UNIPROT:P50502 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: UNIPROT:P50502 (Hip)
7,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

More than a fifth of all females suffer from the risk to develop spinal osteoporosis. Hip fractures occur about 50,000 times per year in Federative Republic of Germany, about 1/3 in males and 2/3 in females. Estrogen deficiency is a risk factor of major importance for females; both sexes gain risk because of nutritional calcium deficiency and reduced mobility. Estrogen replacement therapy was proven to reduce the risk in females; and calcium supply reduces risk in both sexes. Therapy of developed spinal osteoporosis includes fluorides, calcium, vitamin D and calcitonin. No drug therapy has been developed so far for patients with senile osteoporosis and hip fractures.
...
PMID:[Osteoporosis as a cause of pathological fractures]. 220 Nov 37

The serum concentration of 25-hydroxyvitamin D level and plasma albumin-adjusted calcium, phosphate, and alkaline phosphatase levels were studied in 200 patients with hip fracture (age range 49-93 years) and 427 elderly subjects living in the community (age range 60-90 years). The mean serum 25-hydroxyvitamin D levels in controls were higher than in temperate countries, but the 25-hydroxyvitamin D concentration was significantly lower in the patients than the controls for all sex and age groups. There was little difference in albumin-adjusted calcium and alkaline phosphatase levels, but the phosphate level was higher in the patients than in the controls. None of the patients with a low 25-hydroxyvitamin D level had a blood picture suggestive of osteopathy resulting from vitamin D deficiency or frank osteomalacia. Hip fracture patients with a low 25-hydroxyvitamin D level were much less ambulant and went outdoors much less frequently than hip fracture patients with a normal vitamin D level. A low vitamin D level was a risk factor for hip fracture in Hong Kong Chinese, and may be prevented by frequent outdoor exposure.
...
PMID:Plasma 25-hydroxyvitamin D concentration in patients with hip fracture in Hong Kong. 258 33

The aim of this population-based matched case-control study was to evaluate the effect of risk factors for hip fracture in Oslo, Norway, which has some of the highest incidence rates ever reported. The study population comprised all non-institutionalized persons 50 years or older living in the catchment area of two Oslo hospitals, and cases were 246 patients admitted for hip fracture during a 1-year period. The controls were randomly selected from the study population, matched 1:1 for age and sex. Hip fracture was associated with lean body stature, smoking, low grip strength and decreased levels of physical activity, and inversely with length of education. In addition, hip fracture was inversely related to indicators of total food intake (number of meals per day, frequency of dinners, and slices of bread per day). A relation between hip fracture and low vitamin D intake was also suggested, whereas no association with dietary calcium intake was found. Finally, increased risk of fracture was seen in persons reporting two or more hospital admissions in the previous 2 years, and in those reporting weight reduction due to poor appetite during the previous year. In conclusion, the risk factor pattern for hip fracture was much the same in the elderly population of Oslo as previously described in other populations with a lower incidence of fracture. This study also indicates a relation between hip fracture and low food intake.
...
PMID:Risk factors for hip fracture in a high incidence area: a case-control study from Oslo, Norway. 749 62

Hip dysplasia is a common developmental problem affecting the canine population. Despite extensive research into the condition, many questions remain unanswered and numerous misconceptions are present among the general public. The purpose of this paper is to review the current knowledge on the development of hip dysplasia, factors modifying its development, and current diagnostic techniques.A computerized literature search was conducted for the period of January 1983 to April 1985 using the MEDLINE and CAB databases, and the keywords hip dysplasia, hip, dog, and canine. Other articles,wherever possible original research articles, published before 1983 were also reviewed. Animals affected by hip dysplasia are born with normal hips, but quickly develop subluxation of the femoral head. Degenerative joint disease follows. Hip dysplasia is a complex, inherited, polygenic trait. Selective breeding of only normal dogs with normal littermates, parents, and grandparents is there commended method of reducing the incidence in the general population.Gene expression in affected individuals may be modified by a number of environmental factors. These factors do not cause hip dysplasia, but they alter manifestations of the trait and its severity. Nutrition is a major environmental factor. Excess energy consumption increases the frequency and severity of hip dysplasia in genetically predisposed dogs. Food intake should be regulated to maintain a slender figure with the ribs and dorsal vertebral spines easily palpable, but not visible. Excess dietary calcium and vitamin D contribute to hip dysplasia in genetically predisposed individuals and should be avoided. High dose vitamin C supplementation ingrowing puppies does not prevent hip dysplasia, and this practice should be discontinued. Animals must be 2 years old before they can be certified as normal, but the disease may be diagnosed earlier. Earlier diagnosis of the condition would be very useful for the selection of breeding stock, but palpation techniques and the standard extended view radiographs have unacceptably high rates of error in young puppies. Stress radiography techniques may improve the accuracy of early diagnosis in the future.
...
PMID:The pathogenesis and diagnosis of canine hip dysplasia: a review. 758 36

Hip fracture is the most important skeletal problem in elderly people. Its two main determinants are falls and bone loss leading to an intrinsic bone fragility. Bone fragility results from postmenopausal and senile bone loss. The latter is increased by the secondary hyperparathyroidism of elderly persons which is induced by a combination of vitamin D deficiency and calcium intake, both very common in old age, particularly in Europe. Prophylactic strategies should be based on prevention of falls and of bone fragility. The latter includes the optimization of peak bone mass during childhood, postmenopausal oestrogen replacement therapy and a late prevention of senile secondary hyperparathyroidism by vitamin D and calcium supplements which have recently been shown to reduce by 25% the number of hip fractures in a prospective study performed in a large population of institutionalized women. Therefore, it is never too early to pay attention to the risk of osteoporosis, and never too late to prevent hip fractures.
...
PMID:[Physiopathology and prevention of fractures of the proximal end of the femur]. 779 35

Hip fractures are common in the elderly, affecting 1 in 4 women by the age of 90 years and 1 in 8 men. These fractures have caused an "epidemic" during the last 20 years because the age specific rate for such fractures has doubled, and there has been a significant increase in the size of the elderly population in Europe. Hip fracture patients occupy a quarter of all orthopedic beds, the treatment is costly and the rehabilitation slow. Fifteen percent die in hospital; 33% are dead by one year. Of survivors only 2/3 return to their own home. There is now a move to prevent such fractures. Hip fractures arise in the elderly for two reasons: deteriorating bone stock and increasing falls. Hip fracture prevention needs to address both issues, but most work has looked at bone stock. Predictions of hip fracture risk even if based on bone density are poor, so preventive measures need to target the whole population. Bone density rises to a peak at 35 to 40 years in both sexes; men have a higher bone density at all times than women. Thereafter there is a steady loss of 1-2% per year. Women have 10 years of accelerated loss after the menopause. Hip fracture prevention starts by ensuring that peak bone mass is reached. This is under genetic influence but may be maximized by adequate dietary calcium and physical activity in adolescence. Smoking, alcohol and steroid use reduce bone density and their use should be moderated. In women amenorrhea reduces bone density. For women, estrogen may stop menopausal loss and maintain bone density for at least 15 years and in retrospective studies can reduce the fracture risk by 50%. Calcitonin may be an alternative. Five years beyond the menopause primary or secondary prevention may be started. Estrogen is still the best therapy but may be less popular because of the return of menstrual periods. Calcitonin or oral calcium supplements may also be of benefit. Drugs in combination may be more effective than alone. Over age 70, when calcium absorption diminishes, vitamin D, calcium and calcitonin may be effective. For men, treatment options are calcium, calcitonin or, later on, vitamin D. The role of exercise in bone density protection is unclear but should be encouraged for general health reasons. Bisphosphonates are new drugs that may be useful. Falls become increasingly common in the elderly such that up to 80% of all 80-year-olds may sustain at least one fall per year.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:The epidemiology of hip fractures and methods of prevention. 805 45

In the 50-year "modern" history of osteoporosis, there have been about 17 antifracture studies with sufficient attention to design to allow inference regarding efficacy. Antivertebral fracture efficacy has been reported with etidronate, estrogen patch, calcitonin, and 1,25-dihydroxyvitamin D. Two studies using fluoride were positive, and two were negative. Hip fractures have been neglected. One study showed efficacy of hip protectors, one showed efficacy of vitamin D and calcium in nursing home dwellers. The source of most hip fractures is the community. One community based antihip fracture efficacy study using annual injections of vitamin D was positive. There have been no antivertebral or antihip fracture studies in men, or in corticosteroid-related osteoporosis in men or women. Lack of independently repeated demonstration of efficacy, small fracture numbers, and data pooling in some of these (the best) studies leave great uncertainty. Estrogen and bisphosphonates appear to be the best options at this time. New data suggest that calcium supplementation is likely to reduce the rate of bone loss and perhaps reduce fracture rates. The challenge is to maintain and restore the constituents of bone mineral density (BMD), that is: to promote periosteal and endosteal bone formation; reduce endosteal bone resorption and cortical porosity; and increase trabecular thickness, number, and connectivity. There are many opportunities, for instance, intermittent parathyroid hormone (PTH) increases bone strength and, with estrogen, may increase connectivity. The anabolic effects of PTH may be partly mediated by IGF-1. IGF-1 increases periosteal, endosteal, and trabecular bone formation, cortical and trabecular width, and trabecular and endocortical connectivity.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Present and future of osteoporosis therapy. 857 94

In this matched case-control study from Oslo, risk factors for hip fracture were assessed in elderly non-institutionalized women and men. 246 hip fracture patients admitted to two hospitals in the course of one year were matched by sex and age to controls living in the catchment area of the hospitals We found increased risk of hip fracture in lean persons, in persons with self-reported weight loss because of poor appetite, and in persons with low food intake. One third of the hip fracture patients ate less than three slices of bread per day and one fourth ate less than three meals a day. We found no relation between calcium intake and hip fracture, whereas higher risk of fracture was suggested in persons with low vitamin D intake. Hip fracture was also associated with low levels of physical activity, low hand grip strength, smoking, low level of education, and frequent admissions to hospital prior to the study.
...
PMID:[Risk factors of femoral neck fractures in Oslo]. 892 41

Hip fracture consecutive to osteoporosis represents a major health problem in terms of both morbidity and financial burden for the community. Deficiency in nutritional elements appear to play a major role in the pathogenesis of osteoporosis and of fractures in elderly. Correction of an inadequate supply in both calcium and vitamin D can reduce bone loss and fracture incidence in elderly subjects. In addition, low protein intake could be particularly detrimental for the conservation of bone integrity with aging. Thus, in hospitalized elderly patients reduced protein intake is associated with lower femoral neck bone mineral density (BMD) and poor physical performance. Furthermore, state of malnutrition or undernutrition is often observed in elderly patients with hip fracture. In these patients, in who we detected very low femoral neck (BMD) at the level of the proximal femur, the self-selected intake of protein and energy was insufficient during their hospitalization. Interestingly, the clinical outcome after hip fracture was significantly improved by daily oral nutritional supplement normalizing the protein intake, documented as a reduction in both complication rate and median duration of hospital stay. Further studies showed that normalization of the protein intake, independently of that of energy, calcium and vitamin D, was responsible for this more favorable outcome, and could prevent further bone loss, at least at the level of weight-bearing cortical bone. In undernourished elderly subjects an increase in the protein intake, from low to normal, could be beneficial for bone integrity. This could act through an increase in the growth factor IGF-1 which has been found to decrease with aging.
...
PMID:Proteins and bone health. 909 48

Taiwanese people have spinal bone mineral density (BMD) values similar to those of Caucasians, whereas their hip BMD values are 10% to 15% lower. In 1992, the prevalence of vertebral fractures, diagnosed according to the -3 SD morphometric criteria, was 18% for women and 12% for men older than 65 years in the major cities of Taiwan. Despite this high prevalence of vertebral fractures, the incidence of hip fractures in the elderly of both sexes was only 203 per 100,000 in 1996, which was lower than in Caucasians and similar to that in mainland Chinese. Hip and vertebral fractures are both associated with lower BMD values. The risk factors for low BMD in Taiwan include a lighter body weight and aging in both sexes, and menopause for women. An increased bone turnover rate is associated with a lower BMD in both men and postmenopausal women, although the rate seems to increase in women but decrease in men with aging. In Taipei City, daily calcium intake is relatively low (mean intake +/- SD; 640 +/- 240 mg), but the vitamin D stores seem to be generally adequate for middle-aged and elderly women. There was a significant association between a higher daily calcium intake and a higher BMD/lower bone turnover rate for women in this age group. Vitamin D receptor allelic polymorphism was not an important factor in low BMD and rapid bone turnover.
...
PMID:Osteoporotic fracture rate, bone mineral density, and bone metabolism in Taiwan. 934 79

1 2 3 4 5 6 Next >>