RESUMO
OBJECTIVE: This study utilizes geospatial analytic techniques to examine HIV hotspots in Alabama leveraging Medicaid utilization data. METHODS: This cross-sectional study leveraged Medicaid utilization data from Alabama's 67 counties, averaging 9,861 Medicaid recipients aged > 18 years old per county. We used Alabama Medicaid administrative claims data from January 1, 2016, to December 31, 2020, to identify individuals with HIV. Using Microsoft SQL Server, we obtained the average annual count of HIV Medicaid claims in each of the 67 Alabama counties (numerator) and the number of adult Medicaid recipients in each county (denominator), and standardized with a multiplier of 100,000. We also examined several other area-level summary variables (e.g., non-high school completion, income greater than four times the federal poverty level, social associations, urbanicity/rurality) as social and structural determinants of health. County-boundary choropleth maps were created representing the geographic distribution of HIV rates per 100,000 adult Medicaid recipients in Alabama. Leveraging ESRI ArcGIS and local indicators of spatial association (LISA), results were examined using local Moran's I to identify geographic hotspots. RESULTS: Eleven counties had HIV rates higher than 100 per 100,000. Three were hotspots. Being an HIV hotspot was significantly associated with relatively low educational attainment and less severe poverty than other areas in the state. CONCLUSIONS: Findings suggesting that the HIV clusters in Alabama were categorized by significantly less severe poverty and lower educational attainment can aid ongoing efforts to strategically target resources and end the HIV epidemic in U.S.' Deep South.
Assuntos
Infecções por HIV , Determinantes Sociais da Saúde , Adulto , Estados Unidos/epidemiologia , Humanos , Adolescente , Alabama/epidemiologia , Prevalência , Estudos Transversais , Medicaid , Infecções por HIV/epidemiologiaRESUMO
The simulation of (scanning) transmission electron microscopy images and diffraction patterns is most often performed using the forward-scattering approximation where the second-order derivative term in z is assumed to be small with respect to the first-order derivative term in the modified Schrödinger equation. This assumption is very good at high incident electron energies, but breaks down at low energies. In order to study the differences between first- and second-order methods, convergent beam electron diffraction patterns were simulated for silicon at the [111] zone-axis orientation at 20 keV and compared using electron intensity difference maps and integrated intensity profiles. The geometrical differences in the calculated diffraction patterns could be explained by an Ewald surface analysis. Furthermore, it was found that solutions based on the second-order derivative equation contained small amplitude oscillations that need to be resolved in order to ensure numerical integration stability. This required the use of very small integration steps resulting in significantly increased computation time compared to the first-order differential equation solution. Lastly, the efficiency of the numerical integration technique is discussed.
RESUMO
Advances in microsurgical techniques combined with a widening interest in same-day surgery led us to investigate ambulatory lumbar discectomy. We could find no precedent in the literature. Ten patients with classic ruptured lumbar discs confirmed by computed tomography chose to participate. They were aged 31 to 51, seven men and three women, in excellent general health. A microsurgical approach through a 25-mm skin incision was performed. The technique emphasized removal of sufficient medial facet to allow excision of the disc with minimal or no root retraction. Once awake in the recovery room, patients were transferred to a separate ambulatory step-down unit. They were discharged only after they had voided, ambulated, taken oral nourishment, and been examined by the surgeon. A visiting nurse checked the patient at home the evening of operation and the next day. All returned to their usual occupation between 3 and 14 days postoperatively. All were satisfied and would choose the outpatient program again. Our experience indicates that ambulatory lumbar microdiscectomy can be a safe, effective option for selected patients.