Abstract
Introduction: Most of the wrist motions occur in a diagonal plane of motion, termed the dart-throwing motion (DTM) plane; it is thought to be more stable compared with movement in the sagittal plane. However, the effect of the altered carpus motion during DTM on the stress distribution at the radiocarpal joint has yet to be explored. Aim: To calculate and compare the stresses between the radius and two carpal bones (the scaphoid and the lunate) in two wrist positions, extension and radial extension (position in DTM), and between an adult and an elder model. Methods: A healthy wrist of a 40-year-old female was scanned using Magnetic Resonance Imaging in two wrist positions (extension, radial extension). The scans were transformed into three-dimensional models and meshed. Finite element (FE) analyses in each position of the wrist were conducted for both adult and elder models, which were differentiated by the mechanical properties of the ligaments. The distal surfaces of the carpal bones articulating with the metacarpals were loaded by physically accurate tendon forces for each wrist position. Results: The von Mises, shear stresses and contact stresses were higher in the extension model compared with the radial-extension model and were higher for the radius-scaphoid interface in the adult model compared with the elder model. In the radius-scaphoid interface, the stress differences between the two wrist positions were smaller in the elder model (11.5% to 22.5%) compared with the adult model (33.6–41.5%). During radial extension, the contact area at the radius-lunate interface was increased, more so in the adult model (222.2%) compared with the elder model (127.9%), while the contact area at the radius-scaphoid was not affected by the position of the wrist in the adult model (100.9%) but decreased in the elder model (50.2%) during radial extension. Conclusion: The reduced stresses during radial extension might provide an explanation to our frequent use of this movement pattern, as the reduced stresses decrease the risk of overuse injury. Our results suggest that this conclusion is relevant to both adults and elder individuals.
Highlights
Most of the wrist motions occur in a diagonal plane of motion, termed the dart-throwing motion (DTM) plane; it is thought to be more stable compared with movement in the sagittal plane
Most of the wrist motions occur in a diagonal plane of motion, termed the dartthrowing motion (DTM) plane [1], i.e., a wrist plane that ranges from radial extension to ulnar flexion
The relevant tendon forces were used as a database for our Finite element (FE) analyses for the following tendons: extensor carpi ulnaris (ECU), extensor carpi radialis brevis (ECRB), extensor carpi radialis longus (ECRL), abductor pollicis longus (APL), flexor carpi radialis (FCR), and flexor carpi ulnaris (FCU)
Summary
Most of the wrist motions occur in a diagonal plane of motion, termed the dartthrowing motion (DTM) plane [1], i.e., a wrist plane that ranges from radial extension to ulnar flexion. Since the DTM is our natural wrist motion, occupational therapists strive to incorporate it in the rehabilitation of the wrist [5,6,7] Their interest in DTM has grown in the last decade and carpal kinematics have been documented, the stress distribution at the radiocarpal joint has yet to be explored, and. Trhadesiael satnuddiuelsnasrhdoweveiadtitohnat[1t0h]e, flooraddifdfiesrternibtuptuiornpocsheasn, gee.gd.,atcocoexrdpilnaginttohethme epcohsatunrisemofotfhwe rwisrtiisnt;juhroyw[1ev1]era,nndotodatetastetxhiest erfefgecatrsdoinfgsuloragdicsadl ruercinognsDtrTuMct.ion techniques [12,13] These studies showed that the load distribTuhteioanimchoafngtheids asctucodrydiwngastotothcealpcousltautereaonfdthceowmrpisatr;ehtohweesvtreer,snseosdbaettaweexeisnt rthegearraddiniugs laonaddstwduorcinargpDalTbMo.nes (the scaphoid and the lunate) in two wrist positions, extension and radiaTlheextaeinmsioofnth(pisossittuiodnyiwn aDsTtMo c)a, lacnudlabteetawnedencoamnpaadrueltthaendstraensseelds ebremtwoedeenl.the radius and two carpal bones (the scaphoid and the lunate) in two wrist positions, extension and r2a.dMiael tehxotednssion (position in DTM), and between an adult and an elder model. There is a documented decline of hand-grip force with age [27], the movements chosen for this study require a small percentage of the maximal muscle force, so that both an elderly individual and younger populations could produce these forces
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