EC:3.1.3.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.1 (alkaline phosphatase)
47,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This study compared the effects of oral alendronate and intranasal calcitonin for treatment of osteoporosis in postmenopausal women. Women at least 5 yr postmenopause (n = 299) were randomized to either 10 mg alendronate, matching alendronate placebo, or open-label intranasal calcitonin 200 IU daily for 12 months. Hip and spine bone mineral density (BMD) and markers of bone turnover were measured, and safety and tolerability were assessed. Alendronate produced greater increases in BMD than calcitonin at 12 months at the lumbar spine (5.16% vs. 1.18%; P < 0.001), trochanter (4.73% vs. 0.47%; P < 0.001), and femoral neck (2.78% vs. 0.58%; P < 0.001). Changes in BMD with calcitonin were greater than with placebo at the femoral neck, but were not different from placebo at either the trochanter or lumbar spine. Greater decreases in bone turnover were seen with alendronate than with calcitonin (serum bone-specific alkaline phosphatase, 43% vs. 9%, P < 0.001; urinary N-telopeptide, 62% vs. 11%, P < 0.001). Similar percentages of patients in each group reported an adverse experience during the study. We conclude that, in postmenopausal women with osteoporosis, 12 months of therapy with alendronate produced significantly greater increases in BMD of the hip and spine and greater decreases in bone turnover than intranasal calcitonin.
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PMID:Comparison of alendronate and intranasal calcitonin for treatment of osteoporosis in postmenopausal women. 1084 52

We measured bone mineral density (BMD), four markers of bone formation [bone alkaline phosphatase (bAP), osteocalcin (Oc), N- and C-terminal propeptide of type I procollagen (PINP and PICP respectively)] and five markers of bone resorption [serum C-terminal telopeptide of type I collagen (CTx), urinary CTx, N-terminal cross-linked telopeptide (NTx), free and total deoxypyridinoline (fDpd and tDpd respectively)] in 28 healthy premenopausal women (45.7 +/- 3.0 years), 15 early (< 7 years) healthy menopausal women (53.8 +/- 3.1 years) and 20 osteoporotic women (65.3 +/- 8.2 years). Bone markers and BMD were also measured in the osteoporotic women 4.1 +/- 0.2 and 12.6 +/- 1.2 months after the beginning of alendronate therapy (Fosamax, 10 mg/day) respectively (BMD in 16/20). We calculated the intra-individual coefficient of variation (iCV) and the least significant change (LSC) for each bone marker from a subset of 9 healthy premenopausal women (32 +/- 5 years) who had a first and a second morning void urine collection (FMV and SMV respectively) and a blood sample on 4 nonconsecutive days (mean interval 14 +/- 3 days). None of the bone markers was correlated with BMD (except p = 0.043 between serum Oc and hip BMD). All markers, except fDpd, were increased significantly in early menopausal women when compared with the premenopausal group. Serum CTx presented the highest increase at menopause (+67.8%) and identified the highest rate (11/15) of early menopausal women with bone turnover above the premenopausal range. The iCVs for bone formation markers (7.2-14.4%) were lower than those for bone resorption markers (14.6-22.3%). The iCVs obtained on FMV and SMV were not different. The decrease after 4 months of alendronate was significant for each bone marker but variable from one marker to another. Serum CTx showed the largest decrease (70.8%) and identified the highest number of biologically responding patients (change > LSC; n = 17/20). A significant change in serum CTx after 4 months of alendronate was the best predictor of a significant gain in spine BMD (i.e., > or = 27 mg/cm2) after 1 year of therapy, allowing 15 of 16 patients (94%) to be classified correctly (one false-positive). Urinary NTx/Cr was the second best predictor. Despite a moderately high iCV (20.6%), serum CTx appeared the most effective of the markers tested and could be of interest for the detection of high bone turnover and the longitudinal monitoring of alendronate therapy in the individual patient. It must be stressed that serum PINP and urinary NTx and tDpd compared very similarly with serum CTx for monitoring alendronate therapy.
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PMID:Differences in the capacity of several biochemical bone markers to assess high bone turnover in early menopause and response to alendronate therapy. 1092 18

In the submitted case-history the authors describe the clinical picture, diagnosis and treatment of the non-complicated form of Paget's disease in a 68-year-old patient with typical X-ray findings on the vertebrae, pelvis and left tibia. The laboratory findings revealed liminal alkaline phosphatase (ALP) values, 2.5 times raised values of the aminoterminal telopeptide of collagen I in the organic bone matrix (NTx) in the 24-hour diuresis and slightly elevated osteocalcin (OSCA) levels. The finding of whole-body skeletal scintigraphy was atypical and thus was no diagnostic asset. Aimed transiliacal bone biopsy according to Bordier taken from the pathological focus confirmed the diagnosis of morbus Paget. The patient was treated for six months with the following preparations: Fosamax (monosodium alendronate tablets a 10 mg, Merck Sharp and Dohme, USA) 1 tablet per day, Vitacalcin (calcium carbonate, tablets a 250 mg elemental calcium, Slovakofarma, Slovak Republic) 2 x 1 tablet per day, Rocaltrol (calcitriol tablets a 0.25 ug, Hoffman La Roche, Switzerland) 1 tablet on alternate days). Because of gastrointestinal complaints the authors did not administer 40 mg alendronate per day, as recommended in the American literature. Based on the laboratory finding of normalization of the bone turnover, reduction of the number of osteoplastic foci on the X-ray image of vertebrae and pelvis, regression of the vertebrogenic algic syndrome and improved mobility of the patient, the authors consider the 6-month administration of alendronate, 10 mg per day, calcium carbonate and calcitriol therapeutically effective and successful.
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PMID:[Paget's disease of bone--treatment with alendronate, calcium and calcitriol]. 1095 69

Osteoporosis is a growing health problem in Asian women and it is expected that half of the world's hip fractures will occur in Asia in 50 years' time. As the use of hormonal replacement therapy (HRT) is extremely low in postmenopausal Asian women, nonhormonal agents will be more acceptable for the treatment and prevention of osteoporosis. The efficacy, tolerability, and acceptability of alendronate, an amino-bisphosphonate, for Asian women was evaluated in 70 osteoporotic southern Chinese women in a prospective, randomized, double-blind study. The subjects were randomized to receive either alendronate 10 mg daily or placebo, plus calcium supplementation 500 mg daily. The baseline L 1-4 and hip bone mineral density (BMD) were similar between both groups. At the end of 1 year, there was an increase of 5.8% in the lumbar spine BMD and 3.4% at the total hip with alendronate treatment when compared with baseline values (P < 0.001). Alendronate treatment for 1 year resulted in significant improvement in BMD at all sites measured when compared with placebo. There was also marked reduction in serum alkaline phosphatase (ALP) and urinary n-telopeptide (NTx) in the alendronate group when compared with the placebo group (ALP 25% versus 2%, NTx 75% versus 14%, both P < 0.005). The changes in ALP and NTx at 6 and 12 months correlated with the change in BMD at all sites measured at 1 year (P all <0.05). Alendronate was well tolerated and accepted, although two cases of gastric ulcer were reported. We conclude that alendronate is an effective and well-accepted agent for the treatment of osteoporosis in Asian women.
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PMID:The efficacy and tolerability of alendronate in postmenopausal osteoporotic Chinese women: a randomized placebo-controlled study. 1100 Mar 41

Alendronate is an aminobisphosphonate that inhibits bone resorption in osteoporotic humans and rats but does not induce osteomalacia. Several bisphosphonates, including alendronate, also have direct positive actions on osteoblasts, bone formation, and mineralization. We studied the effects of alendronate on skeletal development in adolescent male rats during chronic alcohol intake. Four groups of age- and weight-matched male Sprague-Dawley rats (35 days of age) were fed the Lieber-DeCarli diet containing 36% of calories as EtOH (E), the EtOH diet plus 60 mg/kg alendronate (EA) every other day intraperitoneally (ip), an isocaloric diet (I), or the isocaloric diet plus 60 mg/kg alendronate (IA) every other day ip. Body weight, femur length, serum levels of osteocalcin (OC), insulin-like growth factor 1 (IGF-1), testosterone, and luteinizing hormone (LH); femur distal metaphyseal and middiaphyseal bone mineral density (BMD) and tibial metaphyseal gene expression for alpha-1-type I collagen (Col I), OC, and bone alkaline phosphatase (AP); and femur strength by four-point bending to failure were measured after 28 days of feeding and alendronate injections. Serum alcohol levels at death were 156 +/- 13 mg/dl (E) and 203 +/- 40 mg/dl (EA). Alendronate given to alcohol-fed rats increased metaphyseal BMD by more than 3-fold over rats fed alcohol alone. Alendronate given to isocaloric pair-fed rats increased metaphyseal BMD by more than 2.5-fold over rats fed the isocaloric diet alone. Cortical BMD was reduced by alcohol but was increased by alendronate. Alcohol consumption reduced serum IGF-1 levels, and alendronate increased IGF-1 levels in alcohol-fed rats. Serum OC, testosterone, and LH were unaffected by alcohol and alendronate. Quantitative dot blot hybridization using rat complementary DNA (cDNA) probes and normalization against 18S subunit ribosomal RNA (rRNA) levels revealed no changes in tibial metaphyseal gene expression for type I collagen, osteocalcin, or alkaline phosphatase. Alcohol significantly reduced the biomechanical properties of the femurs that were partially compensated by alendronate. Chronic alcohol consumption uncouples formation from ongoing resorption, and resorption is inhibited by alendronate. However, alendronate's positive effects on osteoblast-mediated mineralization during chronic alcohol consumption point to the potential use of bisphosphonates in the treatment of decreased bone formation secondary to alcohol-induced diminished osteoblast function.
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PMID:Alendronate administration and skeletal response during chronic alcohol intake in the adolescent male rat. 1102 58

Alendronate therapy in osteoporotic women decreases bone turnover and increases bone mineral density (BMD). Optimal patient management should include verification that each patient is responding to therapy. Markers of bone turnover and BMD have both been proposed for this purpose. We have investigated changes resulting from alendronate therapy with an enzyme immunoassay for bone alkaline phosphatase (BAP) and compared it with total alkaline phosphatase (TAP) and BMD of the lumbar spine, hip, and total body. Subjects were drawn from a multicenter randomized, placebo-controlled trial of alendronate in postmenopausal women with osteoporosis. BAP and TAP levels were measured at baseline and following 3, 6 and 12 months of therapy with either placebo (n = 180) or alendronate 10 mg/day (n = 134). All subjects also received 500 mg/day supplemental calcium. BMD was measured at baseline and following 3, 6, 12, 18, 24 and 36 months of therapy. To compare BAP, TAP and BMD at each site for identifying women that experienced a skeletal effect of alendronate, we calculated least significant change (LSC) values from the long-term intraindividual variability in each placebo-treated woman. Median levels of BAP decreased by 34%, 44% and 43% at 3, 6 and 12 months, respectively, in alendronate-treated women (p < 0.0001 compared with baseline and with placebo). These changes were significantly greater (p < 0.0001) than changes observed for TAP. Following 6 months of alendronate therapy, 90% of the women had experienced a decrease in BAP exceeding the LSC compared with only 71% for TAP. The greatest number of women similarly identified with BMD at any site (i.e. a gain in BMD exceeding the LSC) was 81% for spinal BMD at 36 months. All other sites were less than 70% at 36 months. Short-term changes in BAP and TAP were modestly associated with subsequent changes in BMD at all sites (Spearman's rho -0.22 to -0.52, p < 0.05). Compared with TAP and BMD, BAP testing rapidly and sensitively identified skeletal effects of alendronate thus enabling appropriate drug monitoring of osteoporotic women. Though BAP and TAP changes were modestly predictive of BMD changes, the value of the bone marker tests is their ability to detect rapidly a skeletal effect of therapy.
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PMID:Comparison of bone and total alkaline phosphatase and bone mineral density in postmenopausal osteoporotic women treated with alendronate. 1142 Jul 77

The aim of this study was to investigate the effects of alendronate, calcitriol, and calcium in bone loss after kidney transplantation. We enrolled 40 patients (27 men and 13 women, aged 44.2 +/- 11.6 years) who had received renal allograft at least 6 months before (time since transplant, 61.2 +/- 44.6 months). At baseline, parathyroid hormone (PTH) was elevated in 53% of the patients and the Z scores for bone alkaline phosphatase (b-ALP) and urinary type I collagen cross-linked N-telopeptide (u-NTX) were higher than expected (p < 0.001). T scores for the lumbar spine (-2.4 +/- 1.0), total femur (-2.0 +/- 0.7), and femoral neck (-2.2 +/- 0.6) were reduced (p < 0.001). After the first observation, patients were advised to adhere to a diet containing 980 mg of calcium daily and their clinical, biochemical, and densitometric parameters were reassessed 1 year later. During this period, bone density decreased at the spine (-2.6 +/- 5.7%;p < 0.01), total femur (-1.4 +/- 4.2%; p < 0.05), and femoral neck (-2.0 +/- 3.0%; p < 0.001). Then, the patients were randomized into two groups: (1) group A-10 mg/day of alendronate, 0.50 microg/day of calcitriol, and 500 mg/day of calcium carbonate; and (2) group B-0.50 microg/day of calcitriol and 500 mg/day of calcium carbonate. A further metabolic and densitometric reevaluation was performed after the 12-month treatment period. At the randomization time, group A and group B patients did not differ as to the main demographic and clinical variables. After treatment, bone turnover markers showed a nonsignificant fall in group B patients, while both b-ALP and u-NTX decreased significantly in alendronate-treated patients. Bone density of the spine (+5.0 +/- 4.4%), femoral neck (+4.5 +/- 4.9%), and total femur (+3.9 +/- 2.8%) increased significantly only in the alendronate-treated patients. However, no trend toward further bone loss was noticed in calcitriol and calcium only treated subjects. No drug-related major adverse effect was recorded in the two groups. We conclude that renal transplanted patients continue to loose bone even in the long-term after the graft. Alendronate normalizes bone turnover and increases bone density. The association of calcitriol to this therapy seems to be advantageous for better controlling the complex abnormalities of skeletal metabolism encountered in these subjects.
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PMID:Alendronate prevents further bone loss in renal transplant recipients. 1169 8

Previous studies indicated that aminobisphosphonate alendronate sodium, a potent inhibitor of bone resorption, increases bone mineral density (BMD) at the hip and spine, reduces markers of bone turnover, and reduces the risk of fractures in Caucasian postmenopausal women. The purpose of the present study was to investigate whether alendronate increases BMD and reduces markers of bone turnover in African-American postmenopausal women. In a multicenter, randomized, double-blind, placebo-controlled study, 65 African-American women, aged 45 to 88 yr, were randomly assigned to either placebo (n = 33) or alendronate 10 mg daily (n = 32) for 2 yr. Mean BMD T scores of the lumbar spine at baseline were -3.18 in the placebo-treated group and -3.09 in the alendronate-treated group. All women took 500 mg elemental calcium daily in the form of calcium carbonate and 500 IU vitamin D. Alendronate significantly increased BMD and reduced markers of bone formation and resorption, compared with placebo. At 2 yr, mean changes +/- SE in BMD were 6.5% +/- 0.7% for the lumbar spine (P < 0.001), 4.5% +/- 1.0% for the femoral neck (P < 0.001), 6.4% +/- 0.6% for the femoral trochanter (P < 0.001), 4.1% +/- 0.7% for the total hip (P < 0.001), 0.7% +/- 0.5% for the one third forearm (NS), and 2.0% +/- 0.4% for the total body (P < 0.001) in women treated with alendronate, compared with 0.9% +/- 0.6% (NS), 0.5% +/- 1.1% (NS), -0.2 +/- 0.8 (NS), -1.1 +/- 0.7% (NS), -0.8% +/- 0.6% (NS), and -1.2% +/- 0.6% (P < 0.05) for the lumbar spine, femoral neck, trochanter, total hip, one third forearm, and total body, respectively, in women treated with placebo. At 2 yr, mean serum bone-specific alkaline phosphatase had declined by 46.3% with alendronate (P < 0.001) and 13.6% with placebo (P < 0.01), and mean urinary N-telopeptide of type I collagen/creatinine ratio had declined by 70.5% with alendronate (P < 0.001) and 6.7% with placebo (NS). The incidence of adverse experiences was not different between the two groups. We conclude that in postmenopausal African-American women with osteoporosis, alendronate, 10 mg daily for 2 yr, increases BMD at the lumbar spine, hip, and total body and reduces markers of bone remodeling and is well tolerated.
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PMID:Alendronate increases bone mass and reduces bone markers in postmenopausal African-American women. 1205 Feb 52

The effect of biphosphonate therapy on bone mineral density (BMD) in patients with primary hyperparathyroidism (PHP) is unknown. Forty postmenopausal women (mean age, 70 yr) with PHP were randomized to receive alendronate 10 mg/d or placebo for 48 wk, followed by treatment withdrawal for 24 wk. The mean (+/-SD) changes in BMD at femoral neck (+4.17 +/- 6.01% vs. -0.25 +/- 3.3%; P = 0.011) and lumbar spine (+3.79 +/- 4.04% vs. 0.19 +/- 2.80%; P = 0.016) were significantly higher with alendronate at 48 wk. Serum calcium was reduced with alendronate but not placebo (-0.09 vs. +0.01 mmol/liter; P = 0.018). Serum bone-specific alkaline phosphatase activity was lower with alendronate from 12 wk onward and increased 24 wk after treatment withdrawal (21.1 +/- 12.8 to 7.3 +/- 4.9 IU/liter at 48 wk, and 15.0 +/- 14.8 IU/liter 24 wk after withdrawal; P = 0.002 for trend). Osteocalcin concentration decreased at 48 wk and increased 24 wk after alendronate withdrawal (P = 0.019 for trend of change over time) but not with placebo. Urinary N-telopeptide/creatinine ratio decreased with alendronate at 48 wk and increased 24 wk after treatment withdrawal (P = 0.008 for trend). N-telopeptide/creatinine ratio did not change with placebo. Alendronate improves BMD and reduces bone turnover markers in postmenopausal women with PHP.
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PMID:Oral alendronate increases bone mineral density in postmenopausal women with primary hyperparathyroidism. 1257 84

Acute toxicity studies showed that the LD50 values of oral alendronate in female animals corresponded to human oral doses of 27,800 mg in rats and 48,300 mg in mice; LD50 values in male animals were even higher. Chronic toxicity studies showed clinically nonrelevant retention of primary spongiosa of bone in areas of endochondral bone formation, serum biochemical changes (reductions in serum concentrations of calcium, phosphate and alkaline phosphatase) and nephrotoxicity. Of the 5 genotoxicity studies performed, 4 showed no evidence of mutagenicity, including those most relevant to human carcinogenic potential. Carcinogenicity studies in rats and mice at maximum tolerated doses showed no increased tumour incidence associated with alendronate treatment. Alendronate had no effect on fertility or reproductive performance in male or female rats receiving oral doses up to 5 mg/kg/day. No adverse developmental effects were noted at doses up to 25 mg/kg/day in rats and 35 mg/kg/day in rabbits. Alendronate had no deleterious effect on bone strength or morphology. The evidence presented in these studies supports the conclusion that alendronate administered to humans at therapeutic doses is a safe drug for the treatment of postmenopausal osteoporosis.
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PMID:Preclinical safety profile of alendronate. 1266 34

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