Catalog excerpts
Stability | Versatility | Recovery
Open the catalog to page 1The next generation in soft tissue internal fixation The most advanced non-biological soft tissue treatment option, LARS provides a high performance alternative to autogenous and allogenous tissue reconstructions. ■■ Patented free-fibre design concepts based on current kinematic principles6,14 Novel fibre treatment process facilitates excellent tissue in-growth5,6,8 Refined surgical techniques ensuring long term clinical product efficacy15
Open the catalog to page 2Restoring confidence in non-biological soft tissue fixation solutions. ■■ 90% patient satisfaction in ACJ reconstructions1 93% of patients demonstrated excellent to good results in PCL reconstruct
Open the catalog to page 3Through modern design principles and advanced manufacturing technologies, LARS addresses the four key concerns with existing soft tissue treatment options taking an innovative step forward in high performance sport injury solutions. Immediate strength Percentage post-op hamstring strength LARS provides immediate stability and strength whilst diminishing associated post-operative weakness and pain due to iatrogenic tissue harvesting. 100 Hamstring autograft 40 20 No need to harvest tissue, therefore eliminating associated donor site weakness3 Encapsulation of LARS fibres (A) surrounded by...
Open the catalog to page 4The novel fibre treatment allows superior cellullar proliferation with LARS5,6 simple culture culture on LARS fibres culture on fibres without LARS cleaning process Rapid recovery LARS maintains proprioceptive mechanoreceptors and permits mechanotherapy through exercise-led tissue healing11. By eliminating donor site morbidity, weakness and pain, LARS allows2,10: ■■ Faster rehabilitation and return to activity4 Conservative anatomical restoration To minimize further iatrogenic injury, LARS surgical technique requires smaller tunnel diameters and out-side-in drilling. The preservation of...
Open the catalog to page 5Prof. L. Funk, 2011: Podium presentation at BESS 2011 Shen et al, 2010. Arthroscopic posterior cruciate ligament reconstruction using LARS artificial ligament: A retrospective study. Journal of Surgical Research Ardern et al., 2010: Hamstring strength recovery after hamstring tendon harvest for anterior cruciate ligament reconstruction: a comparison between graft types. Journal of Arthroscopy Papadopoulos et al., 2011. Treatment of unstable knee anterior cruciate ligament deficiency using the new generation LARS artificial ligament: long-term follow-up of 162 PCL operated knees in 155...
Open the catalog to page 6All Corin catalogs and technical brochures
-
2019 Revival™ 100mm
2 Pages
-
Revival™
2 Pages
-
2019 TriFit TS™
2 Pages
-
Evidence base
8 Pages
-
Dynacup™
6 Pages
-
Dual Mobility™
4 Pages
-
Meije Duo™
4 Pages
-
Linea™
4 Pages
-
Dynacup One-C™
4 Pages
-
MiniHip™ - The evidence base
16 Pages
-
MiniHip™ - product overview
12 Pages
-
Trinity™ - surgical technique
16 Pages
-
Trinity - design rationale
12 Pages
-
clinical excellence
6 Pages
-
Revival™
6 Pages
-
Biomimetic Cementless Technology
12 Pages
-
ECiMa™
12 Pages
-
Solomax™
4 Pages
-
Zenith™
12 Pages
-
Rotaglide+™
12 Pages
-
MetaFix™
12 Pages
-
TriFit TS™
12 Pages
-
Trinity™ - product overview
12 Pages
-
Optimized Positioning System
12 Pages
-
Uniglide™
28 Pages
-
Unity knee surgical technique
24 Pages
-
TriFit TS surgical technique
12 Pages
-
MiniHip™ - surgical technique
12 Pages
-
OPS™
6 Pages
-
Unity KneeTM
16 Pages
-
Hip continuum
6 Pages
-
TriFit TS?
12 Pages
-
LARS ACL
12 Pages
-
LARS
8 Pages
-
Solomax
4 Pages
-
Zenith
12 Pages
-
Uniglide
12 Pages
-
Rotaglide+
12 Pages
-
Cormet - product overview
12 Pages
-
MiniHip - design rationale
16 Pages
-
MiniHip - product overview
12 Pages
-
Trinity
12 Pages