ライフサイエンスコーパス: zonule

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1 nterior and posterior lens surfaces, and the zonule.

2 ues, is a prominent constituent of the mouse zonule.

3 ng vitreous interconnected with the vitreous zonule.

4 fibrillin-1 microfibrils, which compose the zonule.

5 MTSL4 in the formation or maintenance of the zonule.

6 s mediated by the ciliary muscle through the zonule.

7 formation of microfibril bundles in ciliary zonules.

8 s also develop abnormally long anterior lens zonules.

9 ior capsule, anterior cortical vitreous, and zonules.

10 r along the insertions of disrupted anterior zonules.

11 plied manually either by grasping a group of zonules 180 degrees apart with tying forceps (three lens

12 Fibrillin microfibrils form the ocular zonule and are present in the drainage apparatus of the

13 Our findings quantify the movements of the zonule and ciliary muscle during accommodation, and iden

14 The human vitreous zonule and lens equator move forward (anteriorly) during

15 r impact on shape change than the equatorial zonule and that choice of capsular thickness values can

16 A strong relation between the posterior zonule and the anterior hyaloid membrane was observed.

17 ulling forward the choroid, retina, vitreous zonule, and the neighboring vitreous interconnected with

18 opment and arrangement of the murine ciliary zonule are similar to those of humans, and consequently

19 ed to mount human cadaveric lenses, with the zonule, ciliary body, and sclera attached, inside an env

20 4.2-10) tissues including the lens, capsule, zonules, ciliary body, and sclera were mounted in an opt

21 ned postmortem, including the lens, capsule, zonules, ciliary body, and sclera were mounted in an opt

22 ars) were dissected leaving intact the lens, zonules, ciliary body, hyaloid membrane, anterior vitreo

23 High strain in the ciliary body and zonule corresponded with angle recession and lens displa

24 ADAMTSL4 is required for stable anchorage of zonule fibers to the lens capsule.

25 lens luxation caused by compromised ciliary zonule formation without a typical phenotype related to

26 to further elucidate the molecular basis of zonule formation, the pathophysiology of EL and ADAMTSL4

27 using retinal degeneration and abnormal lens zonules in human.

28 so restored unfragmented and bundled ciliary zonules in Ltbp2(-/-) mouse eyes under organ culture.

29 ve ability after transection of the anterior zonules in simulated accommodation experiments.

30 ive change in distances between the vitreous zonule insertion zone and the posterior lens equator or

31 be associated with early-onset long anterior zonules (LAZ) and late-onset retinal degeneration (L-ORD

32 models show that the anterior and posterior zonules may have a greater impact on shape change than t

33 yes, the anterior and posterior parts of the zonule need independent force directions.

34 , and structural organization of the ciliary zonule of the mouse.

35 r segment structures, such as the cornea and zonule, often occurs.

36 Fibulin-2 was not present in ocular ciliary zonules, tendon, and the connective tissue around kidney

37 ls the shape of the lens through the ciliary zonules to focus the image onto the retina.

38 f trypan blue under the iris and through the zonules to the posterior capsule.

39 The insertion site of the posterior zonule was examined.

40 The organization of the zonule was visualized using antibodies to Fbn1, Fbn2, an

41 ography, imaging of the anterior capsule and zonules was performed.

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