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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)
A total of 204 weanling pigs were utilized in an experiment of 3 X 3 factorial design (in three replicates) to evaluate the effects of feeding low P diets for a 35 d period on various growth, serum and bone measurement characteristics. Total dietary P levels of .23, .35 and .55% were fed in a Ca:P ratio of 1:1, 1.5:1 or 3:1. The basal diet was formulated using cornstarch, dextrin and soy protein concentrate with monosodium phosphate and limestone used to supply appropriate dietary levels of Ca and P. Growth, serum minerals and serum
alkaline phosphatase
were evaluated at 21 and 35 d of the trial. At the end of the experiment six pigs/treatment group were killed and bones were collected for various measurement criteria. Daily gain, feed intake and feed conversion were not affected by Ca:P ratio, but there was an increased gain and feed intake response to dietary P level. Serum inorganic P decreased with increasing dietary Ca:P ratio and also increased linearly as dietary P level increased. Serum
alkaline phosphatase
activity was not influenced by dietary Ca:P ratio, but did decrease as dietary P level increased. Bone bending moment increased quadratically as Ca:P ratio increased, but also increased linearly with dietary P level. Percentage bone
ash
, bone
ash
and organic matrix weights and the accretion of both the mineral and matrix components were not affected by Ca:P ratio, but each was influenced as dietary P increased. These data suggest that percentage bone
ash
, bone component weights and accretion measurement characteristics were more sensitive indicators of dietary P levels than bone bending moment, serum
alkaline phosphatase
and serum P, which in turn were superior to serum Ca, Mg and growth performance.
...
PMID:An evaluation of various biological characteristics in assessing low phosphorus intake in weanling swine. 652 59
Using female rats from 2 to 64 weeks old, the changes in bone gamma-carboxyglutamic acid-containing protein (BGP) levels in bone and serum were studied in relation to the changes in calcium metabolism during aging. Intestinal calcium transport, serum phosphorus level, bone origin serum
alkaline phosphatase
activity and serum BGP content were high in rapidly growing animals and then decreased with aging. Serum BGP content correlated well to bone origin serum
alkaline phosphatase
activity. Bone density, bone
ash
content and bone BGP content increased during aging. Bone BGP content was correlated to bone density which indicates the level of bone calcification. Moreover, the effect of castration on calcium metabolism and bone and serum BGP contents were observed in young (10 weeks old) and aged (40 weeks old) female rat at 12 and 24 weeks after operation. Intestinal calcium transport in ovariectomized rat was significantly lower than in sham operated rat. Serum phosphorus level and serum BGP content were increased in castrated female rat. However, serum calcium level and bone origin serum
alkaline phosphatase
activity did not show a significant change in castrated female rat. Bone density was significantly decreased in aged rat at 24 weeks after operation. During aging or castration, serum BGP content changed more than bone BGP content. The determination of change in serum BGP levels in various disorders of calcium metabolism would be very informative in future study.
...
PMID:Effect of aging and castration on the changes in the levels of bone gamma-carboxyglutamic acid-containing protein in bone and serum of female rat. 661 89
Large White male turkeys were fed rations containing 0, 12.5, 25, 50, 100, 200, 400, and 800 ppm added fluoride (F) from sodium fluoride in a corn-soybean assay diet containing tricalcium phosphate and 3 to 5 ppm F. The 800 ppm treatment was discontinued at 8 weeks because of low weight gains and a high incidence of leg disorders. Turkeys receiving defluorinated phosphate (32% calcium, 18% phosphorus) had significantly higher 4-week body weights than turkeys receiving tricalcium phosphate. Turkeys fed 0, 400, and 800 ppm F had significantly lower body weights at 8 weeks than turkeys fed 50 ppm F. A similar weight pattern was seen at 18 weeks, although the differences were not statistically significant. Based on growth response in this study, a requirement of 20 ppm F is proposed. Increasing levels of dietary F resulted in large increases in tibia F. Removal of high dietary F in certain groups at 8 weeks resulted in growth recovery and reduction in tibia F by 18 weeks. Elevated plasma
alkaline phosphatase
activity was observed with added dietary F of 400 and 800 ppm. At 4 weeks, tibiae from turkeys receiving high F had a trend (not statistically significant) toward lower percentage
ash
and a significantly lower breaking strength than controls. Compared to controls, tibiotarsi from turkeys on high F rations were significantly shorter, had thinner cortices, and had a narrower proliferative zone of proximal growth plates. A high incidence of tibial dyschondroplasia was observed, but it was not correlated with dietary treatment.
...
PMID:Effect of dietary sodium fluoride on growth and bone development in growing turkeys. 663 81
Two 4-week trials were conducted to determine the role of sodium chloride (salt) on field rickets in poults. A comparison of added dietary salt at 0, .075, .10, .25, and .45% to a corn-soy basal with .103% salt showed significant differences (P less than .05) in body weight gains, blood calcium, magnesium and sodium, feed conversion, and adrenal gland weights among the treatments. Mortality and abnormal bone scores decreased with increasing salt. When sodium was added to the basal diet as a single element for the poults at either 0, .09, .10, .11, and .12%, or chloride at 0, .009, .01, .02, and .03% in comparison to a control group with .20% sodium and .30% chloride, significant differences were found in weekly gain, bone
ash
, bone breaking strength, tibia weight/body weight, and serum
alkaline phosphatase
levels between the sodium, chloride, and the combined element groups. Bone abnormality scores decreased with increasing levels of both sodium and chloride in diets.
...
PMID:Effect of low salt, sodium, and chloride levels in poult rations on growth, bone development, and related factors. 683 8
One hundred and sixty Columbia- and Suffolk-cross intact male and female growing lambs (8 wk of age) were used in an 84-d feeding trial to determine the effect of two levels dietary Ca and Zn on weight gain, feed utilization and several blood and tissue traits. Two levels of Ca (.5 and .8%) and two levels of Zn (20 and 100 ppm) were fed in a 2 X 2 factorial arrangement of dietary treatments. There was no effect of diet on performance or on blood traits. Columbia lambs had heavier fleeces at slaughter than Suffolks (P less than .01) and males had heavier fleeces than females (P less than .01). Based on the similarity in performance among lambs fed the four diets differing in Ca and Zn level, it is concluded that a dietary Ca level of .5% and a Zn level of 19 to 26 ppm is adequate for normal weight gain, feed utilization, liver and humerus
ash
concentrations and blood plasma concentrations of Ca, P, Zn, total protein, albumin,
alkaline phosphatase
and blood hemoglobin and hematocrit. Further, it appears that an elevated level of dietary Ca does not precipitate a clinical Zn deficiency in the growing lamb, in contrast to the general observation in growing swine.
...
PMID:Effect of dietary calcium and zinc levels on weight gain and blood and tissue mineral concentrations of growing Columbia- and Suffolk-sired lambs. 685 87
The hemodialysis unit at Columbia, South Carolina, opened in April, 1974. By June of 1977, 7 patients had died from dialysis encephalopathy, and 16 of the 51 surviving patients showed speech disorders, fits, and myoclonic jerks. Pathologic fractures were seen in 22 patients. Bone histomorphometry showed severe osteomalacia with minimal, if any, osteitis fibrosa, and serum
alkaline phosphatase
activity was normal. The mean serum aluminum concentration in 33 random patients was elevated at 83.5 microgram/liter (control group, 13.9 microgram/liter, P less than 0.001). The mean bone aluminum concentration in 4 patients who died from this syndrome was 307 ppm of bone
ash
(normal, less than 10 ppm). Dialysis fluid aluminum was high at 140 microgram/liter. Purification of the dialysis fluid with a water softener, reverse osmosis and a deionizer and abandoning extra-strength Basaljel resulted in a notable clinical and EEG improvement. None of 81 new patients who started hemodialysis between July of 1977 and July of 1979 after the change in treatment have developed any such symptoms. A syndrome of hemodialysis encephalopathy accompanied by pathologic osteomalacic fractures is described. Recovery is possible. The syndrome was eradicated after purification of the dialysis fluid.
...
PMID:Hemodialysis encephalopathy with osteomalacic fractures and muscle weakness. 721 57
Sixteen hundred broiler strain cockerels housed in battery brooders 1 to 21 days of age were used to determine the effect of feeding different commercially available particle-sized calcium carbonate (CaCO3) on the phosphorus requirement. Five replicates of 8 chicks each were fed corn-soy type diets consisting of either 12 to 20, 20 to 60, or 100 to 200 (passed-retained basis) United States Bureau of Standards (USBS) sieve-sized CaCO3. Each particle-sized CaCO3 was fed in diets containing either .20 to .30% (Experiment 2), or .20 to .45% (Experiment 3) available phosphorus (AP) with .05% increments. Supplementary phosphorus was added as sodium phosphate monobasic. Tibia
ash
and body weight were greater when the USBS 20 to 60 particle-sized CaCO3 was fed then when either the USBS 12 to 20 or 100 to 200 particle-sized CaCO3 was fed. 90% dietary calcium was fed to broiler chicks, the phosphorus requirement was either .35% AP with the USBS 20 to 60 particle-sized CaCO3 or at least .45% AP with either the USBS 12 to 20 or 100 to 200 particle-sized CaCO3. Blood
alkaline phosphatase
, which indicates bone calcification, was inversely correlated (r = -.65) with bone
ash
. Blood calcium and blood phosphorus increased, and blood
alkaline phosphatase
decreased with increasing dietary phosphorus. These data show that the 21-day-old broiler chick's available phosphorus requirement is less in corn-soybean meal diets containing a USBS 20 to 60 particle-sized CaCO3 than in diets containing either the USBS 12 to 20 or 100 to 200 particle-sized CaCO3.
...
PMID:Effect of calcium carbonate particle size on the available phosphorus requirement of broiler chicks. 723 62
A study of skeletal development in X-linked hypophosphatemic (Hyp) mice revealed that radiographic characteristics of the disease appear as early as seven days after birth and that an unexpected transitory metaphyseal radio-opacity occurs in the long bones of the Hyp mice. Hyperostotic osteomalacia appears at the first week, peaks at the third week, and starts to fade by the fourth week. Undecalcified bone sections of three-week-old mice revealed an increased amount of trabecular bone in the metaphysis of the Hyp mice accounting for the increased radio-opacity. Blood chemistry data in three-week-old mice showed a low plasma phosphate, a slight hypocalcemia and elevated
alkaline phosphatase
. Three-week-old Hyp mice had a reduced percentage of magnesium in their bone
ash
compared to normal. The blood chemistry data resembled those of adult Hyp mice and did not explain the increased metaphyseal bone mass. The mechanism underlying this genetic abnormality of bone is unclear.
...
PMID:Increased metaphyseal bone mass in the young X-linked hypophosphatemic (Hyp) mouse. 733 40
Two trials were conducted to determine the effect of lactose on performance, bone integrity and certain blood constituents in postweaning rats and swine. The effect of lactose on calcium and phosphorus and percentage
ash
content of the small intestine was also determined. In both trials, average daily gains were not influenced by the feeding of diets containing 30% lactose. Feed conversion was depressed in both rats and pigs when 30% lactose was fed. Transitory diarrhea was observed in rats fed 30% lactose, but not in swine. In the rat trial, no significant differences due to treatment were observed for serum Ca of P, but a linear increase (P < .01) in
alkaline phosphatase
was observed as lactose increased in the diet. Analysis of blood constituents from multiple bleedings during the pig trial showed that in the first 2 weeks,
alkaline phosphatase
was increased (P < .01) in pigs fed lactose and slightly decreased in those not fed lactose. Lactose affected the change in serum Ca for 0 to 10 weeks (P < .05) as indicated by a marked reduction in serum Ca of pigs not fed lactose and a slight increase for those fed lactoss. Serum calcium decreased in the absence of lactose but increased in the presence of lactose (P < .05) in pigs fed .4% Ca diets. In both trials, breaking strength parameters (peak force and stress) were not affected by dietary lactose. Bones from pigs fed no lactose had a higher stress to strain ratio (P < .05) than those from pigs fed lactose. In the rat trial, stress to strain ratio was variable across all treatments. Percentage of bone
ash
increased (P < .01) as lactose increased in the diet. Dietary treatments did not affect the mineral content of specific gut segments.
...
PMID:Effect of dietary lactose on gain, feed conversion, blood, bone and intestinal parameters in postweaning rats and swine. 741 Feb 80
Rats with hereditary defects in ascorbic acid (AsA) synthesis (ODS rats) subjected to AsA-deficiency for 3 weeks showed reductions of plasma
alkaline phosphatase
and dry and
ash
weights of the tibia, but no body weight alteration. In accordance with the chemical changes, bone loss and decrease of bone formation by AsA deficiency but not by malnutrition were observed in contact microradiographs of the tibia and by a tetracycline double labeling technique, respectively. The mechanical properties of femora measured by a three point-bending procedure were also altered by AsA deficiency for 3 weeks and showed decreases of 59% in toughness, 32% in strength, 32% in ductility and 22% in stiffness. The biomechanical changes by AsA deficiency were greater than the chemical changes in bone, indicating the usefulness of measuring mechanical properties as a sensitive method for the evaluation of the bone status. The second moment of the area of the femur was not changed by AsA deficiency. These results suggest that AsA deficiency in ODS rats causes marked bone loss and reduction in bone formation, which is accompanied by a greater reduction in biomechanics of the femur without causing macroarchitectural changes.
...
PMID:Alteration of bone status with ascorbic acid deficiency in ODS (osteogenic disorder Shionogi) rats. 747 48
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