FLEXIBLE

Distinctively flexible & Versatile nature

DURABLE

Great deal of Resistance & endurance

ESTHETIC

Metal free tooth colored natural looking crown

SELF ADAPTABLE

Adapt to crown’s occlusal surface

BIOFLX CROWN

    BioFlx Crowns are the world’s first flexible, durable, self-adaptable, and esthetic pre-formed pediatric crowns which offer properties of both stainless steel crowns and zirconia crowns. Designed and invented by Pediatric dentist from India, offers a smart solution to do pediatric tooth colored crowns. They are ideal full coverage restoration and a dream crown of every pediatric dentist. 

They are the next generation of pediatric esthetic crowns. 

Bioflx

FEATURES

FLEXIBLE

Distinctively flexible & Versatile nature

DURABLE

Great deal of Resistance & endurance

ESTHETIC

Metal free tooth colored natural looking crown

SELF-ADAPTABLE

Adapt to crown’s occlusal surface

CHARACTERISTICS

Bioflx
Bioflx

TESTIMONAILS

POSTERIOR KITS

FAQ

Common Queries

Bioflx crown is made up of high impact hybrid resin polymer used in the medical field requiring high strength, flexibility and durability. They are metal and Bis-GMA free.

You can Trim & Contour with Howes Plier but not Crimp.

It is neither a “snap fit”, nor a “passive fit”. Bioflx crowns should fit snugly on the tooth, with slight resistance that can be described as a flex or active fit. It will flex over small convexities of the tooth.

Cold sterilization, autoclave or steam sterilization may be used according to the standard instructions of the manufacturer of the sterilant or sterilizer. Bioflx crowns, as other pediatric crowns, are provided in non-sterile packaging. Clinician may choose to sterilize before use.

It is not recommended to use any kind of rotary instrument to adjust the occlusion of a Bioflx crown. The occlusal surface of the preparation should be reduced 1-1.5 mm, similar to an SSC preparation. If the crown is slightly high in occlusion, it will slightly self-adapt and may show a dimple in that area after a period of time.

The radiopacity of Bioflx crowns is similar to the radiopacity of enamel and should allow radiographic evaluation of adaptation of the crown margins and pulpal therapy.

If Bioflx crowns are contaminated with blood or saliva during try-in, they can be rinsed with water, dried and then cemented without any significant effect on cementation.

Bioflx crowns will be available in narrow sizes to be easier to place in areas of space loss. Due their flexible nature and elastic memory, Bioflx crowns cannot be significantly altered in their shape or width with pliers. To fit Bioflx in areas of space loss, it is likely that circumferential reduction of the tooth will be needed to fit a smaller crown than would have been used if there were no space loss.

You can use significant force to seat a Bioflx crown onto a preparation, including heavy finger pressure or a bite stick. It is unlikely that you will break a Bioflx crown during seating.

A regular glass ionomer cement should be sufficient for cementing Bioflx crowns.  A self-setting resin modified glass ionomer cement can also be used. A light cured cement should NOT be used because the opacity of the crown will not let light pass through to set the cement.

Robust in house wear testing demonstrates that Bioflx crowns are at least as wear resistant as stainless steel crowns, after 800,000 cycles at 80 newtons on a Leinfelder wear machine. However, clinicians may see a “dimple” develop on the Bioflx crowns in areas of heavy occlusion. This “dimple” appears due to the self-adaptable technology of the material. Rather than wearing, the material “self adapts” to reduce the pressure of the opposing occlusal surface. For this reason, and for best results, it is recommended that Bioflx crowns not be placed in high occlusion on teeth with little or no occlusal preparation.

Bioflx crown is made up of high impact hybrid resin polymer used in the medical field requiring high strength, flexibility and durability. They are metal and Bis-GMA free.

You can Trim & Contour with Howes Plier but not Crimp.

It is neither a “snap fit”, nor a “passive fit”. Bioflx crowns should fit snugly on the tooth, with slight resistance that can be described as a flex or active fit. It will flex over small convexities of the tooth.

Cold sterilization, autoclave or steam sterilization may be used according to the standard instructions of the manufacturer of the sterilant or sterilizer. Bioflx crowns, as other pediatric crowns, are provided in non-sterile packaging. Clinician may choose to sterilize before use.

It is not recommended to use any kind of rotary instrument to adjust the occlusion of a Bioflx crown. The occlusal surface of the preparation should be reduced 1-1.5 mm, similar to an SSC preparation. If the crown is slightly high in occlusion, it will slightly self-adapt and may show a dimple in that area after a period of time.

The radiopacity of Bioflx crowns is similar to the radiopacity of enamel and should allow radiographic evaluation of adaptation of the crown margins and pulpal therapy.

If Bioflx crowns are contaminated with blood or saliva during try-in, they can be rinsed with water, dried and then cemented without any significant effect on cementation.

Bioflx crowns will be available in narrow sizes to be easier to place in areas of space loss. Due their flexible nature and elastic memory, Bioflx crowns cannot be significantly altered in their shape or width with pliers. To fit Bioflx in areas of space loss, it is likely that circumferential reduction of the tooth will be needed to fit a smaller crown than would have been used if there were no space loss.

You can use significant force to seat a Bioflx crown onto a preparation, including heavy finger pressure or a bite stick. It is unlikely that you will break a Bioflx crown during seating.

A regular glass ionomer cement should be sufficient for cementing Bioflx crowns.  A self-setting resin modified glass ionomer cement can also be used. A light cured cement should NOT be used because the opacity of the crown will not let light pass through to set the cement.

Robust in house wear testing demonstrates that Bioflx crowns are at least as wear resistant as stainless steel crowns, after 800,000 cycles at 80 newtons on a Leinfelder wear machine. However, clinicians may see a “dimple” develop on the Bioflx crowns in areas of heavy occlusion. This “dimple” appears due to the self-adaptable technology of the material. Rather than wearing, the material “self adapts” to reduce the pressure of the opposing occlusal surface. For this reason, and for best results, it is recommended that Bioflx crowns not be placed in high occlusion on teeth with little or no occlusal preparation.

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