Catia
Well-Known Member
Please check out the food threads--as far as I understand--you should *NEVER* give any calcium supplement to a giant breed pup--Even if the suppliment has a 'low' calcium level--that is the worst thing you can do--there is a ratio for calcium to phosphorus--this isn't something I'm pulling out of my hat--there is a TON of research-with the primary focus being great danes.
If nothing else, if you don't want to read the research, please please please do NOT give your pooch any more suppliments with ANY amount of calcium.
***it can take 10 weeks for the calcium ratios to return to somewhat normal levels after a large or giant breed pup has too much calcium***
it is not an overnight process
You are at a point where you can reverse too much calcium, please understrand my pushiness in this--I have had dogs with hip/joint issues-anything you can do to avoid hip/joint issues is one of the most important things for the quality of life for your pooch.
aside from our forum having a ton of info in the food section on this site--here are additional links
Hormonal regulation of calcium homeostasis in two breeds of dogs during growth at different rates this one is the most in depth, & at the bottom you have access to every study cited
http://www.greatdanelady.com/articles/calcium_do_i_supplement.htm
https://www.msu.edu/~silvar/hips.htm
Excerpt:
"
Calcium
Plasma calcium concentration is tightly regulated by the body. This regulation is needed for the many calcium-dependent biologic processes, such as muscle contraction, hormonal release, and blood coagulation. The release of calcium-regulating hormones (parathyroid hormone [PTH], calcitonin [CT], and 1,25- dihydroxycholecalciferol [1,25 vitamin D]) is influenced by plasma calcium concentration. These hormones regulate calcium dynamics in the intestine, kidneys, and bone.
Calcium excess is routed primarily to bone through the influence of the calciotropic hormones on target organs. Chronic, high intake of calcium in large breeds has been associated with hypercalcemia, concomitant hypophosphatemia, rise in serum alkaline phosphatase, retarded bone maturation, higher percentage of total bone volume, retarded bone remodeling, decrease in osteoclasts, and retarded maturation of cartilage. These changes cause disturbances in endochondral ossification (articular and epiphyseal).(6) When high calcium intake (calcium excess) is coupled with relatively little absorption from bone, severe pathologic changes occur in the young, growing skeleton that is unable to respond by normal remodeling and endochondral ossification. The clinical diseases associated with these changes are osteochondrosis, retained cartilage cones, radius curvus syndrome, and stunted growth.(1,6) Therefore, calcium excess is a major causative or contributing factor in the pathogenesis of skeletal disease in the growing giant-breed dog.(3-6)
It is the absolute level of calcium, rather than the calcium/phosphorus ratio, that most influences skeletal disease.(11) Young, giant-breed dogs fed a diet containing 3.3% calcium (dry matter basis) and 0.9% or 3% phosphorus have significantly increased incidence of developmental bone disease. These dogs seem to be unable to protect themselves against the negative effects of chronic excess levels of calcium.(26) Calcium levels for a growth diet should be between 1% and 1.6% (dry matter basis). Often puppies are switched from growth to maintenance diets to avoid calcium excess and skeletal disease. However, because maintenance diets are generally of much lower energy density than growth diets, the puppy must consume more dry matter volume to meet its energy requirement. If the calcium levels (dry matter basis) are similar between the two diets, the puppy will actually consume more calcium on the maintenance diet. This is exemplified in the case of switching a 13-week-old Great Dane puppy from a typical growth diet (4.2 kcal/g and 1.6% calcium on a dry matter basis) to a typical maintenance diet (3.2 kcal/g and 1.4% calcium on a dry matter basis). The puppy would consume approximately 638 g of the growth diet containing 10.2 g calcium. To meet energy needs of 2680 kcal/day, this same puppy would consume approximately 838 g of the maintenance diet containing 11.7 g of calcium.
Feeding treats containing calcium or providing calcium supplements further increases daily calcium intake. If the same 13- week-old, 20 kg Great Dane puppy were given two level teaspoons of a typical calcium supplement (calcium carbonate) in addition to the growth diet, it would more than double its daily calcium intake. This level is well beyond that shown to increase the risk for developmental bone disease.(11)
Recent investigations produced osteochondrosis in the fetuses of ewes fed high levels of dietary calcium.(24) Because of the rapid growth rate of giant-breed dogs, they become "sentinels" for nutritionally influenced skeletal disease such as is seen with excesses in dietary calcium. Similar changes may be slower to surface and are not as easily identified in the smaller breeds. Regardless of the risks of high calcium intake, dietary calcium is a highly influential nutrient for skeletal development."
If nothing else, if you don't want to read the research, please please please do NOT give your pooch any more suppliments with ANY amount of calcium.
***it can take 10 weeks for the calcium ratios to return to somewhat normal levels after a large or giant breed pup has too much calcium***
it is not an overnight process
You are at a point where you can reverse too much calcium, please understrand my pushiness in this--I have had dogs with hip/joint issues-anything you can do to avoid hip/joint issues is one of the most important things for the quality of life for your pooch.
aside from our forum having a ton of info in the food section on this site--here are additional links
Hormonal regulation of calcium homeostasis in two breeds of dogs during growth at different rates this one is the most in depth, & at the bottom you have access to every study cited
http://www.greatdanelady.com/articles/calcium_do_i_supplement.htm
https://www.msu.edu/~silvar/hips.htm
Excerpt:
"
Calcium
Plasma calcium concentration is tightly regulated by the body. This regulation is needed for the many calcium-dependent biologic processes, such as muscle contraction, hormonal release, and blood coagulation. The release of calcium-regulating hormones (parathyroid hormone [PTH], calcitonin [CT], and 1,25- dihydroxycholecalciferol [1,25 vitamin D]) is influenced by plasma calcium concentration. These hormones regulate calcium dynamics in the intestine, kidneys, and bone.
Calcium excess is routed primarily to bone through the influence of the calciotropic hormones on target organs. Chronic, high intake of calcium in large breeds has been associated with hypercalcemia, concomitant hypophosphatemia, rise in serum alkaline phosphatase, retarded bone maturation, higher percentage of total bone volume, retarded bone remodeling, decrease in osteoclasts, and retarded maturation of cartilage. These changes cause disturbances in endochondral ossification (articular and epiphyseal).(6) When high calcium intake (calcium excess) is coupled with relatively little absorption from bone, severe pathologic changes occur in the young, growing skeleton that is unable to respond by normal remodeling and endochondral ossification. The clinical diseases associated with these changes are osteochondrosis, retained cartilage cones, radius curvus syndrome, and stunted growth.(1,6) Therefore, calcium excess is a major causative or contributing factor in the pathogenesis of skeletal disease in the growing giant-breed dog.(3-6)
It is the absolute level of calcium, rather than the calcium/phosphorus ratio, that most influences skeletal disease.(11) Young, giant-breed dogs fed a diet containing 3.3% calcium (dry matter basis) and 0.9% or 3% phosphorus have significantly increased incidence of developmental bone disease. These dogs seem to be unable to protect themselves against the negative effects of chronic excess levels of calcium.(26) Calcium levels for a growth diet should be between 1% and 1.6% (dry matter basis). Often puppies are switched from growth to maintenance diets to avoid calcium excess and skeletal disease. However, because maintenance diets are generally of much lower energy density than growth diets, the puppy must consume more dry matter volume to meet its energy requirement. If the calcium levels (dry matter basis) are similar between the two diets, the puppy will actually consume more calcium on the maintenance diet. This is exemplified in the case of switching a 13-week-old Great Dane puppy from a typical growth diet (4.2 kcal/g and 1.6% calcium on a dry matter basis) to a typical maintenance diet (3.2 kcal/g and 1.4% calcium on a dry matter basis). The puppy would consume approximately 638 g of the growth diet containing 10.2 g calcium. To meet energy needs of 2680 kcal/day, this same puppy would consume approximately 838 g of the maintenance diet containing 11.7 g of calcium.
Feeding treats containing calcium or providing calcium supplements further increases daily calcium intake. If the same 13- week-old, 20 kg Great Dane puppy were given two level teaspoons of a typical calcium supplement (calcium carbonate) in addition to the growth diet, it would more than double its daily calcium intake. This level is well beyond that shown to increase the risk for developmental bone disease.(11)
Recent investigations produced osteochondrosis in the fetuses of ewes fed high levels of dietary calcium.(24) Because of the rapid growth rate of giant-breed dogs, they become "sentinels" for nutritionally influenced skeletal disease such as is seen with excesses in dietary calcium. Similar changes may be slower to surface and are not as easily identified in the smaller breeds. Regardless of the risks of high calcium intake, dietary calcium is a highly influential nutrient for skeletal development."