L Vandenput
Overview
Explore the profile of L Vandenput including associated specialties, affiliations and a list of published articles.
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33
Citations
512
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Recent Articles
1.
Albergaria B, Zerbini C, Lazaretti-Castro M, Eis S, Vilaca T, Johansson H, et al.
Arch Osteoporos
. 2023 Nov;
18(1):144.
PMID: 38015253
Objective: Recent epidemiological data indicate that the risk of hip fracture in Brazil is lower than that used to create the original FRAX model. This paper describes the epidemiology of...
2.
Kanis J, Johansson H, McCloskey E, Liu E, Akesson K, Anderson F, et al.
Osteoporos Int
. 2023 Aug;
34(12):2027-2045.
PMID: 37566158
Introduction: The aim of this study was to quantify the fracture risk associated with a prior fracture on an international basis and to explore the relationship of this risk with...
3.
Vandenput L, Johansson H, McCloskey E, Liu E, Akesson K, Anderson F, et al.
Osteoporos Int
. 2022 May;
33(10):2103-2136.
PMID: 35639106
Introduction: The availability of the fracture risk assessment tool FRAX® has substantially enhanced the targeting of treatment to those at high risk of fracture with FRAX now incorporated into more...
4.
Johansson L, Johansson H, Axelsson K, Litsne H, Harvey N, Liu E, et al.
Osteoporos Int
. 2022 Apr;
33(8):1725-1738.
PMID: 35451623
Purpose: Clinical and occult VF can be identified using VFA with dual-energy X-ray absorptiometry (DXA). The aim of this study was to investigate to what extent VFA-identified VF improve fracture...
5.
Axelsson K, Woessner M, Litsne H, Wheeler M, Flehr A, King A, et al.
Osteoporos Int
. 2022 Jan;
33(6):1347-1355.
PMID: 35088102
Introduction: Eating disorders have been associated with decreased bone mineral density and increased fracture risk, but the association with fall injuries without fracture has not previously been investigated. Furthermore, fracture...
6.
Larsson B, Johansson L, Mellstrom D, Johansson H, Axelsson K, Harvey N, et al.
Osteoporos Int
. 2021 Sep;
33(1):185-194.
PMID: 34498096
Introduction: Physical function and risk of falls are important risk factors for fracture. A few previous studies have suggested that a one leg standing time (OLST) less than 10 s...
7.
Johansson H, Naureen G, Iqbal R, Jafri L, Khan A, Umer M, et al.
Osteoporos Int
. 2021 Aug;
33(1):105-112.
PMID: 34414463
Purpose: The fracture risk assessment algorithm FRAX® has been recently calibrated for Pakistan, but guidance is needed on how to apply fracture probabilities to clinical practice. Methods: The age-specific 10-year...
8.
McCloskey E, Harvey N, Johansson H, Lorentzon M, Liu E, Vandenput L, et al.
Climacteric
. 2021 Jul;
25(1):22-28.
PMID: 34319212
The introduction of the FRAX algorithms has facilitated the assessment of fracture risk on the basis of fracture probability. FRAX integrates the influence of several well-validated risk factors for fracture...
9.
Lorentzon M, Johansson H, Harvey N, Liu E, Vandenput L, McCloskey E, et al.
Climacteric
. 2021 Jul;
25(1):4-10.
PMID: 34319208
Osteoporosis is a disease characterized by impaired bone microarchitecture and reduced bone mineral density (BMD) resulting in bone fragility and increased risk of fracture. In western societies, one in three...
10.
Kanis J, Johansson H, Harvey N, Lorentzon M, Liu E, Vandenput L, et al.
Osteoporos Int
. 2021 Apr;
32(10):1951-1960.
PMID: 33813622
Introduction: Guidelines for the assessment of fracture risk have begun to categorise patients eligible for treatment into high and very high risk of fracture to inform choice of therapeutic approach....