From Pregnancy to Pediatrics
Caring for the Fetal Family
NAPNAP WA State Annual Continuing Ed Meeting
March 11, 2013
Lani Wolfe, ARNPSeattle Children’s Prenatal Program
PART I
Preparing families & health care systems
for babies with conditions
diagnosed prenatally
The backstory behind the baby you meet…
Prenatal Diagnosis
“The goal of prenatal diagnosis is the near-term delivery of a nonhydropic infant whose postnatal management is anticipated”
- Cuneo, Bettina 2006. Outcome of fetal cardiac defects.
Current Opinion in Pediatrics, 18:490-496
Fetal Care Programs
• Program components vary by institution
• Seattle Children’s opened in 2007 a
Prenatal Diagnosis & Treatment Program
• Formalized, thoughtful approach to the needs of families with prenatally diagnosed congenital anomalies
Prenatal Diagnosis & Treatment Program
• Accurate diagnosis• Ultrasound• Echocardiogram• MRI• Genetic testing
• Counseling - OB + pediatric specialists
• Care coordination
• Fetal Intervention at Seattle Children’s + partner institutions
• Medication for cardiac arrhythmias• Fetal bladder taps/ vesicoamniotic shunts• EXIT procedures for airway management
Prenatally Diagnosed Condition groups (% of prenatal pts at SCH)
• Congenital heart disease (60%)
- structural
- arrhythmias
• Neurodevelopmental (15%)
- neural tube defects
- intracranial anomalies
• General surgical conditions (15%)
- abdominal wall defects
- congenital diaphragmatic hernia
- bowel atresias
- congenital lung lesions
• Urologic/ Nephrologic conditions
• Chromosome anomalies
• Craniofacial + skeletal
Prenatal Obstetric Care
ACOG: American College of Obstetrics & Gynecology• Guidelines for prenatal care:
• “Women who receive early and regular prenatal care are more likely to have healthier infants”
• specifics of “care” vary
• Major birth defects: 2-5% live births
• Aim to ID risk factors for poor outcomes“…a significant % of intrapartum & neonatal problems occur among
pts without identified antenatal risk factors.”• the case for most of your patients
Prenatal Obstetric Care
Antepartum surveillance: recommended for all
• HCT/ Hgb, blood group, antibody screen, Rubella immunity, infectious screen, UA, cervical cytology, diabetes screening, CF
• If seek care <20wks: offer screening for aneuploidy• Serum screening +/- NT +/- 20w marker US (combined , triple, quad)
• Offers composite risk for T-13, T-18, T-21 + ONTD
• All women, regardless of age, should have the option of invasive prenatal diagnosis for fetal aneuploidy (CVS or amnio)
Prenatal Obstetric Care
Ultrasound: no official standard for low risk pts“…only when there is a valid medical indication for exam.”
Typical at major medical and academic centers:• Viability / dating 8-10wks• Anatomy scan at 18-20 wks
• Additionally as needed• Size / date mismatch• Abnormal or incomplete initial exam
Influences on Fetal Health
• Genetics• Maternal health environment:
• Diabetes, Lupus /Sjögren's• Congenital heart disease• Other chronic or heritable conditions• Medications• Pregnancy induced hypertension• Infection
• Uterine environment• Amniotic fluid volume, infection, multiple gestation
• Placenta & cord • location, quality, cord insertion• A beast of its own– respect the placenta!
What causes it?What causes it?
Prenatal Counseling
Understanding the maternal / familial state:All influence decisions re pregnancy mgmnt & level of neonatal intervention
• Age/ stage: teen -- elderly primigravida (AMA)• Profession: health care provider, special ed teacher, military
• Planned: ART, last sperm banked FOB w testicular CA• Unplanned: using contraception, post vasectomy or BTL
• Geography • regional factors (local communities, mountain passes)• country of origin, resources / societal attitudes
Prenatal Counseling
• Cornerstone of the program is unified message and plan between pediatrics & OB: bridging the gap
• Preparing the family• Diagnosis • Prognosis• Neonatal – lifespan experience• Multidisciplinary input• Management options available• Emotional support• Logistic planning
Prenatal Counseling
Families are parenting already
Walk with families down whatever path
they can make most peace with
It’s ok to share hope rather than crush it
Prenatal Care Coordination: Delivery Planning
Delivery• Where• When• How• Who• Family logistics
Prenatal Care Coordination
• Unique challenges • How to plan for someone who’s not here yet?• No medical record #??
• Origins of fetal care coordination• Ensuring prenatal work is shared in the neonatal period:• provider to provider communication• bridging the gap between obstetrics and pediatrics• SURPRISE!
Prenatal Care Coordination
Communication
• Stork Report / forecast tool• Weekly teleconference • Cord blood tracking• Pediatric outcomes letters
Stork Report in action!
Goals of Prenatal Diagnosis
• Improved outcomes:
• Family logistics • Emotional preparedness: families who have
already begun the grieving process are better prepared to engage with the baby & care process. Possibly even better aligned as couples
• Health outcomes
• Neonatal palliative care for severe cases
• DC planning: initiated antenatally
Ethics, Dilemmas, Challenges
Dilemmas for families:
• Pregnancy decision-making (up to 24 wks in WA)• Discordant twins• Location of care – out of state options• Discordant beliefs within the family• Full neonatal intervention or comfort care?• Inadequate information
• Limitations of fetal diagnostic technology• Encourage families to consider “most likely outcome” in
their decision making.
Ethics, Dilemmas, Challenges
Dilemmas for providers:• Do we adequately capture the essence? Can we?• Do families have what they need to make their decisions?• Counseling to be or not be neutral?
• “what would you do?”
• “Parents will always want the right to make decisions but not always the responsibility.”
David Woodrum, MD
Part II
Case Studies
Congenital Heart Disease
CHD:• Structural CHD = most common congenital anomaly group• ~ 1% of live births are affected• In USA: 32,000/yr births with CHD -- 1400/yr in WAMI region
• ↑ risk recurrence to 2-3% after an affected pregnancy• Fetal echocardiogram is mainstay of prenatal diagnosis
• As early as 14wks, with completion at > 18wks
Prenatal Diagnosis & Treatment ProgramCHD: fetal echo referrals to PNC
fetal indications
• Structural anomalies• Chromosomal
anomalies• Arrhythmias • Unable to clear heart
on routine OB scan• Increased NT• Hydrops
maternal indications
• Prior child with CHD• Maternal CHD• Maternal diabetes• Maternal Lupus or
like condition• Exposures:
medications, viral illness
Congenital Heart Disease: HLHS
• Several studies comparing the experience of pre / post natal diagnosis of HLHS have found:
♥ less preoperative acidosis in the prenatally diagnosed groups
♥ improved survival to surgery
♥ no differences in post-operative mortality and survival
• study: fewer adverse perioperative neurologic events♥ Rich area of research: long term neurodevelopmental
outcomes
impact of prenatal diagnosis
Case 1: Hypoplastic Left Heart Syndrome
OB History: 32 yo G3 P2→31 prior term vaginal delivery + term CS for
NRFHTHealthy 14yo & 7yo
PMHx: HTN – Rx’d meds x 1yr, dc’d with pregnancy test
FMHx: No congenital anomalies
Social Hx: Pt & husband active duty militaryHusband in Afghanistan most of pregnancy
Case 1: Hypoplastic Left Heart Syndrome
Prenatal CourseLate to care at 18wks – irregular menses, had not realized pregnant
Declined serum screening
• 20wk anatomy scan: • hypoplastic left heart syndrome• o/w normal fetal growth, amniotic fluid, anatomy
Declined amniocentesis
Case 1: Hypoplastic Left Heart Syndrome
• Seattle Children’s Prenatal Clinic at 21 +5wks• Fetal echocardiogram confirmed dx: HLHS w mitral + aortic atresia• US: o/w normal fetal growth, amniotic fluid, anatomy• Mildly elevated BP
• Thorough counseling: cardiology + MFM combined• Offered range of pregnancy management options• Opted for pregnancy continuation• Joint OB management w local MFM + UW
Plan: • serial fetal echo + US f/u for remainder of pregnancy• UW delivery by repeat CS at 39wks• expeditious neonatal transfer to SCH
Hypoplastic Left Heart Syndrome: HLHS
• Spectrum of disease, accounts for 1% of CHD
• ~20x/yr evaluated at SCH Prenatal Clinic • HLHS + unbalanced AV canal, heterotaxy, HRHS, other single ventricle
• Features: • Hypoplastic left heart structures• Cause unknown• Usually tolerated well in utero
• Post-natal ↓PVR & ductus closure → ↓systemic cardiac output → shock & metabolic acidosis
Congenital Heart Disease: HLHS
Surgical palliation now “standard of care”
• Single ventricle surgical pathway
• Staged procedures to ultimately separate red / blue circulation• Relies on the single ventricle as systemic pumping chamber• Relies on passive pulmonary blood flow
• Systemic venous return bypasses heart, flows passively to lungs
• Norwood: 7-10 days (RV-PA shunt, aortic arch reconstruxn, atrial septectomy)
• Glenn: 4-6 months (SVC-PA) • Fontan: 3-5 years (IVC-PA)
Congenital Heart Disease: HLHS
Counsel: severe, complex structural heart disease• Surgical palliation is not repair• Intense first few yrs: consistent caregiver at home ideal
• Morbidity, mortality with surgery + inter- stage• Neurocognitive impacts
• Lifelong cardiology f/u• Many do very well, school + activities• ↓ ventricle fxn over time (late teens, early 20’s): transplant
Conditions with abnormal lungs or pulmonary vasc may preclude the single ventricle pathway• not a candidate for ultimate Fontan completion• may not be offered a surgical option neonatally
Basic Cardiac Anatomy Hypoplastic Left Heart Syndrome
Congenital Heart Disease: HLHS
Fetal Echo Hypoplastic Left Heart: HLHS
Case 1: Hypoplastic Left Heart Syndrome
High risk pregnancies + medically complex children take a toll on families.
Impact for this dual-military family:• Frequent communication w commanding officers for both parents• Pt single-parented and worked full time until delivery
• Required permission (not granted) to wear tennis shoes• Dad returned from Afghanistan 1 week before scheduled CS
• Achieved commitment to staying stateside indefinitely thereafter
Case 1: Hypoplastic Left Heart Syndrome
Delivery:• Scheduled repeat CS at 39wks at UW
Newborn:• BW 3129g• Apgars 3 (1min) 6 (5min)
• Limp, poor resp effort, low 02 sats
• Stim, PPV, CPAP• PGE infusion• Transferred to SCH within 4hrs
Case 1: Hypoplastic Left Heart Syndrome
• 4 days: OR modified Norwood w Sano shunt• 10days: OR delayed sternal closure• 29days: DC’d home on nc oxygen, NG feeds + sat
monitor
• Frequent cardiology + PCP f/u
• 5 months: Glenn + patch repair of PAs+aaorta• Post-procedure cardiac arrest, CPR, prolonged intubation in CICU• Cath – stents placed in LPA + portion of aorta• Hospitalized nearly 2 months (pulm HTN, opiate wean)• Readmitted x1 for diuretic adjustment • Borderline decreased RV function
Case 2: Diaphragmatic Hernia
OB HistoryHealthy 34 yo G2 P1→2
Soc: married, planned pregnancy, healthy 2yo sibling
FMHx FOB’s younger brother - congenital diaphragmatic hernia
- died at 1 wk of life, no other anomalies
FOB’s older brother - neonatal death, etiology unknown
Case 2: Diaphragmatic Hernia
Prenatal Course• Declined prenatal serum screening
• ~20wks anatomy scan: left diaphragmatic hernia• Stomach ↑ in left chest • Liver ↓ in abdomen• LHR 1.1• Heart shifted right• High normal amniotic fluid• o/w normal fetal growth + anatomy
• Amniocentesis: normal karyotype, 46XY, declined microarray
Case 2: Diaphragmatic Hernia
24 wk USstomach & heart at same level
Case 2: Diaphragmatic Hernia
• CDH: • incomplete devpt of diaphragm muscle• abdominal contents herniate into chest
• Occurs early (4-8wks GA), during formation of diaphragm
• 1:4000 live births (1:3000 pregnancy, IUFD, TOP)
• Etiology unknown
• Pulm hypoplasia + pulm HTN are hallmarks
• 80% L sided, prognosis worse for R sided
• 15-25% have associated anomalies
Case 2: Diaphragmatic Hernia
• CDH prenatal detection rate: ~60%
• Predictors of outcome: survival & need for ECMO• Liver position is most important prognostic factor across studies• + lung volume estimates
• Liver ↓ + LHR >1.4 = most favorable outcomes (~25% cases)• Liver ↑ + LHR <1.0 = worst outcomes (~25% cases)
• Predictors of lung volume• Lung to Head Ratio (LHR) by US• MRI – institution dependent expertise• 3D US
Case 2: Diaphragmatic Hernia
• UCSF Fetal Treatment Ctr at 23 + 3wks• Liver ↑ in chest • LHR 0.9• Mild polyhydramnios (AFI 22.9cm)• Normal fetal echo• Normal growth, no other structural anomalies• fetal tracheal occlusion was offered
Fetal intervention criteria at UCSF: • LHR < 1 (+ liver up)• Normal karyotype• <28 wks• No other anomalies or maternal contraindications
Case 2: Diaphragmatic Hernia
Seattle Children’s Prenatal Clinic• Consult pediatric surgeon + fetal echocardiogram
Close OB monitoring• LHR stable, improved 1.2-1.4• steadily increasing AFI – up to 50cm (double normal)
• amnioreduction offered
Declined offer for tracheal occlusion at UCSF
Family Preparation:• 2 hospital tours: included older sibling• CDH support group + linked w families thru Parent Support Program• Neonatology + social work consultations
Case 2: Diaphragmatic Hernia
• Newborn Course• 38+3wk delivery by scheduled C/S, BW 3.3 kg• High-frequency oscillator• Transferred to SCH at 3hrs of life
Case 2: Diaphragmatic Hernia
• Worsening blood gases + pulmonary HTN • Oscillator + inhaled Nitrous Oxide• ECMO on DOL #3 x 14 days
Patch repair of “extremely large” CHD on DOL # 23• “diaphragm was essentially almost nonexistent” • Gore-Tex + Marlex patch• Left lobe of the liver + stomach + bowel in left chest
Case 2: Diaphragmatic Hernia – first + last day of ECMO
Case 2: Diaphragmatic Hernia
Case 2: Diaphragmatic Hernia: pre-op + post-op films
Case 2: Diaphragmatic Hernia
Post-Op Course:• POD # 16 Extubated to CPAP, then to nasal cannula
• Age 7.5wks: off TPN, full enteral feeds, fortified BM via ND tube
• 2 months (62days)- DC’d home• Oxygen by nasal cannula (0.2 Lpm)• NG feeds + small volume PO training• Meds: oral sildenafil, PPI, Reglan, clonidine
Age 1 yr:• 9mo- Pulm HTN resolved, O2+ Sildenafil DC’d• All PO, growing & developing well, active• No significant respiratory illnesses• No re-admissions to the hospital• Mild URIs have not required oxygen since it was DC’d
Case 2: Diaphragmatic Hernia
2yr f/u:• Off O2• Off all meds
• Gen Surg: • “looks absolutely fantastic!” (surgeon)
• Pulm: bronchitis x2, albuterol w URIs, sats 100% RA
• Cardiology: nml, pulm HTN resolved
• Orthopedics: no apparent scoliosis, annual f/u
• Audiology: nml hearing, f/u 6 mo
• Devpt: nml growth, devpt, energy, activity w peers/sib, lang/ cognitive
• Genetics: abnormal microarray pt + FOB + FOB’s dad, sib -
Neurodevelopmental
• Neural tube defects: spina bifida
• Brain differences:• Agenesis of the corpus callosum• Cerebellar vermis hypoplasia• Ventriculomegaly
• Holoprosencephaly• Encephaloceles
Neurodevelopmental
• NTD: • lesion level impacts anticipated LE mobility (walking)• o/w uniform likelihood of impact on bowel, bladder, cognition,
need for shunt • >80% need shunt if neonatal repair, less for fetal repair
• US margin for error identifying lesion level• Fetal surgery – MOMS trial
Neurodevelopmental
Counseling anticipated NDV outcomes for other lesions
- Limited research on fetal imaging differences correlated with long term f/u of NDV outcomes
- Emphasize consideration of the “most likely” outcome- Impact on individual + household- Resources available
- Concept of risk tolerance: • risk of continuing a pregnancy with abnormal NDV outcome• risk of terminating a pregnancy with normal NDV outcome
Neurodevelopmental outcomes counseling
• Mild • Likely to achieve milestones, w some mild delays• May need assistance in some areas• Likely to blend w typical population• Independent in adulthood
• Moderate• Likely to achieve delayed milestones • Likely to need developmental assistance / therapy• Unlikely to blend entirely w typical population• Unlikely independent in adulthood
• Severe • Does not progress beyond infant stage• Total care assistance thru lifespan
Case 3: progressive ventriculomegaly
• 33yo G3 P1011
• son w CAH + gene mutation• FMHx: FOB m-half sister w epilepsy, o/w no DD/ hydroceph
• Amnio 46XY normal male karyotype• 18w US: prominent ventricles 9.1mm (upper nml), CSP nws• 21w US: ventricles 15mm (high), enlarged 3rd vent, CSP nws• 26w US: ventricles 28mm• 30w US: ventricles 28-29mm + large BPD (11cm > 10cm)
Severe B ventriculomegaly + dilated 3rd V, c/w aqueductal stenosis
Neurodevelopmental
• Ventriculomegaly = enlarged fluid spaces within the brain.
caused by:• Obstruction to usual CSF circulation• Abnormal brain tissue development• Loss of brain tissue due to infection or stroke / hypoxic insult
• Hydrocephalus = extra fluid in / around the brain, causing symptoms related to pressure on the brain.
Prenatal USSevere ventriculomegaly at 26 + 5wks
28 mm B ventricles profile
Prenatal USNormal brain anatomy at 26 + 3wks
3.7mm left lateral ventricle profile
Fetal MRI – 21 wks: normal exam
NDV Case: progressive ventriculomegaly
Counseled:• Very low chance for typical development• Significant chance of mod-severe developmental impact
• assistance similar to that needed for elementary aged child• total care for most severe (feeding/ mobility, ADLs)
• Likely to require CSF diversion (VP shunt or 3rd ventriculostomy)
• Cesarean delivery due to large BPD
NDV Case: progressive ventriculomegaly
Recommended post-natal diagnostic w/u:- Complete neonatal PE w neuro exam by pediatrician
- Hydrocephalus monitoring: - cranial US, daily OFC in-pt, weekly OFC out-pt, s/s
- Unsedated brain MRI within 1 wk
- Genetics: SNP array, L1CAM, creatine kinase, DNA banking
- Genetics consult if other anomalies id’d
- Ophthalmology consult – can be done as out-pt
- Early Intervention
- NDV clinic by 3 mo
- Palliative care if indicated
NDV Case: progressive ventriculomegaly
• TOP declined• Cephalocentesis for vaginal delivery declined
• Delivery: LTCS at 39 + 3wks• Maternal hypertensive crisis prior to delivery• BW 4075g (87%tile)• Cord blood sent for genetic w/u (CGH, L1CAM, CAH)• Apgars 6 & 8→ poor resp effort 02, PPV, CPAP, ultimately ET tube
• Transferred to SCH on DOL #5• VP shunt DOL #6, DC’d home at 17days
Newborn US: DOL #1
“Massively dilated lateral ventricles.The third ventricle is not dilated. No obvious PF mass.”
Newborn MRI: DOL #2
“Marked enlargement of lateral & third ventricle w associated severe thinning of the overlying cortex…cerebral aqueduct appears diffusely narrow in caliber… post fossa is relatively normal in appearance…“
Severe hydrocephalus w massive distension of the lateral ventricles… suggestive of aqueductal stenosis.”
NDV Case: progressive ventriculomegaly
At 2 mo NDV Clinic f/u• L1CAM testing +, CAH – • PO well from bottle, good wt gain (wt 25%, HC >98%)• No h/o sz activity• Alert, calms to familiar faces, slow tracking, not bringing items
midline, hands clenched continuously, alternates floppy/stiff tone• Slightly ↓ head control• Overall increased tone + some motor delay
• Early Intervention referral made
• Shunt leak / infection at 3mo: externalized, Rx’d, internalized