The purpose of this study is to try to identify the cause of damage to the drainage system of the eye (the trabecular meshwork). Damage to this system may cause elevation in the pressure within the eye and thereby damage to the optic nerve and the vision.
During a routine trabeculectomy surgery, a corneo-scleral block that includes TM tissue will be collected at the operating room. This tissue is routinely removed during every trabeculectomy surgery. The tissue will be stored immediately in normal saline at 4 degrees Celsius, and walked directly to the Jefferson Center for Translational Medicine at Thomas Jefferson University by the Wills eye glaucoma research fellow. TM tissue will be identified using light microscope base on TM cell pigmentation. The ocular tissue will be fixed and placed in pre-cooled fixative on ice for 1 hour. The lengths of mitochondrial cross sections at the longest extent will be measured under electron microscopy (EM) in order to identify the mitochondrial dynamics. Quantitative Polymerase Chain Reaction (qPCR) will be done to identify proteins responsible for mitochondrial fusion.
Study Type
INTERVENTIONAL
Allocation
NON_RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
NONE
Tissue is collected during surgery at Wills Eye and then processed at thomas jefferson to identify the trabecular meshwork using light microscope. The ocular tissue will be fixed and the mitochondrial cross sections at the longest extent will be measured under electron microscopy (EM) in order to identify the mitochondrial dynamics. Quantitative Polymerase Chain Reaction (qPCR) will be done to identify proteins responsible for mitochondrial fusion.
Wills Eye Hospital
Philadelphia, Pennsylvania, United States
3-D EM tomography for mitochondria obtained from sample tissue
Time frame: 1 year
Gene expression of Drp1
Time frame: 1 year
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