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force and grip displacement data  (MTS Systems Corporation)
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MTS Systems Corporation force and grip displacement data
( A ) 3D-printed python tooth–inspired device is placed at the native attachment site. ( B ) Schematic biomechanical testing setup for human cadaver rotator cuff tendons repaired with double-row suture only or device and suture. ( C ) Representative <t>force-displacement</t> curves for biomechanical tests of cadaver supraspinatus repairs with and without the device. ( D to F ) Mechanical evaluation of the device compared to the state-of-the-art rotator cuff repair. N = 5 biologic replicates per group. P values were determined using a two-tailed, paired Student’s t test (* P < 0.05). The device significantly increased the maximum force and energy absorption of the repaired rotator cuff.
Force And Grip Displacement Data, supplied by MTS Systems Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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force and grip displacement data - by Bioz Stars, 2026-05
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( A ) 3D-printed python tooth–inspired device is placed at the native attachment site. ( B ) Schematic biomechanical testing setup for human cadaver rotator cuff tendons repaired with double-row suture only or device and suture. ( C ) Representative force-displacement curves for biomechanical tests of cadaver supraspinatus repairs with and without the device. ( D to F ) Mechanical evaluation of the device compared to the state-of-the-art rotator cuff repair. N = 5 biologic replicates per group. P values were determined using a two-tailed, paired Student’s t test (* P < 0.05). The device significantly increased the maximum force and energy absorption of the repaired rotator cuff.

Journal: Science Advances

Article Title: Python tooth–inspired fixation device for enhanced rotator cuff repair

doi: 10.1126/sciadv.adl5270

Figure Lengend Snippet: ( A ) 3D-printed python tooth–inspired device is placed at the native attachment site. ( B ) Schematic biomechanical testing setup for human cadaver rotator cuff tendons repaired with double-row suture only or device and suture. ( C ) Representative force-displacement curves for biomechanical tests of cadaver supraspinatus repairs with and without the device. ( D to F ) Mechanical evaluation of the device compared to the state-of-the-art rotator cuff repair. N = 5 biologic replicates per group. P values were determined using a two-tailed, paired Student’s t test (* P < 0.05). The device significantly increased the maximum force and energy absorption of the repaired rotator cuff.

Article Snippet: Force and grip displacement data were recorded (MTS Systems Corporation, Eden Prairie, MN, USA), and maximum force, stiffness, and energy to failure were determined.

Techniques: Two Tailed Test