Introduction: Pulmonary hypertension often complicates bronchopulmonary dysplasia (BPD) and infants with BPD plus pulmonary hypertension experience higher mortality rates. Current methods to evaluate pulmonary hypertension fail to evaluate the primary cause of this disease. We hypothesize that preterm infants with BPD experience altered pulmonary vascular growth and that magnetic resonance imaging (MRI) can be used to assess vascularity in BPD. Methods: In this observational cohort study, preterm infants with BPD (n = 33) and controls (n = 6) received a postnatal chest MRI that included a 2-dimensional time-of-flight acquisition. Semi-automatic segmentation was performed to measure vascularity parameters including vascular volume and density (vascular density = vascular volume/lung volume). Results: Vascular volume on MRI increases with post-menstrual age (877.2 mm3/week); however, the vascular density does not significantly change. Vascular volume is higher in infants with more severe BPD (p < 0.002), but vascular density did not significantly change when comparing mild, moderate, and severe BPD. Vascular density in infants with severe BPD requiring tracheostomy trended lower when compared to infants not requiring tracheostomy (0.18 mm3/mm3 vs. 0.27 mm3/mm3, p = 0.06). Vascular density increases with increasing days of inhaled nitric oxide (iNO) therapy in infants with severe BPD (0.02 mm3/mm3/week of iNO, rho = +0.56, p = 0.03). Conclusion: Neonatal MRI can be used to assess pulmonary vascularity in preterm infants with BPD. Infants with BPD experience altered vascular growth and while higher vascular volume is associated with more severe BPD, lower vascular density trends toward worse clinical outcomes. Vascular density increases with iNO therapy in severe BPD.

1.
Northway
WH
Jr
,
Rosan
RC
,
Porter
DY
.
Pulmonary disease following respirator therapy of hyaline-membrane disease. Bronchopulmonary dysplasia
.
N Engl J Med
.
1967
;
276
(
7
):
357
68
.
2.
Helenius
K
,
Sjors
G
,
Shah
PS
,
Darlow
BA
,
Bassler
D
,
Lehtonen
L
, et al
.
Survival in very preterm infants: an international comparison of 10 national neonatal networks
.
Pediatrics
.
2017
;
140
(
6
):
e20171264
.
3.
Jensen
EA
,
Schmidt
B
.
Epidemiology of bronchopulmonary dysplasia
.
Birth Defects Res A Clin Mol Teratol
.
2014
;
100
(
3
):
145
57
.
4.
An
HS
,
Bae
EJ
,
Kim
GB
,
Noh
CI
,
Yun
YS
,
Kim
EK
, et al
.
Pulmonary hypertension in preterm infants with bronchopulmonary dysplasia
.
Korean Circ J
.
2010
;
40
(
3
):
131
6
.
5.
Berkelhamer
SK
,
Mestan
KK
,
Steinhorn
RH
.
Pulmonary hypertension in bronchopulmonary dysplasia
.
Semin Perinatol
.
2013
;
37
(
2
):
124
31
.
6.
Choi
EK
,
Shin
SH
,
Kim
EK
,
Kim
HS
.
Developmental outcomes of preterm infants with bronchopulmonary dysplasia-associated pulmonary hypertension at 18-24 months of corrected age
.
BMC Pediatr
.
2019
;
19
(
1
):
26
.
7.
Hansmann
G
,
Sallmon
H
,
Roehr
CC
,
Kourembanas
S
,
Austin
ED
,
Koestenberger
M
, et al
.
Pulmonary hypertension in bronchopulmonary dysplasia
.
Pediatr Res
.
2021
;
89
(
3
):
446
55
.
8.
Weismann
CG
,
Asnes
JD
,
Bazzy-Asaad
A
,
Tolomeo
C
,
Ehrenkranz
RA
,
Bizzarro
MJ
.
Pulmonary hypertension in preterm infants: results of a prospective screening program
.
J Perinatol
.
2017
;
37
(
5
):
572
7
.
9.
Krishnan
U
,
Feinstein
JA
,
Adatia
I
,
Raj
U
,
Humpl
T
,
Abman
SH
, et al
.
Evaluation and management of pulmonary hypertension in children with bronchopulmonary dysplasia
.
J Pediatr
.
2017
;
188
:
24
34.e1
.
10.
Mourani
PM
,
Sontag
MK
,
Younoszai
A
,
Ivy
DD
,
Abman
SH
.
Clinical utility of echocardiography for the diagnosis and management of pulmonary vascular disease in young children with chronic lung disease
.
Pediatrics
.
2008
;
121
(
2
):
317
25
.
11.
Shi
JW
,
Xu
DF
,
Dai
HZ
,
Shen
L
,
Ji
YD
.
Evaluation of chest CT scan in low-weight children with ultralow tube voltage (70 kVp) combined with Flash scan technique
.
Br J Radiol
.
2016
;
89
(
1059
):
20150184
.
12.
Siegel
MJ
.
Multiplanar and three-dimensional multi-detector row CT of thoracic vessels and airways in the pediatric population
.
Radiology
.
2003
;
229
(
3
):
641
50
.
13.
Semple
T
,
Akhtar
MR
,
Owens
CM
.
Imaging bronchopulmonary dysplasia-a multimodality update
.
Front Med
.
2017
;
4
:
88
.
14.
Critser
PJ
,
Higano
NS
,
Tkach
JA
,
Kingma
PS
,
Woods
JC
,
Kingma
PS
, et al
.
Cardiac magnetic resonance imaging evaluation of neonatal bronchopulmonary dysplasia-associated pulmonary hypertension
.
Am J Respir Crit Care Med
.
2020
;
201
(
1
):
73
82
.
15.
Critser
PJ
,
Higano
NS
,
Lang
SM
,
Kingma
PS
,
Fleck
RJ
,
Hirsch
R
, et al
.
Cardiovascular magnetic resonance imaging derived septal curvature in neonates with bronchopulmonary dysplasia associated pulmonary hypertension
.
J Cardiovasc Magn Reson
.
2020
;
22
(
1
):
50
.
16.
Tkach
JA
,
Higano
NS
,
Taylor
MD
,
Moore
RA
,
Hossain
M
,
Huang
G
, et al
.
Quantitative cardiopulmonary magnetic resonance imaging in neonatal congenital diaphragmatic hernia
.
Pediatr Radiol
.
2022
;
52
:
2306
18
.
17.
Higano
NS
,
Spielberg
DR
,
Hahn
AD
,
Woods
JC
,
Walkup
LL
,
Hahn
AD
, et al
.
Neonatal pulmonary magnetic resonance imaging of bronchopulmonary dysplasia predicts short-term clinical outcomes
.
Am J Respir Crit Care Med
.
2018
;
198
(
10
):
1302
11
.
18.
Bates
AJ
,
Higano
NS
,
Hysinger
EB
,
Fleck
RJ
,
Hahn
AD
,
Fain
SB
, et al
.
Quantitative assessment of regional dynamic airway collapse in neonates via retrospectively respiratory-gated 1 H ultrashort echo time MRI
.
J Magn Reson Imaging
.
2019
;
49
(
3
):
659
67
.
19.
Mukthapuram
S
,
Beebe
J
,
Tkach
JA
,
Woods
JC
,
Kingma
PS
,
Peiro
J
, et al
.
Magnetic resonance imaging assessment of pulmonary vascularity in infants with congenital diaphragmatic hernia: a novel tool for direct assessment of severity of pulmonary hypertension and hypoplasia
.
J Pediatr
.
2021
;
239
:
89
94
.
20.
Jobe
AH
,
Bancalari
E
.
Bronchopulmonary dysplasia
.
Am J Respir Crit Care Med
.
2001
;
163
(
7
):
1723
9
.
21.
Alvira
CM
.
Aberrant pulmonary vascular growth and remodeling in bronchopulmonary dysplasia
.
Front Med
.
2016
;
3
:
21
.
22.
Baker
CD
,
Abman
SH
.
Impaired pulmonary vascular development in bronchopulmonary dysplasia
.
Neonatology
.
2015
;
107
(
4
):
344
51
.
23.
Bui
CB
,
Pang
MA
,
Sehgal
A
,
Nold-Petry
CA
,
Lao
JC
,
Berger
PJ
, et al
.
Pulmonary hypertension associated with bronchopulmonary dysplasia in preterm infants
.
J Reprod Immunol
.
2017
;
124
:
21
9
.
24.
Le Cras
TD
,
Markham
NE
,
Tuder
RM
,
Voelkel
NF
,
Abman
SH
.
Treatment of newborn rats with a VEGF receptor inhibitor causes pulmonary hypertension and abnormal lung structure
.
Am J Physiol Lung Cel Mol Physiol
.
2002
;
283
(
3
):
L555
62
.
25.
Higano
NS
,
Ruoss
JL
,
Woods
JC
.
Modern pulmonary imaging of bronchopulmonary dysplasia
.
J Perinatol
.
2021
;
41
(
4
):
707
17
.
26.
De Paepe
ME
,
Mao
Q
,
Powell
J
,
Rubin
SE
,
DeKoninck
P
,
Appel
N
, et al
.
Growth of pulmonary microvasculature in ventilated preterm infants
.
Am J Respir Crit Care Med
.
2006
;
173
(
2
):
204
11
.
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