Dec 03, 2021  
2021-2022 College Catalog 
    
2021-2022 College Catalog
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MLT 285IN - Clinical Chemistry

4 Credits, 6 Contact Hours
3 lecture periods 3 lab periods

Fundamentals of chemistry including theoretical application and performance in a clinical setting. Includes chemical substances, instruments, laboratory procedures, blood and urine chemistry abnormalities, and laboratory instrument computers and information systems.

Prerequisite(s): With a grade of B or better: BIO 205IN , and MAT 151  or assessment into MAT 189 .
Information: Students must be admitted to the Medical Laboratory Technician program and obtain consent of instructor before enrolling in this course. IN is the integrated version of the course with the lecture and lab taught simultaneously.
  button image Prior Learning and link to PLA webpage



Course Learning Outcomes
1.  Define metabolic pathways basic to the physiology of the human body.

2.  Describe the general principles of electrophoresis and its role in disease diagnosis.

3.  State the theory behind commonly performed laboratory procedures and correlate results with disease states and clinical significance for a variety of biochemical substances such as electrolytes, enzymes, tumor markers, and pharmaceuticals.

4.  State the basic statistical calculations to analyze quality control data, and to determine reliability of clinical chemistry assays in the chemistry laboratory (Westgard Rules).

5.  Differentiate between and describe the interface between laboratory instrument computers and the laboratory information system. 

6.  Explain how to perform dilutions, titers, conversions, and other mathematical calculations for chemistry.

7.  Operate and maintain standardized procedures for chemistry instrumentation.

8.  Perform common laboratory procedures and correlate results with disease states and clinical significance for a variety of biochemical substances such as electrolytes, enzymes, tumor markers, and      pharmaceuticals.

9.  Apply basic statistical calculations to analyze quality control data, and to determine reliability of clinical  chemistry assays in the chemistry laboratory (Westgard Rules); and perform standardized procedures for chemistry using basic instrumentation, including electrophoresis, enzymatic spectrophotometry, and other analytical methods.

10.  Perform dilutions, titers, conversions, and other mathematical calculations for chemistry.

11.  Improve critical thinking and organizational skills by attending class, completing assignments, and participating in problem solving discussions


Outline:
I.       Chemical Substances and Correlation to Abnormalities or Disease States 

II.       Laboratory Instrumentation, Validation, Quality Control, Troubleshooting, and Reagents

III.      Requirements for and Preparation of Laboratory Procedures Reports

         A.   Principles of the procedure

         B.   Function of each reagent used

         C.   Clinical significance of the test

         D.   Results

         E.   Conclusions

IV.     Criteria for Evaluation of Results of Blood and Urine Samples and Correlation to Disease States

         A.   Altered acid base balance

         B.   Kidney disease

         C.   Liver disease

         D.   Heart disease

         E.   Neurological system disorders

         F.   Endocrine and reproductive system disorders

         G.   Bone and muscle disease

         H.   Neoplasms

         I.    Nutritional status

         J.   Fetal abnormalities

         K.   Pediatrics and geriatrics

         L.   Therapeutic drugs and drugs of abuse

V.      Requirements for Instrument Computers and Laboratory Information Systems

VI.     Calculation of Lab Math Values

         A.   Molar solutions

         B.   Unit conversions

         C.   Dilutions

         D.   Serial dilutions

         E.   Molarity and normality

         F.   pH

VII.    Measurement of Chemical Substances and Ions

         A.   Na

         B.   K

         C.   Cl

         D.   Glucose

         E.   Blood urea nitrogen (BUN)

         F.   Creatinine

         G.   Proteins and amino acids

         H.   Uric acid

         I.    Alkaline phosphatase

         J.   Electrolytes

         K.   Cardiac markers

         L.   Blood gases

         M.  Enzymes

         N.   Bilirubin

         O.   Hormones

         P.   Minerals

         Q.   Lipids

VIII.    Quality Control / Statistics

         A.   Westgard Rules

         B.   Accuracy

         C.   Precision

         D.   Mean

         E.   Calibration Curve

         F.   Standard Deviation

         G.   Calibrators

         H.   Standards

         I.    Controls

         J.   Reagent stability

IX.     Operation and Evaluation of Instrumentation

         A.   Troubleshooting

         B.   Instrument maintenance

         C.   Method validation

         D.   Analytical measurement range (AMR)

         E.   Lot to lot variation

X.      Use of Chemistry Instrumentation to Obtain Accurate Results

         A.   Glassware

         B.   Transfer pipettes

         C.   Volumetric pipettes

         D.   Spectrophotometry

         E.   Chemiluminescence

         F.   Spectrophotometers

         G.   On board dilutors

         H    Electrophoresis equipment

         I.    Pointe 180 (Westgard Rules)

         J.   Centrifuge

         K.   Balances

         L.   Chromatography

XI.     Interpretation and Correlation of Blood and Urine Chemistry Abnormalities

         A.   Metabolic acidosis/alkalosis

         B.   Respiratory acidosis/alkalosis

         C.   Creatinine clearance

         D.   Calcium homeostasis

         E.   Liver disease

         F.   Heart disease

         G.   Neurological system disorders

         H.   Endocrine and reproductive system disorders

         I.    Neoplasms

         J.   Nutritional status

         K.   Fetal abnormalities

         L.   Pediatrics and geriatrics

         M.  Therapeutic drugs and drugs of abuse


Effective Term:
Full Academic Year 2020/21



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