Fourier transform infrared microspectroscopy combined with principal component analysis and artificial neural networks for the study of the effect of β-hydroxy-β-methylbutyrate (HMB) supplementation on articular cartilage

Abstrakt

The potential of Fourier Transform infrared microspectroscopy (FTIR microspectroscopy) and multivariate analyses were applied for the classification of the frequency ranges responsible for the distribution changes of the main components of articular cartilage (AC) that occur during dietary β-hydroxy-β-methyl butyrate (HMB) supplementation. The FTIR imaging analysis of histological AC sections originating from 35-day old male piglets showed the change in the collagen and proteoglycan contents of the HMB-supplemented group compared to the control. The relative amount of collagen content in the superficial zone increased by more than 23% and in the middle zone by about 17%, while no changes in the deep zone were observed compared to the control group. Considering proteoglycans content, a significant increase was registered in the middle and deep zones, respectively; 62% and 52% compared to the control. AFM nanoindentation measurements collected from animals administered with HMB displayed an increase in AC tissue stiffness by detecting a higher value of Young’s modulus in all investigated AC zones. We demonstrated that principal component analysis and artificial neural networks could be trained with spectral information to distinguish AC histological sections and the group under study accurately. This work may support the use and effectiveness of FTIR imaging combined with multivariate analyses as a quantitative alternative to traditional collagenous tissue-related histology.

Autorzy

Carina Prein
Carina Prein
Hauke Clausen-Schaumann
Hauke Clausen-Schaumann
Attila Aszodi
Attila Aszodi
Tomasz Blicharski
Tomasz Blicharski
Piotr Dobrowolski
Piotr Dobrowolski
artykuł
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES
Angielski
2021
22
7
9189
otwarte czasopismo
CC BY 4.0 Uznanie autorstwa 4.0
ostateczna wersja opublikowana
w momencie opublikowania
2021-08-25
140
6,208
0
2