MLSP-URINALYSIS

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Created by
Shie Navaresu

Cards (79)

  • Analyzing urine has references in the drawings of cavemen and in Egyptian hieroglyphics, such as the Edwin Smith Surgical Papyrus
  • Basic observations of urine
    • Color
    • Turbidity
    • Odor
    • Volume
    • Viscosity
    • Sweetness
  • Uroscopy
    The study of urine
  • Hippocrates wrote a book on uroscopy
    5th BCE
  • In the Middle Ages, physicians concentrated their efforts very intensively on the art of uroscopy, receiving instruction in urine examination as part of their training
  • Color charts had been developed that described the significance of 20 different colors

    1140 CE
  • Frederick Dekkers discovered albuminuria by boiling urine

    1694
  • Thomas Bryant wrote a book on "pisse prophets"

    1627
  • In the 17th century, the invention of the microscope led to the examination of urine sediment and development by Thomas Addis of methods for quantitating urine sediments (Addis count cells in the urine)
  • Richard Bright included urinalysis as part of the doctor's routine patient examination
    1827
  • Urine composition
    95% water and 5% solutes (concentration of solutes influenced by: dietary intake, physical activity, body metabolism, endocrine functions)
  • Hormones in urine
    • Aldosterone (Adrenal Cortex)
    • Antidiuretic Hormone (Posterior Pituitary Gland)
    • Erythropoietin (Kidney)
  • Urine analysis
    Helps in monitoring wellness, determination and treatment of urinary tract infections, detection and monitoring progress of treatment in metabolic diseases, and determines the effectiveness of an administered therapy as well as checking if the patients exhibited any therapy-related complications
  • The accuracy of urine analysis results will largely depend on several factors such as the collection method, container use, transportation and handling of specimen and the timeliness of the testing
  • Urine collection containers
    • Clear, clean, dry, leak-proof disposable containers with wide mouth and wide, flat bottom
    • Individually packaged sterile containers with secure closures for microbiologic urine studies
    • Bags with adhesive for the collection of pediatric specimens
    • Large containers for 24-hour specimens
  • Urine is considered a biohazard substance that requires the observance of Standard precautions
  • Disposable, non-sterile, plastic containers are most commonly used (capacity: 50 mL)
  • Urine collection containers for specific purposes
    • Pliable polyethylene bags with adhesive for urine from infants
    • Large, wide-mouthed plastic containers for 24-hour urine collection
    • Sterile plastic containers for urine for bacterial culture
  • Information required on urine specimen labels
    • Patient's name
    • Identification number
    • Date and time of collection
    • Patient's age
    • Location
    • Healthcare provider's name
  • Requisition form
    Must contain information matching the specimen label, including method of collection or type of specimen, possible interfering medications, and the patient's clinical information. The time the specimen is received in the laboratory should also be recorded.
  • Reasons for specimen rejection
    • Improperly labeled containers
    • Nonmatching labels and requisition forms
    • Specimens contaminated with feces or toilet paper
    • Containers with contaminated exteriors
    • Specimens of insufficient quantity
    • Specimens that have been improperly transported
  • Specimen integrity
    Tested within 2 hours, or delayed testing with refrigeration or appropriate chemical preservative
  • Specimen preservation
    Refrigeration at 2°C to 8°C decreases bacterial growth and metabolism. If the urine is to be cultured, it should be refrigerated during transit and kept refrigerated until cultured up to 24 hours. Chemical preservatives may be added when refrigeration is impossible.
  • Types of urine specimens
    • Random specimen
    • First morning specimen
    • Glucose tolerance specimens
    • 24-hour (or timed) specimen
    • Catheterized specimen
    • Midstream clean-catch specimen
    • Suprapubic aspiration
    • Prostatitis specimen (three-glass collection, pre- and post-massage test, Stamey-Mears test)
    • Pediatric specimens
    • Drug specimen
  • Random specimen
    Most commonly received, collected at any time, but the actual time of voiding should be recorded on the container. May show erroneous results from dietary intake or physical activity just before collection.
  • First morning specimen
    The ideal screening specimen, preventing false-negative pregnancy tests and for evaluating orthostatic proteinuria. A concentrated specimen, thereby assuring detection of chemicals and formed elements that may not be present in a dilute random specimen.
  • Glucose tolerance specimens
    Collected to correspond with the blood samples drawn during a glucose tolerance test (GTT). Urine is tested for glucose and ketones, and the results are reported along with the blood test results as an aid to interpreting the patient's ability to metabolize a measured amount of glucose and are correlated with the renal threshold for glucose.
  • 24-hour (or timed) specimen

    Measuring the exact amount of a urine chemical to produce accurate quantitative results. Many solutes exhibit diurnal variations, so 24-hour collection is required. The entire 24-hour specimen must be thoroughly mixed, and the volume accurately measured and recorded.
  • 24-hour urine collection procedure

    1. Empty the bladder upon waking up
    2. Affix the label and write down the time and date
    3. Collect all the urine passed for the next 24 hours
    4. Refrigerate the specimen if instructed
    5. Collect one last void at the end of the 24 hour period
    6. Seal the container and transport to the laboratory
  • Catheterized specimen

    Collected under sterile conditions by passing a catheter through the urethra into the bladder. The most commonly requested test is a bacterial culture.
  • Midstream clean-catch specimen

    An alternative to the catheterized specimen, providing a safer, less traumatic method for obtaining urine for bacterial culture and routine urinalysis. Less contaminated by epithelial cells and bacteria.
  • Suprapubic aspiration
    Urine collected by external introduction of a needle through the abdomen into the bladder, providing a sample for bacterial culture that is completely free of extraneous contamination. Can also be used for cytologic examination.
  • Prostatitis specimen collection methods
    • Three-glass collection
    • Pre- and post-massage test (PPMT)
    • Stamey-Mears test (four-glass method)
  • Pediatric urine specimen collection
    Soft, clear plastic bags with hypoallergenic skin adhesive attached to the genital area. Sterile specimens may be obtained by catheterization or suprapubic aspiration.
  • Drug specimen collection
    The chain of custody (COC) process provides documentation of proper sample identification from collection to laboratory results. Witnessed or unwitnessed specimen collection, with temperature and color inspection to identify adulteration.
  • Routine urinalysis (UA)
    A frequently ordered urine test that screens the patient for any urinary or systematic disorders. Includes physical, chemical, and microscopic analysis. Midstream collection is recommended to avoid contamination.
  • Urine temperature
    Should read within the range of 32.5°C to 37.7°C
  • Urine temperatures outside of the recommended range may indicate specimen contamination
  • The urine color is also inspected to identify any signs of contaminants
  • Common Urine Tests

    • Routine urinalysis (UA)
    • Culture & sensitivity (C&S)
    • Urine cytology studies
    • Urine drug testing
    • Urine glucose and ketone testing
    • Urine pregnancy testing