MLS Heme lec 8 Word Scramble
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Question | Answer |
4 common lab tests | ESR-inflammation Hgb-anemia Hct-anemia Indices-cell morphology |
What does ESR stand for | Erythrocyte sedimentation rate |
ESR test is | Simple, non-specific screening test for inflammation |
ESR test steps | 1. Anticoagulated blood is allowed to stand undisturbed for 1 hour 2. RBCs settle slowly,due to small mass, to bottom of the tube |
Rouleaux | stacking of red blood cells |
Rouleaux indicates | certain diseases increase rouleaux, increasing RBC mass and causing increased fall-out rate |
Definition ESR | distance in mm that RBCs will fall in 1 hr in a vertical tube of defined length |
Fall-out proportions | Directly: red cell mass Inversely: plasma viscosity |
Zeta | cloud of negative charges found on cell membrane |
What weakens the zeta potential | Fibrinogen and other proteins by attracting positive ions close to the cell |
Fibrinogen | Acute phase reactant |
Weakened zeta potential allows | Rouleaux and fall-out |
Increased RBC fall-out indicates | Increased fibrinogen In vivo rouleaux of cells Multiple myeloma increases immunoglobulin |
Decreased RBC fall-out | Polycythemia Sickle cells Spherocytes |
Normal RBC fall-out | Male: 0-20 mm/hr Female & Children: 0-15 mm/hr value related to red cell count |
ESR Methods | Wintrobe Wetergren Automated |
Westergren method | considered the universal reference method |
Automated method | Shorter times, approximately 20 min |
Technical factors affecting ESR results | Vertical slant Temperature Bubbles Abnormal shapes Won't rouleax |
ESR Values | Cannot be "decreased" since zero is normal |
Hemoglobin is the best measure of | anemia |
Increased inflammatory conditions | Infections, especially bacterial Auto-immune diseases Neoplasms |
Hemoglobin measurement | all but sulfhemoglobin with cyanmethemoglobin as a reference |
Sulfhemoglobin can occur from | antibiotics or pesticides |
Methemoglobin reacts with cyanide to create | Cyanmethemoglobin (HiCN) |
Based on Beer's Law concentration is | Absorbance of HiCN is proportional to Hgb |
Transmission absorbance | measured spectrophotometrically at 540nm |
Hemoglobin Reference Range | Male: 12-16 g/dL Female: 14-18 g/dL Newborn: 22 g/dL Children: 11-14 g/dL |
Hct, PCV | Hematocrit Packed cell volume |
Hct expressed as | Percentage of whole volume RBC |
Hct test | Manual method uses capillary tubes. Automated is % of whole blood after centrifugation |
Manual Hct test | Capillary tube is filled with blood and centrifuged at 8000g (11,000-15,000 RPM) for five minutes. Omit buffy coat. Use special device to read % of RBC |
Automated Hct | Not directly measured when automated instruments are used. Corrective calculation must be done |
Indirect Hct calculation | RBC x MCV/10 |
Automated Hct disadvantage | In-vivo agglutination occurs, will affect Hct. RBC and MCV will be erroneous |
Automated Hct advantage | No trapped plasma |
When is manual Hct performed | Suspect spurious automated results or cannot get a tube of blood |
Rule of 3 | Hct should be 3x Hgb, +/- 3% |
Reference Range for Hct | Male: 42-52% Female: 37-47% Newborn is higher |
RBC indices | Numerically describes cell morphology |
MCV mean cell volume | Indicates size or volume of cell. Higher number, larger cell. |
What can cause a falsely elevated MCV | Agglutination |
Automated instruments measure MCV by | Size of pulse and derived from histogram |
MCV calculation | (Hct/RBC) x 10=fL |
MCV reference range | 80-100fL |
MCV Determines | normocytes, macrocytes, and microcytes |
MCH mean cell hemoglobin | average weight of hemoglobin, usually 1/3 MCV |
MCH calculation | (Hgb/RBC) x 10= pg |
MCH reference range | 28-32pg |
MCH & MCHC values are | always calculated |
MCH & MCHC value corresponds to | hypochromasia (decreased Hgb) or hyperchromasia (increased Hgb) |
What can alter the value of the MCH | lipemic specimen or cold agglutinin |
MCHC mean cell Hgb concentration | Average Hgb concentration of all red cells in sample, usually corresponds to MCH |
MCHC Calculation | (Hgb/Hct) x 100 = value in % |
MCHC Reference Range | 30-36% |
Hypochromasia | decreased cellular hemoglobin concentration |
Hyperchromasia | to much hemoglobin for size of the cell, observed in spherocytes or artifact |
RBC Morphology: normocytic, normochromic | Conditions: normal, anemias, most hemoglobinopathies |
RBC Morphology: Moderate anisocytosis, increased RDW:more variation in size | Conditions: sideroblastic anemia, transfusion, or treated anemia |
RBC Morphology:Slight macrocytes, increased MCH ,right shift MCHC, increased MCV usually | Conditions: Liver disease |
RBC Morphology: Moderate anisocytosis & moderate macrocytes, all markers elevated | Cnditions: Megaloblastic anemia (B12 & folate), reticulocytes & myelodysplasia |
RBC Morphology: Moderate anisocytosis; moderate hypochromasia, all markers low | Conditions: Thalssemia |
RBC Conditions: Moderate anisocytosis, slight microcytosis, slight hypochromasia. MCV,MCH,RDW increased | Conditions: Iron deficiency, sideroblastic anemia, lead poisoning |
RBC Morphology: Moderate anisocytosis, moderate spherocytes. MCH, MCHC increased & MCV wider | Conditions: Hereditary spherocytosis & autoimmune hemolytic anemia (AIHA) |
Created by:
mlrlemons
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