Abstract
In order to improve the ability of clinical diagnosis to differentiate articular cartilage (AC) injury of different origins, this study explores the sensitivity of mid-infrared (MIR) spectroscopy for detecting structural, compositional, and functional changes in AC resulting from two injury types. Three grooves (two in parallel in the palmar-dorsal direction and one in the mediolateral direction) were made via arthrotomy in the AC of the radial facet of the third carpal bone (middle carpal joint) and of the intermediate carpal bone (the radiocarpal joint) of nine healthy adult female Shetland ponies (age = 6.8 ± 2.6 years; range 4–13 years) using blunt and sharp tools. The defects were randomly assigned to each of the two joints. Ponies underwent a 3-week box rest followed by 8 weeks of treadmill training and 26 weeks of free pasture exercise before being euthanized for osteochondral sample collection. The osteochondral samples underwent biomechanical indentation testing, followed by MIR spectroscopic assessment. Digital densitometry was conducted afterward to estimate the tissue's proteoglycan (PG) content. Subsequently, machine learning models were developed to classify the samples to estimate their biomechanical properties and PG content based on the MIR spectra according to injury type. Results show that MIR is able to discriminate healthy from injured AC (91%) and between injury types (88%). The method can also estimate AC properties with relatively low error (thickness = 12.7% mm, equilibrium modulus = 10.7% MPa, instantaneous modulus = 11.8% MPa). These findings demonstrate the potential of MIR spectroscopy as a tool for assessment of AC integrity changes that result from injury.
Original language | English |
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Number of pages | 13 |
Journal | Annals of Biomedical Engineering |
DOIs | |
Publication status | E-pub ahead of print - 2024 |
Publication type | A1 Journal article-refereed |
Funding
Financial support from the Academy of Finland Research Fellowship (315820), Academy of Finland Research Fellowship Project funding (Grant Nos. 320135, 345670), the European Commission (H2020-ICT-2017-1), Kuopio University Hospital-VTR project(5203111), Horizon2020 and Enterprise Ireland (Project ID: MF 2021 0189), Finnish Cultural Foundation (65211977), Dutch Arthritis Association (LLP-22), NOW Graduate Programme Grant (Project Number 022.005.018), Business Finland Grant (7416/31/2022), Universi of Eastern Finland\u2019s Doctoral Programme in Science, Forestry and Technology (SCITECO), Sigrid Jus\u00E9lius Foundation (project 8089) are acknowledged. Open access funding provided by University of Eastern Finland (including Kuopio University Hospital). Funding was provided by Academy of Finland (Grant Nos. 315820, 320135, 345670), European Commission (Grant No. H2020-ICT-2017-1), Kuopion Yliopistollinen Sairaala (Grant No. 5203111), Suomen Kulttuurirahasto (Grant No. 65211977), Dutch Arthritis Association (Grant LLP-22), NWO (Grant No. 022.005.018), Horizon2020 and Enterprise Ireland (Project ID: MF 2021 0189), Business Finland ((Grant No. 7416/31/2022), Sigrid Jus\u00E9lius Foundation (Project ID: 8089).
Funders | Funder number |
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Universi of Eastern Finland’s Doctoral Programme in Science, Forestry and Technology | |
Horizon 2020 Framework Programme | |
SCITECO | |
Business Finland | 7416/31/2022 |
Dutch Arthritis Association | LLP-22 |
Sigrid Juséliuksen Säätiö | 8089 |
Kuopion yliopistollinen sairaala | 5203111 |
Strategic Research Council at the Research Council of Finland | 345670, 320135, 315820 |
Nederlandse Organisatie voor Wetenschappelijk Onderzoek (The Netherlands Organisation for Scientific Research NWO) | 022.005.018 |
Enterprise Ireland | MF 2021 0189 |
European Commission | H2020-ICT-2017-1 |
Suomen Kulttuurirahasto | 65211977 |
Keywords
- Articular cartilage
- Chondral groove model
- Equine
- Machine learning
- Mid-infrared spectroscopy
- Osteoarthritis
Publication forum classification
- Publication forum level 2
ASJC Scopus subject areas
- Biomedical Engineering