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Query: UMLS:C0851184 (
thinning
)
11,252
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Erlenmeyer flask bone deformity (EFD) is a long-standing term used to describe a specific abnormality of the distal femora. The deformity consists of lack of modeling of the di-metaphysis with abnormal cortical
thinning
and lack of the concave di-metaphyseal curve resulting in an Erlenmeyer flask-like appearance. Utilizing a literature review and cohort study of 12 disorders we found 20 distinct disorders were associated with EFD. We interrogated the International Skeletal Dysplasia Registry (ISDR) radiographic database (1988-2007) to determine which skeletal dysplasias or syndromes were highly associated with EFD, whether it was a uniform finding in these disorders, and if forms of EFD could be differentiated. EFD was classified into three groups. The first catogory was the typical EFD shaped bone (EFD-T) resultant from absent normal di-metaphyseal modeling with relatively normal appearing radiographic trabecular bone. EFD-T was identified in: frontometaphyseal dysplasia, craniometaphyseal dysplasia, craniodiaphyseal dysplasia, diaphyseal dysplasia-Engelmann type, metaphyseal dysplasia-Pyle type, Melnick-Needles osteodysplasty, and otopalatodigital syndrome type I. The second group was the atypical type (EFD-A) due to absence of normal di-metaphyseal modeling with abnormal radiographic appearance of trabecular bone and was seen in dysosteosclerosis and
osteopetrosis
. The third group was EFD-marrow expansion type (EFD-ME) in which bone marrow hyperplasia or infiltration leads to abnormal modeling (e.g., Gaucher disease). Further, radiographic review determined that it was not always a consistent finding and that there was variability in both appearance and location within the skeleton. This analysis and classification aided in differentiating disorders with the finding of EFD.
...
PMID:The Erlenmeyer flask bone deformity in the skeletal dysplasias. 1944 97
The cytokine RANKL is essential for osteoclast development in bone. The cellular sources of RANKL for support of osteoclast generation under various pathophysiological conditions have remained unclear, however. Here we show that inactivation of Rankl specifically in osteoblast lineage cells of mice with the use of an Osterix-Cre transgene results in typical
osteopetrosis
in the trabecular compartment of the tibia, with the phenotype being progressively less marked in the femur and vertebrae. In contrast to its effects on trabecular bone, RANKL deficiency in osteoblast lineage resulted in
thinning
of the femoral cortex in association with suppression of bone formation during the modeling process. Ablation of RANKL specifically in T cells resulted in a moderate but significant increase in tibial trabecular bone. Mice with RANKL deficiency in osteoblast lineage were protected from bone loss induced by ovariectomy as well as from joint destruction associated with arthritis, whereas loss of RANKL in T cells did not confer such protection. Finally, inducible deletion of Rankl selectively in the osteoblasts from 6 to 12 weeks of age resulted in an increase in bone mass in association with reduced bone resorption and formation. Our results thus suggest that RANKL produced by osteoblasts contributes to osteoclast development in vivo.
...
PMID:Physiological functions of osteoblast lineage and T cell-derived RANKL in bone homeostasis. 2401 80
The interaction of multiple genetic factors, as opposed to monogenic inheritance, has been suspected to play a role in many diseases. This interaction has been described as an oligogenic inheritance model, which may be a useful tool in explaining certain clinical observations. The purpose of this study was to search for novel genetic defects among members of a family with traits that include mental retardation, short stature,
osteopetrosis
, calcification of basal ganglia, and
thinning
of the corpus callosum. In the index case (111-4), we identified four homozygous mutations: chromosome 8, intron2 (c.232+1G>A) at CA2 gene; chromosome 15, exon 32 (c.6100C>T) at the SPG11; chromosome 5, exon 11 (c.1015G>A) at the MCCC2; and chromosome 9, exon 9 (C.1193g>t) at the LARP gene. The mutations were confirmed by Sanger sequencing, and both parents were observed to be heterozygous for the four mutations. A moderately affected sister of the index case was homozygous for only three mutations in CA2, LARP, and Mccc2, while a nonaffected sister was heterozygous for three mutations in CA2, LARP, and MCCC2 and negative for SPG11. The clinical features of the two affected sisters can be explained distinctively by each homozygous mutation in an oligogenic pattern of inheritance. This family represents an example of an oligogenic pattern of inheritance of mental retardation, short stature, spastic paraparesis, and
osteopetrosis
.
...
PMID:Potential oligogenic disease of mental retardation, short stature, spastic paraparesis, and osteopetrosis. 3051 Apr 38
