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1 nt and in angiogenic remodeling of the early vascular plexus.
2 yos revealed normal formation of the primary vascular plexus.
3 outing, and aberrant patterning of the brain vascular plexus.
4 site of VEGF-C expression, to form a patent vascular plexus.
5 ion (ONLR), a transitional area containing a vascular plexus.
6 ular layer and varying flow loss in the deep vascular plexus.
7 he formation of an adequate and stable brain vascular plexus.
8 graphy and, to a lesser extent, in the inner vascular plexus.
9 to influence the maturation of the coronary vascular plexus.
10 re prominent alterations in the deep retinal vascular plexus.
11 ile severely impairing formation of the deep vascular plexus.
12 rm varicose endings in the myometrium and/or vascular plexus.
13 rticularly during formation of the secondary vascular plexus.
14 nd ventrally from the surrounding perineural vascular plexus.
15 se each lobular area of the choriocapillaris vascular plexus.
16 efects in the reorganization of the yolk sac vascular plexus.
17 s early angiogenic remodeling of the primary vascular plexus.
18 e retinal postcapillary venules of the inner vascular plexus.
19 units with capillaries in 2 of the 3 retinal vascular plexuses.
20 entation and highly branched organization of vascular plexuses.
21 larged vascular sinuses rather than branched vascular plexuses.
22 tterning of the superficial and deep retinal vascular plexuses.
23 ll motion are observed during formation of a vascular plexus: (1) global tissue deformations that pas
24 heet-like medial translocation of the entire vascular plexus; (3) structural rearrangements, such as
25 incomplete formation of the retinal primary vascular plexus, absence of the deep plexi, and persiste
28 gamma3-null (Lamc3(-/-)) retinal superficial vascular plexus and consequently the vascular branching
32 s led to a central amalgamation of the inner vascular plexus and the deep vascular plexus, which appe
34 ls, along the central-peripheral extent of a vascular plexus, and among different vascular laminae.
36 iate, but failed to organize normally into a vascular plexus, and smooth muscle cells did not differe
37 , adhered to the newly formed subventricular vascular plexus, and then divided into daughter cells.
39 remodeling and adult maintenance of the skin vascular plexus are orchestrated by temporally restricte
40 evelopmental angiogenesis in which primitive vascular plexuses are remodeled into hierarchical vascul
42 of BEVs at the leading edge of the advancing vascular plexus as measured by the decrease in luminal t
47 matched, with a mean proportion of the inner vascular plexus being 95.3% (95% CI, 92.2%-97.8%) vs 4.7
48 ring angiogenic sprouting of the superficial vascular plexus but also showed impaired vessel branchin
49 ss of capillary density in the inner retinal vascular plexus but many more prominent alterations in t
50 apillaries and investigate all three retinal vascular plexuses by amplifying and extracting the spect
52 on-neovascular abnormalities within the deep vascular plexus (DCP), as detected using high-resolution
54 sions and Relevance: By presenting 3 retinal vascular plexuses distinctly, PR-OCTA reveals capillary
55 of peribiliary glands (PBGs) and peribiliary vascular plexus during OLT has been associated with the
56 tent data exploring the changes reflected in vascular plexuses during the disease course, in particul
57 for superficial vascular plexus (SVP), deep vascular plexus (DVP) and optic nerve head vascular plex
58 We focused on capillary loss in the deeper vascular plexus (DVP) and superficial vascular plexus (S
59 10), Muller sheaths dissociate from the deep vascular plexus (DVP) but are largely unchanged within t
64 egation of angioblasts to form the primitive vascular plexus, followed by the proliferation, differen
65 distribution in relation to the superficial vascular plexus for 3 vascular regions-on vessels, periv
66 izes OCTARA algorithm to examine the retinal vascular plexuses for the presence of morphological sign
67 ls, whose absence results in delayed nascent vascular plexus formation and under-development of the c
68 130a enhancement were mirrored by changes in vascular plexus formation around the terminal airways.
71 reduces radial endothelial migration during vascular plexus formation in a gene dose-dependent manne
72 itic mesoderm and neural tube also supported vascular plexus formation, indicating that the neural tu
75 d three dimensional (3D) architecture of the vascular plexus forming at the regenerating wound tissue
76 mean visual acuity in LogMAR and superficial vascular plexus foveal vessel density (p < 0.001, r = -
77 vessel density (p < 0.001, r= -0.556), deep vascular plexus foveal vessel density (p < 0.001, r= -0.
79 Correlation among pericyte coverage, deep vascular plexus growth, and hypoxia after LeTx treatment
81 eart, form through remodeling of an immature vascular plexus in a process triggered and shaped by blo
83 ows less involvement of superficial and deep vascular plexus in NAION in contrast to POAG, which migh
84 uperficial vascular plexus included the deep vascular plexus in the central macula for all 3 instrume
86 grow adjacent to a human-specific interposed vascular plexus in the RL(VZ), a phenotype that is recap
87 ds were detected in the superficial and deep vascular plexuses in 9 eyes of 9 patients with either pa
89 dial peripapillary capillary network and the vascular plexuses in the macula were evaluated with OCT
90 ers revealed the presence of 2 to 4 distinct vascular plexuses in the retina, depending on location r
91 o vessel formation, in the initial embryonic vascular plexus, in the growing blood vessels during ang
92 ion slab designed to isolate the superficial vascular plexus included the deep vascular plexus in the
93 embryos, endothelial cells formed a primary vascular plexus indicative of intact vasculogenesis but
96 at formation of a VEGF-directed, intra-islet vascular plexus is required for development of islet inn
97 ler sheath, found mainly in the intermediate vascular plexus (IVP), permit diverse neuron types to co
98 anatomical deficiencies, including lack of a vascular plexus, leading to slower vascularization after
100 al vascular complex (SVC), nerve fiber layer vascular plexus (NFLVP), superficial vascular plexus (SV
101 with concurrent formation of three elaborate vascular plexuses, one in the distal fin that develops i
102 p vascular plexus (DVP) and optic nerve head vascular plexus (ONH-RPC), i.e. SFIO, DFIO and ONHFIO re
103 sel density (p < 0.001, r= -0.636), and deep vascular plexus parafoveal vessel density (p < 0.001 r=-
104 ensity (p < 0.001, r = - 0.622), superficial vascular plexus parafoveal vessel density (p < 0.001, r=
105 rization, vascularization of the peribiliary vascular plexus (PBVP), and constriction of hepatic arte
106 l(s) that direct formation of the perineural vascular plexus (PNVP) that encompasses the neural tube
107 the subsequent formation of the peri-neural vascular plexus (PNVP), a vascular network that surround
108 eased endothelial cell maturation, disrupted vascular plexus remodeling and lack of later stages of v
111 ngineered genetically were able to recruit a vascular plexus, showing that the neural tube is the sou
113 following the establishment of a functional vascular plexus such as in models of wounding or tumour
114 ouse that endocardial cells form a primitive vascular plexus surrounding the liver bud and subsequent
115 nd fractal dimension (FD) at the superficial vascular plexus (SVP) and deep retinal vascular plexus (
116 ng this model, we show that a subventricular vascular plexus (SVP) extends through a hindbrain germin
117 deeper vascular plexus (DVP) and superficial vascular plexus (SVP), and on neural retina effects.
118 e patterns of reperfusion in the superficial vascular plexus (SVP), deep capillary plexus (DCP) and c
119 r layer vascular plexus (NFLVP), superficial vascular plexus (SVP), deep vascular complex (DVC), inte
120 y-based flow indices (FIOs), for superficial vascular plexus (SVP), deep vascular plexus (DVP) and op
121 y the innermost vessel layer-the superficial vascular plexus (SVP)-is associated with astrocytes, lik
124 pment begins with the formation of a primary vascular plexus that is rapidly remodeled by angiogenesi
125 und in trunk vessels, such as the perineural vascular plexus, the cardinal vein, and presumptive inte
127 ual angioblasts coalesce to form the primary vascular plexus through a process called vasculogenesis.
128 assively into the brain parenchyma from pial vascular plexuses to meet metabolic needs of growing neu
129 mography angiography (OCTA) blur the retinal vascular plexuses together and limit visualization of th
130 ntation, studies of the superficial and deep vascular plexuses using manufacturer-recommended default
132 cans and the proportion of the inner retinal vascular plexus vs the outer retinal capillary plexus as
136 oveal vessel density of superficial and deep vascular plexus were found to be significantly lower in
137 ved PAMM lesions, vessels in the superficial vascular plexus were traced to identify small arterioles
138 from endothelial cells that form a primitive vascular plexus which recruits smooth muscle cells to fo
139 on of the inner vascular plexus and the deep vascular plexus, which appeared to be in a state of decl
140 ity and vascular coverage in the superficial vascular plexus, while severely impairing formation of t
141 cases, superficial vascular plexus and deep vascular plexus whole image vessel density, foveal vesse