830 likes | 1.09k Views
Pediatric and Neonatal Respiratory Care Embryologic Development. Mary P. Martinasek, BS, RRT. Overview. Introduction Development of the Pulmonary System Development of the Cardiovascular System Fetal Circulation Development of Other Intrauterine Structures. Introduction.
E N D
Pediatric and NeonatalRespiratory CareEmbryologic Development Mary P. Martinasek, BS, RRT
Overview • Introduction • Development of the Pulmonary System • Development of the Cardiovascular System • Fetal Circulation • Development of Other Intrauterine Structures
Introduction • General Fetal Development • Ovum • Embryo • Fetus • Cellular Development
Germ Layers of the Embryo • Endoderm • Respiratory Tract • Mesoderm • Ectoderm
Development of the Pulmonary System Embryonic Period Pseudoglandular Period Canalicular Period Saccular and Alveolar Period
Embryonic Period • From Conception to 4-6 weeks gestation • Development of proximal airways • 0-24 days one central tube • 24 days - primitive lung bud appears
Embryonic Period (continued) • 26-28 days form right and left lung buds • Primitive airways progress in dividing • Lobar bronchi - day 31 • diaphragm starts and is completely developed by 8th week
Pseudoglandular Period • 7-16 week gestation • development of conducting airways • 7th week - epiglottis formation starts • 7th week - choana disintegrates and palates development begins
Pseudoglandular Period (cont.) • 8th week - vocal cord development begins • Lung resembles gland • Dichotomy results • 11th week - cartilage in airways appears • 12th week - major lobes identifiable
Pseudoglandular Period (cont.) • 13th week - goblet cells form • 13th-24th week bronchial glands develop • 10 week - ciliated cells start to appear
Canalicular Period • 17-24 weeks gestation • Development of acinus • Tremendous amount of vasularization • Outpouchings appear on wall of bronchioles
Canalicular Period (continued) • Two types of cells start to differentiate • Capillaries present but too far away from alveolar cavity
Saccular (Alveolar) Period • 24th week - birth • Development of gas exchange units • 25th-26th week alveolar-capillary membrane able to sustain extrauterine life
Saccular Period (continued) • 28-29th week terminal sacs line with mature Type II cells - surfactant appears • 34-36th week mature alveolar structure evident • approximately 55 million alveoli (10 m2)
Surfactant • Composition • Phospholipids and Protein Phosphoatidylcholine (Lecithin) – Major surfactant appears at 18 weeks and peaks at 38 weeks Sphingomyelin – Surfactant found in the amniotic fluid (decreases after 30 weeks) • Production • Secreted by Type II Alveolar Cells
Fetal Lung Fluid • Composition • Different than amniotic fluid • Decreased levels of bicarbonate and protein • Increased levels of Sodium and Chloride
Fetal Lung Fluid cont. • Function: Maintain patency Term = 20-30 ml/kg in lungs Production decreases days prior to clinical detection of labor
Hazards of Retention • TTN – Transient tachypnea of the newborn • May present as RDS • Grunting, flaring and retracting (GFR)
Determination of Lung Maturity • Shake (Foam) Test • LS ratio (Lecithin to sphingomyelin ratio) • Lungs mature when 2:1 (35 weeks) • PG detection (Phosphatidylglycerol) • Lipid • Absent until about 35 weeks gestation
Lung Maturity Cont. • FLM or FP Assay – Fluorescence Polarization • Surfactant to Albumin • Quick and Reliable • Lung Profile • L:S and PG detection
Acidemia Hypoxia Shock Overinflation Underinflation Pulmonary Edema Mechanical Ventilation Hypercapnia Maternal Diabetes (A,B,C) Smaller of Twins Conditions that DelaysSurfactant Production
Maternal diabetes (D, F, and R) Maternal heroin addiction Premature rupture of membranes Maternal hypertension Maternal infection Placental insufficiency Betamethasone or thyroid hormone Abruptio placentae Conditions that AccelerateSurfactant Production
Development of Cardiovascular System • 3rd week - two tubes surrounded by myocardial tissue • Tubes fuse form single chamber
Development of Cardiovascular System(continued) • 4th week - heart begins to beat • Heart begins to twist and fold • Eventually will form four chambers
Development of Cardiovascular System(continued) • Sinus venosus - horns at bottom of embryonic heart - will become vena cava’s and portion of right atrium • Truncus arteriosus - will form pulmonary artery and aorta
Development of Cardiovascular System(continued) • Bends in middle - S shape • Rapid growth • Development of chambers • Blood flow begins - one way flow
Development of Cardiovascular System(continued) • 5th week - heart takes on shape of adult heart • Developing veins and arteries couple the heart to circulatory system • Separate blood paths created
Development of Cardiovascular System(continued) • Four chambers formed with openings between the atria and the ventricles • Truncus arteriosus allows blood to exit right ventricle
Fetal Circulation • Pressure in the fetal vasculature • Systemic – Low resistance • Placental – Low resistance • Pulmonary – High resistance
Characteristics of Fetal Circulation • Normal shunts in the fetus • Foramen ovale – bypasses lung • Ductus arteriosus – bypasses lung • Ductus venosus – bypasses liver