+ a closer look at chronic respiratory disease states and genetic anomaly baby “a”
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A Closer Look at Chronic Respiratory Disease States and Genetic Anomaly
Baby “A”
+Health History
Birth Hx: born at 381/7 weeks via emergency C-section due to pre-eclampsia
Past Medical Hx: multiple past respiratory-related hospital admissions, respiratory failure 2o paraflu (hPIV), laringomalacia resolved by supraglottoplasty
Family Hx: 11q13.3 deletion on father’s side, has 2 brothers and one of them with developmental disabilities
+Culture
No extraordinary considerations
Even though mom has two other boys to take care of, one with developmental issues as well, she is consistent in coming to the hospital right after she drops them off at school and cares for her daughter. It seems like this has become a normal part of life for her, and she manages to maintain a positive attitude through it all. Another month-long hospital trip has become routine for both.
+HPI/Admission
A is a 10 month old infant who presented to the ER on 9/3/13 with “cold symptoms” since that Sunday in the setting of “wet lungs for weeks,” as stated by her mother. Acutely, she had been having a constant productive cough, runny nose & eyes, elevated WOB, and a fever of 101.5o F. Upon admission, her symptoms had worsened and she was unable to sleep.
+
Chronic Lung Disease
Viral URI(Upper
Respiratory Infection)
MEDICAL
DIAGNOSES
+Patho & Treatment of URI URI is also known as acute viral nasopharyngitis or the
“common cold.” Though it would not pose a significant threat to a healthy person, in A’s case her already compromised lung function led to a month-long stay in the hospital.
Symptoms of nasopharyngitis are more severe in infants and children than in adults. Fever is common, especially in young children. Fevers can occur suddenly and are associated with irritability, restlessness, decreased appetite and fluid intake, and decreased activity. Vomiting and diarrhea may also be present.
Symptoms are mostly managed without any specific treatment or medication. Some might receive antipyretics, decongestants, cough suppressants, and plenty of rest is recommended for all.
(Hockenberry & Wilson, 2011)
+Patho of CLD CLD is also known as bronchopulmonary dysplasia (BPD). It
develops primarily in ELBW and VLBW infants with RDS. BPD may also develop in infants with MAS, persistent pulmonary hypertension, pneumonia, and cyanotic heart disease. Infants who develop BPD are at risk for frequent hospitalization because of their borderline respiratory reserve, hyperactive airway, and increased susceptibility to respiratory infection.
Risk factors for BPD include assisted ventilation, oxygen administration, prenatal and postnatal infections, PDA, and fluid imbalance.
BPD begins with the immature lung that undergoes and initial injury leading to a chronic inflammatory process that results in recurrent injury and abnormal healing.
Growth and development are often delayed, which is related to difficulties in providing adequate nutrition and in part to the lack of normal sensory stimulation because of prolonged hospitalization.
+ Treatment of CLD No specific treatment Maintain adequate arterial blood gases with the administration of
oxygen Stop progression of disease Corticosteroids are beneficial with BPD by decreasing pulmonary
inflammatory response and improving oxygenation and gas exchange, though they are still considered a controversial therapy**
Weaning infants from oxygen is difficult and must be accomplished gradually.
These infants do not tolerate excessive or even normal amounts of fluid well and have a tendency to accumulate interstitial fluid in the lungs, which aggravates the condition. Oral diuretics are used to control interstitial fluid.**
Nebulized or metered dose inhaler bronchodilaters (albuterol) and inhaled steroids may be effective and promote improvement in infants with BPD
Oral electrolyte supplements are given to replace those lost with concurrent oral diuretics and renal water losses
Metabolic needs are far greater than that of average infant, which are further compromised by GERD, a common complication of CLD – adequate intake of protein is particularly important
(Hockenberry & Wilson, 2011)
+Applicable Research The use of postnatal steroids (PNS) for the treatment and
prevention of CLD/BPD, is very controversial in the field of neonatology. Although PNS was once considered the mainstay for managing CLD, reports of adverse neurodevelopmental outcomes dramatically changed clinical practice.
Research demonstrating the efficacy and safety of PNS use remains limited.
No proven safe and effective therapies available for the prevention and treatment of BPD.
Follow-up data on adverse effects of dexamethasone are mixed: Several studies found a higher incidence of adverse effects such as
decreased growth parameters and increased neurodevelopmental impairment.
Some studies suggest that the benefits of PNS use may outweigh potential adverse effects in certain patient populations. For infants at higher risk of developing BPD, corticosteroid treatment reduced the risk of death or CP.
(Forest, 2011)
+Applicable Research Diuretics are used in preterm infants to treat the symptoms of
bronchopulmonary dysplasia (BPD), although there is little evidence of their effectiveness in improving long-term outcomes. Prescribing patterns and frequency of diuretic use in patients with BPD are unknown. Long-term diuretic administration to patients with BPD is commonly practiced despite minimal evidence regarding effectiveness and safety.
“Variation in the Use of Diuretic Therapy for Infants With Bronchopulmonary Dysplasia”: collected data from 85% of all freestanding children’s hospitals in US in an effort to understand better the national usage of diuretics as a therapy for BPD/CLD. (Remember: there is no specific therapy for CLD)
A total of 1429 infants met the criteria for BPD at age 28 days, of which 1222 (86%) were treated with at least 1 diuretic dose. Patients received a median of 9 days (25th–75th percentile: 2–33 days) of diuretic therapy.
The range of infants receiving a diuretic course of >5 days duration varied by hospital from 4% to 86%, with wide between- hospital variation even after adjustment for confounding variables.
(Slaughter, Stenger & Reagan, 2013)
+
Phelan-McDermid syndrome (22q13.3 deletion syndrome) is characterized by neonatal hypotonia, global developmental delay, absent to severely delayed speech, and normal to accelerated growth. Most individuals have moderate to profound intellectual disability(Phelan & Rogers, 2005).
Secondary
Diagnoses
Chromosomal Deletion
22q13.3
GERD
Systemic hypertensio
n
+Development
10 month old A is in Erikson’s “trust vs mistrust” stage of psychosocial development. She is for the most part dependent on us nurses for her care, especially with her developmental delays, all she is able to do at this point is roll over on her own and pull her head up when on her stomach. Her development is really equal to that of a 6 month old.
For assessment purposes, the nurses were quiet and calm when speaking, gently yet firm in handling, doing the quiet procedures first and saving for last that which might irritate or upset her. When she was awake and alert, they would talk to and play with her. The nurse also involved mom in the care whenever possible, because this infant had already learned to trust mom and was more responsive to her.
+Assessment Neuro
Developmentally delayed: cannot crawl, sit up, or stand. Exhibits significant cognitive delay.
CV
PICC in right upper arm, both parts hep locked
Resp
Coarse breath sounds bilaterally, slight retractions substernally.
GI
JG tube, G tube to ferrell bag, J tube infusing cont feeds of Elocare 30 kcal @ 24 ml/hr
M/S
Motor skills delayed.
Skin
Site around JG tube slightly reddened, mesh vest around abdomen
Risk for Infection
R/T pre-existing infection,
compromised immunity, PICC line,
GJ tube, constant presence of secretions
Contact/droplet precautions
A.A. - 10 mo
Viral URIChronic Lung
DiseaseChromosomal
deletion
Ineffective Breathing Pattern
R/T chronic diseased lung state, inflammatory
processEvidenced by: productive
cough, resp depth changes, slight retractions
Baseline O2 is ½ L continuous
Meds: Albuterol, Pulmicort
Ineffective Airway Clearance
R/T infectious disease process, tracheobronchial secretions, mucus in nasal
passagesEvidenced by: cough,
changes in depth of resp, runny nose, coarse lung
soundsRisk for Caregiver
Role Strain
R/T significant home care needs for 2 out of 3 children, mom
says they lose a home nurse every time A ends up in
the hospital, frequent
hospitalizations that last for weeks-
months
Delayed Growth & Development
R/T genetic abnormality, chronic disease state,
frequent hospitalizationsEvidenced by: below 2%
on height and weight growth charts, unable to
meet developmental milestones for 10
months
Ineffective Breathing Pattern
Pt will maintain effective breathing pattern and
good O2 sats (92-100%).
Risk for Infection
Pt remains free of additional
infections during hospital stay.
Delayed Growth & Development
Pt will participate in developmental
stimulation program to increase skill levels.
Risk for Caregiver Role
Strain
Caregiver demonstrates
competence and confidence in
performing the caregiver role.
Ineffective Airway Clearance
Pt’s airway will be maintained free of
secretions.
Expected
Outcomes
+Nursing Interventions
This little girl has a lot going on, but the primary focus in her care is respiratory. The fact that she has chronic lung disease and is recovering from an upper respiratory infection puts her at risk for a significant amount of respiratory problems, specifically buildup of secretions and possible progression to pneumonia. She is at risk for other infections, aspiration, fluid overload (she gets crackles at the slightest bit of volume increase), and her oxygen sats depend on the ½ L of O2 going through her nasal cannula, which she keeps pulling off. Therefore, my primary nursing diagnoses were centered on providing nursing interventions for bettering of her respiratory status.
+Nursing Interventions
Pt was assessed for respiratory rate & depth, patent airway, breathing patterns, breath sounds, nutritional status, height & weight, family resources, and available support system
Continuous pulse ox monitoring HOB was kept elevated to 30o
Secretions in airway were suctioned regularly Contact/droplet precautions were maintained
throughout hospital stay Occupational therapy collaborated with nurses to
provide activities that help develop fine/gross motor skills, improve coordination and strength
Nurses would sit A up and continuously talk to her whenever they came in to assess
Relationship with caregiver was established
+Teaching Needs
A’s mother was very informed about her condition since A had been in the hospital so many times previously with the same complications and they have been through discharge procedures multiple times. I did remind mom to surround herself with a support system so that she could get a break from time to time and focus on keeping her own health from deteriorating as well.
+Any Questions?
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+ReferencesHockenberry, M. J., & Wilson, D. (2011). Wong's essentials of pediatric nursing (9th ed.). St. Louis, MO: Mosby/Elsevier.
Forest, S. (2011). Postnatal steroids for the treatment of bronchopulmonary dysplasia: a complex case presentation. Journal of Perinatal & Neonatal Nursing, 25(3), 292-293.
Phelan, K. & Rogers, C. (2005). Phelan McDermid Syndrome. GeneReviews. Retrieved from http://www.ncbi.nlm.nih.gov/books/NBK1198/
Slaughter, J. L., Stenger, M. R., & Reagan, P. B. (2013). Variation in the Use of Diuretic Therapy for Infants With Bronchopulmonary Dysplasia. Pediatrics, 131(4), 716-723. doi:10.1542/peds.2012-1835
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