Deep-sea water supplementation and swimming exercise improves bone metabolism in growing rats fed a high-fat diet

This study was examined the effects of deepsea water (DSW) supplementation and swimming exercise on bone metabolism in growing male rats. Thirty-two Sprague-Dawley male rats, 6 weeks of age, were randomly divided into high-fat diet sedentary (HS, n=8) or exercised group (HE, n=8) and DSW supplemented sedentary (DS, n=8) or exercised group (DE, n=8), given a high fat diet to all groups for 8 weeks. In the results, serum osteocalcin level of the DS was significantly lower than that of the HS (p<0.01). In addition, femoral bone mineral density (BMD), tibial bone mineral content (BMC), and breaking force of the DS were significantly higher than that of the HS (p<0.05). Furthermore, femoral BMD and tibial weight of DE were significantly higher than that of the HE (p<0.05). These results suggest that drinking deep-sea water and exercise has a crucial role for prevent osteoporosis and increase peak bone mass in growing male rats.     

Goat milk during iron repletion improves bone turnover impaired by severe iron deficiency

The effect of goat or cow milk-based diets, with either normal Fe content or an Fe overload, on bone turnover and the mineralization process was studied in control and anemic rats during chronic Fe repletion. One hundred eighty male Wistar rats were studied during a pre-experimental period of 40 d in which they were randomly divided into 2 groups, a control group receiving the AIN-93G diet with normal Fe content (45 mg/kg of diet) and the Fe-deficient group receiving the AIN-93G diet with low Fe content (5 mg/kg of diet) for 40 d. After the pre-experimental period, the rats were fed for 10, 30, or 50 d with goat or cow milk-based diets with a normal Fe content (45 mg/kg of diet) or an Fe overload (450 mg/kg of diet). In anemic rats, goat milk with normal Fe content increased levels of the biomarker of bone formation N-terminal propeptides of type I procollagen and diminished parathyroid hormone levels after only 10 d of supplying this diet, indicating the beginning of restoration of the bone demineralization induced by the anemia, which was not observed with cow milk. After 30 d of supplying the milk-based diets with normal Fe content or an Fe overload, biomarkers of bone formation and bone resorption were not different between control and anemic rats, indicating that the bone demineralization induced by the Fe-deficiency anemia had recovered, although the process of stabilization of bone turnover began earlier in the animals fed goat milk. In addition, a higher Ca deposit was observed in femur, which positively affects bone mineralization, as well as an increase of Fe in sternum, which indicates that the hematopoietic process essentially recovered earlier on the goat milk diet compared with the cow milk diet.     

市售商品补钙制剂的补钙效果观察

本文以大鼠为模型，研究不同化学形式钙以及市售数种钙剂的补钙效果。１．不同化学形式钙的补钙效果：选用三周龄断乳Ｗｉｓｔａｒ大鼠５６只，雌雄各半，喂饲３周缺钙饲料后，按体重随机把大鼠分成４组，即缺钙饲料、补充碳酸钙、活性钙或乳酸钙饲料（３０００ｍｇＣａ／ｋｇ），实验期为１２周。２．市售补钙制剂的补钙效果：选用动物及实验期同实验１，动物数为８４只，按体重随机把大鼠分成７组，即缺钙饲料组，其它６组为补充碳酸钙、钙尔奇－Ｄ、盖天力、活性钙、壮骨宝、巨人补钙饲料（３０００ｍｇＣａ／ｋｇ）。补钙各组大鼠终体重和身长均非常显著高于对照组。补充不同化学形式钙或商品钙制剂组的血浆、红细胞和肝脏中钙含量均显著高于缺钙对照组，补钙各组间无显著差异。多数钙制剂对雄性肾脏钙存留的影响不显著，只有盖天力显著增加雄性肾脏钙存留；补钙对雌性肾脏钙存留的影响非常显著。补充的三种化学形式钙和商品钙剂均显著增加骨矿物质含量，但是碳酸钙和乳酸钙的效果优于活性钙，巨人补钙和活性钙的效果似不如其它钙制剂。按效果价格比，目前碳酸钙仍是最好的钙源。     

The effect of formulated goats' milk on calcium bioavailability in male growing rats

BACKGROUND: There are two main proteins in milk; whey and casein. Casein contains casein phosphopeptides (CPP), which are released on digestion of the milk. These may increase calcium solubility by binding calcium in the small intestine. Thus increasing casein in the diet may help to stimulate bioavailability of calcium and increase bone density. The present study tested this hypothesis in growing male rats fed diets containing three different concentrations of casein from goat milk. RESULTS: Rats fed the diet containing no casein had significantly lower calcium absorption when compared to rats fed the diets that contained 80% and 57% of goat milk protein as casein; however, no significant difference was observed between rats fed diets with 80% and 57% casein. The varying amounts of casein had no effect on mineral uptake or retention in the femur. Biomechanical testing and mineral analysis of the femurs showed no differences between diet groups. The mechanism to explain this lack of retention remains unclear. CONCLUSION: The diets containing 80% and 57% of goat milk protein as casein delivered increased calcium absorption compared to the diet containing no casein, suggesting a minimum level of casein is needed to optimize calcium absorption from goat milk. Copyright © 2009 Society of Chemical Industry     

Study of nutritive utilization of protein and magnesium in rats with resection of the distal small intestine. Beneficial effect of goat milk

The search for diets to improve the nutritive utilization of protein and magnesium in malabsorption syndrome led us to study goat milk, because of its particular nutritional characteristics, and to compare it with cow milk, which is most commonly consumed. We studied the nutritive utilization of protein and magnesium in transected rats (control) and in rats with resection of 50% of the distal small intestine. The diets used were the standard diet recommended by the American Institute of Nutrition and diets based on lyophilized goat or cow milk. The consumption of goat milk produces better protein efficiency ratio and food conversion efficiency values, particularly in rats with intestinal resection, together with a higher nutritive utilization of protein. Magnesium apparent digestibility coefficient is not modified by intestinal resection in rats fed with goat milk-based diet, on the contrary to the standard and cow milk diets. Magnesium apparent digestibility coefficient is greater for the goat milk group, which is reflected in the greater quantity of this mineral stored in bone. These results demonstrate the beneficial effect of goat milk on the nutritive utilization of protein and on magnesium bioavailability, especially in animals with resection of the distal small intestine.     

山羊乳及其制品营养与功能特性的研究进展

山羊乳及相关制品由于丰富的营养价值和良好的健康功效受到越来越多消费者的关注。山羊乳属于一种资源稀缺型特种乳,与牛乳相比,其干物质含量较高、易消化,且致敏性较低,还是多种生物活性成分的良好来源。因此,山羊乳可用于加工制作适合各种人群的保健性能产品,也可作为益生元和益生菌等功能成分的载体。本文就山羊乳营养成分、功能特性以及加工处理等研究领域的前沿成果进行综述,着重介绍山羊乳相关制品预防与缓解多种疾病的作用与机制,为山羊乳高值化产品的开发提供参考。     

Mineral retention in three-week-old piglets fed goat and cow milk infant formulas

Goat milk and cow milk are commonly used in infant formula preparations and, as such, understanding the nutritional characteristics of infant formulas made from these milks is important. In this study, a goat milk infant formula was compared with an adapted (whey-enhanced) cow milk infant formula with respect to mineral absorption and deposition using the 3-wk-old piglet as a model for the 3-mo-old infant. Equal numbers of piglets (n = 8) were fed either the goat milk formula or the cow milk formula. The mineral composition of the prepared goat milk formula was higher than that of the prepared cow milk formula for most minerals, including calcium (75.1 vs. 56.7 mg/100 mL) but excluding iron, which was higher in the prepared cow milk formula (0.92 vs. 0.74 mg/100 mL). The amounts of calcium, phosphorus, and manganese absorbed by the piglets were significantly higher for the goat milk formula, whereas the amounts of zinc, iron, and magnesium absorbed were significantly higher for the cow milk formula. Apparent mineral absorption, relative to intake, was statistically higher in the cow milk formula for calcium and phosphorus, although the actual differences were very small (less than 1.3%). For copper, zinc, iron, and magnesium there was no significant difference between treatments in apparent mineral absorption, whereas for manganese, absorption was higher for the goat milk infant formula. The absolute mineral deposition was higher in piglets fed the goat milk formula for calcium, phosphorus, and manganese, whereas iron deposition was higher in the piglets fed cow milk formula. For all other minerals tested, there were no significant differences between treatments. The goat milk infant formula provided a pattern of mineral retention in the 3-wk-old piglet very similar to that of the adapted cow milk infant formula. The minor differences observed between the 2 appeared to be due to the different mineral contents of the 2 formulas.     

A comparison between acidic and basic protein fractions from whey or milk for reduction of bone loss in the ovariectomised rat

The ability of whey acidic protein fractions to protect against bone loss due to ovariectomy (OVX) in the mature female rat was investigated. The bone bioactivity of these acidic protein fractions, isolated from both mineral acid whey protein concentrate (WPC) and rennet WPC, was compared with that of basic protein fractions isolated from both milk and rennet WPC. Fifty 6-month old rats that had been ovariectomised at 5.5 months were randomised into five groups of ten each. One group remained the OVX control while four groups were each fed one of the acidic or basic protein fractions as 0.3% (w/w) of the diet, for 4 months. Ten sham-operated rats served as a second control group. Sequential measurements of bone mineral density of the spine and femur indicated that the acidic protein fraction prepared from mineral acid WPC reduced bone loss due to OVX, maintaining bone density above OVX levels at week 16 of feeding. Biomechanical data indicated that both acidic fractions tended to increase bone stiffness, and hence resistance against breaking.     

Effects of nanopowdered eggshell on postmenopausal osteoporosis: a rat study

The preventive effects of nanopowdered eggshell (NPES) on postmenopausal osteoporosis in ovariectomized rats was studied. Rats fed NPES and powdered eggshell (PES) exhibited 6.6 and 2.2% greater bone mineral densities (BMD) than ovariectomized (OVX) rats. NPES administration resulted in greater bone stiffness than PES. Investigation of the trabecular bone in NPES fed rats revealed a 12.4% higher bone volume (BV/TV), 7.5% higher trabecular number (Tb.N.), and 14.5% lower trabecular separation (Tb.Sp.), compared with OVX rats. Serum analysis demonstrated that NPES fed rats showed a significantly (p<0.05) higher (22.4%) osteocalcin level than OVX rats. Urine analyses in NPES fed rats revealed 43.7% lower deoxypyridinoline (DPD) and 87% lower Nteleopeptide levels of type I collagen (NTX) than in OVX rats. NPES attenuated the bone loss induced by ovariectomy in rats.     

Calcium-enriched goats' milk aids recovery of iron status better than calcium-enriched cows' milk, in rats with nutritional ferropenic anaemia

Ca-Fe interactions are known, but no studies are available about the effects of Ca-enriched goat or cow milk on Fe status in nutritional ferropenic anaemia (NFA). To examine this matter, control and Fe-deficient rats were fed for 14 d with goat or cow milk diets containing either normal or high Ca content (5000 or 10,000 mg/kg diet), and different indices and parameters related to iron status were measured. The apparent digestibility coefficient (ADC) and the Fe retention/intake (R/I) ratio were higher in control and anaemic rats fed goat milk diet (G diet), despite high-Ca content. Ca enrichment decreased Fe stores in liver and sternum in anaemic rats fed cow milk diet (C diet), however G diet did not modify Fe content in the organs studied in control and anaemic rats. In anaemic rats, Ca-supplementation decreased haematocrit, but platelets and serum Fe were not affected, however, in control rats platelets increased except for Ca-enriched G diet, this fact reveals that Ca-Fe interaction is minimized with G diet. Serum ferritin was always higher in rats fed G vs. C diet, both in control and anaemic rats fed either normal or Ca-enriched diets. Ca-supplementation decreased ferritin levels in control and anaemic rats fed C diet and also, though to a lesser extent, in those given the G diet. This indicates that with this G diet there is a better recovery of body Fe stores in anaemic rats, despite Ca-supplementation. In this study it is noteworthy that despite high Ca content, a goat milk diet resulted in minimal Ca-Fe interactions and did not adversely affect Fe status in rats with NFA.     

大豆异黄酮加钙复合剂对卵巢切除大鼠骨密度和骨钙含量的影响

利用卵巢切除大鼠模型 ,研究大豆异黄酮 +钙复合剂对骨密度和骨钙含量的影响。卵巢切除大鼠分为 3个剂量组 ,分别灌胃给予 6 7mg kgBW 大豆异黄酮 +16 7mg kgBW 钙 (低剂量组 )、13 3mg kgBW 大豆异黄酮 +33 3mg kg BW 钙 (中剂量组 )和 4 0 0mg kg BW 大豆异黄酮 +10 0 0mg kgBW钙 (高剂量组 ) ,同时设阴性对照组和假手术组。 12周后测定股骨骨密度 (MBD)、骨矿含量(BMC)和骨钙含量。结果发现假手术组、中剂量组和高剂量组大鼠股骨干骺端BMD、BMC和股骨钙含量显著高于阴性对照组 (P <0 0 5 ) ,表明大豆异黄酮 +钙复合剂能增加卵巢切除大鼠的骨密度 ,对雌激素缺乏所诱发的骨丢失具有抑制作用。     

Beneficial effect of goat milk on nutritive utilization of iron and copper in malabsorption syndrome

The search for diets that improve the digestive and metabolic use of iron and copper in malabsorption syndrome led us to study goat milk for particular nutritional characteristics and compare it with cow milk, which is usually supplied. We studied the metabolism of iron and copper in transected rats (control) and in resected rats (resection of 50% of the distal small intestine). The diets used were the standard diet recommended by the American Institute of Nutrition and diets based on goat or cow milk. Intestinal resection reduced the apparent digestibility coefficient (ADC) of iron in the three diets tested. In the transected and resected rats, the ADC of iron was highest with the goat milk diet, followed by the standard diet and lowest with the cow milk diet. The ADC of copper was not affected by intestinal resection in the animals fed the goat milk diet, and was higher than that in the two groups of animals fed the other diets. Intestinal resection reduced the ADC of copper with the standard diet and the cow milk diet. When both groups of animals were fed the goat milk diet, the deposit of iron in the organs was greater than with those fed the cow milk diet and similar to that in those animals given the standard diet. The copper content in the kidneys was lower in the resected than in the transected animals, except in the case of those fed the goat milk diet, in which it was similar to that of the control (transected) rats. This study shows the beneficial effect of goat milk, with respect to cow milk, on the metabolism of iron and copper in control rats, especially those with malabsorption syndrome.     

Calcium-supplemented goat milk does not interfere with iron absorption in rats with anaemia induced by dietary iron depletion

The short-term effects of Ca-supplemented goat or cow milk on the nutritive utilization of Fe were evaluated in a metabolic balance study of rats with nutritional ferropenic anaemia (NFA). Control and Fe-deficient rats were fed for 14 d with goat or cow milk diets containing high-Ca content (10,000 mg/kg diet). The consumption of diets containing high levels of Ca for 14 d had no adverse effects on Fe absorption when the goat milk-based diet was provided, whereas for the cow milk-based diet, there was a significant fall in the apparent digestibility coefficient (ADC) of Fe. Moreover, the ADC and Fe retention/intake ratio (R/I) were higher in the anaemic rats fed the goat milk diet than among those fed the cow milk diet. These results suggest that despite a high dietary Ca content, goat milk minimizes Ca–Fe interactions and has no adverse effects on Fe absorption in rats with NFA.     

Effects of Lactobacillus helveticus TUST005 fermented milk on bone parameters in rats

The effects on bone parameters were investigated using ovariectomized rats and their control ones fed with water, skim milk, sour milk, Lactobacillus helveticus TUST005 fermented milk and whey filtrate of the L. helveticus TUST005 fermented milk for 10-week interventions, respectively. Our results indicated that the ovariectomized rats are considered a suitable model for osteoporosis. The L. helveticus TUST005 fermented milk significantly increased bone mineral density, bone mineral content, the maximal load of bone and decreased bone loss compared to sour milk, and whey filtrate of the L. helveticus TUST005 fermented milk has a higher influence on bone than the fermented milk.     

Invited review: Dairy intake and bone health: a viewpoint from the state of the art

The aim of this review was to focus on the complex relationships between milk and dairy products intake and bone health, with particular emphasis on osteoporosis. The literature was extensively examined to provide an objective overview of the most significant achievements on the subject. Osteoporosis can be defined as a disease characterized by low bone mass and microarchitectural deterioration of bone tissue, leading to enhanced bone fragility and a consequent increase in fracture risk. Although the major determinants of peak bone mass and strength are genetic, major factors during childhood and adolescence may affect the ability to achieve peak bone mass. These include nutrition, particularly calcium and protein intake, physical activity, endocrine status, as well as exposure to a wide variety of risk factors. The role of calcium intake in determining bone mineral mass is well recognized to be the most critical nutritional factor to achieve optimal peak bone mass. The greatest amount of dietary calcium is obtained from milk and dairy foods, which also provide the human diet with vitamin D (particularly for products fortified with vitamin D), potassium, and other macro- and micronutrients. Although studies supporting the beneficial effects of milk or calcium on bone health are predominant in the literature, perplexity or discordance on this subject was expressed by some authors. Discordant data, mainly on the risk of fractures, provided limited proof of the unfavorable effect of dairy intake. More often, discordant works indicate no effect of dairy consumption on bone safety. Some considerations can be drawn from this viewpoint. Milk and dairy products are an optimal source of calcium as well as of other limiting nutrients (e.g., potassium and magnesium), with important effects on bone health. Bioactive components occurring in milk and dairy products may play an essential role on bone metabolism, as shown by in vivo and in vitro studies on colostrum acidic proteins and milk basic proteins. Calcium intake positively affects bone mass and is crucial in childhood and youth for correct bone development. In elderly people, calcium intake as well as vitamin D availability should be carefully checked. As a general conclusion, calcium is essential for bone health, although it will not prevent bone loss due to other factors; in this context, milk and dairy foods are bioavailable, relatively inexpensive sources of calcium for the human diet.     

Influence of nano-size reduction on absorption and bioavailability of calcium from fortified milk powder in rats

The present study aimed to investigate the effects of fortification and nano-size reduction on absorption and bioavailability of calcium from the fortified milk in ovariectomized (OVX) and OVX-osteoporosis rats. The main goal was to determine the effect of daily consumption of experimental diets on serum calcium, feces calcium, bone calcium, bone breaking strength and bone morphology among rats. This study was conducted to optimize the preparation of nano-fortified milk powder. Then, the calcium bioavailability in 64 female OVX rats and OVX-osteoporosis rats was investigated. The results revealed that bone breaking strength (maximum load) and bone calcium increased with consumption of nano-fortified diet compared with fortified diet. The same observations were seen for bone morphology. OVX rats exhibited higher calcium bioavailability and absorption than OVX-osteoporosis rats with regard to fortified and nano-fortified diets. The amount of calcium absorption from fortified and nano-fortified milk powders in OVX rats was 63.54% and 89.06%, respectively. The bioavailability of calcium from fortified and nano-fortified milk powders in OVX rats was 24.64% and 41.65%, respectively. Moreover, the calcium bioavailability (%) from fortified and nano-fortified milk powders in OVX-osteoporosis rats was 9.74% and 30.17%, respectively. In OVX-osteoporosis group, the absorption levels of calcium from the same experimental diets were 60.54% and 89.09%, respectively.     

Effects of <Emphasis Type="Italic">cheonggukjang</Emphasis> containing arrowroot isoflavones on bone metabolism in ovariectomized rats

The effects of dietary supplementation with cheonggukjang containing arrowroot isoflavones (AIC) on bone mineral density and bone metabolism were investigated in 6-week old ovariectomized Sprague-Dawley rats divided into 4 groups: sham (sham-operation and basal diet), OVX (ovariectomy and basal diet), OVX+C (ovariectomy and basal diet with 5% cheonggukjang), and OVX+AIC (ovariectomy and basal diet with 5% AIC). Eight weeks following ovariectomy, body weight gain, and serum alkaline phosphatase activities were significantly reduced in OVX+C and OVX+AIC. Serum osteocalcin levels were significantly lower in OVX+AIC. Although urinary calcium, phosphorus, and creatinine levels increased after ovariectomy, they decreased in OVX+AIC. Bone mineral densities decreased in OVX but significantly enhanced after C and AIC supplementation. Bone mineral content did not significantly differ between OVX+AIC and sham. Thus, these results suggest that AIC may prevent bone loss in OVX rats.     

Effect of calcium-supplemented goat or cow milk on zinc status in rats with nutritional ferropenic anaemia

The effects of goat- or cow-milk-based diets, whether normal or supplemented with calcium (5 or 10 g kg^?1 Ca, respectively), on the nutritive utilization of Zn and its deposition in organs, were evaluated in rats with and without nutritional ferropenic anaemia (NFA). The digestive and metabolic utilization of Zn in anaemic and control groups was higher for rats on the goat milk diet than those on the cow milk diet. The most noteworthy result is that Ca supplementation in the diet improved Zn metabolism in all experimental groups, but especially in anaemic rats fed the goat milk diet. This fact is reflected in the higher levels of Zn deposition found with the goat milk diet. It appears that goat milk, especially when supplemented with Ca, had beneficial effects on nutritive utilization of Zn and Zn deposition in target organs in both control rats and, especially, rats with NFA.     

Dual-energy X-ray absorptiometry of the pig: Protocol development and evaluation

As part of a prospective study in bone mineralisation in adult pigs it was necessary to establish guidelines and to define sites for bone mineral measurements. Particular requirements were that, the protocol should be suitable for a mass screening programme in both postmortem specimens and in live animals, and should deliver results of known reliability. Estimates of bone mineral content (BMC) and bone mineral density (BMD) in areas within the 4th metacarpal bone yielded coefficients of variation (CV) in the order of 7% for both regions and estimates in regions which included the entire metacarpal-phalangeal area yielded CV values in the order of 0.7% and 0.6% for BMC and BMD, respectively. A region of interest taken from the coccygeal vertebrae yielded coefficient of variation values of 3% and 2% for BMC and BMD, respectively. Accuracy of dual-energy X-ray absorptiometry (DXA) was estimated using a standard curve derived from BMC determined by ashing. There was a high correlation between mineral content determined by DXA and by ashing (R(2)=0.99, p<0.0001). The results suggest that the regions used in this study are suitable for use in large, mass screening, prospective studies.     

Influence of anionic salts on bone metabolism in periparturient dairy goats and sheep

The purpose of the present study was to investigate the influence of diets supplemented with anionic salts on bone metabolism of dairy goats and sheep. Twelve Saanen goats and 12 Ostfrisean milk sheep (fourth lactation) were divided into 2 groups each [sheep control (SC), goat control (GC); sheep anionic salts (SA), goat anionic salts (GA)]. Each group was fed a different diet in the last 10 d of gestation. Groups SC and GC received a normal diet according to the requirements of goats and sheep in this stage of gestation. Groups SA and GA received supplemental anionic salts. The dietary cation-anion difference (DCAD) was +524 (SC) and +515 (GC) vs. −163 (SA) and −164 (GA) mEq/kg of dry matter. Blood and urine samples were collected daily until parturition. Serum Ca, P, Mg, serum crosslaps (CTX), osteocalcin, 1,25-dihydroxy-vitamin D (VITD), urinary pH, and urinary Ca concentrations were analyzed. Bone mineral density and bone mineral content were measured with peripheral quantitative computer tomography. The bone resorption marker CTX showed significant differences between the animals supplemented with anionic salts and the control animals in goats, but not in sheep. The goats receiving anionic salts had greater CTX concentrations throughout the administration of the salts. In sheep, a difference was only observed on the day of parturition. Similar observations were made in VITD concentrations, although a significant difference between the goat groups was only observed 3 d prepartum. The bone formation marker osteocalcin was lower prepartum in the animals supplemented with anionic salts. The urinary pH was lower in the SA and GA animals, whereas urinary Ca concentrations were greater. Bone mineral content and bone mineral density decreased in all groups around parturition. In conclusion, this experiment showed that the addition of anionic salts in goats led to greater bone resorption rates while on this feeding regimen. It can be concluded that the anionic salts induced a mild metabolic acidosis with all its effects on calcium metabolism. These effects were not evident in milk sheep.