scholarly article | Q13442814 |
P50 | author | Aaron Fay | Q37830844 |
John D. Nguyen | Q110125930 | ||
P2093 | author name string | Matthew J Gurka | |
Jimmy Uddin | |||
Jeffery P Hogg | |||
Tony Realini | |||
Michael Kazim | |||
Andrea Elefante | |||
Diego Strianese | |||
Justin Saunders | |||
Audrey Looi | |||
Livia Teo | |||
William Fischer | |||
Brett W Davies | |||
Vikram D Durairaj | |||
Martin H Devoto | |||
Tammy H Osaki | |||
Chad M Bingham | |||
Lay-Leng Seah | |||
Sunny Shen | |||
Jennifer A Sivak-Callcott | |||
Matheson Harris | |||
Steve E Feldon | |||
P2860 | cites work | Statistical methods for assessing agreement between two methods of clinical measurement | Q26778461 |
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Comparative evaluation of oculometric variables in Graves' ophthalmopathy | Q37349554 | ||
Parallax-free exophthalmometry: a comprehensive review of the literature on clinical exophthalmometry and the introduction of the first parallax-free exophthalmometer | Q38260040 | ||
Eyelid position measurement in Graves' ophthalmopathy: reliability of a photographic technique and comparison with a clinical technique | Q39683809 | ||
Hertel exophthalmometry: the most appropriate measuring technique | Q43093593 | ||
A quantitative method for assessing the degree of axial proptosis in relation to orbital tissue involvement in Graves' orbitopathy. | Q44463190 | ||
Hertel exophthalmometry: reliability and interobserver variation | Q47308708 | ||
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Guidelines for Reporting Reliability and Agreement Studies (GRRAS) were proposed. | Q48737660 | ||
Effective orbital volume and eyeball position: an MRI study. | Q51753197 | ||
Errors of single-mirror or prism Hertel exophthalmometers and recommendations for minimizing the errors. | Q51914050 | ||
Comparability of proptosis measurements by different techniques. | Q52940007 | ||
Comparison of unilateral and simultaneous bilateral measurement of the globe position, using the Hertel exophthalmometer. | Q52970960 | ||
Intra-observer and inter-observer variation of Hertel exophthalmometry. | Q53057604 | ||
Hertel exophthalmometry versus computed tomography and optical 3D imaging for the determination of the globe position in zygomatic fractures. | Q53627427 | ||
Effect of Exophthalmometer Design on Its Accuracy | Q57337618 | ||
The Reliability of Hertel Exophthalmometry | Q57529696 | ||
Photorecording exophthalmometer | Q67431381 | ||
Exophthalmometer readings in patients with Graves' eye disease | Q69610142 | ||
Positional effects on exophthalmometer readings in Graves' eye disease | Q69804394 | ||
Postural variation of exophthalmometry in Graves' ophthalmopathy | Q70266753 | ||
Principles and sources of error in exophthalmometry. A new exophthalmometer | Q71741312 | ||
Computed Tomography Exophthalmometry | Q83943115 | ||
P433 | issue | 2 | |
P921 | main subject | eye disease | Q3041498 |
multicenter clinical trial | Q6934595 | ||
P304 | page(s) | 106-112 | |
P577 | publication date | 2016-03-01 | |
P1433 | published in | Ophthalmic Plastic and Reconstructive Surgery | Q15759091 |
P1476 | title | Axial Globe Position Measurement: A Prospective Multicenter Study by the International Thyroid Eye Disease Society | |
P478 | volume | 32 |
Q91842351 | A Comparative Study of Clinical vs. Digital Exophthalmometry Measurement Methods |
Q38793394 | A Novel Three-Dimensional Vector Analysis of Axial Globe Position in Thyroid Eye Disease |
Q64233880 | Association of anthropometric markers with globe position: A population-based MRI study |
Q90894014 | Interruption of autoimmunity for thyroid eye disease: B-cell and T-cell strategy |
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