instrument: Micro-computed Tomographic Analysis of Its Shaping Abilities.J Endod. 2017;43(9):15321538. doi:10.1016/j.joen.2017.04.022

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Al Omari T, Mustafa R, Al-Fodeh R, El-Farraj H, Khaled W, Jamleh A. Debris Extrusion Using Reciproc Blue and XP Endo Shaper Systems in Root Canal Retreatment.Int J Dent. 2021;2021:6697587. Published 2021 Mar 24. doi:10.1155/2021/6697587

De-Deus G, Belladonna FG, Zuolo AS, et al. XP-endo Finisher R instrument optimizes the removal of root filling remnants in oval-shaped canals. Int Endod J. 2019;52(6):899-907. doi:10.1111/iej.13077

Azim AA, Aksel H, Zhuang T, Mashtare T, Babu JP, Huang GT. Efficacy of 4 Irrigation Protocols in Killing Bacteria Colonized in Dentinal Tubules Examined by a Novel Confocal Laser Scanning Microscope Analysis. J Endod. 2016;42(6):928 934. doi:10.1016/j.joen.2016.03.009

Raman V, Camilleri J, Characterization and assessment of physical properties of three single syringe hydraulic cement-based sealers, Journal of Endodontics (2024), doi: https://doi.org/10.1016/j.joen.2024.01.001