The Accuracy of Incident Vertebral Fracture Detection in Children Using Targeted Case-Finding Approaches

the Canadian STOPP Consortium

doi:10.1002/jbmr.4294

The Accuracy of Incident Vertebral Fracture Detection in Children Using Targeted Case-Finding Approaches

the Canadian STOPP Consortium

Producción científica: Contribución a una revista › Artículo › revisión exhaustiva

4 Citas (Scopus)

Resumen

Vertebral fractures are clinically important sequelae of a wide array of pediatric diseases. In this study, we examined the accuracy of case-finding strategies for detecting incident vertebral fractures (IVF) over 2 years in glucocorticoid-treated children (n = 343) with leukemia, rheumatic disorders, or nephrotic syndrome. Two clinical situations were addressed: the prevalent vertebral fracture (PVF) scenario (when baseline PVF status was known), which assessed the utility of PVF and low lumbar spine bone mineral density (LS BMD; Z-score <−1.4), and the non-PVF scenario (when PVF status was unknown), which evaluated low LS BMD and back pain. LS BMD was measured by dual-energy X-ray absorptiometry, vertebral fractures were quantified on spine radiographs using the modified Genant semiquantitative method, and back pain was assessed by patient report. Forty-four patients (12.8%) had IVF. In the PVF scenario, both low LS BMD and PVF were significant predictors of IVF. Using PVF to determine which patients should have radiographs, 11% would undergo radiography (95% confidence interval [CI] 8–15) with 46% of IVF (95% CI 30–61) detected. Sensitivity would be higher with a strategy of PVF or low LS BMD at baseline (73%; 95% CI 57–85) but would require radiographs in 37% of children (95% CI 32–42). In the non-PVF scenario, the strategy of low LS BMD and back pain produced the highest specificity of any non-PVF model at 87% (95% CI 83–91), the greatest overall accuracy at 82% (95% CI 78–86), and the lowest radiography rate at 17% (95% CI 14–22). Low LS BMD or back pain in the non-PVF scenario produced the highest sensitivity at 82% (95% CI 67–92), but required radiographs in 65% (95% CI 60–70). These results provide guidance for targeting spine radiography in children at risk for IVF.

Idioma original	English
Páginas (desde-hasta)	1255-1268
Número de páginas	14
Publicación	Journal of Bone and Mineral Research
Volumen	36
N.º	7
DOI	https://doi.org/10.1002/jbmr.4294
Estado	Published - jul. 2021
Publicado de forma externa	Sí

Nota bibliográfica

Funding Information:
This study was primarily funded by an operating grant from the Canadian Institutes of Health Research (FRN 64285). Additional funding for data collection was provided to LMW by a Canadian Institutes of Health Research New Investigator Award and a Canadian Child Health Clinician Scientist Career Enhancement Award. LMW has also been supported by University of Ottawa Research Chair Awards, a CHEO Research Institute Capacity Building Award, and by grants from the University of Ottawa Departments of Pediatrics and Surgery. This work was also supported by the University of Alberta Women and Children's Health Research Institute. The Canadian STOPP Consortium would like to thank the children and their families who participated in the study and without whom the STOPP research program would not have been possible. We would also like to thank the research associates at all the study centers.

Publisher Copyright:
© 2021 American Society for Bone and Mineral Research (ASBMR).

ASJC Scopus Subject Areas

Endocrinology, Diabetes and Metabolism
Orthopedics and Sports Medicine

PubMed: MeSH publication types

Journal Article
Research Support, Non-U.S. Gov't

ODS de las Naciones Unidas

Este resultado contribuye a los siguientes Objetivos de Desarrollo Sostenible

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@article{9f7572ce21394a83a9aa4315f20dba8b,

title = "The Accuracy of Incident Vertebral Fracture Detection in Children Using Targeted Case-Finding Approaches",

abstract = "Vertebral fractures are clinically important sequelae of a wide array of pediatric diseases. In this study, we examined the accuracy of case-finding strategies for detecting incident vertebral fractures (IVF) over 2 years in glucocorticoid-treated children (n = 343) with leukemia, rheumatic disorders, or nephrotic syndrome. Two clinical situations were addressed: the prevalent vertebral fracture (PVF) scenario (when baseline PVF status was known), which assessed the utility of PVF and low lumbar spine bone mineral density (LS BMD; Z-score <−1.4), and the non-PVF scenario (when PVF status was unknown), which evaluated low LS BMD and back pain. LS BMD was measured by dual-energy X-ray absorptiometry, vertebral fractures were quantified on spine radiographs using the modified Genant semiquantitative method, and back pain was assessed by patient report. Forty-four patients (12.8%) had IVF. In the PVF scenario, both low LS BMD and PVF were significant predictors of IVF. Using PVF to determine which patients should have radiographs, 11% would undergo radiography (95% confidence interval [CI] 8–15) with 46% of IVF (95% CI 30–61) detected. Sensitivity would be higher with a strategy of PVF or low LS BMD at baseline (73%; 95% CI 57–85) but would require radiographs in 37% of children (95% CI 32–42). In the non-PVF scenario, the strategy of low LS BMD and back pain produced the highest specificity of any non-PVF model at 87% (95% CI 83–91), the greatest overall accuracy at 82% (95% CI 78–86), and the lowest radiography rate at 17% (95% CI 14–22). Low LS BMD or back pain in the non-PVF scenario produced the highest sensitivity at 82% (95% CI 67–92), but required radiographs in 65% (95% CI 60–70). These results provide guidance for targeting spine radiography in children at risk for IVF.",

author = "{the Canadian STOPP Consortium} and Jinhui Ma and Kerry Siminoski and Peiyao Wang and Jaremko, {Jacob L.} and Khaldoun Koujok and Matzinger, {Mary Ann} and Nazih Shenouda and Brian Lentle and Nathalie Alos and Cummings, {Elizabeth A.} and Josephine Ho and Kristin Houghton and Miettunen, {Paivi M.} and Rosie Scuccimarri and Frank Rauch and Ward, {Leanne M.} and Ward, {Leanne M.} and Victor Konji and Maya Scharke and Elizabeth Sykes and Josephine Ho and Reinhard Kloiber and Victor Lewis and Julian Midgley and Paivi Miettunen and David Stephure and Lentle, {Brian C.} and Tom Blydt-Hansen and David Cabral and Dix, {David B.} and Kristin Houghton and Nadel, {Helen R.} and John Hay and Janusz Feber and Jacqueline Halton and Roman Jurencak and Khaldoun Koujok and Matzinger, {Mary Ann} and Johannes Roth and Nazih Shenouda and Karen Watanabe-Duffy and Elizabeth Cairney and Cheril Clarson and Guido Filler and Joanne Grimmer and Scott McKillop and Keith Sparrow and Robert Stein and Elizabeth Cummings and Bianca Lang",

note = "Funding Information: This study was primarily funded by an operating grant from the Canadian Institutes of Health Research (FRN 64285). Additional funding for data collection was provided to LMW by a Canadian Institutes of Health Research New Investigator Award and a Canadian Child Health Clinician Scientist Career Enhancement Award. LMW has also been supported by University of Ottawa Research Chair Awards, a CHEO Research Institute Capacity Building Award, and by grants from the University of Ottawa Departments of Pediatrics and Surgery. This work was also supported by the University of Alberta Women and Children's Health Research Institute. The Canadian STOPP Consortium would like to thank the children and their families who participated in the study and without whom the STOPP research program would not have been possible. We would also like to thank the research associates at all the study centers. Publisher Copyright: {\textcopyright} 2021 American Society for Bone and Mineral Research (ASBMR).",

year = "2021",

month = jul,

doi = "10.1002/jbmr.4294",

language = "English",

volume = "36",

pages = "1255--1268",

journal = "Journal of Bone and Mineral Research",

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T1 - The Accuracy of Incident Vertebral Fracture Detection in Children Using Targeted Case-Finding Approaches

AU - the Canadian STOPP Consortium

AU - Ma, Jinhui

AU - Siminoski, Kerry

AU - Wang, Peiyao

AU - Jaremko, Jacob L.

AU - Koujok, Khaldoun

AU - Matzinger, Mary Ann

AU - Shenouda, Nazih

AU - Lentle, Brian

AU - Alos, Nathalie

AU - Cummings, Elizabeth A.

AU - Ho, Josephine

AU - Houghton, Kristin

AU - Miettunen, Paivi M.

AU - Scuccimarri, Rosie

AU - Rauch, Frank

AU - Ward, Leanne M.

AU - Konji, Victor

AU - Scharke, Maya

AU - Sykes, Elizabeth

AU - Ho, Josephine

AU - Kloiber, Reinhard

AU - Lewis, Victor

AU - Midgley, Julian

AU - Miettunen, Paivi

AU - Stephure, David

AU - Lentle, Brian C.

AU - Blydt-Hansen, Tom

AU - Cabral, David

AU - Dix, David B.

AU - Houghton, Kristin

AU - Nadel, Helen R.

AU - Hay, John

AU - Feber, Janusz

AU - Halton, Jacqueline

AU - Jurencak, Roman

AU - Koujok, Khaldoun

AU - Matzinger, Mary Ann

AU - Roth, Johannes

AU - Shenouda, Nazih

AU - Watanabe-Duffy, Karen

AU - Cairney, Elizabeth

AU - Clarson, Cheril

AU - Filler, Guido

AU - Grimmer, Joanne

AU - McKillop, Scott

AU - Sparrow, Keith

AU - Stein, Robert

AU - Cummings, Elizabeth

AU - Lang, Bianca

N1 - Funding Information: This study was primarily funded by an operating grant from the Canadian Institutes of Health Research (FRN 64285). Additional funding for data collection was provided to LMW by a Canadian Institutes of Health Research New Investigator Award and a Canadian Child Health Clinician Scientist Career Enhancement Award. LMW has also been supported by University of Ottawa Research Chair Awards, a CHEO Research Institute Capacity Building Award, and by grants from the University of Ottawa Departments of Pediatrics and Surgery. This work was also supported by the University of Alberta Women and Children's Health Research Institute. The Canadian STOPP Consortium would like to thank the children and their families who participated in the study and without whom the STOPP research program would not have been possible. We would also like to thank the research associates at all the study centers. Publisher Copyright: © 2021 American Society for Bone and Mineral Research (ASBMR).

PY - 2021/7

Y1 - 2021/7

N2 - Vertebral fractures are clinically important sequelae of a wide array of pediatric diseases. In this study, we examined the accuracy of case-finding strategies for detecting incident vertebral fractures (IVF) over 2 years in glucocorticoid-treated children (n = 343) with leukemia, rheumatic disorders, or nephrotic syndrome. Two clinical situations were addressed: the prevalent vertebral fracture (PVF) scenario (when baseline PVF status was known), which assessed the utility of PVF and low lumbar spine bone mineral density (LS BMD; Z-score <−1.4), and the non-PVF scenario (when PVF status was unknown), which evaluated low LS BMD and back pain. LS BMD was measured by dual-energy X-ray absorptiometry, vertebral fractures were quantified on spine radiographs using the modified Genant semiquantitative method, and back pain was assessed by patient report. Forty-four patients (12.8%) had IVF. In the PVF scenario, both low LS BMD and PVF were significant predictors of IVF. Using PVF to determine which patients should have radiographs, 11% would undergo radiography (95% confidence interval [CI] 8–15) with 46% of IVF (95% CI 30–61) detected. Sensitivity would be higher with a strategy of PVF or low LS BMD at baseline (73%; 95% CI 57–85) but would require radiographs in 37% of children (95% CI 32–42). In the non-PVF scenario, the strategy of low LS BMD and back pain produced the highest specificity of any non-PVF model at 87% (95% CI 83–91), the greatest overall accuracy at 82% (95% CI 78–86), and the lowest radiography rate at 17% (95% CI 14–22). Low LS BMD or back pain in the non-PVF scenario produced the highest sensitivity at 82% (95% CI 67–92), but required radiographs in 65% (95% CI 60–70). These results provide guidance for targeting spine radiography in children at risk for IVF.

AB - Vertebral fractures are clinically important sequelae of a wide array of pediatric diseases. In this study, we examined the accuracy of case-finding strategies for detecting incident vertebral fractures (IVF) over 2 years in glucocorticoid-treated children (n = 343) with leukemia, rheumatic disorders, or nephrotic syndrome. Two clinical situations were addressed: the prevalent vertebral fracture (PVF) scenario (when baseline PVF status was known), which assessed the utility of PVF and low lumbar spine bone mineral density (LS BMD; Z-score <−1.4), and the non-PVF scenario (when PVF status was unknown), which evaluated low LS BMD and back pain. LS BMD was measured by dual-energy X-ray absorptiometry, vertebral fractures were quantified on spine radiographs using the modified Genant semiquantitative method, and back pain was assessed by patient report. Forty-four patients (12.8%) had IVF. In the PVF scenario, both low LS BMD and PVF were significant predictors of IVF. Using PVF to determine which patients should have radiographs, 11% would undergo radiography (95% confidence interval [CI] 8–15) with 46% of IVF (95% CI 30–61) detected. Sensitivity would be higher with a strategy of PVF or low LS BMD at baseline (73%; 95% CI 57–85) but would require radiographs in 37% of children (95% CI 32–42). In the non-PVF scenario, the strategy of low LS BMD and back pain produced the highest specificity of any non-PVF model at 87% (95% CI 83–91), the greatest overall accuracy at 82% (95% CI 78–86), and the lowest radiography rate at 17% (95% CI 14–22). Low LS BMD or back pain in the non-PVF scenario produced the highest sensitivity at 82% (95% CI 67–92), but required radiographs in 65% (95% CI 60–70). These results provide guidance for targeting spine radiography in children at risk for IVF.

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The Accuracy of Incident Vertebral Fracture Detection in Children Using Targeted Case-Finding Approaches

Resumen

Nota bibliográfica

ASJC Scopus Subject Areas

PubMed: MeSH publication types

ODS de las Naciones Unidas

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