THE EFFECT OF FASTING ON THE SERUM PROTEIN CONCENTRATION OF THE RAT

1. Experiments were carried out to test the hypothesis that there exists a special circulating fraction of plasma protein available for use by the tissues. 2. The changes in serum protein concentration after varying periods of fasting were followed in large numbers of individual rats. 3. Previous reports from this laboratory of a small initial drop in the total protein concentration of the serum, with subsequent maintenance of the serum protein at the new level are confirmed. 4. Evidence is offered that this initial fall involves chiefly or solely the albumin fraction. 5. The mechanism responsible for the observed initial drop and subsequent maintenance of the protein is not exactly known, but two definite factors are age and individual resistance. 6. It is concluded that no satisfactory evidence is available to support the hypothesis of a directly utilizable protein fraction in the blood.

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Serum glycoproteins in growing pups

American Journal of Physiology-Legacy Content ◽

10.1152/ajplegacy.1962.203.1.119 ◽

1962 ◽

Vol 203 (1) ◽

pp. 119-121 ◽

Cited By ~ 1

Author(s):

Otakar V. Sirek ◽

Anna Sirek

Keyword(s):

Weight Gain ◽

Sialic Acid ◽

Serum Protein ◽

Total Protein ◽

Protein Concentration ◽

Total Serum Protein ◽

Total Serum ◽

Albumin Fraction ◽

The Individual ◽

Serum Protein Concentration

Total protein-bound hexose, hexosamine, and sialic acid were determined in sera of six littermate mongrel pups at monthly intervals from the 4th day after birth up to the age of 7 months. The concentration of the individual constituents fluctuated considerably from month to month, but the values showed neither a definite trend nor a relationship to weight gain. When the carbohydrate moiety was expressed as percentage of total serum protein concentration, the values were high in newborn pups and diminished after the 1st month of life. This was due to a rise in the concentration of total serum protein, brought about by an increase of the albumin fraction which is low in carbohydrate.

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ALTERATIONS IN TOTAL PROTEIN CONCENTRATION, SERUM PROTEIN FRACTIONS AND ALBUMIN/GLOBULIN RATIO IN HEALTHY RABBITS

International Research Journal of Pharmacy ◽

10.7897/2230-8407.04822 ◽

2013 ◽

Vol 4 (8) ◽

pp. 128-130 ◽

Cited By ~ 1

Author(s):

Nuzhat Sultana ◽

Rahila Najam

Keyword(s):

Serum Protein ◽

Total Protein ◽

Protein Concentration ◽

Protein Fractions ◽

Total Protein Concentration

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Albumin fraction and measurement of total protein concentration

AJP Heart and Circulatory Physiology ◽

10.1152/ajpheart.1993.264.5.h1723 ◽

1993 ◽

Vol 264 (5) ◽

pp. H1723-H1726 ◽

Cited By ~ 1

Author(s):

B. T. Peterson ◽

R. W. Tate

Keyword(s):

Total Protein ◽

Protein Concentration ◽

Gamma Globulin ◽

Colorimetric Assay ◽

Full Range ◽

Computational Method ◽

Total Protein Concentration ◽

Albumin Fraction ◽

Standard Curve ◽

Protein Assays

The standard curve of a typical colorimetric assay for total protein is often nonlinear and dependent on the albumin fraction of the protein standard. We developed a simple mathematical transformation to make the standard curve linear and a computational method to correct for differences in albumin concentrations among the samples. This method uses data from total protein assays on two sets of standards (albumin and gamma globulin) and provides accurate measures of total protein over the full range of albumin fractions. Comparison of this two-standard method with the a method that uses only albumin as a standard shows that this method prevents physiologically significant overestimations in total protein concentration and calculated protein osmotic pressure differences in the lungs.

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Effect of protein concentration on the determination of digoxin in serum by fluorescence polarization immunoassay.

Clinical Chemistry ◽

10.1093/clinchem/30.11.1826 ◽

1984 ◽

Vol 30 (11) ◽

pp. 1826-1829 ◽

Cited By ~ 13

Author(s):

W H Porter ◽

V M Haver ◽

B A Bush

Keyword(s):

Serum Protein ◽

Total Protein ◽

Fluorescence Polarization ◽

Protein Concentration ◽

Total Serum Protein ◽

Total Serum ◽

Fluorescence Polarization Immunoassay ◽

Total Protein Concentration ◽

Protein Pellet

Abstract Determination of digoxin by fluorescence polarization immunoassay (FPIA) with the Abbott "TDx" is significantly influenced by the concentration of total serum protein. Each 10 g/L increase in serum protein results in an 8% decrease in measured digoxin. Studies with [3H]digoxin confirmed that digoxin binds to the protein pellet during the trichloroacetic acid precipitation step before the immunoassay. Serum protein, or equal concentrations of albumin or gamma-globulin, exert an equivalent effect on the apparent digoxin value. Because the total protein concentration of the assay calibrators is low (50 g/L) compared with its reference interval in serum (60-80 g/L), results by FPIA may be expected to be low by an average of 16% (range, 8-24%). Digoxin results by FPIA will be most nearly accurate when the calibrators include a total protein concentration of about 70 g/L. Patients' specimens with abnormally high or low protein content will give falsely high or low results for digoxin.

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Change in Macro Molecular Composition of Interstitial Fluid from Swollen Arms after Breast Cancer Treatment, and Its Implications

Clinical Science ◽

10.1042/cs0850737 ◽

1993 ◽

Vol 85 (6) ◽

pp. 737-746 ◽

Cited By ~ 41

Author(s):

D. O. Bates ◽

J. R. Levick ◽

P. S. Mortimer

Keyword(s):

Breast Cancer ◽

Serum Protein ◽

Total Protein ◽

Protein Concentration ◽

Interstitial Fluid ◽

Albumin Concentration ◽

Percentage Increase ◽

Arm Swelling ◽

Oedema Fluid ◽

Serum Protein Concentration

1. The pathophysiology of chronic arm oedema after treatment of breast cancer was investigated by collecting serum and subcutaneous interstitial fluid from the affected and contralateral arms by the wick method (both arms) and by aspiration (oedematous arm). The fluids were analysed for total protein, albumin, glycosaminoglycan and viscosity, and arm volume was measured. 2. Total protein concentration in the aspirated oedema fluid was 32.4 + 7.5 g/l (mean + SD throughout; n = 39). Protein concentration in wick fluid from the oedematous arm (35.8 + 7.3 g/l, n = 14) was not significantly different from that in aspirated fluid. The oedema protein concentrations were significantly lower than in wick fluid from the non-swollen arm (41.4 + 6.7 cmH2O, n = 13, P <0.01, analysis of variance). This was surprising in view of the common assumption that, the condition being of lymphatic origin, the oedema protein concentration should be raised. 3. The ratio of aspirate protein concentration to serum protein concentration showed a weak but highly significant negative correlation with the percentage increase in arm volume (r = −0.47, n = 35, P <0.005), again in contrast to conventional expectation. The demonstration of a reduced protein concentration in the swollen arm did not therefore depend solely on a comparison with the wick control results. The volume increased by on average 33% and the ratio of aspirate protein concentration to serum protein concentration averaged 0.52 + 0.11 on the swollen side and 0.64 + 0.13 on the unaffected side. 4. Serum protein concentration in the patients with arm swelling (61.2 + 4.9 g/l) was significantly lower than that in postmastectomy patients without this complication (65.0 + 6.2 g/l). Most of the decrease occurred in the albumin fraction (oedema patients, 383 + 5.1 g/l; control patients, 42.0 + 2.1 g/l). In oedema patients receiving the anti-oestrogen tamoxifen serum albumin concentration was on average 23 g/l lower than in oedema patients not under medication (P <0.05, t-test). 5. Glycosaminoglycan concentration in oedema fluid was 0.8 +0.14 g/l (n = 21) and 75% was sulphated. Along with the plasma protein this raised the relative viscosity of the fluid to 1.34 + 0.16 (n = 11). 6. The reduction in interstitial protein concentration in the swollen arm, contrary to expectation in lymph-oedema, could be explained in several ways. One possible hypothesis in light of reported haemodynamic abnormalities in such arms is that capillary pressure rises, increasing capillary filtration rate. We conclude that the pathophysiology of postmastectomy oedema involves additional factors besides axillary node trauma, and we suggest that input (filtration) as well as output (lymph flow) requires evaluation.

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Total protein, selected protein fractions and chemical elements in the colostrum and milk of mares (Short Communication)

Archives Animal Breeding ◽

10.5194/aab-52-1-2009 ◽

2009 ◽

Vol 52 (1) ◽

pp. 1-6

Author(s):

A. Cieśla ◽

R. Palacz ◽

J. Janiszewska ◽

D. Skórka

Keyword(s):

Environmental Conditions ◽

Total Protein ◽

Protein Fraction ◽

Protein Concentration ◽

Short Communication ◽

Chemical Elements ◽

Protein Fractions ◽

Total Protein Concentration ◽

Dynamic Changes ◽

Milk Samples

Abstract. The study material consisted of the colostrum and milk of five noble half-blood mares housed under the same environmental conditions. Colostrum samples were collected 24 h after foaling, whereas milk samples were taken five times, every 30 days, with the first sampling on lactation day 30 (1st month). In the samples were determined the concentrations of total protein, pre-albumins, albumins, α- and β-globulins, immunoglobulins and calcium (Ca), magnesium (Mg) and zinc (Zn). The presence of pre-albumins was observed only in mare colostrum. Total protein concentration was at the same level in the colostrum and in the milk in the 1st lactation month, whereas protein fraction concentrations underwent dynamic changes during the 1st month of lactation. When compared to the values determined in the colostrum, the level of α-globulins increased 8 times during lactation, whereas that of immunoglobulins decreased almost 4 times. The highest concentrations of Ca, Mg and Zn were found in mare colostrum, with a decrease in the concentration of all chemical elements in the 1st month of lactation, confirmed statistically in case of Mg and Zn.

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Continuous measurement of protein osmotic pressure in blood and lymph of sheep

Journal of Applied Physiology ◽

10.1152/jappl.1988.64.2.869 ◽

1988 ◽

Vol 64 (2) ◽

pp. 869-873 ◽

Cited By ~ 1

Author(s):

S. Yamada ◽

M. Grady ◽

N. C. Staub

Keyword(s):

Osmotic Pressure ◽

Total Protein ◽

Protein Concentration ◽

Continuous Measurement ◽

Excellent Correlation ◽

Total Protein Concentration ◽

Albumin Fraction ◽

Continuous Measurements ◽

The Relationship

We have continuously measured protein osmotic pressure of blood and lymph in sheep to compare two kinds of needle osmometers (rigid and flexible) with a membrane osmometer (Wescor). We also compared the averaged values of the continuous measurement with osmotic pressure calculated from total protein and albumin fraction, using the Yamada equation. The rigid-needle and membrane osmometers showed excellent correlation (y = 1.00x + 0.06; r greater than 0.99). The flexible-needle osmometer tended to overestimate osmotic pressure (avg 16%). We used the rigid-needle osmometer for continuous measurements of protein osmotic pressure of blood and lymph in anesthetized or unanesthetized sheep to observe changes in protein osmotic pressure of blood and lymph through the three different interventions. The relationship between the theoretical values (x) and the continuous measurements (y) of osmotic pressure was good (y = 0.99x + 0.16, r = 0.97), but after various interventions, the continuously measured protein osmotic pressure tended to exceed the calculated measurements. The continuous measurement should be monitored with spot samples measured in a stationary osmometer or by calculation of osmotic pressure from total protein concentration and albumin fraction.

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