TY - JOUR
T1 - Reliability of HR-pQCT derived cortical bone structural parameters when using uncorrected instead of corrected automatically generated endocortical contours in a cross-sectional study
T2 - the Maastricht study
AU - de Waard, E.A.C.
AU - Sarodnik, C.
AU - Pennings, A.
AU - de Jong, J.J.A.
AU - Savelberg, H.H.C.M.
AU - van Geel, T.A.
AU - van der Kallen, C.J.
AU - Stehouwer, C.D.A.
AU - Schram, M.T.
AU - Schaper, N.
AU - Dagnelie, P.C.
AU - Geusens, P.P.M.M.
AU - Koster, A.
AU - van Rietbergen, B.
AU - van den Bergh, J.P.W.
PY - 2018/9/1
Y1 - 2018/9/1
N2 - Most HR-pQCT studies examining cortical bone use an automatically generated endocortical contour (AUTO), which is manually corrected if it visually deviates from the apparent endocortical margin (semi-automatic method, S-AUTO). This technique may be prone to operator-related variability and is time consuming. We examined whether the AUTO instead of the S-AUTO method can be used for cortical bone analysis. Fifty scans of the distal radius and tibia from participants of The Maastricht Study were evaluated with AUTO, and subsequently with S-AUTO by three independent operators. AUTO cortical bone parameters were compared to the average parameters obtained by the three operators (S-AUTOmean). All differences in mean cortical bone parameters between AUTO and S-AUTOmean were < 5%, except for lower AUTO cortical porosity of the radius (− 16%) and tibia (− 6%), and cortical pore volume (Ct.Po.V) of the radius (− 7%). The ICC of S-AUTOmean and AUTO was > 0.90 for all parameters, except for cortical pore diameter of the radius (0.79) and tibia (0.74) and Ct.Po.V of the tibia (0.89), without systematic errors on the Bland–Altman plots. The precision errors (RMS-CV%) of the radius parameters between S-AUTOmean and AUTO were comparable to those between the individual operators, whereas the tibia RMS-CV% between S-AUTOmean and AUTO were higher than those of the individual operators. Comparison of the three operators revealed clear inter-operator variability. This study suggests that the AUTO method can be used for cortical bone analysis in a cross-sectional study, but that the absolute values—particularly of the porosity-related parameters—will be lower.
AB - Most HR-pQCT studies examining cortical bone use an automatically generated endocortical contour (AUTO), which is manually corrected if it visually deviates from the apparent endocortical margin (semi-automatic method, S-AUTO). This technique may be prone to operator-related variability and is time consuming. We examined whether the AUTO instead of the S-AUTO method can be used for cortical bone analysis. Fifty scans of the distal radius and tibia from participants of The Maastricht Study were evaluated with AUTO, and subsequently with S-AUTO by three independent operators. AUTO cortical bone parameters were compared to the average parameters obtained by the three operators (S-AUTOmean). All differences in mean cortical bone parameters between AUTO and S-AUTOmean were < 5%, except for lower AUTO cortical porosity of the radius (− 16%) and tibia (− 6%), and cortical pore volume (Ct.Po.V) of the radius (− 7%). The ICC of S-AUTOmean and AUTO was > 0.90 for all parameters, except for cortical pore diameter of the radius (0.79) and tibia (0.74) and Ct.Po.V of the tibia (0.89), without systematic errors on the Bland–Altman plots. The precision errors (RMS-CV%) of the radius parameters between S-AUTOmean and AUTO were comparable to those between the individual operators, whereas the tibia RMS-CV% between S-AUTOmean and AUTO were higher than those of the individual operators. Comparison of the three operators revealed clear inter-operator variability. This study suggests that the AUTO method can be used for cortical bone analysis in a cross-sectional study, but that the absolute values—particularly of the porosity-related parameters—will be lower.
KW - Bone microarchitecture
KW - Cortical bone analysis
KW - Endocortical contour
KW - High resolution peripheral quantitative computed tomography
UR - http://www.scopus.com/inward/record.url?scp=85044533684&partnerID=8YFLogxK
U2 - 10.1007/s00223-018-0416-2
DO - 10.1007/s00223-018-0416-2
M3 - Article
C2 - 29594493
AN - SCOPUS:85044533684
SN - 0171-967X
VL - 103
SP - 252
EP - 265
JO - Calcified Tissue International
JF - Calcified Tissue International
IS - 3
ER -