To describe state laws that govern the optometric practice of glaucoma management in the United States and to correlate those laws with state demographics upto 2015.We performed a cross-sectional ecological study of the 50 United States and the District of Columbia. Regulations governing optometric scope of practice as written by each state Board of Optometry were reviewed. Specific optometric privileges assessed included: ability to manage glaucoma independently, use of diagnostic pharmaceutical agents, use of therapeutic pharmaceutical agents (including topical and oral steroids and other oral pharmaceutical agents), IV injections, intraocular injections, therapeutic lasers, presence of defined referral, and comanagement guidelines, and hours of yearly continuing education needed for glaucoma management. Optometric privilege was compared with demographic and employment information for each state.Optometrists in all states, except for Massachusetts, and the District of Columbia are allowed to manage glaucoma; 16 states have defined comanagement guidelines. Therapeutic lasers are allowed in 3 states: Kentucky, Louisiana, and Oklahoma. States with defined comanagement guidelines had a mean of 6.9±1.9 ophthalmologists per 100,000 people, significantly more than the 5.3±1.1 in states without defined comanagement of glaucoma (P<0.01). Binary logistic regression showed that, accounting for population and area, the higher the number of optometrists in a state, the less likely there is to be defined comanagement [β (SE)=-0.008 (0.003), P=0.02] and the greater the number of ophthalmologists in a given state, the more likely a state has defined comanagement [β (SE)=-0.13 (0.006)].There is a diversity of regulations that govern optometric management of glaucoma in each of the 50 states and the District of Columbia. The number of optometrists and ophthalmologists in a state may influence state regulations governing optometric practice and referral guidelines.
Abstract It has been shown that patients with end‐stage renal disease (ESRD) have an increased risk for changes in intraocular pressure during hemodialysis, or ocular dialysis disequilibrium which can cause pain or discomfort during treatment and lead to decreased vision over time. This is a case of an elderly male with ESRD who was having headaches, nausea, and eye pain during hemodialysis due to increased intraocular pressures. Using a higher sodium prescription resolved his symptoms and normalized his intraocular pressures. This case illustrates that modification in dialysate tonicity can decrease changes in intraocular pressures while patients are on hemodialysis, a vision saving consideration for patients.
An 88-year-old woman with a history of complicated cataract extraction by phacoemulsification with sulcus intraocular lens (IOL) placement developed pseudophakic pupillary block after reverse implantation of the IOL. In the postoperative period, she had persistently elevated intraocular pressures (IOP) and was diagnosed with chronic angle-closure glaucoma that was treated medically. She presented 5 years later with acute pupillary block. The diagnosis of reverse IOL implantation was confirmed by ultrasound biomicroscopy. An IOL repositioning, anterior synechialysis, and Baerveldt tube shunt placement led to resolution of the pupillary block and a well-controlled IOP.
To determine the rate of parental stress within a pediatric ophthalmology population, parents in an urban or suburban community pediatric ophthalmology clinic were administered the Parental Stress Index Short Form survey. Demographic information and parental depression or anxiety data were collected and analyzed using an independent sample t-test and chi-squared analysis. Stress measures were recorded as percentiles. One hundred and twenty-one surveys revealed the following mean percentiles: Total Stress, 45.9 ± 22.4; Parental Distress (PD), 49.7 ± 19.8; and Parent Child Dysfunctional Interaction (P-CDI), 45.1 ± 23.6. The PD percentiles of the non-married parents, those with positive parental depression or anxiety scores, and those with a high school diploma or less were 55.9 ± 18.5 versus 45.2 ± 19.6, p < 0.01; 55.2 ± 18.6 versus 46.7 ± 19.9, p < 0.05; and 56.8 ± 18.2 versus 47.0 ± 19.8, p < 0.01, respectively. The parents with a high school diploma or less in a suburban environment demonstrated higher PD/P-CDI scores versus those of an urban population. Those with median household incomes (MHI) below USD 60,000 in both the total and suburban populations showed higher PD scores. There is no significant difference in parental stress between the pediatric ophthalmology patients and the general population. The parents who are unmarried, depressed, have a high school degree or less, or an MHI below USD 60,000 experience significantly higher stress levels.
