scholarly article | Q13442814 |
P2093 | author name string | Natalie C Kerr | |
P2860 | cites work | The oculorotary muscles in Graves' disease | Q30502753 |
Extraocular muscle surgery for Graves' ophthalmopathy: does prior treatment influence surgical outcome? | Q33648199 | ||
Bilateral inferior rectus muscle recession for correction of hypotropia in dysthyroid ophthalmopathy | Q33700926 | ||
Treatment of thyroid ocular myopathy with adjustable and nonadjustable suture strabismus surgery. | Q34163881 | ||
Spontaneous reversal of vertical diplopia in Graves' eye disease. | Q34164883 | ||
Inferior rectus recession--an effective procedure? | Q35299048 | ||
Retroocular fibroblasts: important effector cells in Graves' ophthalmopathy | Q35837567 | ||
Relationship between Graves' ophthalmopathy and type of treatment of Graves' hyperthyroidism | Q35837670 | ||
Long-term Results of Adjustable Suture Surgery for Strabismus Secondary to Thyroid Ophthalmopathy | Q36322322 | ||
VISA Classification for Graves orbitopathy | Q36598248 | ||
The risk of diplopia following orbital floor and medial wall decompression in subtypes of ophthalmic Graves' disease | Q73719202 | ||
Diagnosis and surgical management of strabismus associated with thyroid-related orbitopathy | Q74044916 | ||
Thyrotropin receptor expression in cultured Graves' orbital preadipocyte fibroblasts is stimulated by thyrotropin | Q74336335 | ||
An ultrastructural and systemic analysis of glycosaminoglycans in thyroid-associated ophthalmopathy | Q74821669 | ||
PARESIS OF SUPERIOR RECTUS MUSCLE ASSOCIATED WITH THYROID DYSFUNCTION | Q76820956 | ||
Extraocular muscle surgery in dysthyroid orbitomyopathy: influence of previous conditions on surgical results | Q77814380 | ||
Early strabismus surgery for thyroid ophthalmopathy | Q78022177 | ||
Acquired strabismus in adults | Q79074426 | ||
Myopathies and their relation to thyroid disease | Q79503394 | ||
Comparison of two different surgical techniques for the treatment of strabismus in dysthyroid ophthalmopathy | Q80485774 | ||
One stage vertical rectus muscle recession using adjustable sutures under local anaesthesia | Q37322469 | ||
Intraoperative relaxed muscle positioning technique for strabismus repair in thyroid eye disease | Q39342529 | ||
Scar remodeling after strabismus surgery | Q40074914 | ||
Glycosaminoglycans in autoimmunity | Q41129421 | ||
The role of restricted motility in determining outcomes for vertical strabismus surgery in Graves' ophthalmology | Q41724294 | ||
Retro-orbital autoimmunity | Q41734159 | ||
Increased muscle tension and reduced elasticity of affected muscles in recent-onset Graves' disease caused primarily by active muscle contraction | Q44529690 | ||
Single-stage adjustable strabismus surgery for restrictive strabismus | Q44623184 | ||
Change in proptosis following extraocular muscle surgery: effects of muscle recession in thyroid-associated orbitopathy | Q44942887 | ||
Late overcorrection of hypotropia in Graves ophthalmopathy. Predictive factors | Q46119646 | ||
Correction of restricted extraocular muscle motility in surgical management of strabismus in graves' ophthalmopathy | Q46727183 | ||
Safety stitch: a modification to postoperatively adjustable suture strabismus surgery of the inferior rectus muscle | Q47996993 | ||
Classification of thyroid disease. Report of the Committee on Nomenclature. The American Thyroid Association. I. | Q48811070 | ||
The diagnosis, prognosis and treatment of endocrine exophthalmos | Q51297406 | ||
The surgical management of strabismus with large angle in patients with Graves' ophthalmopathy. | Q51747483 | ||
Inferior rectus muscle restriction after retrobulbar anesthesia for cataract extraction. | Q51752655 | ||
Strabismus following endoscopic orbital decompression for thyroid eye disease. | Q53634748 | ||
The Incidence of Graves' Ophthalmopathy in Olmsted County, Minnesota | Q57482586 | ||
The Chronology of Graves' Ophthalmopathy in an Incidence Cohort | Q57540559 | ||
Experimental suture studies in strabismus surgery. I. Reattachment rate of extraocular muscles after recession and resection operations | Q66889469 | ||
Muscle tension during unrestrained human eye movements | Q66946073 | ||
Strabismus Surgery for Endocrine Ophthalmopathy | Q67030637 | ||
Management of eye movement restriction (particularly vertical) in dysthyroid myopathy | Q67030663 | ||
Evidence for the presence of a functional TSH-receptor in retroocular fibroblasts from patients with Graves' ophthalmopathy | Q67525033 | ||
Inferior rectus recession for vertical tropia after cataract surgery | Q68041952 | ||
Graves' ophthalmopathy in relation to cigarette smoking and ethnic origin | Q68095029 | ||
Managing strabismus in endocrine eye disease | Q70394156 | ||
A Forceps to Measure Strabismus Forces | Q70437302 | ||
Pathogenesis of Graves' ophthalmopathy | Q70513409 | ||
The initial clinical characteristics of Graves' orbitopathy vary with age and sex | Q70556326 | ||
The Etiology, Treatment and Prevention of the "Slipped Muscle" | Q70800509 | ||
Double elevator palsy | Q70800522 | ||
Diagnosis and Treatment of Thyroid Myopathy | Q70885385 | ||
Primary infratarsal lower eyelid retractor lysis to prevent eyelid retraction after inferior rectus muscle recession | Q71506576 | ||
Late overcorrection after inferior rectus recession | Q71614834 | ||
Extraocular muscle surgery for dysthyroid myopathy | Q71756366 | ||
Graves' ophthalmopathy in childhood and adolescence | Q71851192 | ||
Endocrine ophthalmomyopathy in adolescence | Q71859170 | ||
Ocular motility problems after orbital decompression for dysthyroid ophthalmopathy | Q71860538 | ||
Extraocular muscle problems in thyroid eye disease | Q72459769 | ||
Surgical correction of hypotropias associated with thyroid dysfunction | Q72577161 | ||
Age and gender influence the severity of thyroid-associated ophthalmopathy: a study of 101 patients attending a combined thyroid-eye clinic | Q72800952 | ||
Progressive overcorrection after inferior rectus recession | Q72876858 | ||
Insertion site dynamics and histology in a rabbit model after conventional or suspension rectus recession combined with ipsilateral antagonist resection | Q72876873 | ||
Overcorrection after adjustable suture suspension- recession of the inferior rectus muscle in non-thyroid eye disease | Q73042411 | ||
Malignant exophthalmos | Q73245191 | ||
Magnetic resonance imaging of the arc of contact of extraocular muscles: implications regarding the incidence of slipped muscles | Q73694599 | ||
Effect of prior orbital decompression on outcome of strabismus surgery in patients with thyroid ophthalmopathy | Q73694605 | ||
P921 | main subject | eye disease | Q3041498 |
hypotropia | Q18558238 | ||
P304 | page(s) | 168-200 | |
P577 | publication date | 2011-12-01 | |
P1433 | published in | Transactions of the American Ophthalmological Society annual meeting | Q26842158 |
P1476 | title | The role of thyroid eye disease and other factors in the overcorrection of hypotropia following unilateral adjustable suture recession of the inferior rectus (an American Ophthalmological Society thesis) | |
P478 | volume | 109 |
Q92881139 | Adjustable Versus Nonadjustable Sutures in Strabismus Surgery-Who Benefits the Most? |
Q26801001 | Clinical Pearls and Management Recommendations for Strabismus due to Thyroid Orbitopathy |
Q96219330 | Management of Thyroid Eye Disease-Related Strabismus |
Q35900410 | Surgical Responses of Medial Rectus Muscle Recession in Thyroid Eye Disease-Related Esotropia |
Search more.