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Lignite Deposits and Kidney and Renal Pelvic Cancers in Texas 1980-1998

Lignite Deposits and Kidney and Renal Pelvic Cancers in Texas 1980-1998. Harvey Guthrey University of North Texas Instructor: Dr. Joseph Oppong. Reasons To Study Texas. Texas ranked second in the nation in 2003 for incidence of kidney and renal pelvic cancers.

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Lignite Deposits and Kidney and Renal Pelvic Cancers in Texas 1980-1998

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  1. Lignite Deposits and Kidney and Renal Pelvic Cancers in Texas 1980-1998 Harvey Guthrey University of North Texas Instructor: Dr. Joseph Oppong

  2. Reasons To Study Texas • Texas ranked second in the nation in 2003 for incidence of kidney and renal pelvic cancers. • Texas had the seventh highest age-adjusted mortality rate for kidney and renal pelvic cancers from 2000-2004. The mortality rate is also increasing at the fourth highest rate in the country.

  3. Background • Studies of Balkan Endemic Nephropathy (BEN) suggest links between Pliocene Lignite deposits and kidney related cancers. • Possible contamination of groundwater due to the leaching of nephrotoxic substances. • A study in Northwest Louisiana exposed high levels of nephrotoxic substances in water samples taken from wells. • Nephrotoxic substances can include: Polycyclic Aromatic Hydrocarbons, Arsenic, Mercury, Lead

  4. Hypotheses to be tested • The presence of Lignite deposits is a risk marker for above average mortality rates. • More males suffer mortality from kidney and renal pelvic cancers than females. • Race/ethnicity is a risk marker for above average mortality rates. • Socioeconomic Status (SES) is a risk marker for above average rates.

  5. Methodology • Used GIS to investigate the spatial relationship between Lignite deposit location and counties with above average mortality rates for kidney and renal pelvic cancers • Correlations for race/ethnicity and SES • Comparison of age-adjusted mortality rates for males and females

  6. Data Sources • Used county level mortality data for 1980-1998. • Mortality data from the Bureau of Vital Statistics at the Texas Department of Health was accessed through the vitalweb database. • Lignite and arsenic data obtained from the USGS seamless data distribution system.

  7. Lignite Locations With the exception of a small lignite deposit in Presidio county in west Texas, the lignites in Texas are located from South Central Texas extending Northeast to the Louisiana border.

  8. Arsenic Concentrations South-central Texas as well as parts of the southern panhandle and western Texas experience arsenic concentrations in the groundwater that exceed 10 micrograms per liter.

  9. Age-Adjusted Death Rates for Kidney and Renal Pelvic Cancers State Average: 4.268 deaths per 100,000

  10. Above Average AADRfor Kidney and Renal Pelvic Cancer State Average: 4.3 deaths per 100,000 49 of the 117 counties with Above average rates contain Lignite deposits

  11. Above Average AADRfor Renal Pelvic Cancer State Average: 0.05 deaths per 100,000 Counties with high rates restricted to the Eastern portion of the state

  12. Above Average AADRfor Kidney Cancers State Average: 4.2 deaths per 100,000 Highest density occurs in South-central Texas and Extends Northeast to the Louisiana border

  13. Male and Female Mortality Rates Male State Average 5.3 deaths per 100,000 Female State Average 2.6 deaths per 100,000

  14. Mortality Rates for differentRace/Ethnicity Groups State Averages: For Blacks 4.4 deaths per 100,000 (r=0.147,p=0.019) For Whites 4.3 deaths per 100,000 For Hispanics 4.4 deaths per 100,000

  15. Variations Through Time The mortality rates increased by a little more than one death per 100,000 during study period.

  16. There appears to be a relationship between Lignite deposits and areas that have a high density of counties with above average mortality rates. Results

  17. Results • Age-adjusted mortality rates are higher for males by a factor of 2. • There was a positive correlation between median income and mortality rates. (r=0.150,p=0.017) • There was a positive correlation between percent Black and mortality rates. (r=0.147,p=0.019)

  18. Further Research • Take Water samples to determine the concentrations of toxic compounds associated with Lignite deposits • Need to determine the location of lignite deposits with more precision. • It would be beneficial to examine data on what sources people use to obtain their water. (bottles, wells, tap water)

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