Outstanding biocompatibility The mesh implant is titanised, very lightweight and hydrophilic and thus outstandingly biocompatible.
Excellent quality of life combined with shorter convalescence Outstanding biocompatibility keeps inflammation rates to a minimum, prevents shrinkage and migration and ensures shorter convalescence. The implant is not recognized as a foreign body, and postoperative pain is prevented.
Globally unique technology The nanotechnological finishing process for the covalent bonding of polypropylene and the titanium-dioxide surface is patented and thus completely unique.
Customised products Individual mesh implants according to customer requirements complement the comprehensive, indication-specific portfolio of mesh implants. This has been made possible thanks to a special approval process for customised products.
- Laser-cut edges
- Large-pore structure
- Monofilament fabric
- Titanised soft tissue reinforcement implant for hernia repair
- Material: polypropylene with covalently bonded titanised surface
- Thickness of titanisation layer: approx. 30–50 nm
- Fabric: knitted monofilament fibres
- Edges: laser cut, rounded
| light |
|---|---|
Weight | 35 g/m2 |
Strength (DIN EN ISO 5084) | 0,30 mm |
Pore size | ≥ 1 mm |
Fibre diameter | 58 dtex (90 µm) |
Porosity 2D | 61 % |
Porosity 3D | 87 % |
Physiological elasticity at 16 N/cm | 21 % |
Physiological elasticity at 32 N/cm | 38 % |
Tensile strength (burst test) | 47 N |
| a | b |
|---|---|---|
Small | 70 | 100 |
Medium | 80 | 100 |
Large | 90 | 100 |
a | b | c | d | e |
|---|---|---|---|---|
70 | 10 | 35 | 68 | 10 |
TiPLUG®
TiPATCH®
Implantation
For indirect hernias, the hernial sac is separated after preparation and ligature.
The preperitonaeal space can be bluntly dissected with a finger around the hernial opening thus creating sufficient space for the TiPLUG® system.
The central opening is placed around the spermatic cord or ligamentum teres and placed flat inside the preperitonaeal space. In addition, the TiPATCH® is placed on the anterior surface of the posterior wall of the inguinal canal. The opening is placed around the spermatic duct in order to repair an additionally existing direct hernia and/or to provide strengthening in order to prevent the recurrence of a direct or indirect hernia. The ends can be connected using sutures.
Titanisation
Chemical vapour deposition (CVD) is a process for the metallisation of complex components while at the same time achieving strong bonds. However, as this process involves temperatures in excess of 150°C, it is not an option for many prosthetic materials which would not be shape retentive at such temperatures (e.g. polypropylene).
For that reason, the titanisation of plastic implants takes place at low temperatures using a special plasma-coating process known as PACVD (plasma-activated chemical vapour deposition).
Plasma is the term used for an excited (ionised) gas. In that stage, atoms/molecules are highly energetic. However, plasma is not hot. In everyday life, we are familiar with plasma in fluorescent tubes. The electrically charged gas components emit light as the result of their highly energetic state, but the fluorescent tube remains cold.
In the titanisation process, gaseous titanium is introduced into the coating chamber as a precursor. By adding energy in form of plasma, the precursor is split into individual ionised atoms. These ionised titanium atoms have free electrons at their surfaces.
In addition to the precursor, the plasma also excites the surfaces of the plastic implants with the result that their surfaces also have free electrons. The ionised titanium atoms come into contact with the ionised surface of the implant resulting in the formation of covalent bonds with the free electrons. Covalent bonds are seen as the strongest of chemical bonds; the titanium is thus almost permanently bonded to the plastic.
This process creates a composite material whose surface is coated with an ultra-thin, approx. 30–50 nm (1 nanometre = 1 millionth of a millimetre), highly biocompatible layer of titanium. The coating is so thin that it appears to be transparent and is also highly flexible.
Because the titanium precursor is introduced in gaseous form, it reaches all parts of the plastic implant. As the result, the entire surface, including gaps in between complex shapes, is completely and evenly titanised.
Indication
Surgical mesh implants from titanised polypropylene fabric are used for the treatment of soft tissue defects.
The TiPLUG® System is designed for the treatment of direct and indirect inguinal hernias.
| REF | Weight | Size | Material | PU |
|---|---|---|---|---|
| 6000448 | light | small Ø 7 cm | Titanized polypropylene | 3 |
| 6000451 | light | medium Ø 8 cm | Titanized polypropylene | 3 |
| 6000454 | light | large Ø 9 cm | Titanized polypropylene | 3 |
