SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2524229057> ?p ?o ?g. }

Showing items 1 to 91 of 91 with 100 items per page.

W2524229057 endingPage "39" @default.
W2524229057 startingPage "39" @default.
W2524229057 abstract "Anterior knee pain is one of the most frequently reported musculoskeletal complaints in all age groups. However, patient9s complaints are often nonspecific, leading to difficulty in properly diagnosing the condition. One of the causes of pain is the degeneration of the articular cartilage. As the cartilage deteriorates, its ability to distribute the joint reaction forces decreases and the stresses may exceed the pain threshold. Unfortunately, the assessment of the cartilage condition is often limited to a detailed interview with the patient, careful physical examination and x-ray imaging. The X-ray screening may reveal bone degeneration, but does not carry sufficient information of the soft tissues9 conditions. More advanced imaging tools such as MRI or CT are available, but these are expensive, time consuming and are only suitable for detection of advanced arthritis. Arthroscopic surgery is often the only reliable option, however due to its semi-invasive nature, it cannot be considered as a practical diagnostic tool. However, as the articular cartilage degenerates, the surfaces become rougher, they produce higher vibrations than smooth surfaces due to higher friction during the interaction. Therefore, it was proposed to detect vibrations non-invasively using accelerometers, and evaluate the signals for their potential diagnostic applications. Vibration data was collected for 75 subjects; 23 healthy and 52 subjects suffering from knee arthritis. The study was approved by the IRB and an Informed Consent was obtained prior to data collection. Five accelerometers were attached to skin around the knee joint (at the patella, medial and lateral femoral condyles, tibial tuberosity and medial tibial plateau). Each subject performed 5 activities; (1) flexion-extension, (2) deep knee bend, (3) chair rising, (4) stair climbing and (5) stair descent. The vibration and motion components of the signals were separated by a high pass filter. Next, 33 parameters of the signals were calculated and evaluated for their discrimination effectiveness (Figure 1). Finally the pattern recognition method based on Baysian classification theorem was used for classify each signal to either healthy or arthritic group, assuming equal prior probabilities. The variance and mean of the vibration signals were significantly higher in the arthritic group (p=2.8e-7 and p=3.7e-14, respectively), which confirms the general hypothesis that the vibration magnitudes increase as the cartilage degenerates. Other signal features providing good discrimination included the 99 th quantile, the integral of the vibration signal envelope, and the product of the signal envelope and the activity duration. The pattern classification yielded excellent results with the success rate of up to 92.2% using only 2 features, up to 94.8% using 3 (Figure 2), and 96.1% using 4 features. The current study proved that the vibrations can be studied non-invasively using a low-cost technology. The results confirmed the hypothesis that the degeneration of the cartilage increases the vibration of the articulating bones. The classification rate obtained in the study is very encouraging, providing over 96% accuracy. The presented technology has certainly a potential of being used as an additional screening methodology enhancing the assessment of the articular cartilage condition." @default.
W2524229057 created "2016-10-07" @default.
W2524229057 creator A5016331810 @default.
W2524229057 creator A5022443423 @default.
W2524229057 creator A5046057544 @default.
W2524229057 creator A5053598047 @default.
W2524229057 creator A5062349849 @default.
W2524229057 creator A5068171952 @default.
W2524229057 creator A5069184753 @default.
W2524229057 creator A5084044897 @default.
W2524229057 date "2012-09-01" @default.
W2524229057 modified "2023-10-08" @default.
W2524229057 title "Vibroarthrography as a Potential Non-Invasive Diagnostic Tool: Application to Articular Cartilage Condition Assessment" @default.
W2524229057 hasPublicationYear "2012" @default.
W2524229057 type Work @default.
W2524229057 sameAs 2524229057 @default.
W2524229057 citedByCount "0" @default.
W2524229057 crossrefType "journal-article" @default.
W2524229057 hasAuthorship W2524229057A5016331810 @default.
W2524229057 hasAuthorship W2524229057A5022443423 @default.
W2524229057 hasAuthorship W2524229057A5046057544 @default.
W2524229057 hasAuthorship W2524229057A5053598047 @default.
W2524229057 hasAuthorship W2524229057A5062349849 @default.
W2524229057 hasAuthorship W2524229057A5068171952 @default.
W2524229057 hasAuthorship W2524229057A5069184753 @default.
W2524229057 hasAuthorship W2524229057A5084044897 @default.
W2524229057 hasConcept C105702510 @default.
W2524229057 hasConcept C111919701 @default.
W2524229057 hasConcept C126838900 @default.
W2524229057 hasConcept C141071460 @default.
W2524229057 hasConcept C142724271 @default.
W2524229057 hasConcept C1862650 @default.
W2524229057 hasConcept C204787440 @default.
W2524229057 hasConcept C2776164576 @default.
W2524229057 hasConcept C2779279471 @default.
W2524229057 hasConcept C2780368125 @default.
W2524229057 hasConcept C2780550940 @default.
W2524229057 hasConcept C2908736133 @default.
W2524229057 hasConcept C29694066 @default.
W2524229057 hasConcept C3020332539 @default.
W2524229057 hasConcept C41008148 @default.
W2524229057 hasConcept C71924100 @default.
W2524229057 hasConcept C89805583 @default.
W2524229057 hasConcept C99508421 @default.
W2524229057 hasConceptScore W2524229057C105702510 @default.
W2524229057 hasConceptScore W2524229057C111919701 @default.
W2524229057 hasConceptScore W2524229057C126838900 @default.
W2524229057 hasConceptScore W2524229057C141071460 @default.
W2524229057 hasConceptScore W2524229057C142724271 @default.
W2524229057 hasConceptScore W2524229057C1862650 @default.
W2524229057 hasConceptScore W2524229057C204787440 @default.
W2524229057 hasConceptScore W2524229057C2776164576 @default.
W2524229057 hasConceptScore W2524229057C2779279471 @default.
W2524229057 hasConceptScore W2524229057C2780368125 @default.
W2524229057 hasConceptScore W2524229057C2780550940 @default.
W2524229057 hasConceptScore W2524229057C2908736133 @default.
W2524229057 hasConceptScore W2524229057C29694066 @default.
W2524229057 hasConceptScore W2524229057C3020332539 @default.
W2524229057 hasConceptScore W2524229057C41008148 @default.
W2524229057 hasConceptScore W2524229057C71924100 @default.
W2524229057 hasConceptScore W2524229057C89805583 @default.
W2524229057 hasConceptScore W2524229057C99508421 @default.
W2524229057 hasLocation W25242290571 @default.
W2524229057 hasOpenAccess W2524229057 @default.
W2524229057 hasPrimaryLocation W25242290571 @default.
W2524229057 hasRelatedWork W1903477488 @default.
W2524229057 hasRelatedWork W2004596591 @default.
W2524229057 hasRelatedWork W2005874536 @default.
W2524229057 hasRelatedWork W2075845698 @default.
W2524229057 hasRelatedWork W2086373297 @default.
W2524229057 hasRelatedWork W2099245131 @default.
W2524229057 hasRelatedWork W2280544409 @default.
W2524229057 hasRelatedWork W2304652983 @default.
W2524229057 hasRelatedWork W2312552099 @default.
W2524229057 hasRelatedWork W2329797352 @default.
W2524229057 hasRelatedWork W2421771375 @default.
W2524229057 hasRelatedWork W2531940706 @default.
W2524229057 hasRelatedWork W2604424160 @default.
W2524229057 hasRelatedWork W2605764815 @default.
W2524229057 hasRelatedWork W2786551209 @default.
W2524229057 hasRelatedWork W2799723382 @default.
W2524229057 hasRelatedWork W35074769 @default.
W2524229057 hasRelatedWork W2187820968 @default.
W2524229057 hasRelatedWork W2330950895 @default.
W2524229057 hasRelatedWork W2833870692 @default.
W2524229057 isParatext "false" @default.
W2524229057 isRetracted "false" @default.
W2524229057 magId "2524229057" @default.
W2524229057 workType "article" @default.