Radiographic Bone Quality Markers and Implant Migration: The Search for Patient-Specific Models of Knee Arthroplasty Longevity

Hurry, Jennifer

31 July 2012

The objective of this study was to examine the link between radiographic measures of bone quality and total knee implant migration as measured by radiostereometric analysis (RSA). Two uncemented total knee arthroplasty studies (n=65) with RSA and bone mineral density (BMD) exams up to two years post surgery, and one study with cemented total knees with one year RSA data (n=18) were examined. Radiograph image texture analysis was used to characterize the bone microarchitecture, and a feasibility study was conducted to determine if a given x-ray machine could be used to obtain bone mineral density at the same time as the RSA exams. Random ForestTM ensemble classification tree statistical models classified patients into groups based on implant migration with a range of cut-points. Models based on bone texture parameters measured from the two year radiographs had a sensitivity of 87.5% and specificity of 80% when classifying patients who had more than 0.3mm maximum total point motion (MTPM) at two years using the one year exam as reference. Other cut-points were examined, with models generally having a lower specificity if the acceptable migration was smaller, and lower sensitivity if higher migrations were tolerable. In a predictive model, post-operative bone texture could be used to create a model with a sensitivity of 75% and a specificity of 80% when predicting those subjects with cemented implants who went on to more than 0.4mm total migration by one year. Bone mineral density of the proximal tibia, as determined by clinical scanners, was not found to increase the accuracy of implant migration group classification. An empirical fit to central regions of a purposed-built cross-wedge calibration phantom returned residuals of less than ±1.5% for the bone-equivalent thicknesses. The coefficient of variation of the region greyscale values in three images spread over three days is under 4%, showing the stability of the system to hold a calibration between phantom exams and patient scans. Scatter and dynamic range issues will need to be considered for an accurate calibration across the full range of areal bone mineral densities in the distal femur and proximal tibia.

Phytoestrogen status in relation to sociodemographic factors and biomarkers of bone health in older Brisbane women

Hanna, Katherine Lavina

January 2006

Background: Phytoestrogens are diphenolic compounds found in plants with a structure and molecular weight similar to oestradiol which enables them to bind to the oestrogen receptor. Isoflavonoids occur mainly within the legume family with highest concentration in soybeans. Lignans are found in a range of plant foods and the richest known source is linseed. Few studies have been published on intake of isoflavonoids and none were located on intake of lignans in Australian women. The validity of methods designed to estimate intake can be assessed using urinary excretion of isoflavonoids and lignans as studies have found an association between intake and excretion of isoflavonoids and lignans. It has been proposed that, through their ability to act like oestrogen, phytoestrogens could decrease bone turnover and attenuate the loss of bone mineral density (BMD) at menopause. The aims of this research were to determine the pattern of intake of isoflavonoids and lignans in 500 women from food and supplements and to assess a questionnaire used to estimate intake using excretion in a sub-sample of 141 women. Associations between usual intake or excretion of isoflavonoids and lignans and biomarkers of bone health were also examined. Methods: A cross-sectional study was conducted involving 500 women aged 40-80 years participating in the Longitudinal Assessment of Ageing in Women (LAW), a 5 year study being conducted in the Betty Byrne Henderson Centre at the Royal Brisbane and Women's Hospital. Subjects were randomly selected from the electoral role and stratified into ten year age groups. Intake of isoflavonoids and lignans from food and supplements was assessed using a specially designed questionnaire containing 110 items. Values for individual items were obtained from published literature and summed to provide average daily intakes of isoflavonoids and lignans (mg/d). A sub-sample of 141 women was recruited to take part in the assessment of the association between phytoestrogen intake and excretion. Participants collected three 24-h urine samples spaced over one week. Samples were analysed using high performance liquid chromatography MS/MS for seven isoflavonoids and four lignans. Bone mineral densities (BMD) of the femur neck, total hip and lumbar spine were measured by dual energy x-ray absorptiometry. Bone formation was assessed using serum bone alkaline phosphatase (bone ALP) and osteocalcin (OC) and bone resorption was assessed using deoxypyridinoline (DPD) and urinary excretion of N-terminal cross-linking telopeptide of type-I collagen (NTX). Potential confounding factors were also evaluated. Statistical analyses were conducted using SPSS for windows (version 10). Participants were defined as consumers if they reported intake of one or more serves of soy or linseed in the prior month. Differences in socio-demographic and lifestyle characteristics between groups were assessed using ANOVA and Chi Square tests. Associations between intake and excretion of phytoestrogens were assessed using Spearman's rank-order correlations () for non-normal data. Phytoestrogen intake was categorised into four groups for the assessment of the association with markers of bone health. Associations between phytoestrogen excretion and markers of bone health were assessed using Pearson's product moment correlations for normal data (r) and Spearman's rank-order correlations for non-normal data. A value of P < 0.05 was taken as statistically significant. Results: Consumption of soy food was reported by 40% and consumption of linseed by 34% of women. Median (range) intakes among soy/linseed consumers for isoflavonoids, 3.87 (0-173) mg/d, and lignans, 2.40 (0.1-33) mg/d, were significantly higher than corresponding intakes among non consumers of 0.005 (0-2.6) and 1.57 (0.4-4.7) mg/d, respectively (P < 0.001). Soy/linseed consumers reported higher intakes of energy (P=0.043), dietary fibre (P=0.003) and polyunsaturated fat (P=0.004); and a higher level of physical activity (P=0.006), SEP (P < 0.001), education (P < 0.001) and supplement use (P < 0.001). Use of non-prescription supplements for menopause in the previous month was reported by 13% of women. A review of supplements available for treatment of menopause indicated that use of soy, red clover, black cohosh and sage could have a role in treatment of menopause symptoms. Evidence supporting the presence of oestrogenic components was available for soy and red clover isoflavonoids only. There was a significant association between intake and excretion of isoflavonoids within the total group (r=0.207, P < 0.05), with a stronger association in soy consumers (r=0.364, P < 0.01). Excretion of isoflavonoids was detected in women who did not report known intake of soy foods, suggesting isoflavonoids could be derived in small amounts from other plant foods or use of soy as an ingredient in processed foods. There was no significant association between intake and excretion of lignans, however both intake and excretion were associated with dietary fibre (r=0.303 and r=0.230, respectively, P < 0.01 for both). Bone ALP was higher among the very low isoflavonoid intake group (P=0.005) for the total sample (P=0.005) and women with BMI≤25 kg/m2 (P=0.002). Data also demonstrated an inverse association between excretion of isoflavonoids and NTX within women with BMI≤25 kg/m2 (r=-0.33, P < 0.05). There was a positive association between lignan excretion and bone ALP in the total sample (r=0.21, P < 0.05) which was strengthened in women with osteoporosis/osteopenia (r=0.41, P < 0.05) and a positive association between lignan excretion and DPD among women with BMI≤25 kg/m2 (ρ=0.28, P < 0.05) All associations remained significant after adjustment for confounding. Conclusions: Few women who chose phytoestrogen-rich foods consumed amounts similar to women with traditional soy-based diets although some achieved high intakes with supplements. Women who consumed soy or linseed foods differed in lifestyle and sociodemographic characteristics that could influence the association with disease in epidemiological studies. Results indicated that the phytoestrogen questionnaire was useful for assessment of isoflavonoids but was not acceptably precise for measurement of lignans. Findings suggest that there is an inverse association between isoflavonoid status and bone ALP and NTX although the precise mechanism of action has not been clarified. The association between lignan intake and bone is less well understood; however findings of a positive association with bone ALP indicate that further research on the lignan content of foods and the inclusion of lignans in studies is warranted.

phytoestrogens

isoflavonoids

lignans

soy

linseed

food intake

dietary supplements

urine

bone mineral density

bone remodelling

menopause

osteoporosis

The relationship of mineral and bone metabolism in the systematic response to neurotrauma of adult males with spinal cord injury.

Clark, Jillian Mary

January 2008

Biochemical assays and radioabsorptiometry evaluated the relationship of mineral and bone metabolism to the systemic response to neurotrauma or orthopaedic trauma of adult males. Forty-one adult males (29.4±9.3 years) participated of which 37 had a primary diagnosis of traumatic spinal cord injury (SCI) and four were vertebral fracture controls. Biochemical abnormalities found included hyperphosphataemia, in association with low or low normal serum levels of 1,25-dihydroxyvitmain D (1,25(OH)₂D) and of parathyroid hormone (PTH), whilst patients remained normocalcaemic. These disturbances of phosphate and vitamin D metabolism and the markedly accelerated resorption of bone were strongly associated with the interval since injury and the severity of injury, but none of these relationships was correlated with the level of the injury, the sensory status of a patient or the presence of spine fracture. The disturbances of phosphate and vitamin D metabolism and the markedly accelerated resorption of bone found in this study are a mirror image of the data of patients with the heritable disorders autosomal dominant hyperphosphataemic rickets (ADHR), which results from an inactivating mutation of the gene encoding fibroblast growth factor 23 (FGF23) and autosomal recessive hypophosphataemic rickets (ARHR), which is caused by a mutation of the gene encoding dentin matrix protein-1 (DMP-1). It is potentially important that the hormone/proteolytic enzyme/extra-cellular matrix protein cascade associated with these disorders is counter-regulated by 1,25(OH)₂D, acting either directly or indirectly. The present results suggest that the serum levels of 1,25(OH)₂D of the neurotrauma patients chosen for study may have been inappropriately high with respect to the “physiological and metabolic set” of serum levels of phosphate and ionised calcium in the period corresponding to the uncoupling of the resorption and formation of bone, at least in males, prompting further investigation. The findings are consistent with a new “physiological set,” possibly involving an abnormality in the synthesis or processing of the endocrine fibroblast growth factors or other circulating phosphatonins, which may act as an additional level of regulation of the renal–bone axis, rather than renal failure. Strongly supporting this was the dynamic pattern of the biochemistry and radiological data of these neurotrauma patients and also, preliminary evidence of disturbances in circulating levels of other systemic modulators of mineral and bone metabolism. The relationships that were observed potentially may be explained by the diversity of the physiological activities of the endocrine fibroblast growth factors and the modes of actions of secreted FGF23 in bone. The findings provide an understanding of why bone loss occurs and may form the target for safe and cost effective interventions. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1345019 / Thesis (Ph.D.) - University of Adelaide, School of Medicine, Discipline of Orthopaedics and Trauma, 2008

Spinal cord.

The relationship of mineral and bone metabolism in the systematic response to neurotrauma of adult males with spinal cord injury.

Clark, Jillian Mary

January 2008

Biochemical assays and radioabsorptiometry evaluated the relationship of mineral and bone metabolism to the systemic response to neurotrauma or orthopaedic trauma of adult males. Forty-one adult males (29.4±9.3 years) participated of which 37 had a primary diagnosis of traumatic spinal cord injury (SCI) and four were vertebral fracture controls. Biochemical abnormalities found included hyperphosphataemia, in association with low or low normal serum levels of 1,25-dihydroxyvitmain D (1,25(OH)₂D) and of parathyroid hormone (PTH), whilst patients remained normocalcaemic. These disturbances of phosphate and vitamin D metabolism and the markedly accelerated resorption of bone were strongly associated with the interval since injury and the severity of injury, but none of these relationships was correlated with the level of the injury, the sensory status of a patient or the presence of spine fracture. The disturbances of phosphate and vitamin D metabolism and the markedly accelerated resorption of bone found in this study are a mirror image of the data of patients with the heritable disorders autosomal dominant hyperphosphataemic rickets (ADHR), which results from an inactivating mutation of the gene encoding fibroblast growth factor 23 (FGF23) and autosomal recessive hypophosphataemic rickets (ARHR), which is caused by a mutation of the gene encoding dentin matrix protein-1 (DMP-1). It is potentially important that the hormone/proteolytic enzyme/extra-cellular matrix protein cascade associated with these disorders is counter-regulated by 1,25(OH)₂D, acting either directly or indirectly. The present results suggest that the serum levels of 1,25(OH)₂D of the neurotrauma patients chosen for study may have been inappropriately high with respect to the “physiological and metabolic set” of serum levels of phosphate and ionised calcium in the period corresponding to the uncoupling of the resorption and formation of bone, at least in males, prompting further investigation. The findings are consistent with a new “physiological set,” possibly involving an abnormality in the synthesis or processing of the endocrine fibroblast growth factors or other circulating phosphatonins, which may act as an additional level of regulation of the renal–bone axis, rather than renal failure. Strongly supporting this was the dynamic pattern of the biochemistry and radiological data of these neurotrauma patients and also, preliminary evidence of disturbances in circulating levels of other systemic modulators of mineral and bone metabolism. The relationships that were observed potentially may be explained by the diversity of the physiological activities of the endocrine fibroblast growth factors and the modes of actions of secreted FGF23 in bone. The findings provide an understanding of why bone loss occurs and may form the target for safe and cost effective interventions. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1345019 / Thesis (Ph.D.) - University of Adelaide, School of Medicine, Discipline of Orthopaedics and Trauma, 2008

Spinal cord.

The relationship of mineral and bone metabolism in the systematic response to neurotrauma of adult males with spinal cord injury.

Clark, Jillian Mary

January 2008

Biochemical assays and radioabsorptiometry evaluated the relationship of mineral and bone metabolism to the systemic response to neurotrauma or orthopaedic trauma of adult males. Forty-one adult males (29.4±9.3 years) participated of which 37 had a primary diagnosis of traumatic spinal cord injury (SCI) and four were vertebral fracture controls. Biochemical abnormalities found included hyperphosphataemia, in association with low or low normal serum levels of 1,25-dihydroxyvitmain D (1,25(OH)₂D) and of parathyroid hormone (PTH), whilst patients remained normocalcaemic. These disturbances of phosphate and vitamin D metabolism and the markedly accelerated resorption of bone were strongly associated with the interval since injury and the severity of injury, but none of these relationships was correlated with the level of the injury, the sensory status of a patient or the presence of spine fracture. The disturbances of phosphate and vitamin D metabolism and the markedly accelerated resorption of bone found in this study are a mirror image of the data of patients with the heritable disorders autosomal dominant hyperphosphataemic rickets (ADHR), which results from an inactivating mutation of the gene encoding fibroblast growth factor 23 (FGF23) and autosomal recessive hypophosphataemic rickets (ARHR), which is caused by a mutation of the gene encoding dentin matrix protein-1 (DMP-1). It is potentially important that the hormone/proteolytic enzyme/extra-cellular matrix protein cascade associated with these disorders is counter-regulated by 1,25(OH)₂D, acting either directly or indirectly. The present results suggest that the serum levels of 1,25(OH)₂D of the neurotrauma patients chosen for study may have been inappropriately high with respect to the “physiological and metabolic set” of serum levels of phosphate and ionised calcium in the period corresponding to the uncoupling of the resorption and formation of bone, at least in males, prompting further investigation. The findings are consistent with a new “physiological set,” possibly involving an abnormality in the synthesis or processing of the endocrine fibroblast growth factors or other circulating phosphatonins, which may act as an additional level of regulation of the renal–bone axis, rather than renal failure. Strongly supporting this was the dynamic pattern of the biochemistry and radiological data of these neurotrauma patients and also, preliminary evidence of disturbances in circulating levels of other systemic modulators of mineral and bone metabolism. The relationships that were observed potentially may be explained by the diversity of the physiological activities of the endocrine fibroblast growth factors and the modes of actions of secreted FGF23 in bone. The findings provide an understanding of why bone loss occurs and may form the target for safe and cost effective interventions. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1345019 / Thesis (Ph.D.) - University of Adelaide, School of Medicine, Discipline of Orthopaedics and Trauma, 2008

Spinal cord.

The relationship of mineral and bone metabolism in the systematic response to neurotrauma of adult males with spinal cord injury.

Clark, Jillian Mary

January 2008

Biochemical assays and radioabsorptiometry evaluated the relationship of mineral and bone metabolism to the systemic response to neurotrauma or orthopaedic trauma of adult males. Forty-one adult males (29.4±9.3 years) participated of which 37 had a primary diagnosis of traumatic spinal cord injury (SCI) and four were vertebral fracture controls. Biochemical abnormalities found included hyperphosphataemia, in association with low or low normal serum levels of 1,25-dihydroxyvitmain D (1,25(OH)₂D) and of parathyroid hormone (PTH), whilst patients remained normocalcaemic. These disturbances of phosphate and vitamin D metabolism and the markedly accelerated resorption of bone were strongly associated with the interval since injury and the severity of injury, but none of these relationships was correlated with the level of the injury, the sensory status of a patient or the presence of spine fracture. The disturbances of phosphate and vitamin D metabolism and the markedly accelerated resorption of bone found in this study are a mirror image of the data of patients with the heritable disorders autosomal dominant hyperphosphataemic rickets (ADHR), which results from an inactivating mutation of the gene encoding fibroblast growth factor 23 (FGF23) and autosomal recessive hypophosphataemic rickets (ARHR), which is caused by a mutation of the gene encoding dentin matrix protein-1 (DMP-1). It is potentially important that the hormone/proteolytic enzyme/extra-cellular matrix protein cascade associated with these disorders is counter-regulated by 1,25(OH)₂D, acting either directly or indirectly. The present results suggest that the serum levels of 1,25(OH)₂D of the neurotrauma patients chosen for study may have been inappropriately high with respect to the “physiological and metabolic set” of serum levels of phosphate and ionised calcium in the period corresponding to the uncoupling of the resorption and formation of bone, at least in males, prompting further investigation. The findings are consistent with a new “physiological set,” possibly involving an abnormality in the synthesis or processing of the endocrine fibroblast growth factors or other circulating phosphatonins, which may act as an additional level of regulation of the renal–bone axis, rather than renal failure. Strongly supporting this was the dynamic pattern of the biochemistry and radiological data of these neurotrauma patients and also, preliminary evidence of disturbances in circulating levels of other systemic modulators of mineral and bone metabolism. The relationships that were observed potentially may be explained by the diversity of the physiological activities of the endocrine fibroblast growth factors and the modes of actions of secreted FGF23 in bone. The findings provide an understanding of why bone loss occurs and may form the target for safe and cost effective interventions. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1345019 / Thesis (Ph.D.) - University of Adelaide, School of Medicine, Discipline of Orthopaedics and Trauma, 2008

Spinal cord.

Experimental and numerical investigations of bone drilling for the indication of bone quality during orthopaedic surgery

Lughmani, Waqas A.

January 2016

Bone drilling is an essential part of many orthopaedic surgical procedures, including those for internal fixation and for attaching prosthetics. Drilling into bone is a fundamental skill that can be both very simple, such as drilling through long bones, or very difficult, such as drilling through the vertebral pedicles where incorrectly drilled holes can result in nerve damage, vascular damage or fractured pedicles. Also large forces experienced during bone drilling may promote crack formation and can result in drill overrun, causing considerable damage to surrounding tissues. Therefore, it is important to understand the effect of bone material quality on the bone drilling forces to select favourable drilling conditions, and improve orthopaedic procedures.

Reproductive Trade-Offs in Skeletal Health and Physical Activity among the Indigenous Shuar of Ecuadorian Amazonia: A Life History Approach

Madimenos, Felicia C., 1980-

09 1900

xx, 229 p. : ill. (some col.) / Reproductive effort is a central element of human biology and ecology. Particularly for females, reproduction is energetically demanding, with elevated metabolic costs during pregnancy and lactation, followed by high child care costs. To satisfy energetic needs, women can adopt various physiological and behavioral strategies. On a physiological level, the energetic requirements of offspring may be met by adjusting metabolic allocation and/or drawing on maternal bodily reserves. On a behavioral level, women may reduce energy expenditure and/or increase energy intake. This study examined reproductive trade-offs in activity and skeletal health among the indigenous Shuar forager-horticulturalists of Ecuadorian Amazonia and had two main objectives. First, this research examined trade-offs in energy use during female reproductive states and behavioral adjustments made by females and males to meet high reproductive demands. Second, this study investigated skeletal health profiles among Shuar, as well non-Shuar Colonos, to identify the relationships between female reproductive factors and skeletal health. Research was conducted among adults in four Morona-Santiago communities. Skeletal health was measured using calcaneal ultrasonometry, and physical activity was measured using accelerometry. Extensive information on sociodemographics and reproduction was assessed through structured interviews. Age-related declines in bone mineral density (BMD) were observed for Shuar and Colonos, while Shuar BMD was significantly higher than that of other populations. These results suggest that normative data from developed countries may reflect suboptimal bone density levels. Regarding reproductive effects on skeletal health, results indicate that earlier menarcheal age and greater stature are associated with better bone health in postmenopausal life. These conclusions suggest the importance of the timing of early developmental stages in establishing bone status in adulthood. Results demonstrate that physical activity levels were similar between pregnant/lactating (P/L) and other women. However, P/L women appear to compensate for elevated energetic demands by relying on a male partner who has increased his energy expenditure, suggesting greater participation in subsistence activities. Overall, this study demonstrates the importance of biocultural strategies among women to meet high reproductive costs. Further, it emphasizes the utility of a life history framework for identifying trade-offs in physiology and behavior. This dissertation contains previously published and unpublished co-authored material. / Committee in charge: Dr. J. Josh Snodgrass, Chair; Dr. Lawrence S. Sugiyama, Member; Dr. John Lukacs, Member; Dr. John Halliwell, Outside Member

Cellular biology

Health sciences

Physiology

Health and environmental sciences

Biological sciences

Bone mineral density

Ecuadorian shuar

Energetics

Reproductive ecology

Ecuadorian amazonia

Caracterização de tecido ósseo por ultra-som para o diagnóstico de osteoporose. / Assessment of bony tissue by ultrasound for osteoporosis diagnosis.

Jose Marcos Alves

02 August 1996

A caracterização de tecido ósseo por ultra-som para o diagnóstico de osteoporose tem sido investigada como uma alternativa a densitometria óssea baseada em radiação ionizante. A interação do ultra-som com o tecido ósseo é fundamentalmente diferente da que ocorre com a energia ionizante. O potencial da técnica ultra-sônica baseia-se nos efeitos sobre a propagação do campo acústico causados pela estrutura, composição e massa do tecido que está sendo investigado. Quatro estudos in-vitro e um estudo clínico estão descritos neste trabalho. O primeiro estudo in-vitro compara a correlação entre medidas ultra-sônicas e de densidade mineral óssea (em g/cm3) em tecido trabecular humano e bovino. A velocidade e atenuação ultra-sônicas em amostras ósseas foram determinadas pela técnica de inserção convencional (modo de transmissão) e a medida de densidade mineral óssea foi realizada por absortometria de um fóton (SPA). O mecanismo de interação do ultra-som com osso trabecular é pouco conhecido. O segundo estudo in-vitro investigou como a presença da medula óssea afeta as medidas de velocidade e atenuação. As correlações entre medidas ultrasônicas e de densidade mineral óssea (em g/cm3) por SPA, com e sem a presença da medula óssea, são também determinadas. A medida ultra-sônica de inserção convencional é comparada a medida de inserção por contato. O terceiro estudo in-vitro investigou em amostras de calcâneo as correlações entre medidas ultra-sônicas e de densidade mineral óssea (em g/cm3 e em g/cm2) por SPA. A determinação da densidade mineral Óssea em g/cm2 (BMD) a partir de medidas ultra-sônicas nas amostras foi pela primeira vez investigada, utilizando-se uma técnica de regressão linear univariável e multivariável e uma técnica multivariável não-linear baseada em redes neurais. Um novo parâmetro, baseado na média da frequência instantânea (MIF) do sinal da amostra e de referência, foi proposto para caracterizar o tecido ósseo devido a sua alta correlação com a atenuação. O efeito das corticais ósseas do calcâneo nas medidas ultra-sônicas é pouco conhecido. O quarto estudo in-vitro determinou a correlação entre medidas ultrasônicas e de densidade mineral óssea (em g/cm3) por SPA, com e sem a presença das corticais ósseas. Finalmente, no estudo clínico foram determinadas as correlações entre medidas ultra-sônicas no calcanhar e de densidade mineral óssea por DEXA (em g/cm2) no cólo femoral. A determinação da densidade óssea a partir de medidas ultra-sônicas no calcanhar foi pela primeira vez investigada, utilizando-se uma técnica de regressão linear univariável e multivariável e uma técnica multivariável não-linear baseada em redes neurais. / Ultrasonic assessment of bone for managing osteoporosis has been investigated as an alternative to radition-based bone densitometry technology. In contrast with the ionizing electromagnetic radiation of such clinical bone densitometric technique, ultrasound is a mechanical wave and thus interacts with bone in a fundamentally distinct manner. Ultrasound is viewed as having great potential for assessing bone since its propagation is affected by the structure, composition, and mass of the bone tissue being interrogated. Four in-vitro and one clinical study are reported in this work. In the first in-vitro study a comparison is reported on the ultrasonic assessment of human trabecular and bovine trabecular bone samples. Both ultrasonic velocity and attenuation were evaluated through a standard transmission insertion technique and correlated with bone mineral density (in g/cm3 ) as determined with single photon absorptiometry (SPA). There is a relatively limited understanding of how ultrasound interacts with cancellous bone. One potentially model leads analytically to the demonstration that ultrasound propagation through bone is dependent on several factors, including the properties of the fluid, which saturates the pores of the cancellous bone tissue. The second in-vitro study was carried out to assess how the presence of marrow affects the velocity and attenuation measurements. The correlation between ultrasonic and densitometric measurements (in g/cm3) by SPA, with and without the bone marrow, are also determined. A second part of this study compared the measurements of ultrasonic attenuation and velocity on bovine cancellous bone samples using a standard insertion technique with those obtained using a contac method. The thrid in-vitro study with the calcis trabecular samples investigated the correlations between ultrasonic measurements and bone mineral density (in g/cm3 e em g/cm2) as measured by SPA. A nonlinear multivariate estimation technique based on neural network was the first time investigated to determine the ability of ultrasonic measurements to estimate bone mineral density in g/cm2 (BMD). A linear univariate and multivariate estimation of BMD was compared with the neural network approach. A new parameter to characterize the trabecular bone is been proposed, which is based on the mean instantaneous frequency (MIF) of the sample and reference signals after transmission through the os calcis. It was founded a high correlation between MIF and the attenuation (BUA). Little is known about the effect of the os calcis cortical shell on ultrasonic measurements. The fourth in-vitro study with os calcis samples determined the correlation between ultrasonic and densitometric measurements (in g/cm3) by SPA with and without the cortical shell. Finally, a nonlinear multivariate estimation technique based on neural network was the first time investigated to determine the ability of clinical ultrasonic measurements in the heel to estimate bone mineral density (BMD) in the femoral neck. A linear univariate and multivariate estimation to predict BMD in patients is also compared with the neural network approach.

Densitometria mineral óssea

Osso trabecular

Osteoporose

Ultra-som

Ultrasonometria

Bone mineral density

Osteoporosis

Quantitative ultrasound

Trabecular bone

Ultrasound

Avaliação do consumo alimentar e da densidade mineral óssea de crianças com dermatite atópica / Food consumption and bone mineral density evaluation of children with atopic dermatitis

Vanessa Ramos Alves Penterich

01 September 2011

A dermatite atópica é uma doença de pele de caráter inflamatório crônico que normalmente precisa de tratamento com glicocorticóide tópico. O objetivo deste estudo foi avaliar o impacto da Dermatite atópica no consumo de nutrientes, no estado nutricional e no metabolismo ósseo de crianças com dermatite atópica moderada e grave comparadas à crianças saudáveis. Foram incluídas neste estudo 60 crianças de 4 a 12 anos com AD moderada/grave e 54 controles. O consumo alimentar foi avaliado por três recordatórios de 24 horas. O estado nutricional foi determinado pelo z-escore de altura para idade, peso por idade e do índice de massa corporal. Os marcadores ósseos séricos foram 25OH vitamina D, fosfatase alcalina óssea, cálcio sérico, fósforo, PTH, osteocalcina, CTX e cortisol. Os pacientes e familiares foram questionados quanto à fraturas, exposição solar e escore de atividade física. Por meio de densitometria dupla de Raio-X avaliou-se o conteúdo mineral ósseo (CMO), a densidade mineral óssea (DMO) e o z-score da coluna lombar, do fêmur total e do corpo inteiro. As crianças com dermatite atópica usavam glicocorticóide tópico em média por 3,9 ±1,81 anos. O tempo de exposição solar foi menor nas crianças com dermatite atópica. O consumo alimentar evidenciou um alto consumo de proteínas em ambos os grupos, e a ingestão de gordura foi mais baixo na crianças com DA. A média consumida de cálcio e vitamina D foi abaixo da recomendação nutricional em ambos os grupos. As crianças com DA apresentaram mais casos de rinite, asma e alergia alimentar do que o grupo controle. Segundo o zscore de altura para idade as crianças com DA foi significativamente mais baixas quando comparadas com o grupo controle. O CTX sérico foi menor no grupo DA. O CMO da coluna lombar foi mais baixo nas crianças com DA, e o CMO, a DMO e o z-score do fêmur total também foram significativamente menores no grupo DA do que no grupo controle. Neste grupo de crianças com DA, estudado o uso do glicocorticóide tópico pode ter diminuído a altura para idade, e a massa óssea. / Atopic dermatitis is an inflammatory allergic skin disease that often requires glicocorticosteroids therapy. The aim of this study was to determine the atopic dermatitis impact on food ingestion, nutritional status and bone mass in children with moderate to severe AD compared with a control group. Food ingestion was evaluated with 3 days 24-hour food recordathory. Nutritional status was determined with height to age z-score, weight for age z-score and BMI z-score. Bone markers measured in serum were 25OH vitamin D, bone phosphatase alkaline, CTX, serum calcium, phosphorus, osteocalcin, PTH and cortisol. Information on lifestyle parameters, bone fractures, sun exposure and physical activity were collected by use of a standardized questionnaire. Lumbar spine, total femur and whole body, bone mineral content (BMC), bone mineral density (BMD) and z-score was measured by dual-energy X-ray absorptiometry in 60 children (age 4-12years) with moderate to severe AD and 54 health controls, with the same age. In children, low BMD was defined as a Z-score less than -2. The AD children used topic glicocorticosteroids for a mean of 3,9 ±1,81 years. The sun exposure was lower in the AD group. Food ingestion showed high protein ingestion levels in both groups, and the fat consumption was lower in the AD children. The calcium and vitamin ingestion were bellow the recommendations in the two groups. Children with AD had more riniths, asthma and food allergy then control group. The CTX was lower in the AD group. The children with AD were significantly smaller according to the height for age zscore. There was significant smaller BMC on lumbar spine, and in the BMC, BMD and z-score in the total femur on the AD children. Low BMD occured more frequently in this population of children with moderate to severe AD compared with the control group. Use of topical glicocorticosteroids in the previous could be 5 years associated with the decrease in BMD.

Criança

Densidade óssea

Dermatite atópica

Dieta

Glicocorticóide tópico

Marcadores ósseos

Atopic dermatitis

Bone mineral density

Children

Topical glicocorticosteroids