DSC examination of cartilage damage of patients undergoing shoulder replacement

Shoulder replacement is a viable surgical treatment for comminuted proximal humerus fractures and shoulder osteoarthritis. Proper evaluation of hyaline cartilage is essential for the right choice of prosthesis; however, there are only a limited number of studies available investigating the cartilage...

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Bibliographic Details
Published in:Journal of thermal analysis and calorimetry 2022-01, Vol.147 (2), p.1275-1280
Main Authors: Bata, András, Nöt, László G., Szabó, Hajnalka, Cifra, János, Lőrinczy, Dénes
Format: Article
Language:English
Subjects:
Analytical Chemistry
Antiarthritic agents
Arthritis
Biomedical materials
Calorimetry
Care and treatment
Cartilage
Chemistry
Chemistry and Materials Science
Damage
Denaturation
Differential scanning calorimetry
Enthalpy
Fractures
Heat measurement
Heat transmission
Humerus
Inorganic Chemistry
Joints (anatomy)
Measurement Science and Instrumentation
Orthopedics
Osteoarthritis
Physical Chemistry
Polymer Sciences
Prostheses
Shoulder
Thermodynamic properties
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Summary:Shoulder replacement is a viable surgical treatment for comminuted proximal humerus fractures and shoulder osteoarthritis. Proper evaluation of hyaline cartilage is essential for the right choice of prosthesis; however, there are only a limited number of studies available investigating the cartilage of glenohumeral joint of patients undergoing shoulder replacement. We hypothesized that differential scanning calorimetry (DSC) could determine the grade of cartilage damage in patients undergoing reversed shoulder replacement, providing insights into the structural changes of the human cartilage samples. Sample of hyaline cartilage of glenohumeral joint was harvested during reversed shoulder replacement of orthopaedic and trauma patients. Thermal parameters were measured using DSC, and radiological examination of glenohumeral joint was also done prior to surgery. We have found that changes in thermal characteristics and DSC scans clearly indicate the severity of osteoarthritis and cartilage damage. The denaturation temperature range and the half-width of the heat flow curves were significantly wider in the orthopaedic samples compared to the control and traumatic ones. The calorimetric enthalpy (Δ H cal ) exhibited significant differences in both pathologic samples, compared to the control. The melting temperatures ( T m ) show that structural change caused by orthopaedic condition is greater than the effect of traumatic. Therefore, differential scanning calorimetry could help to determine the grade of cartilage damage in orthopaedic and trauma patients undergoing reversed shoulder replacement.
ISSN:1388-6150
1588-2926
DOI:10.1007/s10973-020-10421-7