US20100279920A1 - Critical care product for neonatal calves - Google Patents
Critical care product for neonatal calves Download PDFInfo
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- US20100279920A1 US20100279920A1 US12/838,722 US83872210A US2010279920A1 US 20100279920 A1 US20100279920 A1 US 20100279920A1 US 83872210 A US83872210 A US 83872210A US 2010279920 A1 US2010279920 A1 US 2010279920A1
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- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23K—FODDER
- A23K50/00—Feeding-stuffs specially adapted for particular animals
- A23K50/60—Feeding-stuffs specially adapted for particular animals for weanlings
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- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23K—FODDER
- A23K20/00—Accessory food factors for animal feeding-stuffs
- A23K20/10—Organic substances
- A23K20/163—Sugars; Polysaccharides
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- A—HUMAN NECESSITIES
- A23—FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
- A23K—FODDER
- A23K20/00—Accessory food factors for animal feeding-stuffs
- A23K20/20—Inorganic substances, e.g. oligoelements
- A23K20/22—Compounds of alkali metals
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61P—SPECIFIC THERAPEUTIC ACTIVITY OF CHEMICAL COMPOUNDS OR MEDICINAL PREPARATIONS
- A61P43/00—Drugs for specific purposes, not provided for in groups A61P1/00-A61P41/00
Definitions
- This invention relates to calf raising and more particularly to a milk replacer and electrolyte for herd replacement calves.
- This invention deals specifically with the problem of dehydration of neonatal calves which can occur during transportation or in the course of scouring (diarrhea).
- Management of the calf that is scouring with bacterial enteritis is a major challenge.
- Previous management strategies have recommended removing milk from the scouring calf and feeding electrolytes. The logic was based on field observations that fecal output and fluid losses were reduced when the milk was removed.
- milk replacer should continue to be fed with 2-4 doses of electrolytes to provide enough energy and protein to maintain some level of growth.
- milk or MR should be removed and only electrolytes fed. Removing the milk or MR removes the lactose that feeds the bacteria and draws fluids into the gut, making scouring worse. Milk and MR also provide fat which may not be digested well in a scouring calf.
- An objective of this product is to provide a source of nutrients to a calf
- the Critical Care® product which is a milk replacer and electrolyte for bovine mammals and more particularly, herd replacement calves.
- the Critical Care® product is designed to be a complete source of nutrients and electrolytes for dehydrated calves less than three months of age and being fed a diet that is predominately milk or milk replacer.
- the Critical Care® product is for use on calves which have been dehydrated through, for example, stress of transportation and upon arrival at their destination.
- a preferred dosage for a single arriving calf in a newly dehydrated state is about 0.45 to 0.55 pounds of the Critical Care® product diluted in a total volume of about two quarts using water at a temperature of about 100 degrees Fahrenheit (to aid in dissolving and administration) and is given by bottle, bucket or drench.
- the Critical Care® product diluted in a total volume of about two quarts using water at a temperature of about 100 degrees Fahrenheit (to aid in dissolving and administration) and is given by bottle, bucket or drench.
- the Critical Care® product can preferably be given to scouring calves in the amount of about 0.45 to 0.55 pounds diluted in a total volume of about two quarts using about 100 degree Fahrenheit water by bottle, bucket or drench. Such feeding should be done a minimum of three times during a 24 hour period, as needed, based on physical signs of dehydration and water loss.
- manure consistency becomes firm (typically within 24 hours) feeding of the Critical Care® product may be discontinued, and the calves returned to their normal feeding schedule of milk or milk replacer. If the manure consistency is still loose (watery) the procedure should be repeated for another 24 hour period. The procedure may be again repeated as required.
- the calves are removed from their milk or milk replacer during their treatment by the Critical Care® product.
- FIG. 1 is an illustration of a label for a product made in accordance with the invention.
- the Critical Care® product may have an ingredient composition and nutrient profile as set forth in Table I below.
- the ingredients listed in Table I are added to a mixer, with those ingredients comprising 10% or more being added first.
- the remaining smaller inclusion rate ingredients are added last, excluding the artificial flavor and lecithin.
- the mixer is started and the artificial flavor is added, followed by lecithin.
- the combined ingredients are packaged immediately after mixing.
- the package consists of a plastic liner filled with the product and tied with a twist-tie inside a sealed plastic pail.
- the finished package is marked with the trademark CRITICAL CARE®.
- FIG. 1 depicts a typical label.
- the Critical Care® product is rehydrated prior to being fed to calves.
- An alkalizing (i.e. bicarbonate of soda) agent is needed to correct the metabolic pH of the calf to allow efficient use of nutrients.
- Sodium (Na) and potassium (K) are needed as electrolytes to rehydrate. Na and K have been lost from the calf during dehydration.
- a source of nutrients like glucose or dextrans, is used to facilitate the transport of the Na and K from the gut into the bloodstream.
- Research in the public domain indicate that a composition of an effective electrolyte administered orally should be approximately 50 to 70% glucose and/or dextrans, 12-18% bicarbonate of soda, 5-6% total Na, and 2.5-3.0% total K. The proportions of these nutrients to each other in a product are important. The actual percent in the product is not.
- the Critical Care® product contains approximately 54.8% dextrans, 15% bicarbonate of soda, 5.5% Na, and 2.7% K.
- the Critical Care® product is designed to be a complete source of nutrients and electrolytes for dehydrated calves three months of age or less and being fed a diet that is predominately milk or milk replacer.
- calf dehydration may be brought about by the stress of transportation or by scouring.
- the Critical Care® product should be administered upon arrival of the calf at its destination. This treatment upon arrival involves feeding about 0.5 pounds of the Critical Care® product in a total volume of two quarts using 100 degree Fahrenheit water by bottle, bucket or drench. Neither milk nor milk replacer should be fed to the calf for 6 hours or until the next scheduled feeding in a two times a day feeding program.
- the calves In those cases where the dehydration results from scouring (diarrhea) the calves should not be given their milk or milk replacer for a period of 24 hours. Instead they should be fed about 0.5 pounds of the Critical Care® product diluted in a total volume of two quarts using 100 degree Fahrenheit water by bucket, bottle or drench a minimum of three times during the 24 hour period (administer one to two feedings of the Critical Care® product within the 24 hour period, if needed, based upon physical signs of dehydration and water loss. When manure consistency becomes firm (typically within 24 hours), discontinue feeding the Critical Care® product and return calves to the normal feeding schedule of milk or milk replacer.
- Dextrose and glucose commonly used energy sources in electrolytes, can also work like lactose to create a high gut osmolarity to hold Na and K in the gut and counteract Na and K absorption into the bloodstream.
- the Critical Care® product provides crude protein via a milk protein source that is virtually free of lactose and fat (whey protein concentrate 90%).
- the Critical Care® product contains limited dextrose (15%) and predominately maltodextrin (39.8%) as its sources of needed dextrans/carbohydrates. Maltodextrans have a much lower osmolarity than dextrose, glucose, and lactose.
- the Critical Care® product contains no added fat other than the limited soy oil that is a part of the lecithin needed to emulsify the product.
- the Critical Care® product contains less than about 1% lactose and less than about 1% fat.
- the three recommended doses of the Critical Care® product provide a similar amount of protein (slightly more) and energy (slightly less) as what the calf normally receives via milk.
- Feeding high lactose feeds could pull water into the gut and high fat feeds may be poorly digested in starved calves, increasing scouring.
- the assigned treatments were diluted to about 1.9 liters of volume with warm water and fed the afternoon of arrival only and were: A) 113 g of electrolyte A, B 113 g of electrolyte B, C) 226 g of a combination of electrolyte B with milk protein. Treatment A was fed only in trial 1
- Feeding treatment C on-arrival improved calf gains in the first week of all trials and improved cumulative gains for all weeks in trials 1 and 2. This was the trend for trials 3 and 4, as well. Cumulative feed efficiency was improved in weeks 5 through 8 in trials 1, 2, and 3.
- Feeding calves 3 doses of the Critical Care® product and removing their MR for 1 day resulted in similar to better performance and fewer antibiotic and electrolyte treatments than feeding 3 doses of a good quality electrolyte with MR.
Abstract
A product and method for treating dehydration in neonatal calves. The product is administered to dehydrated calves during treatment, to the exclusion of milk replacers or electrolytes.
Description
- This application is a continuation of U.S. Ser. No. 10/702,406 filed Nov. 6, 2003, which is incorporated herein by reference and made a part hereof. This application also claims priority to provisional patent application Ser. No. 60/477,827, filed Jun. 12, 2003, to which Applicants claim the benefit of the earlier filing date.
- 1. Field of the Invention
- This invention relates to calf raising and more particularly to a milk replacer and electrolyte for herd replacement calves.
- 2. Description of the Related Art
- This invention deals specifically with the problem of dehydration of neonatal calves which can occur during transportation or in the course of scouring (diarrhea). Management of the calf that is scouring with bacterial enteritis is a major challenge. Previous management strategies have recommended removing milk from the scouring calf and feeding electrolytes. The logic was based on field observations that fecal output and fluid losses were reduced when the milk was removed.
- It has been found that milk replacer (MR) should continue to be fed with 2-4 doses of electrolytes to provide enough energy and protein to maintain some level of growth. In extreme cases of calf scours, where the manure is watery with the appearance of no solids for over 24-36 hours, it has been believed that milk or MR should be removed and only electrolytes fed. Removing the milk or MR removes the lactose that feeds the bacteria and draws fluids into the gut, making scouring worse. Milk and MR also provide fat which may not be digested well in a scouring calf.
- Calves under a week of age are often dehydrated upon arrival. It has been learned that better gains in health may be achieved in calves when only electrolytes are fed on arrival, as opposed to a milk replacer, a serum, plasma or whey product in all situations. A single effective product could eliminate the need to identify the severity of scouring before determining what management approach to take in the treatment protocol on a sick calf.
- An objective of this product is to provide a source of nutrients to a calf
- a) that will effectively rehydrate,
- b) that provide for maintenance and growth, and
- c) that are not antagonistic to rehydration.
- In accordance with this invention there is provided a product, hereinafter referred to as the Critical Care® product, which is a milk replacer and electrolyte for bovine mammals and more particularly, herd replacement calves. The Critical Care® product is designed to be a complete source of nutrients and electrolytes for dehydrated calves less than three months of age and being fed a diet that is predominately milk or milk replacer. The Critical Care® product is for use on calves which have been dehydrated through, for example, stress of transportation and upon arrival at their destination. A preferred dosage for a single arriving calf in a newly dehydrated state is about 0.45 to 0.55 pounds of the Critical Care® product diluted in a total volume of about two quarts using water at a temperature of about 100 degrees Fahrenheit (to aid in dissolving and administration) and is given by bottle, bucket or drench. Once fed, neither milk nor milk replacer should be fed to the calf for six hours or until the next scheduled feeding in a two times per day feeding program.
- The Critical Care® product can preferably be given to scouring calves in the amount of about 0.45 to 0.55 pounds diluted in a total volume of about two quarts using about 100 degree Fahrenheit water by bottle, bucket or drench. Such feeding should be done a minimum of three times during a 24 hour period, as needed, based on physical signs of dehydration and water loss. When manure consistency becomes firm (typically within 24 hours) feeding of the Critical Care® product may be discontinued, and the calves returned to their normal feeding schedule of milk or milk replacer. If the manure consistency is still loose (watery) the procedure should be repeated for another 24 hour period. The procedure may be again repeated as required. The calves are removed from their milk or milk replacer during their treatment by the Critical Care® product.
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FIG. 1 is an illustration of a label for a product made in accordance with the invention. - In the preferred embodiment of the invention the Critical Care® product may have an ingredient composition and nutrient profile as set forth in Table I below.
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TABLE I Ingredient Percent Maltodextrin 39.80 Whey protein concentrate 90% 16.55 Bicarbonate of soda 15.00 Dextrose 15.00 Potassium chloride 5.00 Salt 2.60 Lecithin (emulsifier) 2.00 Zeolite (anticaking agent) 1.00 L-lysine (amino acid) .83 Sodium saccharine (artificial sweetener) .50 DL-methionine (amino acid) .39 Vitamin and trace mineral premix .34 Sodium butyrate (flavor) .34 L-threonine (amino acid) .24 Artificial flavor .20 L-tryptophan (amino acid) .11 Microbial blend .10 Nutrient Amount Crude protein, % 15.0 Calcium, % .3 Phosphorus, % .2 Salt, % 2.6 Sodium, % 5.5 Chloride, % 4.1 Potassium, % 2.7 Selenium, ppm .2 Vitamin A, IU/lb 23,400 Vitamin D, IU/lb 5,000 Vitamin E, IU/ lb 100 - The ingredients listed in Table I are added to a mixer, with those ingredients comprising 10% or more being added first. The remaining smaller inclusion rate ingredients are added last, excluding the artificial flavor and lecithin. The mixer is started and the artificial flavor is added, followed by lecithin. The combined ingredients are packaged immediately after mixing. The package consists of a plastic liner filled with the product and tied with a twist-tie inside a sealed plastic pail. The finished package is marked with the trademark CRITICAL CARE®.
FIG. 1 depicts a typical label. - The Critical Care® product is rehydrated prior to being fed to calves. An alkalizing (i.e. bicarbonate of soda) agent is needed to correct the metabolic pH of the calf to allow efficient use of nutrients. Sodium (Na) and potassium (K) are needed as electrolytes to rehydrate. Na and K have been lost from the calf during dehydration. A source of nutrients, like glucose or dextrans, is used to facilitate the transport of the Na and K from the gut into the bloodstream. Research in the public domain indicate that a composition of an effective electrolyte administered orally should be approximately 50 to 70% glucose and/or dextrans, 12-18% bicarbonate of soda, 5-6% total Na, and 2.5-3.0% total K. The proportions of these nutrients to each other in a product are important. The actual percent in the product is not. The Critical Care® product contains approximately 54.8% dextrans, 15% bicarbonate of soda, 5.5% Na, and 2.7% K.
- For rehydration approximately one quart of 100 degree Fahrenheit water is added to a pail or bottle and about 0.5 pounds of The Critical Care® product is sprinkled on the surface of the water and mixed into the water by vigorously stirring with a whisk or similar stirring device. Then the volume of the solution is increased to two quarts by adding more 100 degree Fahrenheit water. This mixture is then fed to a calf by bucket or bottle. If the calf refuses to drink or is too weak to consume it, it is administered by drenching.
- The Critical Care® product is designed to be a complete source of nutrients and electrolytes for dehydrated calves three months of age or less and being fed a diet that is predominately milk or milk replacer. As noted above, calf dehydration may be brought about by the stress of transportation or by scouring. When the condition is brought about by transportation, the Critical Care® product should be administered upon arrival of the calf at its destination. This treatment upon arrival involves feeding about 0.5 pounds of the Critical Care® product in a total volume of two quarts using 100 degree Fahrenheit water by bottle, bucket or drench. Neither milk nor milk replacer should be fed to the calf for 6 hours or until the next scheduled feeding in a two times a day feeding program. In those cases where the dehydration results from scouring (diarrhea) the calves should not be given their milk or milk replacer for a period of 24 hours. Instead they should be fed about 0.5 pounds of the Critical Care® product diluted in a total volume of two quarts using 100 degree Fahrenheit water by bucket, bottle or drench a minimum of three times during the 24 hour period (administer one to two feedings of the Critical Care® product within the 24 hour period, if needed, based upon physical signs of dehydration and water loss. When manure consistency becomes firm (typically within 24 hours), discontinue feeding the Critical Care® product and return calves to the normal feeding schedule of milk or milk replacer. If the manure consistency is still loose (watery) after 24 hours, repeat for another 24-hour period the administration of three or more doses of the Critical Care® product without feeding milk or milk replacer. Again, if the manure consistency is still loose (watery) after the second 24-hour period, repeat for another 24 hour the administration of three or more doses of tee Critical Care® product without feeding milk or milk replacer.
- Crude protein and energy from carbohydrates and/or fat are needed for maintenance and growth. For example, cow's milk is approximately 22% crude protein, 26% fat, and 40% lactose (carbohydrate) on a dry basis and consumed/fed at approximately 1 lb of dry matter daily. In a dehydrated calf, excessive lactose will serve to hold Na and K in the gut and counteract Na and K absorption into the bloodstream. It will even serve to worsen dehydration by promoting scouring (excessive watery feces). Fat digestion is often very poor in a scouring calf and its utilization for energy is inefficient. Dextrose and glucose, commonly used energy sources in electrolytes, can also work like lactose to create a high gut osmolarity to hold Na and K in the gut and counteract Na and K absorption into the bloodstream. The Critical Care® product provides crude protein via a milk protein source that is virtually free of lactose and fat (whey protein concentrate 90%). The Critical Care® product contains limited dextrose (15%) and predominately maltodextrin (39.8%) as its sources of needed dextrans/carbohydrates. Maltodextrans have a much lower osmolarity than dextrose, glucose, and lactose. The Critical Care® product contains no added fat other than the limited soy oil that is a part of the lecithin needed to emulsify the product. The Critical Care® product contains less than about 1% lactose and less than about 1% fat. The three recommended doses of the Critical Care® product provide a similar amount of protein (slightly more) and energy (slightly less) as what the calf normally receives via milk.
- Our research shows that the Critical Care® product is effective. In shipped, dehydrated calves gains were better and medical treatments were lower (P<0.1) for calves fed the Critical Care® product verses a traditional electrolyte that provided a similar amount of bicarbonate of soda, Na and K as the Critical Care® product provided. The P value is a statistical probability indicating that these differences between the two treatments are less than 0.1 or less than 10% likely to occur due to chance (or greater than 90% due to the experimental treatment of using the Critical Care® product instead of the traditional electrolyte). The SEM (standard error of the mean) were low in these trials compared to similar research published in the literature using calves from a few days old up to 3 months of age, indicating good experimental control of the trials. The low P values and low SEM's give us excellent confidence in the experimental data.
- The effectivity of the Critical Care® product, administered as described above has been demonstrated by four research trials involving 200 calves under a week of age. The results of Trials 1-4 are summarized in Tables II-V. These four trials were based upon the hypothesis that dehydrated calves need electrolytes and water first, a rapid source of energy second, and protein third. Two nutrient profiles typical of the U.S. market and a combination of milk protein concentrate (90% protein, ˜1% lactose) and electrolytes were formulated to evaluate this hypothesis.
- Feeding high lactose feeds could pull water into the gut and high fat feeds may be poorly digested in starved calves, increasing scouring. The assigned treatments were diluted to about 1.9 liters of volume with warm water and fed the afternoon of arrival only and were: A) 113 g of electrolyte A, B 113 g of electrolyte B, C) 226 g of a combination of electrolyte B with milk protein. Treatment A was fed only in trial 1
- Calves arrived after a 10-hour transport. Treatments were administered between 1600 and 1700 hours on the day of arrival and free-choice water was offered in pails. The following morning calves were fed MR and offered starter. Calves were housed in individual pens bedded with straw. Calves had access to clean fresh water and dry starter feed (with 0.0025% decoquinate) at all times. Milk replacers (with 0.005% decoquinate) were fed twice daily. The nursery was naturally ventilated with no heat. Starter feed offered and refused was weighed daily. Feces were scored daily using a 1 to 5 scale with 1 being normal and 5 being watery. Medical treatments were recorded daily. Calves were weighed on-arrival (in Trial 1 only), 21 hours later (used as our initial weight and to calculate gains), and weekly, thereafter. Body condition score (1 being thin and 5 being obese) and hip widths were measured initially and at 6 and 7 weeks. Calves were weaned at 6 weeks. Data from trials 3 and 4 were analyzed as a completely randomized design (block was row in the barn).
- Initial calf body weight averaged 41 to 43 kg in the 4 trials. For Trial 1, the initial 21-hour weight change was greatest (P<0.1) for calves offered treatment C (1,005 g, 1,284 g, 2,088 g for treatments A, B, C, respectively). Cumulative daily gains were greatest (P<0.05) for calves fed treatment C for all weeks. Weekly gains were greatest (P<0.1) for calves fed treatment C for weeks 1, 5, and 7 and numerically greater for calves fed treatment C each week except
weeks 2 and 8. Starter intake did not differ with treatment but appeared numerically greater for calves fed treatment C. Cumulative feed efficiency was best (P<0.05) for calves fed treatment C for weeks 3 to 8. Cumulative medical days and fecal scores tended to favor calves fed treatment C. Cumulative medical days were significantly lower (P<0.1) for calves fed treatment C byweeks 7 and 8. There were no differences (P>0.1) between treatment A and B. - In trial 2, cumulative daily gains (P<0.01) and starter intake (P<0.1) were greatest for calves fed treatment C for all weeks. Cumulative feed efficiency was best for calves fed treatment C in weeks 5 through 8 (P<0.05). Cumulative body condition score change and hip width change were greatest (P<0.06) for calves fed treatment C through 6 and 8 weeks, respectively. There were few differences in fecal scores and medical treatments; however, cumulative weekly medical days over the entire 8 weeks were lowest (P<0.05) for calves fed treatment C.
- In trial 3, daily gains were greatest (P<0.01) for calves fed treatment C during the first week of the trial and tended (P>0.1) to favor calves fed treatment C for all weeks. Cumulative feed efficiency was best for calves fed treatment C in weeks 5 through 8 (P<0.08). Cumulative fecal score and cumulative abnormal fecal scores were best (P<0.1) for calves fed treatment B for all weeks.
- In trial 4, cumulative daily gains were greatest (P<0.1) for calves fed treatment C during the first 3 weeks of the trial and tended (P>0.1) to favor calves fed treatment C for all weeks. There were little differences in medical treatments or fecal scores between treatments.
- Feeding treatment C on-arrival, improved calf gains in the first week of all trials and improved cumulative gains for all weeks in trials 1 and 2. This was the trend for trials 3 and 4, as well. Cumulative feed efficiency was improved in weeks 5 through 8 in trials 1, 2, and 3.
- Over the course of 4 research trials 16 calves with watery scours were randomly treated with either 1) an effective electrolyte or 2) the Critical Care® product, which is a milk protein combined with electrolytes without lactose or fat. Watery scours were quantified using a fecal scoring system with a scale of 1 to 5. A fecal score of 1 was normal, firm manure. A fecal score of 4 or 5 was watery with some to no solid material visible. The calves used in the research had been transported from 10 hours away. In these trials, as in most of our trials, many of the calves developed bacterial scours by the 7th day after arrival. In these trials, the calves with severe scours were treated with electrolytes and antibiotics during the week after arrival. Calves were weighed on arrival and weekly thereafter. Scour scores and medical treatments were recorded daily. A treatment protocol outlined by a consulting veterinarian was followed which included the three doses of electrolytes daily for calves with fecal scores over 4 and antibiotics until fecal scores improved to less than a score of 3. Calves assigned to the electrolyte treatment received three doses of electrolyte along with their MR feedings. Calves assigned to the Critical Care® product treatment received 3 doses of the Critical Care® product and did not receive their MR that day. All of the calves received a common 20% all milk protein, 20% fat MR containing 0.005% decoquinate and a common 18% protein starter containing 0.0025% decoquinate. Data were analyzed as a completely randomized block design (block was trial).
- Data for the scouring calves are summarized in Tables VI and VII. Daily gain, fecal scores, and antibiotic treatments for both treatment groups were similar in week 1. Daily gains during week 2 were greater (P<0.10) for calves fed the Critical Care® product vs. the electrolyte group. Similarly, the improvement in fecal score from week 1 to week 2 was twice as great (P<0.10) for calves treated with the Critical Care® product compared to the calves treated with the electrolyte. Six of the eight calves in the electrolyte treatment group required antibiotic treatments during week two (average 2.25 treatments per calf) compared to (P<0.02) only two of the eight calves in the Critical Care® product treatment group (averaged 0.25 treatments per calf). Four of the eight calves in the electrolyte group required a second day of three electrolyte doses because the severe scouring persisted compared to (P<0.01) none of the calves in the Critical Care® product group (4.5 vs 3.0 doses).
- Feeding calves 3 doses of the Critical Care® product and removing their MR for 1 day resulted in similar to better performance and fewer antibiotic and electrolyte treatments than feeding 3 doses of a good quality electrolyte with MR.
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TABLE VI Means for various measurements after scouring (diarrhea) calves were fed an electrolyte or the Critical Care ® product Critical Elec- Care ® P trolyte product SEM Value Initial body weight, kg 42.7 40.3 3.8 0.45 Week 1 Daily Gain, g −28.6 −53.1 65.7 0.80 Week 2 Daily Gain, g −37.7 89.0 47.9 0.10 Average of Week 1 and 2 Daily Gain, −33.1 17.7 54.5 0.53 Week 2 minus Week 1 Daily Gain, g −9.1 142.1 37.0 0.02 Week 1 Fecal Score 2.65 2.78 0.0758 0.26 Week 2 Fecal Score 2.37 2.17 0.1516 0.38 Average of Week 1 and 2 Fecal 2.51 2.48 0.1022 0.86 Score Week 2 minus Week 1 Fecal Score −0.29 −0.61 0.1258 0.10 Week 1 Antibiotic Treatments 4.63 4.25 0.2517 0.32 Week 2 Antibiotic Treatments 2.25 0.25 0.4640 0.02 Total Antibiotic Treatments 6.88 4.50 0.6776 0.04 Total Electrolyte Treatments 4.5 3.0 0.3333 0.01 -
TABLE VII Daily gains (g) of calves fed the Critical Care ® product (Trt C) or two common electrolytes (Trt A and B) on arrival after a 10-hour shipment during three subsequent time periods in four trials. Trial 1 2 3 4 Weeks Trt A Trt B Trt C Trt B Trt C Trt B Trt C Trt B Trt C 0-1 −99 −101 154a −189 135a −25 147a 91 278a 0-6 381 400 467a 301 426a 379 402 411 430 0-8 476 518 579a 422 551a 502 543 522 532 aTreatment C was greater than treatments A and/or B (P < .05) within specific trial and period. (Treatment—Trt) - Research is continuing in the evaluation of the Critical Care® product. This continuing research has been conducted upon transported, dehydrated calves that typically have not yet been attacked by the bacteria or virus. This research model is good to use since it does not complicate the experiment with the challenge of the bacteria or virus. The ability of the product to rehydrate and promote growth is tested and the confounded factors of how long the attacking bacteria or virus has not been present.
- Tables II-V:
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TABLE II LS Treatment means by week for calves fed three different initial electrolytes in Trial 1. C) MP/ P- A) Elec A B) Elec B Elec B SEM Valuea Weight gain from arrival to initial weighing, g 21 hour period 1,005.12 1,284.34 2,088.19 104 0.0987 Average daily gain, g 1 −99.23 −101.97 154.31 37.1 0.0000 2 115.43 0.68 77.76 57.4 0.3258 3 412.70 505.78 529.34 58.9 0.3376 4 579.55 575.70 598.19 54.5 0.9503 5 622.08 718.26 734.67 35.6 0.0607 6 659.75 702.91 711.99 46.5 0.6957 7 602.24 777.26 933.53 98.6 0.0690 8 921.38 968.59 898.70 71.1 0.7584 Average daily gain cumulative, g 1 −99.23 −101.97 154.31 37.1 0.0000 2 8.10 −50.65 116.03 34.7 0.0036 3 142.97 134.83 253.80 32.7 0.0193 4 252.11 245.05 339.90 24.0 0.0104 5 326.11 339.69 418.85 22.1 0.0090 6 381.71 400.23 467.71 22.3 0.0211 7 413.22 454.09 534.25 28.6 0.0141 8 476.74 518.40 579.81 27.7 0.0381 Average daily starter intake cumulative, g 1 28.01 16.21 30.96 6.45 0.2064 2 61.41 48.86 66.57 11.1 0.4783 3 105.58 100.87 119.90 13.9 0.5859 4 178.19 179.77 195.33 18.2 0.7584 5 270.10 283.94 305.11 22.5 0.5449 6 372.03 398.54 425.19 26.4 0.3696 7 529.16 580.46 620.34 33.6 0.1681 8 723.28 778.32 819.44 40.2 0.2470 Weekly starter intake, g 1 196.06 113.47 216.69 45.1 0.2064 2 663.69 570.58 715.31 120 0.6644 3 1,357.38 1,434.21 1,586.00 172 0.6356 4 2,772.19 2,915.42 2,951.31 256 0.8710 5 4,464.25 4,904.26 5,209.50 313 0.2484 6 6,171.56 6,800.58 7,179.19 383 0.1807 7 10,303.69 11,703.95 12,538.88 635 0.0508 8 14,574.75 15,143.53 15,492.00 712 0.6571 Starter intake cumulative, g 1 196.06 113.47 216.69 45.1 0.2064 2 859.75 684.05 932.00 155 0.4783 3 2,217.13 2,118.26 2,518.00 291 0.5859 4 4,989.31 5,033.68 5,469.31 508 0.7584 5 9,453.56 9,937.95 10,678.81 788 0.5449 6 15,625.13 16,738.53 17,858.00 1107 0.3696 7 25,928.81 28,442.47 30,396.88 1647 0.1681 8 40,503.56 43,586.00 45,888.88 2253 0.2470 Feed efficiency cumulative (Starter and Milk Replacer/Gain) 1 5.84 −1.72 0.31 5.40 0.5694 2 3.75 1.81 −0.76 4.62 0.7809 3 32.00 −13.07 2.28 12.5 0.0347 4 2.78 3.06 1.78 0.27 0.0026 5 2.33 2.27 1.67 0.11 0.0001 6 2.21 2.17 1.75 0.09 0.0007 7 2.43 2.18 1.86 0.14 0.0240 8 2.30 2.18 2.00 0.08 0.0341 Weekly medical days 1 4.06 4.11 3.69 0.19 0.2340 2 0.44 0.79 0.50 0.19 0.3366 3 0.44 0.37 0.13 0.19 0.4804 4 0.56 0.47 0.06 0.25 0.3355 5 1.06 0.47 0.50 0.22 0.1081 6 0.63 0.58 0.38 0.22 0.6849 7 0.75 0.42 0.00 0.19 0.0263 8 0.19 0.11 0.25 0.14 0.7486 Fecal score (1 = normal, 5 = watery) 1 2.77 2.72 2.73 0.05 0.7932 2 2.29 2.37 2.17 0.07 0.1104 3 1.96 1.92 1.87 0.08 0.7590 4 1.81 1.75 1.63 0.07 0.1920 5 1.63 1.47 1.41 0.10 0.2729 6 1.42 1.35 1.31 0.08 0.6579 7 1.37 1.40 1.21 0.08 0.2058 8 1.18 1.34 1.23 0.08 0.3214 Weekly medical days cumulative 1 4.06 4.11 3.69 0.19 0.2340 2 4.50 4.89 4.19 0.29 0.2038 3 4.94 5.26 4.31 0.41 0.2344 4 5.50 5.74 4.38 0.49 0.1141 5 6.56 6.21 4.88 0.58 0.1017 6 7.19 6.79 5.25 0.69 0.1170 7 7.94 7.21 5.25 0.74 0.0375 8 8.13 7.32 5.50 0.78 0.0608 Fecal score cumulative (1 = normal, 5 = watery) 1 2.77 2.72 2.73 0.05 0.7932 2 2.53 2.55 2.45 0.05 0.3325 3 2.34 2.34 2.26 0.05 0.4543 4 2.21 2.19 2.10 0.05 0.2770 5 2.09 2.05 1.96 0.05 0.2249 6 1.98 1.93 1.85 0.05 0.2369 7 1.89 1.85 1.76 0.05 0.1558 8 1.80 1.79 1.70 0.04 0.1721 Total abnormal fecal scores (abnormal >2 fecal score) 1 6.50 6.53 6.38 0.18 0.8076 2 3.44 4.58 3.06 0.49 0.0683 3 1.00 1.21 1.13 0.38 0.9185 4 0.81 0.53 0.56 0.21 0.5786 5 0.75 0.21 0.13 0.19 0.0489 6 0.31 0.21 0.19 0.13 0.7688 7 0.56 0.47 0.31 0.23 0.7360 8 0.13 0.68 0.13 0.23 0.1275 Total abnormal fecal scores cumulative (abnormal >2 fecal score) 1 6.50 6.53 6.38 0.18 0.8076 2 9.94 11.11 9.44 0.53 0.0630 3 10.94 12.32 10.56 0.75 0.1924 4 11.75 12.84 11.13 0.87 0.3386 5 12.50 13.05 11.25 0.95 0.3719 6 12.81 13.26 11.44 1.00 0.3910 7 13.38 13.74 11.75 1.06 0.3611 8 13.50 14.42 11.88 1.10 0.2410 Body condition score changes (1 = thin, 5 = obese) Initial Score 2.09 2.13 2.15 0.04 0.5514 Change 0 to 2 wk −0.09 −0.18 −0.10 0.04 0.2022 Change 0 to 4 wk 0.13 −0.01 0.14 0.04 0.0136 Change 0 to 6 wk 0.22 0.18 0.21 0.05 0.8567 Change 0 to 8 wk 0.39 0.41 0.40 0.06 0.9741 Change 2 to 4 wk 0.22 0.17 0.25 0.04 0.3837 Change 4 to 6 wk 0.09 0.20 0.07 0.05 0.1977 Change 6 to 8 wk 0.17 0.22 0.18 0.06 0.7787 Hip width changes, cm Initial Width 17.30 17.36 17.20 0.19 0.8467 Change 0 to 2 wk 0.28 0.30 0.47 0.09 0.2992 Change 0 to 4 wk 0.80 0.78 1.14 0.11 0.0461 Change 0 to 6 wk 2.36 2.28 2.69 0.17 0.1760 Change 0 to 8 wk 3.63 3.89 4.56 0.22 0.0120 Change 2 to 4 wk 0.52 0.47 0.67 0.09 0.2340 Change 4 to 6 wk 1.56 1.50 1.55 0.10 0.8898 Change 6 to 8 wk 1.27 1.62 1.88 0.12 0.0034 aWhen P Values were lower than .1, treatment C was different than treatments A and B. -
TABLE III B) Elec B C) Elec C SEM P-Value a LS Treatment means by week for calves fed two different electrolytes in Trial. Average daily gain, g 1 −189.46 135.00 56.1 0.0002 2 201.22 328.84 32.6 0.0081 3 304.15 310.85 35.7 0.8924 4 459.31 566.47 47.1 0.1111 5 583.64 736.93 45.4 0.0207 6 451.63 479.63 49.5 0.6869 7 720.55 804.62 58.5 0.3088 8 853.04 1,043.56 111 0.2150 Average daily gain cumulative, g 1 −189.46 135.00 56.1 0.0002 2 5.88 231.92 38.1 0.0001 3 104.89 258.50 31.0 0.0011 4 193.50 335.49 29.1 0.0013 5 271.53 415.78 28.7 0.0010 6 301.54 426.42 28.7 0.0036 7 361.40 480.45 29.1 0.0058 8 422.97 551.08 30.0 0.0042 Cumulative average daily starter intake, g 1 35.81 63.01 10.4 0.0672 2 92.06 142.09 16.9 0.0411 3 165.82 217.10 21.6 0.0966 4 246.82 311.03 25.3 0.0771 5 336.41 418.21 29.3 0.0523 6 421.92 510.26 33.8 0.0688 7 586.17 687.48 39.5 0.0737 8 741.19 869.42 45.3 0.0495 Weekly starter intake, g 1 250.69 441.08 72.8 0.0672 2 1,039.28 1,546.12 180 0.0507 3 2,193.45 2,569.91 236 0.2590 4 3,428.77 4,149.73 295 0.0883 5 4,863.23 5,928.55 374 0.0481 6 5,946.32 6,793.54 446 0.1812 7 11,001.71 12,255.80 582 0.1305 8 12,786.72 14,996.30 738 0.0383 LS Treatment means by week for calves fed two different electrolytes in Trial 2 (cont.). Starter intake cumulative, g 1 250.69 441.08 72.8 0.0672 2 1,288.81 1,989.19 237 0.0411 3 3,482.26 4,559.10 453 0.0966 4 6,911.03 8,708.83 709 0.0771 5 11,774.26 14,637.38 1024 0.0523 6 17,720.58 21,430.92 1419 0.0688 7 28,722.29 33,686.72 1934 0.0737 8 41,506.90 48,687.49 2535 0.0495 Feed efficiency cumulative (Starter and Milk Replacer/Gain) 1 3.96 2.75 4.37 0.8422 2 0.73 3.30 1.79 0.3106 3 5.07 3.61 5.52 0.8480 4 7.00 2.74 1.14 0.0108 5 3.48 2.29 0.26 0.0026 6 3.13 2.47 0.17 0.0092 7 2.79 2.39 0.11 0.0113 8 2.61 2.33 0.10 0.0454 Weekly medical days 1 3.92 3.65 0.20 0.3463 2 0.70 0.74 0.33 0.9247 3 0.99 0.76 0.30 0.5903 4 0.22 0.21 0.13 0.9383 5 1.02 0.33 0.24 0.0496 6 0.75 0.63 0.31 0.7801 7 0.34 0.36 0.14 0.9251 8 1.37 0.38 0.47 0.1287 Fecal score (1 = normal, 5 = watery) 1 2.71 2.69 0.07 0.8731 2 2.48 2.39 0.05 0.1772 3 1.99 2.02 0.05 0.7490 4 1.54 1.81 0.17 0.2377 5 1.46 1.55 0.11 0.5511 6 1.31 1.30 0.09 0.9420 7 1.21 1.38 0.08 0.1370 8 1.16 1.33 0.07 0.0713 Weekly medical days cumulative 1 3.92 3.65 0.20 0.3463 2 4.64 4.37 0.28 0.5015 3 5.63 5.13 0.37 0.3357 4 5.85 5.34 0.39 0.3495 5 6.87 5.67 0.48 0.0822 6 7.62 6.31 0.70 0.1825 7 7.97 6.66 0.68 0.1725 8 9.37 7.01 0.70 0.0212 Fecal score cumulative (1 = normal, 5 = watery) 1 2.71 2.69 0.07 0.8731 2 2.59 2.54 0.05 0.4322 3 2.39 2.37 0.04 0.6515 4 2.19 2.22 0.07 0.7097 5 2.04 2.09 0.07 0.6751 6 1.92 1.96 0.07 0.7181 7 1.82 1.87 0.06 0.4842 8 1.73 1.81 0.05 0.3423 Total abnormal fecal scores (abnormal >2 fecal score) 1 6.25 6.47 0.16 0.3324 2 5.29 4.53 0.35 0.1235 3 1.21 1.43 0.38 0.6684 4 0.62 1.17 0.49 0.4137 5 0.46 0.80 0.37 0.5130 6 0.21 0.34 0.22 0.6579 7 0.09 0.57 0.15 0.0263 8 0.20 0.22 0.14 0.9161 Total abnormal fecal scores cumulative (abnormal >2 fecal score) 1 6.25 6.47 0.16 0.3324 2 11.53 11.00 0.43 0.3703 3 12.74 12.43 0.68 0.7413 4 13.37 13.58 0.87 0.8615 5 13.78 14.43 1.05 0.6584 6 13.98 14.77 1.18 0.6334 7 14.08 15.34 1.19 0.4487 8 14.28 15.56 1.19 0.4435 Body condition score changes (1 = thin, 5 = obese) Initial 2.07 1.98 0.05 0.1431 Score Change 0 −0.14 −0.00 0.05 0.0484 to 2 wk Change 0 −0.15 −0.01 0.05 0.0464 to 4 wk Change 0 0.07 0.26 0.07 0.0596 to 6 wk Change 0 0.41 0.53 0.09 0.3437 to 8 wk Change 2 −0.01 −0.01 0.03 0.9513 to 4 wk Change 4 0.21 0.27 0.05 0.4161 to 6 wk Change 6 0.36 0.24 0.09 0.3287 to 8 wk Hip width changes, cm Initial 17.71 17.34 0.21 0.2027 Width Change 0 0.01 0.50 0.10 0.0017 to 2 wk Change 0 0.74 1.45 0.12 0.0001 to 4 wk Change 0 1.83 2.79 0.19 0.0006 to 6 wk Change 0 3.08 4.20 0.22 0.0009 to 8 wk Change 2 0.73 0.95 0.09 0.0849 to 4 wk Change 4 1.09 1.34 0.14 0.2159 to 6 wk Change 6 1.26 1.40 0.13 0.4445 to 8 wk a When P Values were lower than .1, treatment C was different than treatments A and B. -
TABLE IV LS Treatment means by week for calves fed two different electrolytes in Trial 3. B) Elec B C) Elec C SEM P-Value a Average daily gain, g 1 −25.89 147.46 46.4 0.0095 2 205.50 124.83 35.8 0.1076 3 426.52 415.24 33.7 0.8075 4 515.62 471.97 41.8 0.4486 5 573.91 635.41 42.4 0.2951 6 582.96 617.47 46.0 0.5858 7 811.65 853.23 54.7 0.5806 8 927.45 1,080.02 61.8 0.0788 Average daily gain cumulative, g 1 −25.89 147.46 46.4 0.0095 2 89.80 136.15 30.5 0.2724 3 202.04 229.18 24.1 0.4143 4 280.44 289.87 22.3 0.7579 5 339.13 358.98 20.6 0.4853 6 379.77 402.06 21.3 0.4486 7 441.47 466.52 24.0 0.4487 8 502.21 543.20 24.9 0.2352 Cumulative average daily starter intake, g 1 36.41 23.68 7.02 0.1924 2 107.62 73.85 13.6 0.0772 3 191.37 149.13 17.6 0.0876 4 276.31 237.72 21.5 0.1957 5 361.83 327.16 24.0 0.2964 6 455.65 425.99 27.3 0.4307 7 628.20 609.92 33.1 0.6882 8 811.65 806.99 39.5 0.9316 Weekly starter intake, g 1 254.85 165.75 49.2 0.1924 2 1,251.78 868.11 147 0.0639 3 2,512.24 2,097.93 209 0.1557 4 3,717.94 3,524.42 277 0.6123 5 4,927.25 4,794.40 328 0.7685 6 6,473.23 6,441.07 375 0.9503 7 11,644.35 11,994.38 574 0.6577 8 14,670.71 15,305.60 688 0.5029 Starter intake cumulative, g 1 254.85 165.75 49.2 0.1924 2 1,506.63 1,033.85 191 0.0772 3 4,018.87 3,131.78 370 0.0876 4 7,736.80 6,656.20 601 0.1957 5 12,664.06 11,450.59 839 0.2964 6 19,137.29 17,891.66 1145 0.4307 7 30,781.64 29,886.04 1622 0.6882 8 45,452.35 45,191.64 2212 0.9316 Feed efficiency cumulative (Starter and Milk Replacer/Gain) 1 −1.74 −1.59 2.70 0.9673 2 10.75 1.47 4.19 0.1129 3 3.34 3.01 0.32 0.4415 4 2.55 2.42 0.14 0.5083 5 2.32 2.12 0.08 0.0658 6 2.30 2.12 0.07 0.0628 7 2.29 2.13 0.06 0.0484 8 2.31 2.12 0.05 0.0093 Weekly medical days 1 4.27 4.89 0.18 0.0189 2 0.60 1.17 0.27 0.1331 3 0.63 1.00 0.32 0.4177 4 0.60 0.13 0.19 0.0712 5 0.75 0.43 0.22 0.2862 6 0.38 0.27 0.20 0.6887 7 0.28 0.18 0.16 0.6854 8 0.23 0.45 0.18 0.3646 Fecal score (1 = normal, 5 = watery) 1 2.41 2.51 0.04 0.0593 2 1.88 2.06 0.08 0.1081 3 1.49 1.60 0.08 0.3071 4 1.14 1.19 0.05 0.4283 5 1.15 1.11 0.06 0.6539 6 1.12 1.19 0.06 0.3421 7 1.08 1.21 0.05 0.0816 8 1.16 1.18 0.07 0.8054 Weekly medical days cumulative 1 4.27 4.89 0.18 0.0189 2 4.88 6.05 0.37 0.0261 3 5.51 7.05 0.50 0.0296 4 6.11 7.18 0.55 0.1642 5 6.86 7.61 0.57 0.3460 6 7.24 7.88 0.63 0.4622 7 7.51 8.06 0.67 0.5552 8 7.74 8.51 0.75 0.4555 Fecal score cumulative (1 = normal, 5 = watery) 1 2.41 2.51 0.04 0.0593 2 2.14 2.29 0.05 0.0293 3 1.92 2.06 0.05 0.0415 4 1.73 1.84 0.04 0.0428 5 1.61 1.70 0.04 0.0976 6 1.53 1.61 0.04 0.0930 7 1.46 1.55 0.03 0.0601 8 1.43 1.51 0.03 0.0544 Total abnormal fecal scores (abnormal >2 fecal score) 1 4.13 5.18 0.33 0.0242 2 1.53 2.75 0.47 0.0671 3 0.75 0.97 0.32 0.6094 4 0.14 0.26 0.15 0.5620 5 0.34 0.13 0.16 0.3423 6 0.21 0.20 0.14 0.9848 7 0.00 0.00 — — 8 0.10 0.07 0.09 0.8244 Total abnormal fecal scores cumulative (abnormal >2 fecal score) 1 4.13 5.18 0.33 0.0242 2 5.66 7.93 0.60 0.0091 3 6.40 8.89 0.75 0.0207 4 6.55 9.15 0.82 0.0257 5 6.89 9.28 0.90 0.0585 6 7.10 9.49 0.94 0.0709 7 7.10 9.49 0.94 0.0709 8 7.20 9.56 0.93 0.0710 Body condition score changes (1 = thin, 5 = obese) Initial 2.07 2.04 0.05 0.6504 Score Change 0 0.08 0.07 0.04 0.9544 to 2 wk Change 0 0.18 0.29 0.05 0.1375 to 4 wk Change 0 0.40 0.49 0.05 0.2061 to 6 wk Change 0 0.62 0.69 0.05 0.3832 to 8 wk Change 2 0.10 0.21 0.05 0.0913 to 4 wk Change 4 0.22 0.20 0.04 0.7238 to 6 wk Change 6 0.22 0.20 0.03 0.5524 to 8 wk Hip width changes, cm Initial Width 17.75 17.51 0.22 0.4372 Change 0 0.45 0.61 0.10 0.2489 to 2 wk Change 0 1.26 1.31 0.11 0.7208 to 4 wk Change 0 2.30 2.54 0.14 0.2174 to 6 Wk Change 0 3.98 4.05 0.17 0.7496 to 8 wk Change 2 0.81 0.70 0.09 0.3947 to 4 wk Change 4 1.04 1.23 0.09 0.1491 to 6 wk Change 6 1.67 1.51 0.10 0.2491 to 8 wk a When P Values were lower than .1, treatment C was different than treatments A and B. -
TABLE V LS Treatment means by week for calves fed two different electrolytes in Trial 4. B) Elec B C) Elec C SEM P-Valuea Average daily gain, g 1 91.74 278.94 39.7 0.0016 2 230.32 178.41 35.1 0.2979 3 377.07 398.99 27.0 0.5659 4 548.26 538.66 40.6 0.8670 5 640.28 655.30 40.6 0.7936 6 582.43 534.16 39.5 0.3893 7 658.42 661.42 55.8 0.9696 8 1,049.46 1,015.41 68.2 0.7239 Average daily gain cumulative, g 1 91.74 278.94 39.7 0.0016 2 161.03 228.68 23.9 0.0499 3 233.04 285.45 20.5 0.0750 4 311.85 348.75 21.6 0.2311 5 377.53 410.06 23.1 0.3225 6 411.68 430.74 23.3 0.5636 7 446.93 463.70 24.1 0.6235 8 522.25 532.66 24.9 0.7678 Average daily starter intake cumulative, g 1 31.49 30.51 6.32 0.9132 2 91.55 86.27 11.9 0.7534 3 172.63 161.98 16.7 0.6526 4 247.04 246.46 22.4 0.9855 5 329.69 332.13 27.9 0.9506 6 416.81 411.80 32.6 0.9133 7 572.62 557.78 39.9 0.7922 8 742.70 728.39 46.0 0.8260 Weekly starter intake, g 1 220.41 213.59 44.2 0.9132 2 1,061.28 994.18 131 0.7169 3 2,343.58 2,193.83 195 0.5875 4 3,291.82 3,499.41 300 0.6253 5 4,622.24 4,723.68 383 0.8514 6 5,966.73 5,670.92 446 0.6390 7 10,552.50 10,035.72 647 0.5724 8 13,532.45 13,458.68 708 0.9412 Starter intake cumulative, g 1 220.41 213.59 44.2 0.9132 2 1,281.69 1,207.77 166 0.7534 3 3,625.27 3,401.60 351 0.6526 4 6,917.09 6,901.01 627 0.9855 5 11,539.32 11,624.69 975 0.9506 6 17,506.06 17,295.61 1368 0.9133 7 28,058.55 27,331.33 1953 0.7922 8 41,591.01 40,790.01 2579 0.8260 Feed efficiency cumulative (Starter and Milk Replacer/Gain) 1 4.87 1.35 2.71 0.3589 2 2.46 1.42 0.90 0.4139 3 3.60 2.48 0.48 0.1090 4 2.43 2.22 0.16 0.3711 5 2.18 2.03 0.10 0.3208 6 2.15 2.07 0.08 0.5109 7 2.18 2.08 0.07 0.2861 8 2.09 2.02 0.06 0.4277 Weekly medical days 1 5.00 4.96 0.17 0.8699 2 0.27 0.41 0.18 0.5541 3 0.18 0.10 0.10 0.5918 4 0.54 0.04 0.15 0.0246 5 1.49 0.65 0.25 0.0208 6 0.11 0.41 0.14 0.1223 7 0.78 0.70 0.21 0.7705 8 0.23 0.13 0.10 0.4600 Fecal score (1 = normal, 5 = watery) 1 2.67 2.72 0.05 0.5186 2 2.24 2.20 0.05 0.6436 3 1.84 1.70 0.08 0.2246 4 1.65 1.57 0.10 0.6160 5 1.60 1.61 0.09 0.9313 6 1.12 1.13 0.03 0.8813 7 1.25 1.40 0.07 0.1385 8 1.20 1.18 0.05 0.7580 Weekly medical days cumulative 1 5.00 4.96 0.17 0.8699 2 5.27 5.37 0.19 0.6914 3 5.44 5.48 0.23 0.9127 4 5.98 5.52 0.26 0.2045 5 7.47 6.17 0.41 0.0270 6 7.58 6.58 0.44 0.1117 7 8.37 7.28 0.51 0.1381 8 8.60 7.41 0.51 0.1042 Fecal score cumulative (1 = normal, 5 = watery) 1 2.67 2.72 0.05 0.5186 2 2.45 2.46 0.04 0.9194 3 2.25 2.21 0.05 0.5606 4 2.10 2.05 0.06 0.5425 5 2.00 1.96 0.06 0.6592 6 1.85 1.82 0.05 0.6764 7 1.77 1.76 0.04 0.9699 8 1.70 1.69 0.04 0.9285 Total abnormal fecal scores (abnormal >2 fecal score) 1 6.03 6.53 0.27 0.1989 2 3.39 3.39 0.43 0.9995 3 0.74 0.21 0.22 0.0983 4 0.72 0.66 0.30 0.8851 5 0.72 0.71 0.27 0.9797 6 0.04 0.00 0.03 0.4110 7 0.55 0.42 0.23 0.6949 8 0.03 0.05 0.04 0.7976 Total abnormal fecal scores cumulative (abnormal >2 fecal score) 1 6.03 6.53 0.27 0.1989 2 9.42 9.92 0.56 0.5298 3 10.16 10.13 0.67 0.9720 4 10.89 10.79 0.83 0.9360 5 11.60 11.50 0.88 0.9333 6 11.64 11.50 0.88 0.9110 7 12.19 11.92 0.86 0.8262 8 12.22 11.97 0.86 0.8370 Body condition score changes (1 = thin, 5 = obese) Initial Score 2.09 2.05 0.03 0.4633 Change 0 to 2 wk 0.01 0.04 0.03 0.5396 Change 0 to 4 wk 0.22 0.30 0.03 0.0804 Change 0 to 6 wk 0.38 0.37 0.05 0.9035 Change 0 to 8 wk 0.57 0.59 0.05 0.7980 Change 2 to 4 wk 0.21 0.26 0.03 0.2482 Change 4 to 6 wk 0.16 0.07 0.03 0.0677 Change 6 to 8 wk 0.20 0.22 0.03 0.5743 Hip width changes, cm Initial Width 17.78 17.63 0.19 0.5810 Change 0 to 2 wk 0.20 0.33 0.08 0.2591 Change 0 to 4 wk 1.16 1.26 0.11 0.5238 Change 0 to 6 wk 2.19 2.39 0.15 0.3381 Change 0 to 8 wk 3.67 3.75 0.21 0.7758 Change 2 to 4 wk 0.96 0.92 0.08 0.7362 Change 4 to 6 wk 1.03 1.14 0.09 0.3941 Change 6 to 8 wk 1.48 1.36 0.11 0.4559 aWhen P Values were lower than .1, treatment C was different than treatments A and B. - While the method herein described, and the form of apparatus for carrying this method into effect, constitute preferred embodiments of this invention, it is to be understood that the invention is not limited to this precise method and form of apparatus, and that changes may be made in either without departing from the scope of the invention, which is defined in the appended claims.
Claims (16)
1. A neonatal bovine mammal physiological composition for treating or reducing the likelihood of dehydration in a neonatal bovine mammal, said neonatal bovine mammal physiological composition comprising a source of nutrients, said nutrients including crude protein from a milk protein source and electrolytes, wherein said nutrients include dextrans having at least two different saccharides in an effective amount for treating or reducing the likelihood of dehydration in said neonatal bovine mammal through administration thereof, wherein said neonatal bovine mammal physiological composition includes an amount of dextrans that is greater than an amount of any other of said nutrients;
wherein said dextrans includes a majority of maltodextrins relative to other saccharides therein; and
said neonatal bovine mammal physiological composition providing enough energy and protein to maintain a body weight and growth of said neonatal bovine mammal; and
wherein said source of nutrients comprises:
about 50 to 60% dextrans;
about 10 to 20% bicarbonate of soda;
about 1 to 10% sodium; and
about 1 to 10% potassium;
wherein said neonatal bovine mammal physiological composition is administered to said neonatal bovine mammal to treat or reduce dehydration in said neonatal bovine mammal.
2. A neonatal bovine mammal physiological composition for treating or reducing the likelihood of dehydration in a neonatal bovine mammal, said neonatal bovine mammal physiological composition comprising a source of nutrients, said nutrients including crude protein from a milk protein source and electrolytes, wherein said nutrients include dextrans having at least two different saccharides in an effective amount for treating or reducing the likelihood of dehydration in said neonatal bovine mammal through administration thereof, wherein said neonatal bovine mammal physiological composition includes an amount of dextrans that is greater than an amount of any other of said nutrients;
wherein said dextrans includes a majority of maltodextrins relative to any other saccharide therein; and
said neonatal bovine mammal physiological composition providing enough energy and protein to maintain a body weight and growth of said neonatal bovine mammal, and wherein said dextrans includes a mixture of maltodextrins and dextrose;
wherein said neonatal bovine mammal physiological composition is administered to said neonatal bovine mammal to treat or reduce dehydration in said neonatal bovine mammal.
3. The neonatal bovine mammal physiological composition of claim 2 , wherein said mixtures of maltodextrins and dextrose includes about 35 to 45% maltodextrins and about 10 to 20% dextrose.
4. A neonatal bovine mammal physiological composition for treating or reducing the likelihood of dehydration in a neonatal bovine mammal, said neonatal bovine mammal physiological composition comprising a source of nutrients, said nutrients including crude protein from a milk protein source and electrolytes, wherein said nutrients include dextrans having at least two different saccharides in an effective amount for treating or reducing the likelihood of dehydration in said neonatal bovine mammal through administration thereof, wherein said neonatal bovine mammal physiological composition includes an amount of dextrans that is greater than an amount of any other of said nutrients;
wherein said dextrans includes a majority of maltodextrins relative to any other saccharide therein; and
said neonatal bovine mammal physiological composition providing enough energy and protein to maintain a body weight and growth of said neonatal bovine mammal, and further comprising whey protein concentrate to provide about 15% of said crude protein to said neonatal bovine mammal physiological composition;
wherein said neonatal bovine mammal physiological composition is administered to said neonatal bovine mammal to treat or reduce dehydration in said neonatal bovine mammal.
5. The neonatal bovine mammal physiological composition of claim 2 , wherein said neonatal bovine mammal is a calf.
6. The neonatal bovine mammal physiological composition of claim 5 , wherein said calf is about three months of age or less.
7. A neonatal bovine mammal physiological composition for treating or reducing the likelihood of dehydration in a neonatal bovine mammal, said neonatal bovine mammal physiological composition comprising a source of nutrients, said nutrients including crude protein from a milk protein source and electrolytes, wherein said nutrients include dextrans having at least two different saccharides in an effective amount for treating or reducing the likelihood of dehydration in said neonatal bovine mammal through administration thereof, wherein said neonatal bovine mammal physiological composition includes an amount of dextrans that is greater than an amount of any other of said nutrients;
wherein said dextrans includes a majority of maltodextrins relative to any other saccharide therein; and
said neonatal bovine mammal physiological composition providing enough energy and protein to maintain a body weight and growth of said neonatal bovine mammal, and
wherein said source of nutrients and electrolytes are packaged in a sealed container for rehydration prior to feeding said neonatal bovine mammal physiological composition to said neonatal bovine mammal;
wherein said neonatal bovine mammal physiological composition is administered to said neonatal bovine mammal to treat or reduce dehydration in said neonatal bovine mammal.
8. The neonatal bovine mammal physiological composition of claim 7 , wherein said source of nutrients are sealed together in a single container.
9. The neonatal bovine mammal physiological composition of claim 4 , further comprising at least one additional agent selected from the group consisting of an emulsifier, anti-caking agent, one or more amino acids, artificial flavors, vitamins, and a microbial blend.
10. A neonatal bovine mammal physiological composition for treating or reducing the likelihood of dehydration in a neonatal bovine mammal, said neonatal bovine mammal physiological composition comprising a source of nutrients, said nutrients including crude protein from a milk protein source and electrolytes, wherein said nutrients include dextrans having at least two different saccharides in an effective amount for treating or reducing the likelihood of dehydration in said neonatal bovine mammal through administration thereof,
wherein said neonatal bovine mammal physiological composition includes an amount of dextrans that is greater than an amount of any other of said nutrients;
wherein said dextrans includes a majority of maltodextrins relative to other saccharides therein; and
said neonatal bovine mammal physiological composition providing enough energy and protein to maintain a body weight and growth of said neonatal bovine mammal, and further comprising an emulsifier,
wherein said neonatal bovine mammal physiological composition is administered to said neonatal bovine mammal to treat or reduce dehydration in said neonatal bovine mammal.
11. The neonatal bovine mammal physiological composition of claim 10 , further comprising at least one additional agent selected from the group consisting of whey protein concentrate, anti-caking agent, one or more amino acids, artificial flavors, vitamins, and a microbial blend.
12. A neonatal bovine mammal physiological composition for treating or reducing the likelihood of dehydration in a neonatal bovine mammal, said neonatal bovine mammal physiological composition comprising a source of nutrients, said nutrients including crude protein from a milk protein source and electrolytes, wherein said nutrients include dextrans having at least two different saccharides in an effective amount for treating or reducing the likelihood of dehydration in said neonatal bovine mammal through administration thereof, wherein said neonatal bovine mammal physiological composition includes an amount of dextrans that is greater than an amount of any other of said nutrients;
wherein said dextrans includes a majority of maltodextrins relative to other saccharides therein; and
said neonatal bovine mammal physiological composition providing enough energy and protein to maintain a body weight and growth of said neonatal bovine mammal, and further comprising an anti-caking agent;
wherein said neonatal bovine mammal physiological composition is administered to said neonatal bovine mammal to treat or reduce dehydration in said neonatal bovine mammal.
13. The neonatal bovine mammal physiological composition of claim 12 , further comprising at least one additional agent selected from the group consisting of whey protein concentrate, emulsifier, one or more amino acids, artificial flavors, vitamins, and a microbial blend.
14. A neonatal bovine mammal physiological composition for treating or reducing the likelihood of dehydration in a neonatal bovine mammal, said neonatal bovine mammal physiological composition comprising a source of nutrients, said nutrients including crude protein from a milk protein source and electrolytes, wherein said nutrients include dextrans having at least two different saccharides in an effective amount for treating or reducing the likelihood of dehydration in said neonatal bovine mammal through administration thereof,
wherein said neonatal bovine mammal physiological composition includes an amount of dextrans that is greater than an amount of any other of said nutrients;
wherein said dextrans includes a majority of maltodextrins relative to other saccharides therein; and
said neonatal bovine mammal physiological composition providing enough energy and protein to maintain a body weight and growth of said neonatal bovine mammal, and further comprising a microbial blend;
wherein said neonatal bovine mammal physiological composition is administered to said neonatal bovine mammal to treat or reduce dehydration in said neonatal bovine mammal.
15. The neonatal bovine mammal physiological composition of claim 14 , further comprising at least one additional agent selected from the group consisting of whey protein concentrate an emulsifier, anti-caking agent, one or more amino acids, artificial flavors, and vitamins.
16. A neonatal bovine mammal physiological composition for treating or reducing the likelihood of dehydration in a neonatal bovine mammal, said neonatal bovine mammal physiological composition comprising a source of nutrients, said nutrients including comprising crude protein from a milk protein source and electrolytes, wherein said nutrients include dextrans having at least two different saccharides in an effective amount for treating or reducing the likelihood of dehydration in said neonatal bovine mammal through administration thereof, wherein said neonatal bovine mammal physiological composition includes an amount of dextrans that is greater than an amount of any other of said nutrients and electrolytes;
wherein said dextrans includes a majority of maltodextrins relative to other saccharides therein; and said neonatal bovine mammal physiological composition providing enough energy and protein to maintain a body weight and growth of said neonatal bovine mammal, and further comprising between about 50-60% dextrans and said milk protein source to provide about 15% crude protein to said neonatal bovine mammal physiological composition;
wherein said neonatal bovine mammal physiological composition is administered to said neonatal bovine mammal to treat or reduce dehydration in said neonatal bovine mammal.
Priority Applications (1)
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US12/838,722 US20100279920A1 (en) | 2003-11-06 | 2010-07-19 | Critical care product for neonatal calves |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US10/702,406 US7850989B2 (en) | 2003-06-12 | 2003-11-06 | Critical care for neonatal calves |
US12/838,722 US20100279920A1 (en) | 2003-11-06 | 2010-07-19 | Critical care product for neonatal calves |
Related Parent Applications (1)
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US10/702,406 Continuation US7850989B2 (en) | 2003-06-12 | 2003-11-06 | Critical care for neonatal calves |
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US20100279920A1 true US20100279920A1 (en) | 2010-11-04 |
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US10/702,406 Expired - Fee Related US7850989B2 (en) | 2003-06-12 | 2003-11-06 | Critical care for neonatal calves |
US12/838,722 Abandoned US20100279920A1 (en) | 2003-11-06 | 2010-07-19 | Critical care product for neonatal calves |
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US10/702,406 Expired - Fee Related US7850989B2 (en) | 2003-06-12 | 2003-11-06 | Critical care for neonatal calves |
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Families Citing this family (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US7850989B2 (en) * | 2003-06-12 | 2010-12-14 | Provimi North America, Inc. | Critical care for neonatal calves |
CN104606228A (en) | 2005-12-02 | 2015-05-13 | 希尔氏宠物营养品公司 | Methods for altering stool quality and/or stool frequency |
US20090136588A1 (en) * | 2005-12-02 | 2009-05-28 | Hill's Pet Nutrition, Inc. | Methods For Altering Food Intake, Modifying Nutrient Digestibility and Altering Stool Quality and/or Stool Frequency |
US8529965B2 (en) | 2007-07-09 | 2013-09-10 | Hill's Pet Nutrition, Inc. | Compositions and methods for altering stool quality in an animal |
EP3984375A1 (en) * | 2020-10-16 | 2022-04-20 | Nukamel NV | Use of a low-lactose dairy-based milk replacer for bovines |
IT202100019613A1 (en) * | 2021-07-23 | 2023-01-23 | Kolfarma S R L | Pharmaceutical or dietary supplement formulation containing alpha-lactalbumin and butyric acid or a salt thereof |
Citations (22)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3873695A (en) * | 1972-07-27 | 1975-03-25 | Pepro | Rehydrating anti-diarrhoea composition |
US3898328A (en) * | 1973-12-03 | 1975-08-05 | Syntex Inc | Dry stable composition for the treatment of scours and dehydration |
US4167587A (en) * | 1977-06-22 | 1979-09-11 | Danforth Richard C | Compositions and process for colored liquid food or drink |
US4418091A (en) * | 1979-10-17 | 1983-11-29 | Centrale Veevoederfabriek "Sloten" | Process for preparing a dry, powdery milk product |
US4547377A (en) * | 1982-03-25 | 1985-10-15 | Takeda Chemical Industries, Ltd. | Stabilized solid compositions |
US4600585A (en) * | 1984-01-23 | 1986-07-15 | Merrick's, Inc. | Feeding regimen for minimizing weaning stress |
US4689319A (en) * | 1983-01-13 | 1987-08-25 | Colorado State University Research Foundation | Oral energy rich therapy for diarrhea in mammals |
US5038396A (en) * | 1983-10-03 | 1991-08-06 | Mogens Gjerlov | Preparation for rehydrating monogastric animals, including new-born calves, pigs and human beings suffering from diarrhoea and use thereof |
US5128167A (en) * | 1990-03-13 | 1992-07-07 | Amylum, Naamloze Vennootschap | Composition for the preparation of artificial calf milk and artificial calf milk prepared therefrom |
US5149552A (en) * | 1991-05-23 | 1992-09-22 | Kraft General Foods, Inc. | Calcium citrate anticaking agent |
US5296243A (en) * | 1990-01-04 | 1994-03-22 | Svenska Lantmannens Riksforbund Upa | Process to correct and optimize the composition of feed |
US5397786A (en) * | 1993-01-08 | 1995-03-14 | Simone; Charles B. | Rehydration drink |
US5635199A (en) * | 1995-10-27 | 1997-06-03 | Nestec Ltd. | Support of pediatric patients |
US5756132A (en) * | 1996-05-03 | 1998-05-26 | Domain, Inc. | Milk replacer for calves, and method |
US5785990A (en) * | 1995-07-10 | 1998-07-28 | Merrick's, Inc. | Feed fortifier and enhancer for preruminant calves and method of using same |
US5922375A (en) * | 1998-03-20 | 1999-07-13 | Wisconsin Alumni Research Foundation | Probiotic Bifidobacterium strain |
US6033689A (en) * | 1997-02-14 | 2000-03-07 | Milk Specialities Company | Animal feed composition of soluble sugar and dicarboxylic acid |
US20010031729A1 (en) * | 1999-12-30 | 2001-10-18 | Van Loon Lucas J.C. | Composition comprising carbohydrate and peptide material and its use as an energy supplement after or during physical exercise or as a metabolic nutrient for oral consumption |
US6465032B1 (en) * | 2000-04-17 | 2002-10-15 | Mars, Incorporated | Method of forming a reconstituted composition containing protein and carbohydrate at elevated total solids content |
US20020176881A1 (en) * | 2001-01-26 | 2002-11-28 | George Verlaan | Rehydration composition |
US20030064135A1 (en) * | 2001-04-02 | 2003-04-03 | Robert Portman | Sports drink composition for enhancing glucose uptake into the muscle and extending endurance during physical exercise |
US7850989B2 (en) * | 2003-06-12 | 2010-12-14 | Provimi North America, Inc. | Critical care for neonatal calves |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS61289846A (en) | 1985-06-18 | 1986-12-19 | Taiyo Kagaku Kk | Substitute milk for piglet and calf and method for growing same |
JPS61289845A (en) | 1985-06-18 | 1986-12-19 | Taiyo Kagaku Kk | Substitute milk for piglet and calf and method of growing same |
JPH07118162A (en) | 1991-10-09 | 1995-05-09 | Kyodo Shiryo Kk | Oral administration composition for livestock |
SE502700C2 (en) | 1994-04-14 | 1995-12-11 | Berol Nobel Ab | Methods of Preparing an Animal Feed Containing Castor Oil Ethoxylate, the Animal Feed Prepared and Its Use |
AU2926499A (en) | 1999-02-17 | 2000-09-04 | Amylum Belgium N.V. | Calf milk replacer |
CN108635857B (en) | 2018-05-18 | 2022-04-22 | 腾讯科技(深圳)有限公司 | Interface display method and device, electronic device and computer readable storage medium |
-
2003
- 2003-11-06 US US10/702,406 patent/US7850989B2/en not_active Expired - Fee Related
-
2010
- 2010-07-19 US US12/838,722 patent/US20100279920A1/en not_active Abandoned
Patent Citations (23)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3873695A (en) * | 1972-07-27 | 1975-03-25 | Pepro | Rehydrating anti-diarrhoea composition |
US3898328A (en) * | 1973-12-03 | 1975-08-05 | Syntex Inc | Dry stable composition for the treatment of scours and dehydration |
US4167587A (en) * | 1977-06-22 | 1979-09-11 | Danforth Richard C | Compositions and process for colored liquid food or drink |
US4418091A (en) * | 1979-10-17 | 1983-11-29 | Centrale Veevoederfabriek "Sloten" | Process for preparing a dry, powdery milk product |
US4547377A (en) * | 1982-03-25 | 1985-10-15 | Takeda Chemical Industries, Ltd. | Stabilized solid compositions |
US4689319A (en) * | 1983-01-13 | 1987-08-25 | Colorado State University Research Foundation | Oral energy rich therapy for diarrhea in mammals |
US5038396A (en) * | 1983-10-03 | 1991-08-06 | Mogens Gjerlov | Preparation for rehydrating monogastric animals, including new-born calves, pigs and human beings suffering from diarrhoea and use thereof |
US4600585A (en) * | 1984-01-23 | 1986-07-15 | Merrick's, Inc. | Feeding regimen for minimizing weaning stress |
US5296243A (en) * | 1990-01-04 | 1994-03-22 | Svenska Lantmannens Riksforbund Upa | Process to correct and optimize the composition of feed |
US5128167A (en) * | 1990-03-13 | 1992-07-07 | Amylum, Naamloze Vennootschap | Composition for the preparation of artificial calf milk and artificial calf milk prepared therefrom |
US5149552A (en) * | 1991-05-23 | 1992-09-22 | Kraft General Foods, Inc. | Calcium citrate anticaking agent |
US5397786A (en) * | 1993-01-08 | 1995-03-14 | Simone; Charles B. | Rehydration drink |
US6156333A (en) * | 1995-07-10 | 2000-12-05 | Merrick's, Inc. | Feed fortifier and enhancer for preruminant calves and method of using same |
US5785990A (en) * | 1995-07-10 | 1998-07-28 | Merrick's, Inc. | Feed fortifier and enhancer for preruminant calves and method of using same |
US5635199A (en) * | 1995-10-27 | 1997-06-03 | Nestec Ltd. | Support of pediatric patients |
US5756132A (en) * | 1996-05-03 | 1998-05-26 | Domain, Inc. | Milk replacer for calves, and method |
US6033689A (en) * | 1997-02-14 | 2000-03-07 | Milk Specialities Company | Animal feed composition of soluble sugar and dicarboxylic acid |
US5922375A (en) * | 1998-03-20 | 1999-07-13 | Wisconsin Alumni Research Foundation | Probiotic Bifidobacterium strain |
US20010031729A1 (en) * | 1999-12-30 | 2001-10-18 | Van Loon Lucas J.C. | Composition comprising carbohydrate and peptide material and its use as an energy supplement after or during physical exercise or as a metabolic nutrient for oral consumption |
US6465032B1 (en) * | 2000-04-17 | 2002-10-15 | Mars, Incorporated | Method of forming a reconstituted composition containing protein and carbohydrate at elevated total solids content |
US20020176881A1 (en) * | 2001-01-26 | 2002-11-28 | George Verlaan | Rehydration composition |
US20030064135A1 (en) * | 2001-04-02 | 2003-04-03 | Robert Portman | Sports drink composition for enhancing glucose uptake into the muscle and extending endurance during physical exercise |
US7850989B2 (en) * | 2003-06-12 | 2010-12-14 | Provimi North America, Inc. | Critical care for neonatal calves |
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US7850989B2 (en) | 2010-12-14 |
US20040253324A1 (en) | 2004-12-16 |
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