Lecture 5 - Fall 2024 Laboratory Assays PDF

Summary

Lecture 5 details the interpretation of laboratory assays, covering laboratory data, specimen types, blood, chemistry panels, and other relevant topics. The lecture notes are suitable for an undergraduate-level medical or biological science course.

Full Transcript

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Interpretation of Laboratory Assays

LECTURE 5 – FALL 2024

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Laboratory Data
v What is the purpose for laboratory assays?
o Estimate nutrient availability in biologic fluids and tissues
o Identify clinical and subclinical nutrient deficiencies
o Low nutrient concentration causes
§ Inadequate dietary intake
§ Increased nutrient needs
§ Inadequate absorption
§ Abnormal utilization
§ Increased excretion
o Not always assessment of nutritional status (unless measuring a specific
nutrient), rather provides physiologic and metabolic information, which
may be related or relevant to nutritional status
o Monitor patient’s response to nutritional intervention
o Support subjective judgment and clinical assessment findings

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Laboratory Data Interpretation
v Considerations
o No single lab test can diagnose; need to use support data
§ Physical findings
§ Anthropometrics
§ Reported symptoms
§ Diet analysis
§ Additional lab values
o Direction and trends
o Improvement in lab data may not confer clinical benefit
o Treat the patient and not the lab value
§ Results not consistent with the clinical picture should be repeated
o Blood levels can be controlled by homeostatic mechanisms and may not
reflect storage; Ideally – test should evaluate tissue stores or nutrient
function when looking for deficiency
§ Example: Serum Calcium

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Specimen Types
v Whole blood
v Serum
v Plasma
v Blood spots
v Urine
v Feces
v Less common: saliva, sweat, hair, nails
v Other tissues: scraping, biopsy samples

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Blood
v Total volume of blood is approximately 5-6 liter (8% body weight)
v PH of the blood: 7.36-7.44
v Plasma vs Serum
o Plasma: Transparent liquid component of blood; water, blood proteins,
inorganic electrolytes, clotting factors
o Serum: Watery portion of the blood that remains after removal of the
cells and clot-forming material

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Chemistry Panels
v Basic Metabolic Panel (BMP)
o Blood glucose, electrolyte and fluid balance, renal function
o Glucose, Ca, Na, K, Cl, HCO3, BUN, Cr
v Comprehensive Metabolic Panel (CMP)
o Basic Metabolic Panel + 6 additional tests
o Albumin, Total Protein, ALP, ALT, AST, Bilirubin

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Chemistry Panels
v Electrolyte Panel
o Helps detect problems in fluid and electrolyte balance
o Typically includes Na, K, Cl, Bicarbonate

v Lipid Profile
o Total cholesterol, HLD, LDL, Triglycerides

v Liver Panel (Hepatic Function Panel, Liver Function Tests, LFTs)
o ALT, ALP, AST, Bilirubin, Albumin, Total Protein
o May also include GGT, LD, PT, AFP, autoimmune antibodies (ie ANA, SMA)

v Renal Panel (Kidney Function Panel)
o Na, K, Cl, CO2, Phosphorus, Ca, Albumin, BUN, Cr
o May also include BUN/Cr ratio, eGFR, anion gap

v Thyroid Function
o TSH (thyroid-stimulating hormone), T4, T3

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Complete Blood Count (CBC)
v Red blood cell count (erythrocytes, RBC)
v Hemoglobin
v Hematocrit
v MCV, MCH, MCHC
v White blood cell count (leukocytes, WBC)
v Differential
o Neutrophils
o Lymphocytes
o Monocytes
o Eosinophils
o Basophils
vPlatelets (thrombocytes)

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Additional Common Labs
v A1C
v INR
v PT
v Inflammatory Markers
o Pre-albumin
o C-Reactive Protein
v Specific Nutrients
o Vitamin D
o Vitamin B12
o Folate
v Many others

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Urinalysis
v Specific gravity
v pH
v Protein
v Glucose
v Ketones
v Blood
v Bilirubin
v Nitrite
v Leukocyte esterase
v Urine: mixture of water, inorganic salts and organic compounds
o Water soluble vitamins/metabolites may be present
o Normal excretion – 600-2500 ml/day
o Normal pH – 4.6-8; Protein: 2-8mg/dL
o Specific gravity (density) – 1.005-1.025

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Sodium
o Major cation of extracellular fluid; extracellular sodium concentrations (135mEq/L)
much higher than intracellular levels (10mEq/L)
o Regulates extracellular and plasma volume, important in neuromuscular function,
maintenance of acid-base balance
o Reflects relationship between total body sodium and extracellular fluid volume,
and balance between dietary intake of sodium and renal excretory function
§ 90-95% normal body sodium loss is through urine (rest in feces, sweat)

o Indirectly measures hydration status: ↑ dehydration, ↓ overhydration
o Normal Range: 135-145 mEq/L

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Sodium
o Hyponatremia:
o ↓ sodium intake (Na restricted diet)
o In most cases: reflects ratio of water to sodium
o ↑ fluid intake (excessive water orally, IV without electrolytes)
o ↑ losses: diarrhea, vomiting, fistulas, excessive sweating, diuretic
administration, Addison’s disease (decreased aldosterone)
o ↑ water retention; SIADH (increased anti-diuretic hormone)
o ↑ fluid accumulation in body (edema)
o disease states: CHF, liver failure, renal failure
o false ↓: Na stores intact but water intake is excessive; dilution

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Sodium
o Hypernatremia
o ↑ oral sodium intake –rarely (typically renal excretion compensates)
o Reflects change in water status
o ↓ inadequate fluid intake (dehydration)
o ↑ extra-renal water loss (excessive sweating, open wounds, hyperventilation)
o Water loss exceeds sodium loss
o Cushing’s syndrome, diabetes insipidus (diluted urine)

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Fluid Assessment
v Indicators of dehydration
o Dry lips and mouth
o Tenting of skin
o Fatigue
o Irritability
o Confusion
o Low urinary output
o ↓ pulse and blood pressure
o Labs
§ Usually ↑ in sodium
§ ↑ BUN/Creatinine Ratio

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Fluid Assessment
v May need fluid restriction with
o Edema or ascites
o CHF, Renal Failure, Liver Failure – not always
o Signs of overhydration
§ ↓ blood levels of Na, K, albumin, BUN, Cr
§ ↑ blood pressure
§ Presence of edema

v No single lab value is diagnostic
o Labs + clinical exam + hemodynamic evaluation
→ fluid and electrolyte management

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Potassium
o Principle intracellular cation
o Involved in maintaining normal water balance, osmotic equilibrium, acid-base
balance; regulation of neuromuscular activity (concentrations of K & Na determine
membrane potentials in nerves, muscles)
o Regulates osmolarity of ECF by exchanging with sodium
o Used in the evaluation of acid-base balance and kidney function
o Normal Range: 3.6-5 mEq/L

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Potassium
o Hyperkalemia:
o Inadequate excretion of potassium (common in renal failure)
o Excessive use of potassium-sparing diuretics (inadequate excretion)
o Metabolic acidosis; H+ ions excreted to correct acidosis, K ions retained
o Excessive intake; potassium-containing salt substitutes (KCl instead of NaCl)
o Excessive IV potassium (IV fluids)

o Hypokalemia:
o Inadequate dietary intake
o Increased losses; diarrhea; vomiting; nasogastric suction
o Increased renal excretion
o Medications: ie potassium-wasting diuretics, corticosteroids

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Bicarbonate, Total CO2
v Usually ordered along with Na, K, Cl as part of electrolyte panel; or as part of
routine CMP (common metabolic panel)
v Used to assess acid base balance; helpful in distinguishing between
respiratory vs metabolic acidosis or alkalosis
v Biochemical marker for the renal system
v Normal Value: 21-28 mEq/l

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Blood Urea Nitrogen (BUN)
v Measures the amount of urea in the blood
o Urea is a byproduct of protein metabolism
o Formed in liver, excreted by kidneys
v Used to assess excretory function of kidneys, metabolic function of liver
v Primarily evaluated along with creatinine (Cr)
v Normal Value: 5-20 mg/dL
v Increased in those with impaired renal function, excessive protein catabolism
v Decreased in those with liver failure; also with pregnancy

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Creatinine
v Byproduct of metabolism of muscle creatine phosphate to form ATP
v Determined by muscle mass
v Used to assess excretory kidney function
v Normal Values:
o 0.6-1.2 mg/dL (males)
o 0.5-1.1 mg/dL (females)
o Elderly have less muscle mass and lower values
v Levels are interpreted in conjunction with BUN (*ratio)
v Increased with impaired kidney function, and after surgery or trauma

*Main lab value used to assess kidney functions
*If BUN values are high but not creatinine values, that usually indicates dehydration

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BUN:Creatinine
v Laboratory evaluation of kidney failure
v Ratio of BUN:Creatinine is usually between 10:1 to 20:1
v When BUN rises but creatinine does not (increased ratio)
o reduced blood flow to kidneys, volume depletion, dehydration,
urinary tract obstruction, CHF, gastrointestinal bleeding

v When both BUN and creatinine rise
o kidney failure

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Calcium
v Regulates nerve transmission, muscle contraction, bone metabolism, and
blood pressure; necessary for blood clotting
v Regulated by the parathyroid hormone (PTH), calcitonin, vitamin D, and
phosphorus; complex regulation system: kidney, gastrointestinal tract, bone
v Used to evaluate parathyroid function; used to monitor renal failure,
hyperparathyroidism, certain cancers, bone metastases
v Normal: 8.6-10 mg/dl
v Total calcium includes both ionized calcium (50%) and calcium bound to
albumin (50%), ionized calcium active form, not affected by protein levels
§ Correction for low albumin
§ Corrected Ca = ([4 – serum albumin] x 0.8) + measured calcium

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Glucose and
Hemoglobin A1C
v Glucose
o Normal Value: 70-99 mg/dL (adults, fasting)
§ increased slightly after age 50
o Severe stress from injury or surgery → hyperglycemia
v Used to screen for diabetes and monitor diabetic patients
o Fasting glucose >125 mg/dL indicates diabetes mellitus
o Fasting glucose >100 mg/dL indicator of insulin resistance
v Hemoglobin A1C
o Normal Value: 4-6% (goal for diabetics 6.5% diagnostic
o Measures average glucose concentrations x past 2-3 month

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MCV
v MCV: mean corpuscular “cell” volume
v There are three main types of corpuscles (blood cells) in your blood
o red blood cells, white blood cells, platelets

v MCV blood test measures the average size of your red blood cells
o Helps distinguish between microcytic and macrocytic anemia
o Below normal: microcytic, in presence of iron deficiency
o Above normal: macrocytic, in presence of B12 or folate deficiency
o Total volume of packed red blood cells (hematocrit) / total # RBC

* Hematocrit (Hct) = % of RBCs in total blood volume

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MCH & MCHC
v MCH: mean corpuscular hemoglobin (27-31 pg/cell)
o Hgb / # of RBC
o Amount of Hgb in each RBC
o Low MCH means low amount of Hgb present per red blood cell
o Influenced by size of the RBC, and amount of Hgb in relation to size of RBC
o Mirrors MCV (bigger RBC tend of contain more Hgb)

v MCHC: mean corpuscular hemoglobin concentration (32-36g/dL, 32-36%)
o Measure of Hgb concentration in a given volume of packed RBCs
o Helps to distinguish iron-deficiency anemia
§ Increased: hyperchromia
Hemolytic anemia, sickle cell anemia
§ Decreased: hypochromia (pale color, deficiency of hemoglobin)
Iron deficiency
§ Normal in macrocytic anemia

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Anemia
v Anemia: deficiency in size or number of RBCs or amount of hemoglobin they
contain (could be blood loss, chronic disease, marrow failure, nutritional,
congenital such as sickle cell)
v Indices
◦ Hgb/Hct, MCV, MCH, MCHC

v Macrocytic Anemia
◦ Folate
◦ B12 Increased MCV, MCH
v Microcytic Anemia
◦ Fe
Decreased MCV, MCH

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Thrombocytes
v Platelets (150-350,000/mm3)

v Function in the coagulation/clotting of blood, i.e. pathway of fibrinogen to
cross-linked fibrin, thrombin is a key intermediary as are other compounds such
as the complement proteins
◦ PT/PTT
◦ INR (international normalized ratio) reflects the ratio of a patient’s PT
to a laboratory’s control value

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Alkaline Phosphatase (ALP)
v Enzyme found in all tissues; particularly high in bone, liver and bile ducts
v Reflects function of liver, and may be used to screen for bone abnormalities
v Normal Values: 30-120 units/L
v Increased with liver cancer, cirrhosis, hepatitis, bile duct blockage, bone
disorders (Paget’s), cancer metastasis to bone; normally ↑ in 3rd trimester of
pregnancy, adolescents and children
v Decreased with zinc deficiency, hypophosphatasia (rare genetic disorder)

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ALT & AST
v Alanine Aminotransferase (ALT): Normal Value: 4-36 units/L
o Formerly known as serum glutamic pyruvic transaminase (SGPT)
o Enzyme found mostly in the liver; also in kidneys, heart, skeletal muscle
o Increased with acute or chronic hepatitis, cirrhosis, liver cancer

v Aspartate Aminotransferase (AST): Normal Value: 0-35 IU/L
o Formerly known as serum glutamic oxaloacetic transaminase (SGOT)
o Enzyme found mostly in the heart, liver, and skeletal muscle; but also found in
kidneys, brain, pancreas, spleen, and lungs
o Amount of AST elevation in blood is related to number of cells injured
o Increased with liver damage, MI, acute pancreatitis, severe muscle injury

v Both ALT and AST reflect function of the liver
o Monitored to assess liver damage, elevated in most liver diseases
o Used also in monitoring liver function of those receiving parenteral nutrition

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AST:ALT Ratio
v Often compared as a ratio

v AST:ALT > 1.0
o Alcoholic cirrhosis
o Liver congestion
o Metastatic liver tumor

v AST:ALT < 1.0
o Acute hepatitis
o Viral hepatitis
o Infectious mononucleosis

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Bilirubin
v One of many constituents of bile
v Total bilirubin represents
o Conjugated bilirubin (Direct)
o Unconjugated bilirubin (Indirect)
o 70-85% of the total

v Normal values
o Total: 0.3-1.0 mg/dl
o Indirect: 0.2-0.8 mg/dl
o Direct: 0.1-0.3 mg/dl

v Reflects liver function, also used to evaluate blood disorders, biliary tract blockage
v Increased with pancreatic cancer, liver metastasis, gallstones, biliary duct diseases

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Amylase & Lipase
v Amylase:
o Pancreatic enzyme involved in hydrolysis of starch
o Increased with pancreatitis (mainly), cholecystitis, alcohol poisoning
o Decreased with advanced cystic fibrosis, hepatitis

v Lipase:
o Pancreatic enzyme involved in lipid breakdown
o Increased with acute pancreatitis, pancreatic duct obstruction
o Decreased with cystic fibrosis, permanent damage to pancreas

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Arterial Blood Gases
v Measures of pulmonary function

To be covered in more detail during pulmonary lecture

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Hepatic Proteins
v The acute phase response is a nonspecific physiologic and biochemical
reaction to inflammation- in the case of acute injury, infection or neoplasm in
particular- leading to marked changes in metabolism
v During acute phase response, synthesis of specific plasma proteins are either
increased or decreased by at least 25%
o Positive Acute Phase Proteins increase
o Negative Acute Phase Proteins decrease
o Change in these protein is proportional to physiological insult

v Indicators of inflammation and reflection of severity of inflammatory
response, not indicators of nutritional status
o Lab values should be interpreted with caution, better reflection of magnitude of
inflammatory response rather an oral protein intake
o These indicators (negative acute phase proteins) do not typically respond to
feeding interventions in setting of inflammation

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Inflammatory Markers

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Albumin
v Most abundant plasma protein (55-60% of total serum protein)
v Synthesis of albumin takes place exclusively in liver
v Major transport protein (hormones, enzymes, medications, minerals, ions,
fatty acids, amino acids, metabolites)
v Helps maintain plasma colloidal osmotic pressure; when serum albumin levels
decrease, water in plasma moves to interstitial compartment (edema)
v Decreases in serum albumin: decreased synthesis to spare amino acids for
production of positive acute phase proteins, increased degradation rate, change
in fluid distribution; most patients experience at least one of these factors
o Interpretation in acute care complicated
o Changes reflect illness not nutritional status
v Plasma levels of albumin decrease with acute inflammation

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Transferrin
v Transports iron to bone marrow for production of hemoglobin
v Plasma transferrin level controlled by size of iron storage pool; when iron
stores are depleted, transferrin synthesis increases
v Levels ↓ with acute inflammatory reactions, chronic infection/illness,
malignancies, liver disease; levels ↑ with pregnancy
v Decreased levels reflect inflammation, not useful as measure of protein status
v Can be measured directly or estimated (total iron-binding capacity)
o TIBC is direct measure of all proteins available to bind mobile iron
o % Transferrin saturation = (Serum Fe/TIBC) x 100

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Prealbumin (PAB) &
Retinol Binding Protein (RBP)
v Prealbumin: transport protein for thyroid hormones
o Triiodothyronine and thyroxine (T4)
o Combined with Retinol Binding Protein (RBP) transports Vitamin A
o Levels decrease with inflammation; not improve with aggressive nutrition support
§ Levels are often normal with starvation-related malnutrition but decreased
in well-nourished individuals with recent stress/trauma
o Serum levels also decrease with zinc deficiency, because zinc is required for hepatic
synthesis and secretion of prealbumin
§ Consider zinc status when interpreting low plasma PAB levels

v Retinol Binding Protein: transport of retinol (vitamin A metabolite)
o Circulates in a complex with prealbumin (PAB)
o Can decrease with starvation-related malnutrition but also decreases with
inflammatory stress and may not improve with re-feeding

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C-Reactive Protein
v Positive Acute Phase Reactant

v Non-specific marker of inflammation

v Exact function of CRP is unclear; increases in initial stages of acute stress
(usually within 4-6 hours of surgery or trauma)

v Can help estimate and monitor severity of illness
v Level can increase as much as 1000-fold
o Depending on intensity of stress response

v When CRP begins to decrease, patient has entered anabolic period of
inflammatory response, beginning of recovery
o Once CRP begins to ↓ intensive nutrition therapy may be beneficial

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Inflammatory Markers
v Negative acute phase proteins: synthesis ↓ >25%
◦ Albumin
◦ Transferrin
◦ Pre albumin
◦ RBP

v Positive acute phase proteins: synthesis ↑ >25%
◦ CRP
◦ Fibrinogen
◦ Prothrombin
◦ others

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