Normal Diagnostic Laboratory Findings and Deviation PDF

Summary

This document provides an overview of diagnostic studies commonly used in pregnancy, covering various laboratory tests and imaging techniques. It outlines procedures, methods, and interpretations related to detecting pregnancy, fetal health, and potential complications.

Full Transcript

Normal Diagnostic Laboratory Findings and Deviation Describe Describe the process of confirming and estimating the date of birth Identify Identify the typical nursing assessments, diagnosis, interventions, and methods of evaluation in providing...

Normal Diagnostic Laboratory Findings and Deviation Describe Describe the process of confirming and estimating the date of birth Identify Identify the typical nursing assessments, diagnosis, interventions, and methods of evaluation in providing care for the pregnant woman. Learning Objectives Use critical thinking to analyze the data yielded by laboratory examination of Use specimens obtained during the examination and important information concerning the symptoms of pregnancy and woman’s health status. Identify areas of nursing care related to the normal diagnostic laboratory Identify findings that could benet from additional nursing research or application of evidence-based practice. A medical diagnosis of pregnancy serves to date when the birth will occur and also helps predict the existence of high-risk status. With advancements in science and technology, pregnancy tests today are commercially available and can be performed by the trained personnel that are highly accurate and precise, if done with the correct technique. Pregnancy testing – relies on the detection of an antibody to the hormone human chorionic gonadotropin (hCG) or a subunit in the urine or serum Human Chorionic Gonadotropin – the first placental hormone produced and can be found shortly after implantation Specimens: 1. Urine – test to yield accurate results and it should be done 10 to 14 days after the missed menstrual period. This period guarantee level of hCG and prevents false negative results. a. Gravindex and Pregnosticon - are immunologic pregnancy test and approximately 95% accurate in diagnosing pregnancy and 98% accurate in determining the absence of pregnancy b. Radioimmunoassay – tests for the beta subunit of hCG and considered to be so accurate as to be diagnostic for pregnancy. Urine Tests: (hCG) Collect first voided urine using clean, dry bottle free of detergent or contamination. Do not drink fluids from 8pm the night before to concentrate the urine Refrain from taking any drug 24 hrs. before the test Label the specimen with the woman’s name, date, and time of voiding. Bring the specimen to the laboratory immediately Refrigerate urine specimen-if more than one hour is pass before the specimen gets to the laboratory because room temperature is high enough to destroy hCG 2. Blood – with sensitive assays hCG can be detected in maternal blood at 7 days after conception and are accurate close to 100% of the time 3. Progesterone Withdrawal test – a contraceptive pill is taken OD or TID (3xdays) If menstruation occurs within 10-15 days, the woman is not pregnant. If corpus luteum produces enough hormones to neutralize the effect of withdrawn synthetic progesterone and no bleeding occurs, the woman is pregnant 4. Ultrasound imaging – (Ultrasound scanning or Scanning) involves exposing a part of the body to high frequency sound waves to produce pictures of the inside of the body It is a popular and safe diagnostic tool in the care of the pregnant woman and her fetus. It provides the physician, and other members of the health team the ability to approach the developing fetus as a separate patient with an identifiable set of reflexes reactions to outside stimuli and activity patterns. 7-11 wks. if the date of LMP is unknown, between 16-20 wks. gestation to verify fetal structures and gender Types of Pelvic Ultrasound Abdominal or Transabdominal – with the Vaginal or transvaginal – with the woman in woman in supine position, the lithotomy position, the sonographer/radiologist applies the sonographer/radiologist inserts into the vagina transducer on the lower abdomen 2-3 inches of the vaginal transducer’s end with the protective cover and lubricating gel Purpose: ❖Diagnose pregnancy as early as 6 wks. Gestation. ❖Confirm the size, location of the placenta and amniotic fluid. ❖Discover complications of pregnancy. ❖Establish if fetus is growing and no congenital anomalies. ❖Predict maturity by measurement of biparietal diameter of the head Ultrasonography 1. Biparietal diameter – used to predict fetal maturity. a. Measurement of fetal head (8.5 cm. or greater) b. Weight. 2500 g (5.5 lb.) 2. Doppler Umbilical Velocimetry – measures the velocity at which RBC in the uterine and fetal vessels to assess blood flow 3. Placental grading for maturity – graded based on the amount of calcium deposits present in the base of the placenta ◦ Placental grading for maturity ◦ Grades: 0 – between 12 and 24 wks. ◦ Grade 1: 30 – 32 wks. ◦ Grade 2: 36 wks. ◦ Grade 3: 38 wks. – suggest fetus is mature Ultrasonography 4. Amniotic fluid volume – the amount of amniotic fluid present estimate fetal health 20-24 cm. – indicates Hydramnios < 5-6 cm – Oligohydramnios 5. Nuchal translucency – described the appearance of a collection of fluid under the skin behind fetal neck 6. Magnetic resonance Imaging (MRI) – can identify structural anomalies or soft tissue disorder Lateral Pelvimetry – in suspected cephalopelvic disproportion (CPD) with a danger sign of absence of lightening in a primigravida in active labor Indications for lateral Pelvimetry ✓Suspected CPD ✓ Previous difficult delivery ✓ History of severe vitamin D and calcium deficiency in childhood ✓ History of pelvic or spine injury ✓Cases of severe scoliosis LABORATORY ASSESSMENT LABORATORY ASSESSMENT a. Urinalysis – tested for proteinuria, glycosuria, nitrates, pyuria b. Complete blood count c. Genetic screen (G6PD glucose6phosphate dehydrogenase) d. VDRL serologic test for syphilis e. Blood typing (Rh factor) f. Maternal serum a-fetoprotein – done between 16-18 wks. of pregnancy g. Combs test – determination of whether Rh antibodies are present in an Rh (-) woman h. HIV screening i. Serum antibody titers for rubella, hepatitis, varicella j. Blood Serum Studies k. Tuberculosis Screening (Mantoux Test) ASSESSING FETAL WELLBEING Fetal Biophysical Profile Is a noninvasive method of assessing the general well being of the fetus and the fetal assessment. BPP may be used as early as 26-28 weeks for the surveillance of high risk pregnancy. The test requires the use of an ultrasound and the electronic fetal monitor and the observation time takes about 30 minutes. Fetal Biophysical Profile Indications: 1. Mother with gestational hypertension 2. Fetus appears to be small or not growing properly 3. Fetus is less active than normal (movement) 4. Too much or too little amniotic fluid Fetal Biophysical Profile Five Parameters: Results: 1. Fetal reactivity 8 - 10 fetus is considered to be doing well 2. Fetal breathing movements 6 - is considered suspicious 3. Fetal body movements 4 - denotes a fetus probably in 4. Fetal tone jeopardy 5. Amniotic fluid volume Biophysical Profile Scoring 1. Fetal breathing - at least one episode of 30secs. of sustained breathing movement w/in 30mins 2. Fetal movement - at least 3 episodes of fetal limb or trunk movement w/in 30mins. 3. Fetal tone - Observation must extend and then flex extremities or spine at least once in 30 mins. 4. Fetal heart reactivity - 2 or more heart accelerations at least 15 beats/min 5. Amniotic fluid volume - A range of amniotic fluid between 5 and 25 cm must be present Fetal Heart Rate Fetal heart sounds a. 10 – 11 wks. – ultrasound b. 10 wks. – Doppler Daily fetal Movement Count (Kicks Count) a. 18 – 20 wks. – quickening felt by the mother b. 28 – 38 wks. – 10 x / hr. peaks in intensity Rhythm Strip testing – use for assessment of the fetal heart rate Average FHR – 130 beats/ min. Average fetal moves – twice every 10 mins. - causes heart rate to increase Vibroacoustic Stimulation – for acoustic (sound) stimulation Acoustic stimulator applied to the mother’s abdomen to produce sharp sound (80 db.), startling and waking the fetus Amniocentesis Amnion for sac and kentesis for puncture. Scheduled between the 14th and 16th week Amniocentesis is the removal of fluid from the amniotic cavity by needle puncture. An ultrasound is performed first to determine the safe site where the needle can be inserted. During the procedure, the fetus is continuously monitored by ultrasound to ensure its wellbeing. Complications includes hemorrhage from the penetration of the placenta, infection of the amniotic fluid and puncture of the fetus Purposes of Amniotic Fluid Analysis Detection of fetal abnormalities early in pregnancy To determine fetal lung maturity Lecithin/Sphingomyelin ratio Lung Profile Amniotic Fluid Bilirubin Rh incompatibility For detection of certain infections Detection of fetal abnormalities early in pregnancy Nursing Care during Amniocentesis Assist client to empty her bladder before the procedure Place in supine position and drape properly Put rolled towel under right hip to tip body to the left and remove pressure of uterus on vena cava Instruct not to take a deep breath and hold it while the needle is being inserted as it will shift the uterus and needle may hit placenta or fetus. Nursing Care during Amniocentesis Inform the patient that it is not painful because anesthesia will be applied at the insertion site. She may experience pressure sensation during the insertion of the needle. Monitor FHT before, during and in 30 minutes after the test. Instruct patient to observe for: - Infection - Uterine cramping - Vaginal bleeding Chorionic Villi Sampling Is a transcervical or transabdominal insertion of a needle into the fetal portion of the placenta, at the area of the chorion frondosum CVS is performed at 8-12 weeks gestation under ultrasound guidance to ensure that the fetus is unharmed. Chorionic villi cells are examined to detect chromosome abnormalities such as Down syndrome and genetic disorders such as cystic fibrosis Is a biopsy & analysis of chorionic villi for chromosomal analysis done at 8 to 10 weeks of pregnancy chorion cells are located by ultrasound A thin catheter is inserted vaginally or needle biopsy is inserted intravaginally or inserted abdominally, and a number of chorionic cells are removed chromosone analysis (genetic defect) Chorionic Villi Sampling Instruct client to report bleeding, infection or leakage of fluid after procedure Some instances of limb reduction syndrome Less than 1% risk leading to excessive bleeding, or pregnancy loss Reportable s/sx: Chills or fever (infection) Uterine contraction or vaginal bleeding (threatened miscarriage) AFP/Triple Screen This test involves measurement of AFP, estriol and HCG in maternal serum at 15-20 weeks of gestation to screen for fetal structural & chromosomal abnormalities. Alpha-feto protein is a substance produced by the liver that is present in amniotic fluid and maternal serum. Estriol is initially tested. If the result is abnormal, the woman is next referred for ultrasound to confirm gestational age and to evaluate for neural tube defects (NTD) and other structural abnormalities. A low estriol, elevated HCG, and low AFP finding is often associated with Trisomy 21 (Down syndrome). High in the maternal serum (MSAFP) if the fetus has an open spinal or abdominal defect. Non- Stress Test (NST) An assessment of fetal well-being that analyses the response of the fetal heart to fetal movement When the fetus has adequate oxygenation and intact CNS, the are accelerations of FHR with fetal movement. The baby’s heart rate should accelerate, by 15 beats for at least 15 seconds, twice in a twenty minute period. This is called a reactive NST and is a good sign that the fetus is healthy. A reactive NST indicates intrauterine survival for one week. The doctor may order a CST if the NST is nonreactive. The usual preparation is to feed the mother with food or fluids before the test to stimulate fetal movements Contraction Stress Test Assess the ability of the fetus to withstand the stress of uterine contraction done during labor CST is a means of evaluating the respiratory function of the placenta. Induced or spontaneous contraction decrease transport of O2 to the fetus. A healthy fetus maintains a steady heart rate. If placental reserve is insufficient, fetal hypoxia and decrease in FHR occur. Testing is initiated when 3 contractions in every 10 minutes are attained. The test takes about 60-90 minutes to perform. Periodic Changes a. Accelerations - temporary normal increases in FHR caused by fetal movement or compression of the umbilical vein during contraction b. Early Decelerations - periodic decreases in FHR resulting from pressure of the fetal head during contractions. ◦ - Beginning when the contractions begins and ending when the contractions end (mirror image) ◦ - Normal – late in labor Periodic Changes c. Late Decelerations - delayed decelerations until 30 to 40 seconds after the onset of a contraction and continue beyond the end of the contraction - Ominous pattern in labor (uteroplacental insufficiency) or ↓ blood flow through the intervillous spaces of the uterus during contraction - - The lowest point of the deceleration (nadir) occurs near the end of the contraction instead of at its peak - - Occur with hypertonia or with abnormal uterine tone caused by administration of oxytocin - Stop or slow the administration of oxytocin - Change the position from supine to lateral to relieve pressure from the Vena Cava - Administer IVF or O2 as prescribed - If late decelerations persist – prepare for possible prompt birth of the infant d. Variable Decelerations - Decelerations that occur at unpredictable times in relations to contractions. ◦ - Indicate compression of cord - Cord prolapsed ◦ - Fetus is lying on the cord ◦ - Occurs more frequently: - after rupture of membranes ◦ - Oligohydramnios ◦ - U, V or W – shaped waves ◦ - Position: lateral or T-position ◦ - Administer fluids and O2 as prescribed ◦ - If not relieved, amnioinfusion may be prescribed Interpretation Results of CST Positive : there is persistent late decelerations w/ more than half the contractions; maybe associated w/ minimal or absent variability. A positive CST means that the fetus is no longer receiving adequate oxygen and needs to be delivered. Negative : There is no late deceleration in a 10-minute period and this means that it is safe for the fetus to remain in utero for the next 7 days

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