Jason® membrane

NATIVE PERICARDIUM MEMBRANE FOR GBR/GTR

Jason® membrane is a native collagen membrane obtained from porcine pericardium, developed and manufactured for dental tissue regeneration. It is very thin and provides a naturally long barrier function based on the specific composition and structure of the pericardial collagen fibres. Owing to the preservation of the natural biomechanical properties of the pericardium, Jason® membrane exhibits beneficial handling characteristics such as a remarkable tear resistance and effective surface adaptation.

 

CE certification of Jason membrane in 2009

CELEBRATION !

What clinicians say about #Jason membrane

01/10

Do you know in which indications #Jason membrane can be used?

02/10

Do you know the 10 most relevant publications on #Jason membrane

03/10

Biocompatibility and Biodegradation of a Native, Porcine Pericardium Membrane
Rothamel D, Smeets R, Ritter L, Dreiseidler T, Fienitz T, Zöller J
 > SUMMARY 

Porcine dermis and pericardium-based, non-cross-linked materials induce multinucleated giant cells after their in vivo implantation: A physiological reaction?
Barbeck M, Lorenz J, Grosse Holthaus M, Raetscho N, Kubesch A, Booms P, Sader R, Kirkpatrick CJ, Ghanaati S. > SUMMARY 

Collagen Membranes Adsorb the Transforming Growth Factor-β Receptor I Kinase-dependent Activity of Enamel Matrix Derivative.
Stähli A, Miron RJ, Bosshardt DD, Sculean A, Gruber R. > SUMMARY 

Comparison of Two Porcine Collagen Membranes Combined with rhBMP-2 and rhBMP-9 on Osteoblast Behavior in Vitro.
Fujioka-Kobayashi M, Schaler B, Shirakata Y, Nakamura T, Noguchi K, Zhang Y, Miron R
> SUMMARY 

Effect of flapless ridge preservation with two different alloplastic materials in sockets with buccal dehiscence defects—volumetric and linear changes
Naenni Nadja, Sapata V, Bienz SP, Leventis M, Jung RE, Hämmerle C.H.F, Thoma D
> SUMMARY 

Comparing membranes and bone substitutes in a one-stage procedure for horizontal bone augmentation. A double-blind randomized controlled trial.
Merli Mauro, Moscatelli M, Mariotti G, Pagliaro U, Raffaelli E, Nieri M.
> SUMMARY 

Application of buccal fat pad-derived stem cells in combination with autogenous iliac bone graft in the treatment of maxillomandibular atrophy: a preliminary human study.
Khojasteh A, Sadeghi N
> SUMMARY 

Monophasic beta-TCP vs. biphasic HA/beta-TCP combined with #Jason® membrane in two-stage sinus floor augmentation procedures – a prospective randomized clinical trial
Jelusic D, Zirk ML, Fienitz T, Plancak D, Puhar I, Rothamel D
> SUMMARY 

Study about a sinus floor elevation method has recently been published in the International Journal of Oral & Maxillofacial Implants, where cerabone® has been used as the unique grafting material
Tawil G, Tawil P, Khairallah A
> SUMMARY 

Lateral Ramus Cortical Bone Plate in Alveolar Cleft Osteoplasty with Concomitant Use of Buccal Fat Pad Derived Cells and Autogenous Bone: Phase I Clinical Trial
Khojasteh A, Kheiri L, Behnia H, Tehranchi A, Nazeman P, Nadjmi N, and Soleimani M
> SUMMARY 

Do you know the 10 properties and benefits of #Jason® membrane

07/10

01 Suited for larger augmentative procedures, high predictability of GBR procedures

02 Lower risk of surgical complications such as wound dehiscence

03 Can be pinned or sutured if necessary

04 No second surgery for membrane removal, no toxic degradation products

05 Easy application and repositioning possible

07 Convenient application in different indications

08 Fixation in most situations not necessary, but possible.

09 Facilitating tension free wound closure in challenging situations such as thin soft tissue biotypes

10 Proven success and high reliability

#JasonWorldTour, an adventure around the world!

#botissWebinars, lectures, and congresses world-wide featuring internationally renowned clinicians focusing on #Jason10Years

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JASON® MEMBRANE IS A VERY THIN COLLAGEN MEMBRANE OFFERING A NATURALLY LONG BARRIER FUNCTION AND FAVORABLE HANDLING CHARACTERISTICS
CE certification of Jason membrane in 2009

Due to the unique production process, the superior properties of the native pericardium are preserved during the extensive cleaning procedure that is applied for the production of Jason® membrane. Therefore, Jason®membrane shows a natural comb-like, multilayered collagen structure with an increased content of collagen type III leading to a remarkable tear resistance and slow degradation of Jason® membrane. This ensures a natural long barrier function, making the Jason® membrane our recommended choice particularly for large augmentative procedures.

PROPERTIES

– Naturally long barrier function
– Multi-directional strength and tear resistance
– No stickiness after rehydration
– Excellent surface adaptation
– Easy manipulation, can be applied dry or wet
Low thickness, no swelling after rehydration

INDICATIONS

Jason® membrane offers a naturally long barrier function, which is especially advantageous for the regeneration of larger defects or more extended augmentative procedures. Due to its low thickness, Jason® membrane is particularly beneficial in patients with thin biotypes or, generally, if a tension free closure of the flap is difficult.

IMPLANTOLOGY, PERIODONTOLOGY AND ORAL AND CMF SURGERY

– Horizontal and vertical augmentation
Ridge reconstruction
Socket and ridge preservation
Sinus lift
Fenestration and dehiscencedefects
Intraosseous defects (1 to 3 walls)
Furcation defects (class I and II)

PRODUCT INFORMATION

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LITERATURE

[1] Stähli, A., Miron, R.J., Bosshardt, D.D., Sculean, A. and Gruber, R. (2016), Journal of Periodontology, Vol. 87 No. 5, pp. 583–590.
[2] Rothamel, D., Schwarz, F., Fienitz, T., Smeets, R., Dreiseidler, T., Ritter, L., Happe, A. and Zöller, J. (2012), The International journal of oral & maxillofacial implants, Vol. 27 No. 1, pp. 146–154.
[3] Rothamel, D., Fienietz, T., Benner, M., Happe, A., Kreppel, M., Scheer, M., Zöller, J. (2011), Poster EAO, Biodegradation pattern of native and cross-linked porcine collagen matrices – an experimental study in rats
[4] Rothamel, D., Schwarz, F., Sager, M., Herten, M., Sculean, A. and Becker, J. (2005), Clinical oral implantsresearch, Vol. 16 No. 3, pp. 369–378.