Hereditary multiple exostosis : a study in abnormal bone growth

Solomon, Louis

15 April 2020

Hereditary multiple exostosis is a generalised, heritable disorder of bone, characterised by the appearance of numerous cartilagecappecl exostoses at the juxta-epiphysial regions of the endochondral skeleton. The condition was apparently known even in Hunter's day and most of its characteristic features were described before the end of the nineteenth century. Nevertheless, the evolution of these curious lesions, their unusual distribution and the associated abnormalities of growth are still incompletely defined and largely unexplained.

Bone growth

Effect of pulsed electromagnetism on the haemodynamics and structure of bone, following femoral vein ligation

Revell, William John

January 1995

No description available.

610

Bone growth

The growth of the chick femur in ova and its growth and repair in vitro and on the chorioallantoic membrane

Monro, Philip Peter

January 1988

No description available.

590

Bone growth and repair

MSX-2, calcitriol and the control of differentiation in adult human bone-derived cells

Brown, Julie Michelle

January 1998

No description available.

572

Bone growth

The role of the periosteum in the growth of long bones

Ali, K. Z. M.

January 1980

No description available.

612

Periosteum role in bone growth

The effects of anterior pituitary extract on the histogenesis of bone in Rana sylvatica

Liu, Pei-Tsing.

January 1956

Thesis--Catholic Univ. of America.

Frogs. Pituitary extract. Bone. Growth

Mechanisms of GH action on the skeleton : role of SOCS2

Dobie, Ross

January 2015

Determining the mechanisms by which growth hormone (GH) enhances bone growth and development has proven difficult. GH can act either systemically via the stimulation of liver insulin like growth factor (IGF)-1, or locally via activation of the GH receptor (GHR). Furthermore, the local actions of GH may be IGF-1 dependent (indirect) or independent (direct). Suppressor of cytokine signalling 2 (SOCS2) has been identified as an important regulator of GH signalling via the JAK/STAT pathway. The SOCS2 knockout (Socs2-/-) mouse is characterised by its overgrowth phenotype despite no elevation in systemic GH and IGF-1 levels. It therefore offers a valid and novel model to investigate the local effects of enhanced GH signalling on the skeleton. The work presented in this thesis investigates the Socs2-/- mouse model to better understand the actions of local GH on longitudinal bone growth and bone accrual. Ex vivo metatarsal organ cultures, osteoblast cultures, and in vivo approaches are used to unravel the mechanisms of GH action on the skeleton. This thesis also explores the potential of SOCS2 as primary mediator of inflammatory induced bone loss through the utilisation of the dextran sulphate sodium (DSS) model of colitis. Embryonic and postnatal ex vivo metatarsal organ cultures are used to study the mechanism of GH action on longitudinal bone growth. Specifically, the present work highlights that enhanced linear growth in the absence of SOCS2 is associated with an increase in the GH regulated proteins, IGF-2 and IGF binding protein 3 (IGFBP3), but not IGF-1. This indicates that IGF-1 may not be essential for mediating GH action on bone growth. Completion of an in depth analysis of the bone phenotype of juvenile and adult, male and female Socs2-/- mice reveals an anabolic phenotype consistent with increased GH signalling. Male Socs2-/- mice are shown to have a greater enhancement of cortical parameters compared to females, resulting in increased bone strength. Investigation of the mechanisms behind the enhanced bone accrual in Socs2-/- mice identifies SOCS2 as the primary SOCS protein regulating GH signalling in primary osteoblasts. The JAK/STAT pathway is confirmed as the key signalling pathway targeted by SOCS2. Despite this enhanced signalling there is little evidence presented in this thesis to suggest that GH actions on osteoblasts and ultimately bone mass are mediated through increased Igf1 expression. GH treatment is shown to be anabolic to bone of young juvenile Socs2-/- mice, but not WT mice. This increase in bone mass is associated with increase bone p-STAT5 signalling, but no increase in Igf1 levels indicating that GH may have IGF-1 independent effects in the Socs2-/- mouse model. GH treatment of young mice also reveals an age and sex specific effect of GH action where GH does not stimulate growth until approximately 3 weeks of age. From 3 weeks of age, WT female mice show increased growth in response to GH, but males do not. The increased growth is associated with increased p-STAT5 signalling and increased bone area. This thesis also confirms SOCS2 a critical mediator of bone loss associated with inflammation. The present results show that deteriorated trabecular bone health in colitic mice is associated with elevated Socs2 expression in bone. Furthermore, despite similar levels of gut inflammation observed in Socs2-/- mice with DSS induced colitis these mice are partly protected from poor bone health. The work described herein has used the Socs2-/- mouse model to strengthen our understanding of the actions of local GH on skeletal growth and development. It also provides compelling evidence for the importance of SOCS2 as a mediator of bone loss in cases of inflammatory bowel disease.

612.6

GH ; SOCS2 ; bone ; growth

Environmentally-determined tissue temperature modulates extremity growth in mammals: A potential comprehensive explanation of Allen's rule

Serrat, Maria A.

27 July 2007

No description available.

temperature

bone growth

Allen's rule

skeletal morphology

limb proportions

environmental effects on bone growth

Calcium and Calorie Content of Selected Foods

Farrell, Vanessa A., Houtkooper, Linda

08 1900

4 pp. / Healthy bone growth and maintenance requires adequate calcium intake. You can meet your calcium needs from foods, beverages, and if necessary, supplements. This publication contains the calorie and calcium content of some foods from each group of the Food Guide Pyramid which includes bread, cereal, rice, & pasta group; vegetable group; fruit group; milk, yogurt, & cheese group; meat, poultry, fish, dry beans, eggs, & nuts group; and fats, oils & sweets.

bone growth

calcium

foods

calcium intake

nutrition

osteoporosis

Piezoelectric Coatings on Implants : Sample preparation and construction of test-equipment for in vitro experiments

Olsson, Annakarin

January 2005

<p>Implants are commonly used for orthopaedic and dental applications. There is however a problem with implants; they have a tendency to get loose after 10-15 years of usage. Bone that is not used will get weaker; this can be concluded from studies of people being immobilised or in microgravity. When an implant is put into bone, the surrounding bone does not experience any deformation and it will resorb. This is called stress shielding. Finally the implant will get loose. To avoid this problem we want to give electrical stimulation to the bone surrounding the implant. Electricity has been used before to stimulate bone, and it has been shown that immobilised bone can almost be maintained by using electric stimulation.</p><p>Piezoelectricity is a property of certain materials that make them generate electricity when they are deformed. When an implant is coated with a piezoelectric material, electrical stimulation can be achieved for the surrounding bone that is stress shielded.</p><p>In this diploma work, a test-equipment is built to stimulate cells. Cells will be grown on a piezoelectric plate that is bent by the test-equipment. Thus, the cells will be stimulated by both mechanical stress and electric potential since the piezoelectric material generates electricity when it is deformed. Piezoelectric samples and culture wells suitable for bending applications are prepared and tested in the equipment.</p><p>Some initial cell growth experiments have been performed to see that the material is suitable for cell growth.</p>

Piezoelectricity

Stress shielding

Bone growth

Implant

Coating

Biophysics

Biofysik