Total Protein | E3 Learning

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Quick Reference

Normal Range: 6.0-8.3 g/dL
SI Units: 60-83 g/L
Normal A/G Ratio: 1.2-2.2
Protein Gap (Normal): 2.5-3.5 g/dL
Sample Type: Serum
Key Point: Total of albumin + globulins; interpret with albumin for meaningful assessment

Test Description

What is Total Protein?

Total protein measures the combined concentration of all proteins in the blood serum, primarily consisting of albumin and globulins.

What Information Does It Provide?

Liver synthetic function
Nutritional status
Immune system activity

The Two Major Fractions

Total protein is composed of:

Albumin (60%):
- Normal range: 3.5-5.5 g/dL
- Synthesized exclusively by the liver
- Maintains oncotic pressure and transports substances
- Marker of liver synthetic function and nutritional status
Globulins (40%):
- Normal range: 2.0-3.5 g/dL
- Includes alpha-1, alpha-2, beta, and gamma globulins (immunoglobulins)
- Produced by the liver and immune system

Total Protein Relationship

Total Protein = Albumin + Globulins

The globulin concentration is calculated by subtracting albumin from total protein. This calculated value is used to determine the albumin/globulin (A/G) ratio.

Globulin Fractions

Serum protein electrophoresis (SPEP) can separate globulins into specific fractions:

Alpha-1 globulins: Include alpha-1 antitrypsin, alpha-1 acid glycoprotein (acute phase reactants)
Alpha-2 globulins: Include haptoglobin, ceruloplasmin, alpha-2 macroglobulin
Beta globulins: Include transferrin, complement components, beta-lipoproteins
Gamma globulins: Immunoglobulins (IgG, IgA, IgM, IgD, IgE) produced by plasma cells

Sample Collection

Total protein is typically measured from a serum sample obtained by standard venipuncture. The test is performed using automated chemistry analyzers with biuret or dye-binding methods. Patient position and prolonged tourniquet application can affect results.

Normal Ranges

Total protein levels are relatively consistent across adult populations, with minor variations based on age and hydration status. Reference ranges may vary slightly between laboratories depending on the assay method used.

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Population	Normal Range (g/dL)	SI Units (g/L)
Adults (general)	6.0-8.3	60-83
Albumin Component	3.5-5.5	35-55
Globulin Component	2.0-3.5	20-35
A/G Ratio	1.2-2.2	1.2-2.2
Protein Gap (TP - Albumin)	2.5-3.5	25-35

Important Considerations

Position effects: Total protein increases by approximately 0.3-0.5 g/dL when standing versus lying down due to fluid shifts
Tourniquet time: Prolonged tourniquet application (>1 minute) can increase protein concentration by 5-10% due to hemoconcentration
Hydration status: Dehydration increases total protein, while overhydration (IV fluids) decreases it
Pregnancy: Total protein decreases in pregnancy due to hemodilution and increased blood volume
Age variations: Elderly patients may have slightly lower total protein due to decreased albumin synthesis

Clinical Significance

Elevated Total Protein (Hyperproteinemia)

Elevated total protein is less common than low protein and is typically due to increased globulin production, dehydration, or monoclonal gammopathies. True elevations usually require further investigation with serum protein electrophoresis.

        Dehydration and Hemoconcentration
        Volume depletion: Decreased plasma volume concentrates all proteins proportionally
Severe vomiting or diarrhea: Leads to fluid loss and hemoconcentration
Inadequate fluid intake: Particularly in elderly or critically ill patients
Diabetic ketoacidosis: Osmotic diuresis causes fluid loss and relative hyperproteinemia

      

        Chronic Inflammatory States
        Chronic infections: Tuberculosis, osteomyelitis, endocarditis cause increased immunoglobulin production
Autoimmune diseases: Systemic lupus erythematosus, rheumatoid arthritis, sarcoidosis
Chronic liver disease: Cirrhosis with portal hypertension leads to polyclonal gammopathy
Inflammatory bowel disease: Crohn's disease and ulcerative colitis increase acute phase proteins

      

        Monoclonal Gammopathies (Most Critical)
        Multiple myeloma: Malignant proliferation of plasma cells producing monoclonal immunoglobulin (M-protein spike on SPEP)
Waldenström macroglobulinemia: Lymphoplasmacytic lymphoma producing IgM monoclonal protein
MGUS: Monoclonal gammopathy of undetermined significance - premalignant condition requiring monitoring
Light chain disorders: May not elevate total protein if kidney dysfunction causes protein loss

      

Decreased Total Protein (Hypoproteinemia)

Low total protein is more common clinically and can result from decreased synthesis (liver disease, malnutrition), increased loss (renal, gastrointestinal), or dilution (fluid overload). The pattern of albumin and globulin changes helps identify the underlying cause.

        Decreased Synthesis - Liver Disease
        Chronic liver disease/cirrhosis: Impaired hepatic synthesis of albumin; albumin falls first and most dramatically
Acute hepatic failure: Severe hepatocellular injury reduces protein synthesis capacity
Hepatocellular carcinoma: Advanced disease impairs synthetic function
Alcoholic liver disease: Chronic alcohol consumption damages hepatocytes and reduces albumin production

      

        Decreased Synthesis - Malnutrition
        Protein-calorie malnutrition: Kwashiorkor (protein deficiency) and marasmus (calorie deficiency)
Malabsorption syndromes: Celiac disease, Crohn's disease, short bowel syndrome
Chronic illness: Cancer cachexia, COPD, heart failure reduce protein intake and increase catabolism
Eating disorders: Anorexia nervosa, severe dietary restriction

      

        Protein Loss - Renal
        Nephrotic syndrome: Glomerular damage allows massive proteinuria (>3.5 g/day), primarily albumin loss
Diabetic nephropathy: Progressive glomerular damage leads to increasing proteinuria
Glomerulonephritis: Inflammatory damage to glomeruli increases permeability
Amyloidosis: Protein deposition in kidneys causes nephrotic-range proteinuria

      

        Protein Loss - Gastrointestinal
        Protein-losing enteropathy: Inflammatory bowel disease, intestinal lymphangiectasia
Severe burns: Extensive protein loss through damaged skin and increased catabolism
Chronic diarrhea: Protein lost in stool from mucosal inflammation or infection
Exudative ascites: Protein-rich fluid accumulation in peritoneal cavity

      

        Dilutional Hypoproteinemia
        Intravenous fluid administration: Large volume crystalloid resuscitation dilutes serum proteins
SIADH: Syndrome of inappropriate antidiuretic hormone causes water retention and dilution
Congestive heart failure: Fluid retention dilutes protein concentration
Pregnancy: Physiologic increase in plasma volume causes relative hypoproteinemia

            

Interpretation Guidelines

Albumin/Globulin (A/G) Ratio

The A/G ratio provides valuable diagnostic information by comparing the two major protein fractions. The ratio is calculated by dividing albumin by globulins (total protein minus albumin).

A/G Ratio Calculation

A/G Ratio = Albumin ÷ (Total Protein - Albumin)

Normal range: 1.2-2.2. Values outside this range suggest disproportionate changes in albumin or globulin fractions.

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A/G Ratio	Interpretation	Common Causes
Low (<1.2)	Decreased albumin or increased globulins	Chronic liver disease, nephrotic syndrome, myeloma, chronic inflammation
Normal (1.2-2.2)	Proportional protein fractions	Normal state or proportional changes (dehydration, dilution)
High (>2.2)	Increased albumin or decreased globulins	Immunodeficiency, leukemia, genetic agammaglobulinemia (rare)

Protein Gap Analysis

The protein gap (calculated globulin level) is obtained by subtracting albumin from total protein. An elevated protein gap (>3.5 g/dL) suggests increased globulin production and warrants further investigation with serum protein electrophoresis (SPEP).

        When Protein Gap is Elevated (>3.5 g/dL)
        Order SPEP: To identify monoclonal vs polyclonal gammopathy
Monoclonal pattern (M-spike): Suggests myeloma, MGUS, Waldenström's - requires hematology referral
Polyclonal pattern: Diffuse elevation of gamma globulins suggests chronic inflammation, infection, or autoimmune disease
Consider UPEP: Urine protein electrophoresis to detect light chains (Bence Jones protein)

      

Pattern Recognition

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Pattern	Total Protein	Albumin	A/G Ratio	Typical Cause
Liver Disease	Low-Normal	Low	Low	Decreased synthesis of albumin > globulins
Nephrotic Syndrome	Low	Very Low	Low	Selective loss of albumin in urine
Multiple Myeloma	High-Normal	Low-Normal	Low	Monoclonal protein production (check SPEP)
Chronic Inflammation	Normal-High	Normal-Low	Low	Polyclonal globulin increase (check SPEP)
Dehydration	High	High	Normal	Hemoconcentration (proportional increase)
IV Fluid Overload	Low	Low	Normal	Dilution (proportional decrease)

When to Order Additional Testing

Consider serum protein electrophoresis (SPEP) when:

Protein gap >3.5 g/dL (calculated globulins elevated)
Unexplained elevation in total protein without dehydration
Low A/G ratio (<1.0) without obvious cause
Clinical suspicion of multiple myeloma (anemia, bone pain, renal insufficiency, hypercalcemia - CRAB criteria)
Recurrent infections suggesting immunodeficiency or immunoglobulin disorder

Consider urine protein electrophoresis (UPEP) when:

SPEP shows monoclonal protein (to detect Bence Jones protein/light chains)
Clinical suspicion of light chain disease despite normal SPEP
Nephrotic-range proteinuria to characterize protein type

Interfering Factors

Factors That Increase Total Protein

Patient position: Standing or sitting increases total protein by 0.3-0.5 g/dL compared to lying down due to fluid shift from intravascular to interstitial space
Prolonged tourniquet application: Venous stasis for >1 minute causes hemoconcentration and can increase protein by 5-10%
Dehydration: Any cause of volume depletion concentrates serum proteins proportionally
Exercise: Strenuous exercise before blood draw can transiently increase protein levels
Medications: Anabolic steroids, growth hormone, insulin (increase protein synthesis)

Factors That Decrease Total Protein

IV fluid administration: Crystalloid resuscitation dilutes serum proteins; can be significant in critically ill patients
Recumbent position: Lying flat for extended periods (hospitalized patients) causes fluid shift and dilution
Pregnancy: Hemodilution from increased blood volume physiologically decreases total protein
Medications: Drugs causing protein loss or decreased synthesis
- Estrogens (decrease albumin synthesis)
- Oral contraceptives (similar to estrogen effect)
- Nephrotoxic drugs (NSAIDs, aminoglycosides causing proteinuria)
- Chemotherapy agents (may suppress hepatic protein synthesis)
Hemolysis: Can interfere with some assay methods, causing falsely low results

Preanalytical Variables

Sample handling: Delayed processing or improper storage can affect results
Lipemia: Severe hypertriglyceridemia can interfere with biuret method, causing falsely elevated results
Icterus: Severe hyperbilirubinemia may interfere with certain assays
Paraproteins: Very high monoclonal proteins can cause assay interference

Assay Method Differences

Total protein can be measured by different methods:

Biuret method: Most common, measures peptide bonds - considered reference method
Dye-binding methods: Coomassie blue or other dyes - may give slightly different results than biuret
Refractometry: Less commonly used, can be affected by other dissolved substances

Reference ranges should be method-specific. Results from different methods may not be directly comparable.

Clinical Pearls

"Always interpret total protein WITH albumin": Total protein in isolation has limited value. The relationship between total protein, albumin, and calculated globulins (protein gap and A/G ratio) provides the diagnostic information. A normal total protein can hide significant abnormalities in individual fractions.
The "60/40 rule": Albumin normally comprises ~60% of total protein, globulins ~40%. This creates the normal A/G ratio of 1.2-2.2. When this ratio is disrupted, investigate why one fraction is disproportionately affected.
Protein gap >4 g/dL = SPEP: When calculated globulins (total protein minus albumin) exceed 4.0 g/dL, there's likely a significant increase in immunoglobulins. Order SPEP to distinguish between monoclonal (M-spike suggesting myeloma/MGUS) and polyclonal (broad-based elevation suggesting inflammation) patterns.
Don't miss dilutional hypoproteinemia: In hospitalized patients receiving IV fluids or those with heart failure/SIADH, low total protein may simply reflect dilution. Check trends before and after fluid administration, and correlate with hematocrit to identify hemodilution.
Nephrotic syndrome triad: Look for the pattern of very low albumin + low total protein + normal-to-low A/G ratio. This selective loss of albumin (smaller protein preferentially filtered) is the hallmark of glomerular disease. Check urine protein, lipid panel (hyperlipidemia), and look for edema.
Cirrhosis creates a paradox: Advanced liver disease shows low albumin (decreased synthesis) but may have normal or even elevated globulins (polyclonal increase from gut antigen exposure and immune dysregulation). Result: low-normal total protein with low A/G ratio. SPEP shows diffuse polyclonal pattern.
"CRAB" criteria for myeloma screening: When elevated protein gap or M-spike is found, evaluate for myeloma complications: Calcium (hypercalcemia), Renal dysfunction, Anemia, Bone lesions. Add quantitative immunoglobulins, free light chains, and skeletal survey.
Position matters more than you think: Blood drawn with patient sitting versus lying can differ by 0.5 g/dL for total protein. For trending values in hospitalized patients, note whether labs were drawn from bedridden patient versus patient sitting in chair or standing.
Tourniquet time = hemoconcentration: If tourniquet is left on for several minutes during difficult venipuncture, protein can be falsely elevated by 5-10%. If total protein seems unexpectedly high, consider repeating with optimal technique.
High total protein + normal albumin = hyperglobulinemia: When total protein is elevated but albumin is normal, globulins must be increased. This narrows the differential to dehydration (both up proportionally - check albumin), chronic inflammation (polyclonal), or monoclonal gammopathy (order SPEP immediately).
MGUS is common in elderly: Monoclonal gammopathy of undetermined significance (MGUS) affects ~3% of people over 50 and ~5% over 70. Small M-spike on SPEP with protein gap 3.5-4.5 g/dL may represent MGUS. Requires monitoring as ~1% per year progress to myeloma.
Albumin falls before total protein in malnutrition: In protein-calorie malnutrition, albumin (shorter half-life marker of visceral protein stores) decreases before total protein becomes obviously low. Low-normal total protein with disproportionately low albumin suggests early nutritional deficiency.
Burns cause dramatic protein loss: Extensive burns (>20% BSA) lose significant protein through exudative wounds and have increased catabolism. Total protein and albumin fall rapidly. Aggressive nutritional support is critical, but expect persistently low values during acute phase.
Pregnancy reference ranges differ: Normal pregnancy causes physiologic decrease in total protein and albumin due to expanded blood volume (hemodilution). Don't overcall hypoproteinemia in pregnant patients - use pregnancy-specific reference ranges (total protein may be 5.5-7.5 g/dL in third trimester).
Isolated low globulins are rare: If total protein is low but albumin is normal, calculated globulins must be low. This is uncommon and suggests immunodeficiency (primary or secondary), protein-losing enteropathy affecting globulins, or assay error. Verify with repeat testing and immunoglobulin quantification.

References

Kratz, A., Ferraro, M., Sluss, P. M., & Lewandrowski, K. B. (2004). Laboratory reference values. New England Journal of Medicine, 351, 1548-1564.
Lee, M. (Ed.). (2009). Basic skills in interpreting laboratory data. Ashp.
Farinde, A. (2021). Lab values, normal adult: Laboratory reference ranges in healthy adults. Medscape. https://emedicine.medscape.com/article/2172316-overview?form=fpf
Nickson, C. (n.d.). Critical Care Compendium. Life in the Fast Lane • LITFL. https://litfl.com/ccc-critical-care-compendium/
Farkas, Josh MD. (2015). Table of Contents - EMCrit Project. EMCrit Project. https://emcrit.org/ibcc/toc/

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