Table 1. AIDS-attributable factor increases in antibiotic-resistant infection.
| Population | TB Prevalence | Immune Status | Mean Infective Immune Percentage | Percent Contribution to Emergence | Factor Contribution to Emergence |
|---|---|---|---|---|---|
| IN | Low | -- | 99.57% | 98.9% | 0.99 |
| +- | 0.03% | 0.14% | 5.35 | ||
| ++ | 0.40% | 0.99% | 2.49 | ||
| High | -- | 99.57% | 99.2% | 0.99 | |
| +- | 0.03% | 0.09% | 3.92 | ||
| ++ | 0.40% | 0.75% | 1.86 | ||
| SZ | Low | -- | 70.28% | 67.57% | 0.96 |
| +- | 3.89% | 7.33% | 1.82 | ||
| ++ | 25.81% | 25.10% | 0.97 | ||
| High | -- | 70.28% | 69.24% | 0.99 | |
| +- | 3.89% | 7.52% | 1.93 | ||
| ++ | 25.81% | 23.24% | 0.90 |
Table showing the AIDS-attributable increase in antibiotic-resistant infection in each of the four scenarios (Indonesia or Swaziland, denoted IN or SZ respectively) with low or high tuberculosis (TB) prevalence. The increase due to the population is attributed according to immune and highly-active antiretroviral status: AIDS-negative (--), AIDS-positive HAART-untreated (+-), and AIDS-positive HAART-treated. These data are compiled according to a deterministic mathematical model, and as such there is no standard error to report.