Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0038379 (strabismus)
9,317 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A male patient followed from the age of 3 to 25 years was eventually diagnosed as having Proteus syndrome. He was born with linear epidermal nevi of the neck and forearm and presented with macrodactyly of the right hand and progressive hemihypertrophy of the right lower limb recurring after multiple reduction operations. The bone ends showed disorderly overgrowth of hyaline and fibrocartilage mixed with collagen and bone, and early differential diagnoses included Ollier's disease. The child also had vertebral anomalies, scoliosis, a bony protrusion of the cranial vertex, and strabismus. In the second decade he developed gyriform swelling of the soles, retinopathy, bilateral papillary cysts of the epididymis, and a giant cyst of the left kidney with complex glandular foci. At 22 years a 3-cm meningioma containing adipose tissue was resected, and at 24 years a 3-cm cellular nodule of the rete testis with hyperchromatic foci, probably an adenoma, was removed. The features of Proteus syndrome were those of hyperplasia and neoplasia of mostly mesodermal tissues. Unlike other reported cases, overgrowth of a finger recurred at 25 years.
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PMID:Pathology of osseous and genitourinary lesions of Proteus syndrome. 810 99

The localisation and definition of the capsule of Tenon insertion on the rectus muscles is of prime importance to the strabismus surgeon. The depth of the superior sub-Tenon space was measured on 22 adult human eyes after fixation in formalin. Although the measurements revealed major differences between the eyes, the following results were found: inferior rectus muscle = 7.8 mm +/- 1.79 (5.2-13.0), medial rectus = 12.6 mm +/- 2.15 (8.4-17.2), superior rectus muscle = 16.7 mm +/- 2.39 (12.7-21.5), and lateral rectus muscle = 19.0 mm +/- 2.19 (14.5-22.0). Histological studies of 2 other human eyes confirmed the notion of a band of insertion on rectus muscles as the posterior limit of the sub-Tenon space. As far as this insertion, the capsule of Tenon is a dense connective tissue composed of many collagen and elastin fibers, but after the band insertion, it becomes virtual through its fusion with the perimysium of the rectus muscle.
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PMID:[Insertion of the Tenon capsule onto the rectus muscles]. 828 50

Individual collagen fibers in the superior oblique tendon of patients with superior oblique palsy studied at 60,000x with transmission electron microscopy are fewer in number and larger in diameter when compared to normal fibers. The relationship of these changes to function and to gross morphologic changes are not clear.
J Pediatr Ophthalmol Strabismus
PMID:Ultrastrucure of the superior oblique tendon. 853 Oct 37

Tenon's capsule is at the forefront of today's strabismus news. Its function as a muscle pulley was recognized by Tenon himself in 1806. Neiger, then Koornneef, and more recently Demer gave a more modern description of Tenon's capsule. The anterior or muscular part is made up of collagen, elastic, and smooth muscle fibers. It forms a sleeve around extraocular muscles from the Tenon foramen to their scleral insertion. Directly in front of the foramen, it includes a zone of strong capsular-muscular adherence, which is also solidly suspended by ocular suspension system to the periosteum of the orbit; the intermuscular membrane consolidates the adherence zones of the rectus muscles. The posterior part is simply a condensation of collagenous fibers. The function of Tenon's capsule is essential. At the place where it adheres to the muscles, the sleeve that it forms around the muscles plays the role of a pulley diverting the muscle's path, with the pulley representing the proximal functional insertion of the muscle. The position of a rectus muscle's pulley is stable during ocular movements perpendicular to the axis of this muscle because of the transversal and radial fastening of the capsular-muscular adherence zone. During movements along the muscle axis, the pulley moves with the ocular globe. In fact, it is positioned actively to accompany the ocular globe's movements. The anomalies of these pulleys can contribute to or be responsible for an extraocular muscle imbalance: a position anomaly, an instability, a displacement, or a pathological adherence of one pulley can be the cause. Surgery of Tenon's pulley has always been an integral part of extraocular muscle surgery. Any intervention on the muscular level involves, to a lesser or greater extent, the operated muscle's pulley. Different examples demonstrate this.
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PMID:[The function of Tenon's capsule revisited]. 1251 47

Extraocular muscle pulleys, now well known to be kinematically significant extraocular structures, have been noted in passing and described in fragments several times over the past two centuries. They were late to be fully appreciated because biomechanical modeling of the orbit was not available to derive their kinematic consequences, and because pulleys are distributed condensations of collagen, elastin and smooth muscle (SM) that are not sharply delineated. Might other mechanically significant distributed extraocular structures still be awaiting description?An imaging approach is useful for describing distributed structures, but does not seem suitable for assessing mechanical properties. However, an image that distinguished types and densities of constituent tissues could give strong hints about mechanical properties. Thus, we have developed methods for producing three dimensional (3D) images of extraocular tissues based on thin histochemically processed slices, which distinguish collagen, elastin, striated muscle and SM. Overall tissue distortions caused by embedding for sectioning, and individual-slice distortions caused by thin sectioning and subsequent histologic processing were corrected by ordered image warping with intrinsic fiducials. We describe an extraocular structure, partly included in Lockwood's ligament, which contains dense elastin and SM bands, and which might refine horizontal eye alignment as a function of vertical gaze, and torsion in down-gaze. This active structure might therefore be a factor in strabismus and a target of therapeutic intervention.
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PMID:Extraocular connective tissue architecture. 1272 68

The purpose of this study was to find out whether a conjunctival autograft over the recessed bulbomotor muscle can prevent a recidive of an inflammatory internal pterygium associated with strabismus. The fast growing internal pterygium (crossing corneoscleral limbus of the right eye 3-4 mm towards the centre of the cornea) in a 42 years old patient, was removed by superficial keratectomy, while strabismus was corrected by the recession of the internal rectus muscle and covered with an autograft of the upper bulbar conjunctiva. Neither collagen vascular diseases, nor dry eye were present. Horizontal deviation was lessened from +12 to +6, after surgery, and the regrowth of the inflammatory pterygium was not observed during a five years follow up. The risk of the reappearance of pterygium at the site of muscle surgery for strabismus might have been avoided by creating a smooth ocular surface over a thin conjunctival autograft without Tenon's capsule. We believe that conjunctival autograft in such eyes, carrying a higher risk for pterygium regrowth, may help in the avoidance of the use of cytostatic drugs and on their untoward effects.
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PMID:[Ipsilateral surgery of primary pterygium, sensory esotropia and conjunctival autotransplantation in a single procedure]. 1530 12

This paper reviews the recent research and application of atomic force microscopy (AFM) and Raman spectroscopy techniques, which are considered the multi-functional and powerful toolkits for probing the nanostructural, biomechanical and physicochemical properties of biomedical samples in medical science. We introduce briefly the basic principles of AFM and Raman spectroscopy, followed by diagnostic assessments of some selected diseases in biomedical applications using them, including mitochondria isolated from normal and ischemic hearts, hair fibers, individual cells, and human cortical bone. Finally, AFM and Raman spectroscopy applications to investigate the effects of pharmacotherapy, surgery, and medical device therapy in various medicines from cells to soft and hard tissues are discussed, including pharmacotherapy--paclitaxel on Ishikawa and HeLa cells, telmisartan on angiotensin II, mitomycin C on strabismus surgery and eye whitening surgery, and fluoride on primary teeth--and medical device therapy--collagen cross-linking treatment for the management of progressive keratoconus, radiofrequency treatment for skin rejuvenation, physical extracorporeal shockwave therapy for healing of Achilles tendinitis, orthodontic treatment, and toothbrushing time to minimize the loss of teeth after exposure to acidic drinks.
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PMID:Medical applications of atomic force microscopy and Raman spectroscopy. 2473 Feb 52

Osteogenesis imperfecta comprises a rare group of genetic disorders caused by abnormal collagen that results in increased bone fragility and other sequelae. We describe a 37-year-old woman with osteogenesis imperfecta in whom two full-thickness scleral perforations were created by adjacent teeth of 0.5 mm forceps during traction testing while undergoing routine strabismus surgery. This case reviews the ocular findings of osteogenesis imperfecta and highlights the potential risk of ocular surgical complications in these patients.
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PMID:Scleral perforations during routine traction test in a patient with osteogenesis imperfecta. 2544 53

PURPOSE To study the ultrastructure of the medial rectus in patients with intermittent exotropia at different ages.PATIENTS AND METHODS The medial recti were harvested surgically from 20 patients with intermittent exotropia. Patients were divided into adolescent (age<18 years, n=10) and adult groups (age >18 years, n=10). The normal control group included five patients without strabismus and undergoing eye enucleation. Hematoxylin and eosin staining and transmission electron microscopy were used to visualize the medial recti. Western blot was used to determine the levels of myosin and actin.RESULTS Varying fiber thickness, atrophy, and misalignment of the medial recti were visualized under optical microscope in patients with exotropia. Electron microscopy revealed sarcomere destruction, myofilament disintegration, unclear dark and light bands, collagen proliferation, and fibrosis. The adolescent group manifested significantly higher levels of myosin and actin than the adult group (P<0.05).CONCLUSION Younger patients with intermittent exotropia show stronger contraction of the medial recti compared with older patients. Our findings suggest that childhood was the appropriate time for surgery as the benefit of the intervention was better than in adulthood.
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PMID:Ultrastructure of medial rectus muscles in patients with intermittent exotropia. 2651 42

We report the histopathological and ultrastructural tissue analysis of extraocular muscle (EOM) obtained from a patient with seronegative myasthenia gravis (MG) with treatment-resistant ophthalmoplegia for 3.5 years. The EOM demonstrated predominantly myopathic features and ultrastructural evidence of mitochondrial dysfunction, but the most striking features were increased endomysial collagen and adipocyte replacement of muscle fibers. By contrast, control EOM from a patient undergoing strabismus surgery for a sensory exotropia in a nonseeing eye and a similar duration of deviation, showed normal muscle histology. Although the histopathological and ultrastructural findings largely resemble those of limb muscle in MG, the abundant endomysial collagen may be nonspecific and secondary to poor force generation as a result of chronic ophthalmoplegia.
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PMID:Extraocular Muscle Findings in Myasthenia Gravis Associated Treatment-Resistant Ophthalmoplegia. 2874 38


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