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HESI/ATI Review Catherine Ramos Marin, MSN/Ed, WHCNP, RN August 12, 2011 Physiological Changes in Pregnancy Integumentary- as result of increased estrogen and progesterone- linea nigra, cholasma, and palmar erythema Neurological- Carpal Tunnel Syndrome, decreased attention span Heart- increased blood flow- 30-50%, “physiological anemia 11-12 Hgb Physiological Changes in Pregnancy (Continued) Supine Hypotension Syndrome- don’t have patient lie on her back (complaints of dizziness, diaphoresis and pallor) Respiratory Syndrome- increased oxygen requirements, Eyes, Ears, Nose and Throat- c/o blurry vision, increased mucus membranes, throat congestion Physiological Changes in Pregnancy GI- gingivitis, ptyalism (increased saliva), heartburn Urinary System- Increased urgency, frequency and nocturia (1st trimester), urine urgency and nocturia decreases (2nd trimester), increased urgency and frequency (3rd trimester) because fetus starts engaging in the pelvis Physiological Changes in Pregnancy Thyroid- increased size, HPL (humal placental lactogen- insulin antagonistincreases the number of circulating fatty acides to meet maternal metabolic needs and decreases maternal glucose utilization which increases glucose availability to the fetus- Macrosomia babies- decreased HPL and large babies ten to be Hypoglycemic Physiological Changes in Pregnancy Musculoskeletal System- diastasis recti, relaxin- produced by placenta and causes laxity of ligaments Prenatal Labs Blood Group with Rh factor, RPR, Hepatitis B, CBC, HIV, Sickle Cell screen for women at risk Signs of Pregnancy Presumptive changes- breast changes, n/v, amenorrhea, frequent urination, fatigue, uterine enlargement, quickening, linea nigra, melasma, striae gravidarum Probable- elevated HCG Definite- fetal heart tones Gravida-parity •Gravida- number of times a woman has been pregnant •Para- number of times infants delivered after twenty weeks gestation born dead of alive •Remember, multiple births counts as one delivery •TPAL is a detailed description of Para Danger Signs of Pregnancy Vaginal bleeding Persistent vomiting Chills and fever Ruptured membranes Danger Signs of Pregnancy (Continued) Severe, persistent headache Visual disturbances Edema of face or hands Abdominal pain Epigastric pain Painful urination persistent vomiting Change in or absence of fetal movement (e.g., no movement for 6-8 hours) Identifying the High-Risk Pregnancy High-risk pregnancy A concurrent disorder, pregnancyrelated complication, or external factor jeopardizes the health of the mother, fetus or both Preterm Labor Terbutaline, Procardia, Nifedipine, MgSo4 For Terbutaline make sure you consider maternal pulse Shoulder Dystocia Dispositions leading to shoulder dystocia? Result- brachial plexus injury McRoberts Maneuver Positions other than cephalic (pages 604-605, Pilletteri) Transverse, Breech Usually at 34 weeks the presentation is established Leopold’s Maneuver Grasp the uterine fundus between the thumb and middle finger of one hand Soft feeling (buttocks) Round, firm and easily moved (head) Other presentations of fetus If it is Breech Complete, frank and footling Higher risk because of anoxia from prolapsed cord, traumatic injury to the aftercoming head Fracture of the spine or arm Dysfunctional labor Early rupture of membranes Multiple Gestations Susceptible to complications such as PIH, hydramnios, placenta previa, preterm labor, and anemia Increased Incidence of Postpartum Bleeding Placenta 80% of low-lying placentas are resolved or go down in proper position by 28 weeks Abruptio Placentae “Premature separation of the normally implanted placenta from the uterine wall Can occur from 20 weeks of pregnancy or in the 1st or 2nd stage of labor Factors: multiple gestations, hydramnios (excess fluid) cocaine use, decreased blood flow to the placenta Trauma to the abdomen Low serum folic acid level Vascular or renal disease Gestational hypertension Abruptio Placentae Signs- abdominal pain, contractions, back pain Vaginal bleeding and uterine tenderness may be absent “Boardlike” abdomen, uterine irritability, tetanic contractions Result- hypotension, shock, fetal bradycardia and fetal death Placenta Previa “Placenta implants in varying degrees in the lower uterine segment, below the presenting part of the baby” A total or complete previa covers the entire internal cervical os: Partia previa-covers part of the internal os Painless bleeding Placenta Previa Can be diagnosed as early as first 20 weeks of gestation. However, this usually resolves 90% of the time Need to be on pelvic rest (nothing in the vagina such as intercourse, tampon, douching) Avoid masturbation- don’t want uterine contractions Maternal and Fetal Responses to Labor Danger signs of labor - fetal Heart rate Meconium staining Hyperactivity Fetal acidosis Maternal and Fetal Responses Danger signs of labor - maternal Blood pressure Abnormal pulse Inadequate or prolonged contractions Pathologic retraction ring Abnormal lower abdominal contour Apprehension Premature Rupture of Membranes Loss of amniotic fluid before 37 weeks of pregnancy Usually associated with chorioamnionitis (infection in the fluid). Increased risk of cord prolapse Complications of Premature Rupture of Membranes Respiratory Distress Syndrome Infants try to compensate by releasing surfactant (to aid in the maturation of the lungs) NST AND CST Non-stress test- evaluates HR in response to fetal movement Reactive= 2-4 FHR accelerations in 10 minutes without side effects Contraction stress test-evaluates FHR in response to uterine contractions Negative-no late FHR decels produced by UCS Side effects of CST include overstiumulation of the uterus secondary to use of oxytocin True vs. False Labor: Client Preparation False Labor (Contractions) Benign and irregular contractions Felt first abdominally and remain confined to the abdomen and groin Often disappear with ambulation and sleep. Contractions do not increase in duration, frequency or intensity False Labor (Cervix) No significant change in dilation or effacement Often remains in posterior position No significant bloody show Fetus- presenting part is not engage in pelvis True Labor (Contractions) Contractions begin irregularly but become regular and predictable Felt first in lower back and sweep around to the abdomen in a wave Contractions continue no matter what the women’s level of activity Contractions increase in duration, frequency, and intensity True Labor (Cervix) Progressive change in dilation and effacement Moves to anterior portion Bloody show Fetus is in the presenting part engages in pelvis Labor Induction Definition- the deliberate initiation of uterine contractions to stimulate labor before spontaneous onset to bring about the birth either by chemical or mechanical means Methods include Prostaglandins (Cervidil, prostin gel, Prepidil, Cytotec) applied cervically) Pitocin administration Amniotomy or stripping of membranes Nipple stimulation to trigger the release of endogenous oxytocin Sexual intercourse Indications for induction of labor Postterm pregnancy (beyond 42 weeks) Premature or prolonged rupture of membranes Dystocia (prolonged, difficult labor) Maternal complications (Rh isoimmunization, Diabetes, Pulmonary disease, Pregnancy-induced hypertension) Fetal demise Chorioamnionitis Suspected fetal problems- Intrauterine Growth restriction and hydrops (fetal hemolytic disorder as result of Rh isoimmunization when maternal immune system attacks fetal red blood cells Cervical Ripening and Assessment Baseline data on fetal and maternal well-being (at least half an hour of monitoring) Fetal monitoring and uterine contraction monitoring is imperative Notify MD is hyperstimulation or fetal heart rate distress is noted Oxytocin Induction Confirmation that the head is presented in a cephalic position and at 0 station (ideally) IUPC- Intrauterine Pressure Catheter monitors precisely frequency, duration, and intensity of contractions V/S done at least every 30 minutes and when dose is titrated FHTs and UCS monitored every 15 minutes I/Os Oxytocin Induction (Continued) Bishop Score- rating that determines if the cervix is adequate for induction Titration of Oxytocin till UCs every 2-3 minutes, lasting 60-90 seconds, intensity 4090mm HG (IUPC) Cervical dilation should be 1cm/hr (ideally) Reassuring FHTs between 110-160 beats/min When to discontinue Oxytocin Frequency of UCs less than 2 minutes apart Contractions longer than 90 seconds Contractions intensity greater than 90mm Hg on IUPC Uterine resting tone greater than 20 mm Hg between contractions (no rest between UCs) Nonreassuring fetal heart rate FHTs baseline less than 110 and greater than 160 beats/minute Loss of variability Late or prolonged decelerations Intervention for oxytocin hyperstimulation Turn off oxytocin Side-lying position, preferably left to increase uteroplacental perfusion Increase IVFs O2 via mask 8-10 L/min Tocolytics (Brethine subcutaneously or IV) Monitor FHTS and V/S Document responses to all above interventions Need for Fetal Heart Rate Monitoring (Intermittent) Home births and birthing centers Allows for greater maternal freedom of movement Non Stress Tests Continuous Fetal Monitoring Multiple gestations Placenta Previa Oxytocin infusion Fetal bradycardia Maternal Complications (Gestational Diabetes Intrauterine Growth Retardation Continuous Fetal Monitoring Post dates Meconium-stained amniotic fluid Abruption placenta- suspected or actual Abnormal non-stress test Abnormal uterine contractions Fetal distress Provider preference and facility protocol Fetal Heart Tones Between 110-160- Early Decels- head comprehension Variable Decels- Cord compression Late Decels- Placental uterounsuffciency Ruptured Membranes Nitrazine paper turns black or dark blue Vaginal fluid “ferns” under microscope Note color, amount of amniotic fluid If laboring mom ambulates, fetus MUST be at station zero or below (ENGAGED) or there is an increased risk chance of prolapsed cord Rupture of Membranes Spontaneous rupture of membranes can initiate labor or can occur anytime during labor, most commonly during the transition phase Labor usually occur within 24 hours of rupture of membranes Prolonged rupture of membranes greater than 24 hour before delivery of fetus may lead to an infection Immediately following the rupture of membranes, assess fetal heart rate for abrupt decelerations indicative of fetal distress to rule out umbilical cord prolapse Assessment of amniotic fluid Color- pale to straw yellow Odor- should not be foul Clarity- watery and clear Volume between 500 to 1200 ml Nitrazine paper tests pH of fluid wnd will turn deep blue determining alkalinity- if negative it remains yellow or it may be urine instead of amniotic fluid Amniotomy “AROM”- Artificial Rupture of Membranes Nurse should record baseline of FHT prior and after procedure Assess color, amount, consistency and odor Document time of amniotomy and findings Regional Anesthesia Injection of local anesthesia to block specific nerve pathways Epidural anesthesia Nursing care Administration Spinal anesthesia Problems with the Passenger Prolapse of umbilical cord Multiple gestation Prolapsed Cord It is safer for patient to remain in bed after rupture of membranes (especially in they rupture in Stage 1 of labor) Place patient in Tredelenberg or knee-chest position Also vaginally push the head back away from the cord. If during the V.E. you feel the cord you may not be able to let go and your hand may remain in place till C-section is performed. Stages of labor Stage 1- LAT Stage 2- pushing at 10 cm to delivery of infant Stage 3- Delivery of infant to Delivery of placenta Stage 4- Delivery of Placenta to 2-4 hours of recovery Assessment for WellBeing Apgar scoring Heart rate Respiratory effort Muscle tone Reflex irritability Color Appearance of a Newborn Head Fontanelles Sutures Molding Caput succedaneum Cephalhematoma Craniotabes Appearance of a Newborn Skin Vernix caseosa Lanugo Desquamation Milia Erythema toxicum Forceps marks Appearance of a Newborn Eyes Ears Nose Mouth Neck Chest Appearance of a Newborn Abdomen Anogenital area Male genitalia Female genitalia Back Extremities FAS Newborn Note The Facial Features Assessment for WellBeing Keeping the newborn warm Promoting adequate breathing pattern Record of first cry Inspection and care of umbilical cord Eye care Infection precautions Heelstick- lateral portion of foot Heel stick Altered Gestational Age or Birthweight Large for gestational age Causes Assessment Appearance Cardiovascular dysfunction Hypoglycemia Altered Gestational Age or Birthweight Small for gestational age Causes Assessment Prenatal Appearance Laboratory findings Hypoglycemia Due to decreased glycogen storage in liver. Hypoglycemia usually happens to infants of Gestational Diabetes Mothers S/S includes jitteriness, tremors, lethargy, hypotonia, apnea weak or high-pitched cry, eye-rolling and seizures Post Term Infant Definition- born after 42 weeks gestation Causes Dysmaturity- uteroplacental insufficiency which may result in fetal hypoxia, fetal distress. This conditions can result in polycythemia (increase in the number of RBCs) and meconium aspiration and neonatal respiratory problems Post Term Infant In a fetus continues to grow- this can result in cephalopelvic disproportion and high insulin reserves and insufficient glucose reserves at birth. Birth Trauma- perinatal asphyxia, clavicle fracture, seizures, hypoglycemia and temperature instability- cold stress LGA or SGA Post Term Infant Persistent Pulmonary Hypertension (persistent fetal circulation) As a result from meconium aspiration Interference in the transition from fetal to neonatal circulation and the ductus arteriosus(connecting main artery and the aorta) and foramen ovale (shunt between the right and left atria) Nursing Assessments 1. Signs and Symptoms Wasted appearance (thin and loose skin) Peeling, cracked, dry skin Long thin body Meconium staining (fingernails) Long hair and nails Increased alert (similar to a 2 week old) Signs and Symptoms of Postterm infant Difficulty establishing respirations (secondary to meconium aspiration) Signs and symptoms of cold stress Increased development of neurological skills Macrosomia Nursing assessment of postterm infant Observe for birth injury or trauma Respiratory status Reflexes Monitoring vital signs and temperature Monitoring intravenous fluids Nursing Diagnoses Ineffective airway clearance related to meconium aspiration Risk for aspiration related to the presence of meconium Ineffective thermoregulation related to decreased subcutaneous fat Nursing interventions for the postterm infant Assisting with surfactant lavages during delivery to prevent meconium aspiration Suctioning meconium from the neonate’s mouth and nares before the first breath Mechanical ventilation PRN Nursing Interventions for the Postterm infant (continued) Administering oxygen as prescribed Administering intravenous fluids Preparing or assisting with exchange transfusion if hematocrit is high Nursing Interventions for the Postterm infant (continued) Exchange Transfusion First, aspirate stomach first in order to avoid potential aspiration. Then, the umbilical vein is catheterized as the site for transfusion. The procedure involves alternatively withdrawing 2-10ml of the infant’s blood and then replacing it with equal amounts of donor blood. Blood is exchanged slowly to prevent hypovolemia and hypervolemia. Takes 1-3 hours. Nursing Interventions for the Postterm infant (continued) Provide thermoregulation in an incubator in order to avoid cold stress Provide early feedings to avoid hypoglycemia Identify and treating birth injuries Newborn Assessment: Respiratory Distress 5 symptoms of respiratory distress Tachypnea Cyanosis Flaring nares Expiratory grunt Retractions Neonates at risk for Respiratory Distress Syndrome Preterm infants Infants of diabetic mothers Infants born by cesarean birth Decreased blood perfusion of the lungs (one cause is meconium aspiration) Remember, surfactant usually don’t form until 34th week gestation Betamethasone Infants cannot receive surfactant after 34 weeks Measure L/S ratio and PG hormone presence using amniocentesis Sample Question Which of the following signs pertaining to respirations indicate that a newborn is having no difficult adapting to extrauterine life? Expiratory grunting Respirations of 46/min Inspiratory nasal flaring Apnea for 10 second periods Sample Question Obligator nose breathing Respirations of 26/min Crackles and wheezing Answer to Sample Question Respirations of 46/min Apnea for 10 sec periods Obligatory nose breathing Risk Factors contributing to RDS Decreased gestational age Perinatal asphyxia Maternal diabetes Premature rupture of membranes Maternal use of barbiturates or narcotics close to birth Maternal hypotension Risk Factors contributing to RDS (continued) Cesarean birth without labor Hydrops fetalis (massive edema of the fetus caused by hyperbilirubinemia) Maternal bleeding during the third trimester Assessment of infants with Respiratory Distress Syndrome Low Body Temperature Nasal Flaring Sternal and subcostal retractions Tachypnea (more than 60 respirations per minute) Cyanotic mucous membranes Newborn Care: Positions for Sleep Baby is to be positioned on the back Sudden Infant Death Syndromesudden, unexplained death of an infant younger than 1 year of age. Positioning on the back decreases the incidence of SIDS Sleep Wake Cycle Supine position decreases risk for SIDS Sleep 16 our of 24 hours and 2-3 hours at a time Don’t add cereal to diet till 4-6 months of age Infants should never sleep in parents’ bed Hyperbilirubinemia: Phototherapy Nursing Care Hyperbilirubin- results from destruction of red blood cells either a normal physiologic process or abnormal destruction or RBCs Physiologic Jaundice Benign condition Usually occurs after 24 hours of age Pathologic Jaundice Before 24 hours or persistent after day 7 Bilirubin increases more than 0.5 mg/dl/hr, peaks at greater than 13 mg/dl or associated with anemia and hepatosplenomegaly Rh incompatibility/isoimmunization, infection, RBC disorder Kernicterus (bilirubin encephalopathy) can result from untreated hypergbilirubinemia with bilirubin levels at or higher than 25 mg/dl. Factors that affect development of hyperbilirubinemia Increased RBC production or breakdown Rh or ABO incompatibility Decreased liver function Maternal enzymes in breast mil. Ineffective breastfeeding Certain medications (aspirin, tranquilizers, and sulfonamides). Factors that affect development of hyperbilirubinemia(Continued) Hypogycemia Hypothermia Anoxia Lab Testing Elevated serum bilirubin (direct and indirect) Blood group incapability between the mother and newborh Hemoglobin and hematocrit Direct Coomb’s test- reveals presence of antibody-coated (sensitized) Rh-positive RBCs in the newborn Electrolyte levels for dehydration from phototherapy (treatment of hyperbilirubinemia) Nursing Assessments of Hyperbilirubinemia Yellowish tint to skin, sclera and mucus membranes Press infant’s skin lightly and release and notice yellowish tint Note time of jaundice (integral in differentiating between physiologic and pathologic jaundice) Circumcision Care Circumcision- surgical removal of foreskin of penis Newborns with hypospadias and epispadias shouldn’t have circunmcisions Circumcision should not be done immediately because the Vitamin K the infant receives hasn’t kicked in and thermoregulation is not stabilized (cold stress can occur) Circumcision Care Surgical methods include Yellen, Mogen, Gomco clamps and Plastibell Anesthesia is now mandatory for all circumcisions (ring block, dorsal penile nerve block and topical anesthetic) Circumcision site is covered with sterile petroleum With plastibell the foreskin drops off after 5 to 8 days Circumcision Care Postprocedure- bleeding assess every 15 minutes for the first hour then every hour for 24 hours. First voiding Check for bleeding Apply diapers loosely to prevent irritation Teach parents to keep area clean and check diaper every 4 hours Circumcision Care Notify provider if there is any redness, discharge, swelling, strong odor, tenderness, decrease in urination, or excessive crying from infant A film of yellowish mucus may form over the glans by day 2 and it is normal- don’t have to wash off Avoid premoistened towlettes to clean penis because they contain alcahol Circumcision Care (Continued) Circumcision will heal in a couple of weeks Monitor for hemorrhage, coldstress/hypoglycemia, complications (infection, urethral fistula, delayed healing and scarring, fibrous bands Provide discharge instructions to parents about signs and symptoms to observe for and how to report them to provider Postpartal Hemorrhage Uterine atony Therapeutic management Bimanual massage Prostaglandin administration Blood replacement Hysterectomy Postpartal Hemorrhage Lacerations Cervical lacerations Vaginal lacerations Perineal lacerations Postpartal Hemorrhage Retained placental fragments Disseminated intravascular coagulation Subinvolution Perineal hematomas Fundus at umblicus at day of delivery (deviation may mean that bladder is full Nursing Care: First 24 Hours Postpartum Assess peripheral circulation Prevent/alleviate breast engorgement Breast hygiene Promote uterine involution Nursing Care: First 24 Hours Postpartum Perineal care Perineal self-care Rest Adequate fluid intake Prevent constipation Prevent development of hemorrhoids Breastfeeding Problems Mastitis (Signs and Symptoms) Milk stasis from a blocked duct Nipple Trauma and cracked or fissured nipples Poor breastfeeding technique with improper latching of the infant onto the breast- sore and cracked nipples Decrease in Breastfeeding frequency due to supplementation with bottle feeding Poor Hygiene Nursing Interventions for Mastitis Breast Hygiene (handwashing, frequent changes of breast pads, air-dry nipples) Client education Icepacks or warm packs for discomfort Continue breastfeeding every 2-4 hours (especially on affected side) Encourage rest, analgesics and a fluid intake of at least 3000 ml per day Well-fitting bra Report redness and fever Episiotomy Care Anesthetic spray, cortisone-based cream, sitz bath, witch hazel pads (decreases inflammation and relieve tension in the area) Perineal exercises (Kegel exercises)- start and stop voiding in midstream Ice packs for first 24 hours- reduceds perineal edema and hematoma formation After 24 hours dry heat (hot packs or moist heat with sitz bath & heating lamps) Episiotomy Care (Continued) Nursing Diagnosis: Risk for infection related to lochia and episiotomy Good perineal care (handwashing, changing pads, washing front to back) Psychological Changes Development of parental love and positive family relationships Rooming-in Sibling visitation Emotional and Psychological Complications Child born with illness or is physically challenged Child who has died Postpartal depression Postpartal psychosis Postpartal Hemorrhage Lacerations Cervical lacerations Vaginal lacerations Perineal lacerations Reproductive System Disorders Reproductive tract displacement Separation of symphysis pubis Postpartal Hemorrhage Retained placental fragments Disseminated intravascular coagulation Subinvolution Perineal hematomas Pulmonary Embolus Obstruction of the pulmonary artery with a blood clot Usually a complication of thrombophlebitis Therapeutic management Mastitis Infection of the breast Prevention Assessment Therapeutic management