Human fetal lung morphometry at autopsy with new modeling to quantitate structural maturity

OBJECTIVES To demonstrate a simplified morphometric procedure, including a new model for acinar structural maturity, applicable to autopsy fetal lung and present reference values for these parameters. STUDY DESIGN Cases with autopsy consent for research were studied. To simplify analysis only critic...

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Published inPediatric pulmonology Vol. 52; no. 6; pp. 771 - 778
Main Author Lipsett, Jill
Format Journal Article
LanguageEnglish
Published United States Wiley Subscription Services, Inc 01.06.2017
Subjects
Autopsy
Fetus - anatomy & histology
Humans
Lung - anatomy & histology
pulmonary development morphometry
pulmonary development morphometry
Online AccessGet full text
ISSN8755-6863
1099-0496
1099-0496
DOI10.1002/ppul.23675

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Abstract OBJECTIVES To demonstrate a simplified morphometric procedure, including a new model for acinar structural maturity, applicable to autopsy fetal lung and present reference values for these parameters. STUDY DESIGN Cases with autopsy consent for research were studied. To simplify analysis only critical morphometric parameters were measured to allow calculation of gas‐exchange surface area. SUBJECT SELECTION A total of 58 fetuses, 16‐40 weeks were included. Subjects were rejected with any condition predisposing to pulmonary hypo/hyperplasia, significant maceration, or if lung weight/bodyweight or microscopy identified pulmonary hypoplasia or lung growth disorders. METHODOLOGY Lungs were inflation fixed, weights and volumes determined, sampled, then returned to the body. Volume densities (VV) of parenchyma/non‐parenchyma and air‐space/gas‐exchange tissue, gas‐exchange surface density (SV), and total surface area (SA) were determined. The number, mean radius, and septal thickness of modeled airspace‐spheres were calculated. Equations were generated for each parameter function of gestation and bodyweight. RESULTS From 16 to 40‐week weights and volumes increased as power functions from ∼4 g/mL to ∼90 g/mL. Parenchyma/non‐parenchyma changed little—75:25 (16 weeks) to 71:29 (term). Parenchyma was 10% airspace:90% tissue early and 50:50 by term. Gas‐exchange SV increased from 175 to 450 cm2/cm3 and total SA increased from 0.059 to 4.793 m2. There were 3.31 × 106 airspace‐spheres, 12 µ radius, septal thickness 30 µ at 16 weeks, increasing to 56.92 × 106, 26 µ radius, septal thickness 13 µ by term. CONCLUSIONS Morphometry can feasibly be performed at autopsy, providing more informative quantitative data on lung structural development than current methods utilized. This reference data set compares well with published data.
AbstractList To demonstrate a simplified morphometric procedure, including a new model for acinar structural maturity, applicable to autopsy fetal lung and present reference values for these parameters.OBJECTIVESTo demonstrate a simplified morphometric procedure, including a new model for acinar structural maturity, applicable to autopsy fetal lung and present reference values for these parameters.Cases with autopsy consent for research were studied. To simplify analysis only critical morphometric parameters were measured to allow calculation of gas-exchange surface area.STUDY DESIGNCases with autopsy consent for research were studied. To simplify analysis only critical morphometric parameters were measured to allow calculation of gas-exchange surface area.A total of 58 fetuses, 16-40 weeks were included. Subjects were rejected with any condition predisposing to pulmonary hypo/hyperplasia, significant maceration, or if lung weight/bodyweight or microscopy identified pulmonary hypoplasia or lung growth disorders.SUBJECT SELECTIONA total of 58 fetuses, 16-40 weeks were included. Subjects were rejected with any condition predisposing to pulmonary hypo/hyperplasia, significant maceration, or if lung weight/bodyweight or microscopy identified pulmonary hypoplasia or lung growth disorders.Lungs were inflation fixed, weights and volumes determined, sampled, then returned to the body. Volume densities (VV ) of parenchyma/non-parenchyma and air-space/gas-exchange tissue, gas-exchange surface density (SV ), and total surface area (SA) were determined. The number, mean radius, and septal thickness of modeled airspace-spheres were calculated. Equations were generated for each parameter function of gestation and bodyweight.METHODOLOGYLungs were inflation fixed, weights and volumes determined, sampled, then returned to the body. Volume densities (VV ) of parenchyma/non-parenchyma and air-space/gas-exchange tissue, gas-exchange surface density (SV ), and total surface area (SA) were determined. The number, mean radius, and septal thickness of modeled airspace-spheres were calculated. Equations were generated for each parameter function of gestation and bodyweight.From 16 to 40-week weights and volumes increased as power functions from ∼4 g/mL to ∼90 g/mL. Parenchyma/non-parenchyma changed little-75:25 (16 weeks) to 71:29 (term). Parenchyma was 10% airspace:90% tissue early and 50:50 by term. Gas-exchange SV increased from 175 to 450 cm2 /cm3 and total SA increased from 0.059 to 4.793 m2 . There were 3.31 × 106 airspace-spheres, 12 µ radius, septal thickness 30 µ at 16 weeks, increasing to 56.92 × 106 , 26 µ radius, septal thickness 13 µ by term.RESULTSFrom 16 to 40-week weights and volumes increased as power functions from ∼4 g/mL to ∼90 g/mL. Parenchyma/non-parenchyma changed little-75:25 (16 weeks) to 71:29 (term). Parenchyma was 10% airspace:90% tissue early and 50:50 by term. Gas-exchange SV increased from 175 to 450 cm2 /cm3 and total SA increased from 0.059 to 4.793 m2 . There were 3.31 × 106 airspace-spheres, 12 µ radius, septal thickness 30 µ at 16 weeks, increasing to 56.92 × 106 , 26 µ radius, septal thickness 13 µ by term.Morphometry can feasibly be performed at autopsy, providing more informative quantitative data on lung structural development than current methods utilized. This reference data set compares well with published data.CONCLUSIONSMorphometry can feasibly be performed at autopsy, providing more informative quantitative data on lung structural development than current methods utilized. This reference data set compares well with published data.
OBJECTIVES To demonstrate a simplified morphometric procedure, including a new model for acinar structural maturity, applicable to autopsy fetal lung and present reference values for these parameters. STUDY DESIGN Cases with autopsy consent for research were studied. To simplify analysis only critical morphometric parameters were measured to allow calculation of gas-exchange surface area. SUBJECT SELECTION A total of 58 fetuses, 16-40 weeks were included. Subjects were rejected with any condition predisposing to pulmonary hypo/hyperplasia, significant maceration, or if lung weight/bodyweight or microscopy identified pulmonary hypoplasia or lung growth disorders. METHODOLOGY Lungs were inflation fixed, weights and volumes determined, sampled, then returned to the body. Volume densities (VV) of parenchyma/non-parenchyma and air-space/gas-exchange tissue, gas-exchange surface density (SV), and total surface area (SA) were determined. The number, mean radius, and septal thickness of modeled airspace-spheres were calculated. Equations were generated for each parameter function of gestation and bodyweight. RESULTS From 16 to 40-week weights and volumes increased as power functions from 4g/mL to 90g/mL. Parenchyma/non-parenchyma changed little--75:25 (16 weeks) to 71:29 (term). Parenchyma was 10% airspace:90% tissue early and 50:50 by term. Gas-exchange SV increased from 175 to 450cm2/cm3 and total SA increased from 0.059 to 4.793m2. There were 3.31×106 airspace-spheres, 12µ radius, septal thickness 30µ at 16 weeks, increasing to 56.92×106, 26µ radius, septal thickness 13µ by term. CONCLUSIONS Morphometry can feasibly be performed at autopsy, providing more informative quantitative data on lung structural development than current methods utilized. This reference data set compares well with published data.
OBJECTIVES To demonstrate a simplified morphometric procedure, including a new model for acinar structural maturity, applicable to autopsy fetal lung and present reference values for these parameters. STUDY DESIGN Cases with autopsy consent for research were studied. To simplify analysis only critical morphometric parameters were measured to allow calculation of gas‐exchange surface area. SUBJECT SELECTION A total of 58 fetuses, 16‐40 weeks were included. Subjects were rejected with any condition predisposing to pulmonary hypo/hyperplasia, significant maceration, or if lung weight/bodyweight or microscopy identified pulmonary hypoplasia or lung growth disorders. METHODOLOGY Lungs were inflation fixed, weights and volumes determined, sampled, then returned to the body. Volume densities (VV) of parenchyma/non‐parenchyma and air‐space/gas‐exchange tissue, gas‐exchange surface density (SV), and total surface area (SA) were determined. The number, mean radius, and septal thickness of modeled airspace‐spheres were calculated. Equations were generated for each parameter function of gestation and bodyweight. RESULTS From 16 to 40‐week weights and volumes increased as power functions from ∼4 g/mL to ∼90 g/mL. Parenchyma/non‐parenchyma changed little—75:25 (16 weeks) to 71:29 (term). Parenchyma was 10% airspace:90% tissue early and 50:50 by term. Gas‐exchange SV increased from 175 to 450 cm2/cm3 and total SA increased from 0.059 to 4.793 m2. There were 3.31 × 106 airspace‐spheres, 12 µ radius, septal thickness 30 µ at 16 weeks, increasing to 56.92 × 106, 26 µ radius, septal thickness 13 µ by term. CONCLUSIONS Morphometry can feasibly be performed at autopsy, providing more informative quantitative data on lung structural development than current methods utilized. This reference data set compares well with published data.
To demonstrate a simplified morphometric procedure, including a new model for acinar structural maturity, applicable to autopsy fetal lung and present reference values for these parameters. Cases with autopsy consent for research were studied. To simplify analysis only critical morphometric parameters were measured to allow calculation of gas-exchange surface area. A total of 58 fetuses, 16-40 weeks were included. Subjects were rejected with any condition predisposing to pulmonary hypo/hyperplasia, significant maceration, or if lung weight/bodyweight or microscopy identified pulmonary hypoplasia or lung growth disorders. Lungs were inflation fixed, weights and volumes determined, sampled, then returned to the body. Volume densities (V ) of parenchyma/non-parenchyma and air-space/gas-exchange tissue, gas-exchange surface density (S ), and total surface area (SA) were determined. The number, mean radius, and septal thickness of modeled airspace-spheres were calculated. Equations were generated for each parameter function of gestation and bodyweight. From 16 to 40-week weights and volumes increased as power functions from ∼4 g/mL to ∼90 g/mL. Parenchyma/non-parenchyma changed little-75:25 (16 weeks) to 71:29 (term). Parenchyma was 10% airspace:90% tissue early and 50:50 by term. Gas-exchange S increased from 175 to 450 cm /cm and total SA increased from 0.059 to 4.793 m . There were 3.31 × 10 airspace-spheres, 12 µ radius, septal thickness 30 µ at 16 weeks, increasing to 56.92 × 10 , 26 µ radius, septal thickness 13 µ by term. Morphometry can feasibly be performed at autopsy, providing more informative quantitative data on lung structural development than current methods utilized. This reference data set compares well with published data.
Author Lipsett, Jill
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  doi: 10.1152/ajplung.1993.265.6.L521
– volume-title: Morphometric and Stereological Methods in Respiratory Physiology Including Fixation Techniques
  year: 1984
  ident: e_1_2_7_11_1
– start-page: 643
  volume-title: Respiratory Tract Disorders in the Fetus and the Neonate
  year: 1991
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– ident: e_1_2_7_8_1
  doi: 10.1136/adc.54.8.614
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  doi: 10.1136/thx.37.8.572
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Snippet OBJECTIVES To demonstrate a simplified morphometric procedure, including a new model for acinar structural maturity, applicable to autopsy fetal lung and...
To demonstrate a simplified morphometric procedure, including a new model for acinar structural maturity, applicable to autopsy fetal lung and present...
OBJECTIVES To demonstrate a simplified morphometric procedure, including a new model for acinar structural maturity, applicable to autopsy fetal lung and...
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StartPage 771
SubjectTerms Autopsy
Fetus - anatomy & histology
Humans
Lung - anatomy & histology
pulmonary development morphometry
Title Human fetal lung morphometry at autopsy with new modeling to quantitate structural maturity
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fppul.23675
https://www.ncbi.nlm.nih.gov/pubmed/28152282
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