scholarly journals ANEMIA AND HYPOPROTEINEMIA

1947 ◽  
Vol 85 (3) ◽  
pp. 267-275 ◽  
Author(s):  
L. L. Miller ◽  
F. S. Robscheit-Robbins ◽  
G. H. Whipple
Keyword(s):  
Amino Acids ◽  
Body Weight ◽  
Plasma Protein ◽  
Nitrogen Balance ◽  
Essential Amino Acids ◽  
The Body ◽  
Liver Protein ◽  
Food Proteins ◽  
Positive Nitrogen Balance ◽  
Maintain Body Weight

Dogs with sustained anemia and hypoproteinemia due to bleeding and a continuing low protein or protein-free diet with abundant iron are used to test the value of food proteins as contrasted with mixtures of pure amino acids. The stimulus of double depletion (anemia and hypoproteinemia) drives the body to use every source of protein and all protein-building materials with the utmost conservation. Raiding of body tissue protein to produce plasma protein and hemoglobin is a factor when protein-building factors are supplied in small amounts. In this severe test (double depletion) the good food proteins in adequate amounts are able to maintain body weight, a strongly positive nitrogen balance, and produce considerable amounts of new hemoglobin and plasma protein. Casein, lactalbumin, whole egg protein, liver protein are all adequate in amounts of 150 to 250 gm. protein per week. Under comparable conditions mixtures of pure amino acids (essential for growth) do produce large amounts of new hemoglobin and plasma protein and a positive nitrogen balance but do not maintain body weight. The loss of weight is conspicuous even with large amounts of amino acids (200 to 300 gm. protein equivalent per week). Methionine, threonine, and phenylalanine are related to nitrogen conservation in growth mixtures of essential amino acids (Paper I) but when these three are given together they have little influence on the doubly depleted dog (Table 3). Some unidentified substance or compound present in certain proteins but absent in mixtures of the essential amino acids may be responsible for these differences in the response of the doubly depleted dog.

scholarly journals AMINO ACID MIXTURES EFFECTIVE PARENTERALLY FOR LONG CONTINUED PLASMA PROTEIN PRODUCTION. CASEIN DIGESTS COMPARED

1944 ◽  
Vol 79 (6) ◽  
pp. 607-624 ◽  
Author(s):  
S. C. Madden ◽  
R. R. Woods ◽  
F. W. Shull ◽  
G. H. Whipple
Keyword(s):  
Amino Acids ◽  
Intravenous Injection ◽  
Plasma Protein ◽  
Nitrogen Balance ◽  
Protein Production ◽  
Nitrogen Retention ◽  
Essential Amino Acids ◽  
Skin Lesions ◽  
Good Utilization ◽  
Rapid Injection

When blood plasma proteins are depleted by bleeding with return of red cells suspended in saline (plasmapheresis) it is possible to bring dogs to a steady state of hypoproteinemia and a constant level of plasma protein production if the diet nitrogen intake is controlled and limited. Such dogs are outwardly normal but have a lowered resistance to infection and to certain intoxications. The ten growth essential amino acids of Rose plus glycine will maintain nitrogen balance and produce as much new plasma protein as will good diet proteins. This good utilization is demonstrated over periods of several months when the amino acids are given either orally or parenterally. There is no evidence of toxicity in general nor to unnatural forms of these synthetic amino acids in particular. Given parenterally appropriate mixtures of these amino acids are well tolerated even upon rapid injection. The minimal daily requirements for a 10 kilo dog may be given intravenously in 10 minutes without reaction. Subcutaneously a 10 per cent solution may be given rapidly without reaction. Among various mixtures tested Vt approximates a minimum for a 10 kilo dog. It contains in grams (dl-threonine 0.7, dl-valine 1.5, l-(-) leucine 1.5, dl-isoleucine 1.4, dl-lysine hydrochloride 1.5, l(-) tryptophane 0.4, dl-phenylalanine 1.0, dl-methionine 0.6, l(+)-histidine hydrochloride 0.5, l(+)-arginine hydrochloride 0.5, and glycine 1.0. The presence of glycine improves tolerance to rapid intravenous injection, but excess glycine does not improve utilization of the mixture. Over a long period this mixture appears suboptimal in quantity. Doubled it is more than ample. Of two casein digests tested the one prepared by enzymatic hydrolysis provided good nitrogen retention and fairly good plasma protein production but was much less tolerable upon intravenous injection than certain mixtures of pure amino acids. The other one prepared by acid hydrolysis and tryptophane fortification afforded bare nitrogen equilibrium and produced virtually no plasma protein. Skin lesions observed after 10 to 20 weeks of synthetic diet probably reflect a deficiency of some member or members of the vitamin B2 group. A persistent slight weight loss in the face of a strongly positive nitrogen balance may accompany this deficiency.

scholarly journals TEN AMINO ACIDS ESSENTIAL FOR PLASMA PROTEIN PRODUCTION EFFECTIVE ORALLY OR INTRAVENOUSLY

1943 ◽  
Vol 77 (3) ◽  
pp. 277-295 ◽  
Author(s):  
S. C. Madden ◽  
J. R. Carter ◽  
A. A. Kattus ◽  
L. L. Miller ◽  
G. H. Whipple
Keyword(s):  
Amino Acids ◽  
Amino Acid ◽  
Plasma Protein ◽  
Nitrogen Balance ◽  
Protein Intake ◽  
Protein Production ◽  
The Body ◽  
Acid Mixture ◽  
Negative Nitrogen Balance ◽  
Growth Mixture

When blood plasma proteins are depleted by bleeding with return of the washed red cells (plasmapheresis) it is possible to bring dogs to a steady state of hypoproteinemia and a constant level of plasma protein production if the diet protein intake is controlled and limited. Such dogs are outwardly normal but have a lowered resistance to infection and to certain intoxications. When the protein intake of such dogs is completely replaced by the growth mixture (Rose) of crystalline amino acids, plasma protein production is excellent, weight and nitrogen balance are maintained. This growth mixture consists of ten amino acids, threonine, valine, leucine, isoleucine, tryptophane, lysine, phenylalanine, methionine, histidine, arginine, and is as effective as most diet proteins in plasma protein production. The above amino acid mixture in aqueous solution may be given by vein with equally good plasma protein production and no apparent clinical disturbance even when given rapidly. Cystine may replace methionine in the above mixture with equally good plasma protein production for 7 to 10 days but at the expense of the body tissues, that is, with weight loss and a negative nitrogen balance. The addition of cystine to the protein-free, otherwise adequate diet may result in the production of considerable new plasma protein during a period as long as 1 week (cystine effect). This reaction may depend upon the amino acid constitution of the preceding diet protein in that it occurred following a liver feeding but did not occur after pancreas feeding. Arginine is required in the diet of the protein depleted dog for fabrication of plasma protein. It is apparently not needed for nitrogen balance for as long as 1 or 2 weeks. The omission of either threonine or valine from the growth mixture is quickly followed by a sharp decline in plasma protein formation and by a negative nitrogen balance. When histidine, arginine, and most of the lysine are omitted from the growth mixture, nitrogen balance and weight may be maintained for as long as 1 week but plasma protein production falls off markedly. The findings indicate that the growth mixture of amino acids should be a valuable addition to transfusion and infusion therapy in disease states associated with deficient nitrogen intake or tissue injury and accelerated nitrogen loss, including shock, burns, and major operative procedures.

scholarly journals PLASMA PROTEIN AND HEMOGLOBIN PRODUCTION

1947 ◽  
Vol 85 (3) ◽  
pp. 243-265 ◽  
Author(s):  
F. S. Robscheit-Robbins ◽  
L. L. Miller ◽  
G. H. Whipple
Keyword(s):  
Amino Acids ◽  
Amino Acid ◽  
Plasma Protein ◽  
Nitrogen Balance ◽  
Essential Amino Acids ◽  
Amino Acid Mixture ◽  
Blood Protein ◽  
Acid Mixture ◽  
Amino Acid Mixtures ◽  
Urinary Nitrogen

Given healthy dogs fed abundant iron and protein-free or low protein diets with sustained anemia and hypoproteinemia, we can study the capacity of these animals to produce simultaneously new hemoglobin and plasma protein. Reserve stores of blood protein-building materials are measurably depleted and levels of 6 to 8 gm. per cent for hemoglobin and 4 to 5 gm. per cent for plasma protein can be maintained for weeks or months depending upon the intake of food proteins or amino acid mixtures. These dogs are very susceptible to infection and various poisons. Dogs tire of these diets and loss of appetite terminates many experiments. Under these conditions (double depletion) standard growth mixtures of essential amino acids are tested to show the response in blood protein output and urinary nitrogen balance. As a part of each tabulated experiment one of the essential amino acids is deleted from the complete growth mixture to compare such response with that of the whole mixture. Methionine, threonine, phenylalanine, and tryptophane when singly eliminated from the complete amino acid mixture do effect a sharp rise in urinary nitrogen. This loss of urinary nitrogen is corrected when the individual amino acid is replaced in the mixture. Histidine, lysine, and valine have a moderate influence upon urinary nitrogen balance toward nitrogen conservation. Leucine, isoleucine, and arginine have minimal or no effect upon urinary nitrogen balance when these individual amino acids are deleted from the complete growth mixture of amino acids during 3 to 4 week periods. Tryptophane and to a less extent phenylalanine and threonine when returned to the amino acid mixture are associated with a conspicuous preponderance of plasma protein output over the hemoglobin output (Table 4). Arginine, lysine, and histidine when returned to the amino acid mixture are associated with a large preponderance of hemoglobin output. Various amino acid mixtures under these conditions may give a positive urinary nitrogen balance and a liberal output of blood proteins but there is always weight loss, however we may choose to explain this loss. These experiments touch on the complex problems of parenteral nutrition, experimental and clinical.

scholarly journals HEMOGLOBIN AND PLASMA PROTEIN

1945 ◽  
Vol 81 (5) ◽  
pp. 405-422 ◽  
Author(s):  
L. L. Miller ◽  
F. S. Robscheit-Robbins ◽  
G. H. Whipple
Keyword(s):  
Amino Acids ◽  
Plasma Protein ◽  
Nitrogen Balance ◽  
The Body ◽  
Bile Pigment ◽  
Priority List ◽  
Body Protein ◽  
Protein Requirements ◽  
Protein Pool ◽  
Favorable Conditions

Hemoglobin (presumably its essential protein globin), given intraperitoneally to a protein-fasting dog, will be used effectively to supply the protein requirements of the body. Nitrogen balance may thus be maintained for 20 days under favorable conditions. New hemoglobin and plasma protein will be formed related to hemoglobin injections in depleted dogs where there is urgent need for these proteins (anemia and hypoproteinemia). Obviously this calls for supplementary amino acids which in globin are low and we assume these amino acids must be contributed from body protein stores. Plasma proteins (in plasma) tested in the same manner are completely utilized with no loss of nitrogen, positive nitrogen balance, weight balance, and no change in the albumin-globulin ratios. Hemoglobin (globin) is less effectively utilized as compared with plasma protein given parenterally and there is some increase in urinary nitrogen above control periods. The albumin-globulin ratio may be somewhat modified by hemoglobin injections intraperitoneally. Hemoglobin (globin) digests contribute effectively to body maintenance of nitrogen equilibrium. These digests are about as effective as whole hemoglobin in maintaining nitrogen balance but cause a rise in undetermined nitrogen not seen when hemoglobin alone is given intraperitoneally. Pigment radicles derived from hemoglobin given intraperitoneally are thrown away and appear as surplus bile pigment even when there is urgent need for all available nitrogenous material—given protein fasting, anemia, and hypoproteinemia in a bile fistula dog. The body evidently prefers to make rather than conserve the pyrrol aggregate (pigment radicle). We assume that the injected hemoglobin (globin) or hemoglobin digests contribute to the body protein pool and from this pool various proteins emerge to supply protein requirements of tissue or organ cells or to produce new hemoglobin or plasma protein if needed. We have no explanation as to what determines the pattern of this protein flow but new hemoglobin is very high on the priority list.

Supplementation of a low protein diet in an attempt to optimize egg mass output

1991 ◽  
Vol 71 (1) ◽  
pp. 211-220 ◽  
Author(s):  
John D. Summers ◽  
J. L. Atkinson ◽  
D. Spratt
Keyword(s):  
Amino Acids ◽  
Body Weight ◽  
Soybean Meal ◽  
Egg Production ◽  
Corn Oil ◽  
Control Diet ◽  
Essential Amino Acids ◽  
Egg Mass ◽  
Minimum Requirement ◽  
Low Protein

Pullets were brought into production on a low-protein corn, soybean meal diet to which various nutrients including essential amino acids, choline, corn oil and feathermeal were supplemented. Production commenced between 18 and 20 wk of age and up to at least 60% production, hens fed the low protein diets (10% CP) produced at least as many eggs and as great an egg mass as these given a 17% protein corn, soybean meal control diet. Pullets fed the corn, soybean meal test diets, peaked at around 80% as compared to slightly over 90% for the control. Egg production immediately fell for birds fed the test diets to around 70% for most of the test treatments. Body weight remained constant or fell after peak production for birds fed the test diets as compared to a normal increase for birds on the control diet. Egg size increased for the test diets at a rate which was comparable to that of the control birds. In a second experiment, with older hens, supplementation of the 10% protein test diet with methionine, lysine, arginine and tryptophan, resulted in intakes of these amino acids which met NRC minimum requirement levels. However, egg mass output was reduced approximately 11% compared to the 17% protein control diet. While intakes of several essential amino acids fell below requirement levels, the degree that valine was calculated to be deficient in both experiments corresponded closely with the reduction in egg mass output of hens fed the test as compared to the control diet. Key words: Lysine, methionine, egg weight, body weight, hens.

scholarly journals Penambahan Lisin pada Pakan Komersial terhadap Retensi Protein dan Retensi Energi Ikan Bawal Air Tawar (Colossoma macropomum) [Lysine Addition on Commercial Feed to the Protein Retention and Energy Retention Colossoma macropomum]

2017 ◽  
Vol 9 (2) ◽  
pp. 98 ◽  
Author(s):  
Afifa Khalida ◽  
Agustono Agustono ◽  
Widya Paramita
Keyword(s):  
Amino Acids ◽  
Essential Amino Acids ◽  
Quality Parameters ◽  
The Body ◽  
Colossoma Macropomum ◽  
Protein Retention ◽  
Body Tissues ◽  
Commercial Feed ◽  
Energy Retention ◽  
Range Test

                                                                   AbstrakAsam amino adalah komponen terkecil yang menyusun protein. Sejumlah asam amino akan dihubungkan satu sama lain melalui perantara ikatan peptida untuk membentuk protein. Asam amino telah dibagi menjadi dua; yaitu asam amino esensial dan asam amino non-esensial. Asam amino esensial adalah asam amino yang tidak dapat disintesis oleh tubuh ikan; karena itu asam amino esensial harus ada dalam pakan. Lisin adalah salah satu dari sepuluh asam amino esensial, fungsi lisin adalah untuk pertumbuhan dan perbaikan jaringan tubuh. Penelitian ini bertujuan untuk mengetahui pengaruh lisin dalam pakan komersial terhadap retensi protein dan retensi energi ikan bawal air tawar. Metode yang digunakan adalah desain eksperimen rancangan acak lengkap. Perlakuan yang digunakan adalah kadar lisin yang berbeda, yaitu P0 (0%), P1 (0,6%), P2 (1,2%), P3 (2,4%), P4 (4,8%) dan perlakuan  diulang 4 kali. Parameter utama yang diamati adalah retensi protein dan retensi energi pada air tawar bawal. Parameter yang diukur didukung oleh parameter kualitas air. Analisis data menggunakan Analisis Varian (ANOVA) dan untuk menentukan perlakuan terbaik digunakan Duncan's multiple range test. Hasil penelitian menunjukkan perbedaan yang signifikan (p <0,05) dalam retensi protein dan energi adalah daging ikan bawal air tawar. Retensi protein dan retensi energi dalam pengobatan P1 (0,6% lisin), P2 (1,2% lisin), P3 (2,4% lisin) dan P4 (4,8% lisin) berbeda secara signifikan dengan perlakuan P0 (kontrol). Kualitas air selama 40 hari perlakuan ditetapkan pada suhu 27-300 C, pH 7,5-8,5, amonia 4 mg / l dan oksigen terlarut 4 mg / l.                                                                 AbstractAmino acids are the smallest components that compose proteins. A number of amino acids will be conducted to one another through the intermediary of peptide bonds to form proteins. Amino acids have divided into two; those are essential amino acids and non-essential amino acids. The essential amino acids are amino acids that can not be synthesized by the body of fish; therefore the essential amino acids must be in feed. Lysine is one of the ten essentials amino acids , the function of lysine are for the growth and repair body tissues. This research was aimed to determine the effect of lysine in commercial feed on protein retention and energy retention of freshwater Bawal.The method used is experiment with a completely randomized design as an experimental design. The treatment used is different lysine levels , namely P0 ( 0 % ) , P1 ( 0.6 % ) , P2 ( 1.2 % ) , P3 ( 2.4 % ) , P4 (4.8 % ) and treatment was repeated 4 times. The main parameters were observed protein retention and energy retention on Bawal fresh water. Parameters measured were supported by water quality parameters. Analysis of the data using Analysis of Varian ( ANOVA ) and to determine the best treatment used Duncan 's multiple range test. The results showed the significant differences ( p < 0.05 ) in protein retention and energy were freshwater pomfret fish meat. Retention of protein and energy retention in treatment P1 ( 0.6 % lysine ) , P2 ( 1.2 % lysine ) , P3 ( 2.4 % lysine ) and P4 ( 4.8 % lysine ) was significantly different with treatment P0 ( control ). The quality of water for 40 days treatment was set to temperature 27-300 C, pH 7.5-8.5, ammonia 4 mg/l and dissolved oxygen 4 mg/l.

scholarly journals Health, body condition and blood metabolites in reindeer after submaintenance feed intake and subsequent feeding

Rangifer ◽  
2000 ◽  
Vol 20 (4) ◽  
pp. 187 ◽  
Author(s):  
A. Nilsson ◽  
Ö. Danell ◽  
M. Murphy ◽  
K. Olsson ◽  
B. Åhman
Keyword(s):  
Body Weight ◽  
Plasma Protein ◽  
Rangifer Tarandus ◽  
Plasma Concentrations ◽  
Experimental Period ◽  
Diet Group ◽  
The Body ◽  
Plasma Metabolites ◽  
Control Group ◽  
Feeding Period

The transition from experimentally induced poor nutritional conditions to feeding was studied with 69 eight-month-old female reindeer (Rangifer tarandus tarandus). During a pre-experimental period, all reindeer were fed a simulated winter diet with 80% lichens Cladina spp. and 20% Vaccinum myrtillus shrubs and Salix spp. leaves (lichen diet) ad lib. The reindeer were divided into five groups. A control group (group C) was fed the lichen diet ad lib. throughout the experiment. Four groups were fed half of that ration for eight days and were then totally deprived of feed for one day (restriction period). During the following 34 days (feeding period) the groups were re-fed the lichen diet (group L), fed pelleted reindeer feed combined with either lichen (group PL) or grass silage (group PS), or fed silage with a gradually increasing addition of pellets (group SP). Weekly measurements of blood samples and body weighr showed that the control group remained clinically healthy and had stable blood plasma concentrations of protein, urea, glucose and insulin throughout the experiment, but they lost weight. At slaughter, before and after the restriction period, all animals had lost rumen-free body weight, but the reindeer fed a restricted amount of feed lost more than the control group. Also the plasma metabolites were affected by the restricted feeding, with increased concentrations of urea and decreased concentrations of glucose. Group L responded immediately to the ad lib. feeding with blood metabolite levels rapidly approaching those of group C. The body weight developments were similar in groups L and C. Although the feed rations were increased gradually, diarrhoea occurred in some animals belonging to groups PL and PS within the first week of the feeding period. All reindeer recovered, after antibiotic treatment of the worst affected animals. The PL and PS groups, which had high contents of metabolisable energy and crude protein in their diets, showed increased con-centtations of plasma protein, urea and insulin. At the end of the feeding period, these groups had increased their body and carcass weights and gained fat, whereas reindeer fed the lichen diet had lost weight. Severe health problems (malnutrition and so-called wet belly) occurred in group SP during the first weeks of feeding and led to loss of animals, and consequently the SP group was excluded from the remainder of rhe experiment. The general conclusion is that the lichen diet did not cause any digestive problems, but resulted in a continuous decline in body weight and small or deficient fat reserves. After the initial diarrhoea, feeding with diets comprising pellets from the start resulted in improved condition, expressed as increased body weight, fat gain and higher concentrations of plasma protein, urea and insulin in relation to the control group. The diet initially based on grass in the form of silage of the given quality seemed insufficient as feed to reindeer calves in a poor nutritional state.

Sodium, Potassium and Nitrogen Balances in Chronic Nephrectomized Dogs

1956 ◽  
Vol 185 (1) ◽  
pp. 175-178
Author(s):  
C. Riley Houck
Keyword(s):  
Peritoneal Dialysis ◽  
Plasma Protein ◽  
Nitrogen Balance ◽  
Potassium Concentration ◽  
The Body ◽  
Sodium Balance ◽  
Sodium Potassium ◽  
Peritoneal Dialysate ◽  
Low Salt

Twelve bilaterally nephrectomized dogs on a low-salt, 54 cal/kg/day diet were maintained for periods up to 3 weeks by intermittent peritoneal dialysis. This procedure maintained the animals in normal sodium balance but provided both a negative potassium and nitrogen balance. The over-all loss of potassium occurred even though the dialysate potassium concentration was varied from 2.8–3.7 mEq/l. It is believed that the negative K and N balances are brought about by loss of plasma protein and some erythrocytes into the peritoneal dialysate. The data indicate that K and N are not lost from the body in the same ratio that they occur in tissues. Renoprival hypertension developes despite failure of the body to retain sodium and despite loss of both potassium and nitrogen from the body.

Cysteine/cystine-rich undenatured whey protein supplement in patients' pressure ulcers outcomes: an open label study

2019 ◽  
Vol 28 (Sup7) ◽  
pp. S16-S23 ◽  
Author(s):  
Jimmy B.L. Gutman ◽  
Patricia A.L. Kongshavn
Keyword(s):  
Amino Acids ◽  
Whey Protein ◽  
Nitrogen Balance ◽  
Best Practice ◽  
Pressure Ulcers ◽  
Protein Energy Malnutrition ◽  
Chronic Obstructive ◽  
Open Label ◽  
Antioxidant Defences ◽  
Positive Nitrogen Balance

Objective: The prevalence and costs associated with treating pressure ulcers (PU) are at high levels. Frequently, PUs heal slowly or not at all, which may be due to the patient's catabolic state which may include protein energy malnutrition. The objective of this open label clinical trial was to improve healing rates by providing patients with a patented, high-quality protein containing all essential amino acids to ensure positive nitrogen balance. An additional benefit of this protein is the delivery of bioavailable cysteine (cystine) to promote glutathione (GSH) synthesis which supports immune function and heightens antioxidant defences. Methods: Patients with category II, III and IV PUs were fed 20g BID whey protein dietary supplement for 16–120 days, without change in ongoing ‘best practice’ PU management and their progress recorded. Results: A total of 10 patients were recruited, with an average age of 77 years. Most had shown no improvement in healing for ≥2 months before treatment and usually had other complications including chronic obstructive pulmonary disease (COPD), diabetes and various cardiovascular diseases. There were a total of 23 PUs, with some patients having more than one. Of these, 44% (n=10) showed complete resolution 83% (n=19) had better than 75% resolution over the observation period. Healing rates ranged from 16.9–0.2cm2/month (healed PUs) and 60.0–1.6cm2/month for resolving PUs. Conclusion: By providing the necessary amino acids to rebuild tissues and bioactive cysteine (cystine) to promote synthesis of intracellular GSH and positive nitrogen balance, improvement in PUs healing was achieved.

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