music It's a typical day. A patient has noticedsome itching, or maybe an unpleasant vaginal odor. During her exam, the ian willcheck vaginal pH, examine any discharge that's present, and collect a sample. Then, it'son to the microscope. music This is where you'll gather more specificinformationabout what's causing those vaginal symptoms. We'll show you how to prepare andexamine vaginal wet preps and how to do a whiff test. The results, combined with the patient's vaginal pH test, will aidthe diagnosis.
Under the microscope, you'll be looking for trichomonads, yeast, and the clue cells associated with bacterial vaginosis. We'll show you how to recognize them. music First, the microscope itself: This is a compoundlight microscope. It has several objective lenses on a rotating mount. For our purpose,one of these has to be a 10x low power objective, and one has to be a 40x for greater magnifiion.This flat part, under the objectives, is the stage. Under the stage is the condenser. Belowthat, at the base of the microscope, is the light source. There are two knobs that controlfocus; one for coarse adjustment and one for
fine adjustment. And these are the oculars,or eyepieces. We'll come back to the microscopea minute, but first, let's look at how to prepare wet mount slides. The complete vaginal wet mount involves botha saline prep and a potassium hyoxide, or KOH, prep. When the vaginal sample was collected,the swab was placeda test tube with approximately half a milliliter of saline. So, for the salineprep, you only have to take a op of the suspension and place it on a slide. Add acoverslip, being careful to avoid trapping air bubbles. Your saline slide is ready.Place a second op of the vaginal sample on another slide and add one op of 10 percentKOH. Sniff the preparation immediately, using
your hand to waft any odor toward your nose.This is the whiff test. Note if there's a fishy or amine odor. Then add a coverslip,avoiding air bubbles. Keepmind that you must work quickly to prepare and examine thewet mounts. That's because trichomonads may lose their characteristic motility within15 to 20 minutes. Before we move on now, though, let's lookat the cast of characters you may discover. These are normal squamous epithelial cellsfoundthe vagina. They're large, flat cells with a small nucleus and a large area of cytoplasm.Note that there is some granularitythe cytoplasm.
Polymorphonuclear leukocytes are known asPolys, or PMNs. They may also be called white blood cells, or WBCs. These are small roundcells. Several lobes of the nucleus are visible within the surrounding cell cytoplasm. Findingmany PMNs may indie infection. Trichomonads are pearshaped protozoa whichmove by means of flagella. Trichomonads are similarsize to PMNs and are identifiedby their characteristic jerking movement. The actual flagella may be too thin and toorapidlymoving to be seen. A clue cell is a squamous epithelial cellcoated with enough small bacteria that at least 75 percent of the cell's border is obliterated.It may look as if someone has spread glue
over the cell and pressed itsand. Cluecells are associated with bacterial vaginosis, a conditionwhich the normal microbialflora of the vagina is disrupted. Yeast may be foundtwo forms. Pseudohyphaeare the long, tubular, branching forms. Budding yeast are paired yeast cells that resemblea shoe print. The larger part is the sole and the smaller bud is the heel of the shoe. The saline prep will allow you to see epithelialcells, PMNs, trichomonads, and clue cells. You can also see yeastsaline, but sometimesit's hidden by epithelial cells or by PMNs. Red blood cells, sperm, and bacteria can alsobe seen.
Vaginal Yeast Infection How to Cure Yeast Infection
There is a relatively effective though onedimensionaltreatment for candida yeast infection called immunotherapy. In this treatment yeast infectionpatients are ordered to avoid the consumption of basically all yeasty foods and sugary foodsand are given allergenic substancedilute doses normallythe form of oral ops orinjection to enhance the immune abilities of the body and reduce the allergic response. The method also called Enzyme PotentiatedDesensitization (EPD) was developed by Len McEwen, M.D. (London)the mid60's. Thenewest form of this treatment is called Low Dose Allergens or LDA.
In this treatment the patients receive upto three injections every two months and for a maximum period of two years, depending onthe patients response to the therapy. The enzymes are suppose to enhance the candidainfection strength and may treat several other groups of allergens along the way. The EPD treatment for candida yeast infectiongoes like this: For a period of ten days before the firstinjection, the patients are given Sporanox, which is an anti fungal for systematic candida,and DeNol an anti gastric ulcer agent that reduces the ability of candida to plant itsrootsthe mucus linings of the intestinal
tract. For approximately 3 days before the injection,patients undergo a semifastwhich they need to avoid the consumption of all foodallergens combined with the intake of the following supplements that improve the effectivenessof the EPD treatment: Zinc, Folic acid and Vitamin D3. The response of the EPD treatment for candidayeast infection varies among patients. Some patients may experience sudden and amaticimprovement that wears offtime while some need increased doses through longer intervalsuntil improvement is maintained.