UNIPROT:P50502 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P50502 (Hip)
7,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hip fractures in men account for one third of all hip fractures and have a higher mortality than in women. The age-specific incidence of hip fractures is increasing so that the public health burden will increase out of proportion to the burden imposed by the increase in the numbers of elderly men in the community. Vertebral fractures are a public health problem of lesser magnitude in terms of morbidity, mortality, and cost, but they are debilitating and are seen commonly in clinical practice. (Forearm fractures should probably not be regarded as a public health problem.) The pattern of earlier gain/later loss of bone during ageing in healthy men is well documented. Peak bone mass is higher in men than women because men have bigger bones. Peak bone density is the same. The absolute amount of trabecular bone lost at the spine and iliac crest during ageing is similar in men and women. Cortical bone loss is less in men. It is less because endocortical resorption is less, and periosteal formation is greater, in men. Bone loss may accelerate in elderly men and women (rather than decelerate), perhaps because endocortical resorption and increasing cortical porosity increase the effective surface available for resorption in cortical bone. Thus, bone fragility is less in men because (a) the cross-sectional surface of the vertebral body is larger; (b) trabecular bone loss is less as a percentage of the higher peak bone mass; (c) trabecular bone loss occurs by thinning rather than perforation; and (d) periosteal appositional growth compensates for endocortical resorption by maintaining the bending strength of bone. Reduced bone density in men with fractures may be due to reduced peak bone density and bone loss. As found in women with spine fractures, men with fractures have smaller bone size. Bone loss occurs by reduced bone formation and increased bone resorption. Loss of connectivity appears to predominate in men with vertebral fractures; trabecular thinning appears to predominate in men with hip fractures. Whether men with fractures have increased bone fragility due to reduced periosteal appositional growth during ageing is unknown. The age-related decline in testosterone, adrenal androgens, growth hormone, and insulin-like growth factor 1 may be concomitants of ageing or may contribute to reduced bone-formation and bone loss. Men with vertebral fractures may be more deficient in growth hormone and insulin-like growth factor 1. Thy often have illness, hypogonadism, or illnesses associated with hypogonadism that should be sought with a high index of suspicion.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The dilemma of osteoporosis in men. 770 40

The Normative Aging Study (NAS) recruited 2280 Boston area healthy males aged 21 to 80 in 1961 through 1970. Clinical exams have continued at 3- to 5-year intervals. Obesity was not an exclusion criterion. Stability in weight and body habitus among 867 adult participants in the NAS was evaluated at 5- and 15-year follow-ups. At study entry, age was linearly related to central adiposity [abdominal circumference (AC) and ratio of AC/Hip Breadth (HB)] throughout the entire age range (30 to 78 years) and linearly and quadratically related to weight (WT) and Body Mass Index (BMI) (kg/m2) with maximal values at age 50. Over 15 years, changes in adiposity were strongly related to age; the greatest increases were among those initially 30 to 44 years of age with decrements in several adiposity measures (BMI, AC) only among the oldest subjects (60+ at entry); significant quadratic effects of age for BMI (p < .001), WT (p < .02) and AC (p < .01). There were major secular differences; men born later were heavier and fatter at the same ages as men born earlier. Men who gained (> 1 BMI) were younger while men who lost (> 1 BMI) had greater initial central adiposity than others. Smoking cessation was independently associated with increments in both central and peripheral adiposity. Moderate alcohol intake was associated with lower gains in AC/HB ratios at 15 years compared with little or high consumption. In general, aging was associated with trends towards central adiposity which tended to plateau or decrease at the oldest ages.
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PMID:Body habitus changes among adult males from the normative aging study: relations to aging, smoking history and alcohol intake. 852 Nov 63

Hip fractures can adversely affect an older adult's functional well-being. Little is known about the changes in continence status after hip-fracture repair. To investigate postoperative complications, the authors reviewed a convenience sample of 100 medical records of adults ages 55 years and over who were admitted to two metropolitan Baltimore hospitals for surgical repair of a fractured hip. There were data regarding postoperative incontinence for 95 individuals. Prevalence of urinary incontinence significantly increased from the preoperative rate of 20% to 43% postoperatively. That is, 19 individuals were incontinent preoperatively, and 41 individuals were incontinent postoperatively. Two individuals who had been incontinent preoperatively became continent postoperatively. Men were more likely to become incontinent than women, as were cognitively impaired individuals compared to cognitively intact individuals.
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PMID:Urinary continence changes after hip-fracture repair. 928 32

The purpose of this study was to examine the relationship between the Harris Hip Score (HHS), a traditional method of patient assessment of a total hip arthroplasty (THA), and the Medical Outcomes Study 36-Item Short-Form Health Survey (SF-36), a commonly used health-related quality-of-life survey. One hundred forty patients returning for routine clinical follow-up evaluation of a primary THA were asked to fill out the SF-36 quality-of-life survey, as well as questions concerning their perceptions of their THA. The patient's surgeon assessed the THA with the traditional HHS. The correlations between the HHS and the SF-36 domains were highest in the physical component summary scores for male patients of all ages and female patients 65 years of age or older. The correlations were lower for the mental component summary scores of all patients, but particularly in female patients younger than 65. When the SF-36 scores were compared with age and sex-matched population norms, both age and sex were found to be important. Men younger than 65 had scores lower than norms in the physical function domains, but were comparable in the mental health domains. The older men had scores comparable to the norms in all domains. Female patients of all ages, however, had lower scores in the physical function domains. The greatest differences were noted in the female patients younger than 65. The HHS is commonly used to assess disease-specific pain and function in THA patients; however, the results of this study suggest that the SF-36 health survey can capture additional important quality-of-life domains that are influenced by a THA and that these domains are influenced by the age and sex of the patient. The combination of a disease-specific scoring system and a quality-of-life survey would allow a more global assessment of a THA in all patients. Studies evaluating the results of THAs should either assess the results of male and female patients separately when sample size is sufficiently large or use sex as a possible covariate in a multivariate analysis.
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PMID:Outcome after total hip arthroplasty. Comparison of a traditional disease-specific and a quality-of-life measurement of outcome. 930 14

Hip fracture case-fatality in patients aged 65 years or older was studied in patients admitted to acute care hospitals in Catalonia over a 1-year period. 1222 femoral neck fractures and 1648 pertrochanteric fractures were identified. Women (76.9%) were most frequently and significantly older than men. Average age in pertrochanteric fracture was significantly higher than cervical fracture. The overall in-hospital case-fatality rate was 6.8%. Male gender, advanced age, pertrochanteric fracture and conservative management were associated with a significantly higher case-fatality rate. Multivariate logistic regression analyses demonstrated that previously seen associations showed univariate analysis. However, because interaction was observed, association within fracture and case-fatality was studied separately by gender. Men with pertrochanteric fracture showed the greatest association for in-hospital case-fatality (OR: 3.3; 95% CI: 2-5.5) compared with women with femoral neck fractures. In models with in-hospital case-fatality or no autonomy at discharge or in-hospital case-fatality or no autonomy at discharge or readmission as dependent variables, the odds ratio of death for conservative management of hip fracture were 3.7 (95% CI: 2.3-6) and 3.1 (95% CI: 1.9-4.9), respectively. This information should be taken into consideration for further analyses for long-term outcome and resource consumption by patients with hip fracture.
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PMID:In-hospital case-fatality of aged patients with hip fracture in Catalonia, Spain. 932 15

Hip fractures in men account for one third of all hip fractures and have a higher mortality than in women. The public health burden will increase as the increase in the numbers of elderly men in the community increases. In addition, the age-specific incidence of hip fractures may be increasing in some, but not all, countries. Vertebral fractures may be a public health problem as recent studies suggest that the prevalence in the community is 20-30%, similar to that reported in women. Forearm fractures should probably not be regarded as a public health problem. Peak bone mass is higher in men than women because men have bigger bones. Peak bone mineral density is the same. The amount of trabecular bone lost at the spine and iliac crest during ageing is similar in men and women. Cortical bone loss is less in men because endocortical resorption is less and periosteal formation is greater. Bone loss accelerates in elderly men because endocortical resorption and increasing cortical porosity increase the surface available for resorption. Bone fragility is less in men than women because: (a) the cross-sectional surface of the bone is larger; (b) trabecular bone loss is less as a percentage of the higher peak bone mass; (c) trabecular bone loss occurs by thinning rather than perforation; and (d) periosteal appositional growth compensates for endocortical resorption by maintaining the bending strength of bone. Reduced BMD in men with fractures may be due to reduced peak bone size and mass, and bone loss. Bone loss occurs by reduced bone formation. Whether men with fractures have increased bone fragility due to reduced periosteal appositional growth during ageing is unknown. The age-related decline in testosterone, adrenal androgens, growth hormone, and insulin-like growth factor 1 may contribute to reduced bone formation and bone loss. Men with vertebral fractures often have hypogonadism or illnesses with few clinical features that should be considered with a high index of suspicion (alcoholism, myeloma, malabsorption, primary hyperparathyroidism, haemochromatosis, Cushing's disease). Secondary hyperparathyroidism may contribute to bone loss by activating bone turnover and so increasing the number of bone remodelling units with impaired bone formation in each. There is no proven treatment for osteoporosis in men because there have been no trials using anti-fracture efficacy as an end point. Testosterone replacement should be considered in men with proven hypogonadism and vitamin D deficiency should be corrected if present. Calcium supplements and bisphosphonates are reasonable options given the lack of information.
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PMID:Osteoporosis in men. 936 40

Hip fracture incidence is lower in Japan than in the West. Although differences have been found in peak bone mass and hip geometry between white and Japanese populations, these do not fully explain the difference in hip fracture rates. Variation in the rates of involutional bone loss may be an additional contributing factor. We address this issue in a prospective epidemiological study comparing bone loss rate among elderly people in Britain and Japan. Two population-based studies of bone loss rate in a British and a Japanese cohort were performed. Annual bone loss rates were obtained for 172 Hertfordshire men and 143 Hertfordshire women of mean age 66 years, and a questionnaire administered to obtain information on known confounding lifestyle factors. Eighty-six Japanese men and 90 Japanese women of mean age 69 years completed a similar study in Taiji, Japan. British men and women were heavier than Japanese men and women. Differences in lifestyle were also evident; the British men were less likely to smoke and the women more likely to consume alcohol than their Japanese counterparts. The British population also spent more time walking outdoors. Statistically significant differences between the two populations were apparent in baseline bone mineral density at lumbar spine (p < 0.05) and trochanter (p < 0.001) in men and women with Japanese subjects having lower values. There were also significant differences in bone density at the femoral neck (p < 0.001) between British and Japanese males. Men gained bone at the lumbar spine over the follow-up period in both populations. Bone loss rates were generally greater in the British female population than in Japanese women: the difference was statistically significant at the femoral neck (p < 0.05) and femoral trochanter (p < 0.001). These differences all remained significant after adjustment for differences in age between the two populations. Japanese subjects appear to have lower peak bone mass, but slower bone loss rates in later life than their European counterparts. These differences in bone loss rate help to explain the relatively low hip fracture rates found in Japan.
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PMID:Bone loss in Great Britain and Japan: a comparative longitudinal study. 976 51

Our aim was to develop a reproducible and simple radiological scoring system for ankylosing spondylitis (AS) to use in cross sectional and prospective studies. Regarding validation of the BASRI (Bath Ankylosing Spondylitis Radiology Index), radiographs of 470 patients with AS were scored using the New York criteria for the sacroiliac joints. The lumbar and cervical spine, and hips were similarly graded 0-4. These scores were added together to give BASRI-t (total) and if the hips are excluded to give BASRI-s (spine). Radiographs of 188 patients were used to test reproducibility. Blinded radiographs of 89 non-AS patients were included randomly to assess disease specificity. Sensitivity to change was assessed using 177 radiographs from 40 patients. Regarding the cross sectional study, 2200 radiographs of 550 (104 F:446 M) patients were randomly selected and scored using BASRI. The frequency distribution of BASRI-t and BASRI-s were plotted using a probit plot. Inter and intraobservation showed between 73 and 82% and 73 and 88% complete agreement, with specificity of 0.78-0.89, suggesting scores are disease-specific. Sensitivity to change became apparent at 2 years (p<0.05). Scoring required 30 seconds to complete. BASRI-t was found to be normally distributed using a probit plot. The mean BASRI scores (total, spinal, hip) increased with disease duration. The correlation, however, was poor (r=0.293, 0.347, 0.263, respectively). Those with hip involvement had more severe spinal disease (p<0.0001). Men had more severe spinal disease than women (p<0.0001). We conclude BASRI is a reliable and rapid method to grade radiographic changes in AS. Using this scoring system it can be seen that AS is a slowly progressive disease with much individual variation. Hip patients have more severe spinal disease than those without hip involvement and men have more severe spinal disease than women.
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PMID:A new dimension to outcome: application of the Bath Ankylosing Spondylitis Radiology Index. 1022 34

Hip fracture is associated with a higher mortality rate in men than in women. However, mean age of men and women with hip fracture differs markedly. Thus, some of the differences in the clinical pattern and outcome between genders could be related to different ages. To avoid the influence of age on gender-specific outcome, we analyzed prefracture conditions and hip fracture outcome in a cohort of men and of age-matched women. Risk factors for low bone mass were recorded in 106 men (mean age +/- SD, 80.3 +/- 9.3 years) and 264 age-matched women (mean age 81.4 +/- 8.0) with hip fracture. We compared mortality rate, survival, years of potential life lost and modification of housing conditions. These outcomes were prospectively assessed during an average 3.6 years follow-up (up to 7 years). Men with hip fracture differed from age-matched hip-fractured women by a higher alcohol and tobacco consumption, a greater frequency of living in couple, and by less prevalent fractures. Mortality rate after hip fracture was significantly higher in men (RR = 1.74, 95% CI 1.34-2.24). Since mortality is higher in the general male population, we compared reduction in life expectancy taking into account the gender-specific mortality rate. The excess mortality in each age-group of hip-fractured patients, which was measured during the whole follow-up period, and is an estimate of death attributable to fracture, did not differ between genders. Reduction in life expectancy due to hip fracture was similar in both genders (5.9 +/- 4.5 and 5.8 +/- 4.8 years, in men and women, respectively; NS), but the proportion of the years of life lost was higher in men (70 +/- 33%) than in women (59 +/- 42%, p < 0.01). It was concluded that for the same age, mortality rate after hip fracture was higher in men than in women. Although the reduction in life expectancy was similar in both genders, the proportion of the years of life lost was higher in men, suggesting a worse impact of hip fracture on survival in men, even after consideration of the higher mortality rate in the general male population.
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PMID:Survival and potential years of life lost after hip fracture in men and age-matched women. 1219 37

We hypothesized that measures of physical activity would have a closer relationship with section modulus (SM), an indicator of bending resistance, than with bone mineral density (BMD) because physical activity might expand the bony envelope, which tends to reduce BMD for a constant bone mineral content. Four hundred twenty-three men and 436 women (mean age 72 years, SD =3) were recruited from a prospective population-based cohort study to a study of hip bone loss. Hip BMD was measured on two occasions 2-5 years apart (mean 2.7, DXA-Hologic 1,000 W). Hip structural analysis (HSA) software was used to calculate SM and BMD from the DXA scans on three narrow regions: the narrow neck (NN), intertrochanter (IT) and shaft (S). A physical activity and lifestyle questionnaire was administered at baseline. Multivariate repeated measures analysis of variance was used to model the associations between personal attributes (weight, height, age), physical activity and lifestyle variables with SM, cross-sectional area (CSA), sub-periosteal diameter (PD) and BMD. Men and women were analysed together after tests for interactions with gender, which were found not to be significant. In all regions female gender was associated with having lower values of all outcomes, and body weight was positively associated with all outcomes, i.e., SM, CSA, PD and BMD ( P<0.0001). Sub-periosteal diameter was positively associated with reported lifetime physical activity (IT and S, P<0.0001). There was a significant decline of BMD with age at the NN and S regions ( P<0.026), and the PD increased with age (NN and S, P<0.019). Previous fracture history was associated with having lower values of BMD, SM and CSA (except for S; P<0.022). Both section modulus and CSA were positively associated with heavy physical activity after age 50 years in all regions ( P<0.019), whereas NN BMD was the only BMD associate of heavy physical activity after 50 ( P=0.036). Time spent per week on recreational activities classified as no impact activity was positively associated with BMD, CSA and SM (multivariate P<0.016). In conclusion, proximal femur diameter is associated positively with reported life-long physical activity. If this is mediated through a loading related effect on sub-periosteal expansion, BMD would be an unsatisfactory outcome measure in physical activity studies since it is inversely related to projected bone area. SM in contrast was associated with several measures of recent physical activity and relates more directly to the bending experienced by the proximal femur in response to a given load. These data are consistent with an effect of mechanical loading to regulate bone strength through an anabolic effect maximal in the subperiosteal cortex, where the highest loading-related strains are experienced.
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PMID:Hip section modulus, a measure of bending resistance, is more strongly related to reported physical activity than BMD. 1295 15

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