2017

Significance Tests for Proportions

State Versus Subgroup ComparisonsThe following test is used to determine whether or not a subgroup (county, city, or race) percent (p

_{1}) is different from the state percent (P). The Null and Alternate hypotheses tested are:

H_{o}: p_{1}equal Pvs.H_{1}: p_{1}not equal PThe formula for the Z-score is: Z = (p

_{1}- P)/SQRT[(P * Q)/n_{1}]where: p

_{1}is the subgroup percent,

P is the state percent,

Q is 1-P,

n_{1}is the number of births in the subgroup (denominator of p_{1}), and

SQRT denotes the square root of the expression in brackets.In a single comparison, if the absolute value of the resulting Z-score is greater than or equal to 1.96, the null hypothesis is rejected, and it can be concluded that the subgroup percent is not equal to the state percent, but rather is larger (or smaller) than the state percent. This critical value (1.96) represents a two-tailed test at alpha equal to .05 (.025 in each tail of the normal distribution).

When a large number of comparisons are made, as is the case when comparing percents for all of the counties or all of the cities against the state percent, the probability that a difference is significant increases substantially due to chance alone. Bonferroni's theory of inequalities is used to account for the increased chance of a significant result when making multiple comparisons.

^{1}The significance level for each individual comparison is adjusted by the number of comparisons made. For the county comparisons, the alpha level was set to .05/92, or ~.0005. This corresponds to a critical Z-score of ~3.458 for a two-tailed test. For the city comparisons, the alpha level was set to .05/35, or ~.0014. This corresponds to a critical Z-score of ~3.189 for a two-tailed test.

Subgroup Versus Subgroup ComparisonsThe following test is used to compare two subgroup percents. It is used to compare one county versus another county or one city versus another city. It is also used, for example, to determine if the percents in two racial subgroups of the state are significantly different from each other. The Null and Alternate hypotheses are:

H_{o}: p_{1}= p_{2}vs.H_{1}: p_{1}not equal p_{2}The formula for the Z-score is: Z = (p

_{1}- p_{2}) / SQRT[(p*q/n_{1}) + (p*q/n_{2})]where: p

_{1}is the percent for one group,

p_{2}is the percent for the second group,

p is the pooled percent,

q is 1-p,

n_{1}is the number of births in group 1,

n_{2}is the number of births in group 2,

SQRT denotes the square root of the expression in brackets,and the pooled percent is: p = (f

_{1}+ f_{2 })/( n_{1}+ n_{2})where: f

_{1}= the number with the characteristic in group 1,

f_{2}= the number with the characteristic in group 2.For single comparisons, if the resulting Z-score is greater than or equal to 1.96, the null hypothesis is rejected, and it can be concluded that the two subgroup percents are not equal. This critical value (1.96) represents a two-tailed test at alpha equal to .05 (.025 in each tail of the normal distribution).

When making multiple comparisons, the critical Z values must be adjusted according to the number of comparisons being made. Multiple subgroup comparisons were not made within the context of this report.

Significance Tests for Rates

State Versus Subgroup ComparisonsA comparison between rates is considered statistically significant if the difference between the rates would have occurred by chance less than 5 times out of 100 (i.e., p < 0.05). All statistical tests were conducted using the Z-score method, described in basic statistics texts. While the form of the Z test is similar, the calculation of the standard error for a rate is not straightforward. The following formula can be used to approximate the standard error of a rate:

^{2}SE

_{(rate)}= rate / [events]^{1/2}where, in this case, "events" is the number of births used to calculate the rate.

Subsequently, the Z test for the difference between the state and county rates takes the form:

Z = (state rate - county rate) / SE

_{(diff)}where the SE

_{(diff)}is defined as:SE

_{(diff)}= [(SE_{(s)})^{2}+ (SE_{(c)})^{2}]^{1/2}where SE

_{(s)}is the standard error of the state rate and SE_{(c)}is the standard error of the county rate.When testing the differences between the Indiana rate and the rate for each of the 92 counties, the large number of possible comparisons increases the chance that a rate would be statistically significant due to chance alone. To account for multiple comparisons, based on Bonferroni's theory of inequalities, the significance level for each individual comparison was set equal to 0.05/92, where 92 is the number of comparisons made.

^{1}Thus, any individual comparison with an associated "p" value less than ~0.0005 (Z ~ 3.458) was considered to be statistically significant.When testing the difference between the Indiana rate and the rate for each of the 35 cities, the significance level was set to 0.05/35. The associated "p" value of less than ~.0014 was considered to be statistically significant. This corresponds to a critical Z score of ~3.189 for a two-tailed test.

Subgroup Versus Subgroup ComparisonsThe above test can be used to compare two subgroup rates. It is used to compare one county to another county or one city to another city. It is also used, for example, to determine if the rates in two racial subgroups of the state are significantly different from each other.

Method of Computing Cesarean Delivery Rates

Overall Cesarean RateTo calculate this rate, divide the total number of births by cesarean delivery by the total number of births minus the not-stated method of delivery, and multiply by 100 to express the rate as a percent.

Overall cesarean rate =

Number of births by cesarean_{x 100}

Total number of births - not-stated method of delivery

Primary Cesarean RateTo calculate this rate, divide the number of first cesarean births by the total number of births to women who have not had a previous cesarean delivery, and multiply by 100 to express as a percent.

Primary cesarean rate =

Number of primary cesarean births_{x 100}

Total # births - VBACs - repeated cesareans - not-stated method

VBAC (Vaginal Birth After Cesarean) RateTo calculate this rate, divide the number of vaginal births to women who had a previous birth by cesarean delivery by the total number of births (vaginal and cesarean) to women who had a previous birth by cesarean delivery, and multiply by 100 to express as a percent.

VBAC rate =

VBACS_{x 100}

VBACS + repeated cesareans

Information for Table 22— Number and Percent of Mothers Who Used Alcohol During Pregnancy by Age and Race of Mother and Table 23 — Number and Percent of Mothers Who Used Alcohol During Pregnancy by Birthweight of Infant and Race of Mother is being replaced by Table 22 — Number and Percent of Mothers on Medicaid During Pregnancy by Age and Race of Mother and Table 23 — Number and Percent of Mothers on Medicaid During Pregnancy by Birthweight of Infant and Race of MotherInformation concerning alcohol use during pregnancy is no longer asked on the birth certificate. The National Center for Health Statistics has found that alcohol use is substantially underreported on the birth certificate compared with data collected in nationally representative surveys of pregnant women. The birth certificate question on alcohol use from the 1989 revision was not sensitive enough to measure this behavior accurately. The question’s wording as well as the lack of specific time reference for the birth certificate questions are probable factors contributing to the underreporting. In addition, the stigma of maternal alcohol use likely contributes to underreporting. Starting with the 2012 Natality Report, we are replacing these tables with information about mothers on Medicaid while pregnant.

Month Prenatal Care BeganIndiana receives information from other states on Indiana residents who have given birth outside of Indiana (resident out-of-state [ROOS] births). The method of coding the month that prenatal care began is not uniform from state to state. Because of these inconsistencies, this variable has been standardized and recalculated for all ROOS births.

Population Estimates by Race and SexNational Center for Health Statistics. Vintage 2017 postcensal estimates of the resident population of the United States (April 1, 2011, July 1, 2011–July 1, 2017), by year, county, single-year of age (0, 1, 2, .., 85 years and over), bridged race, Hispanic origin, and sex. Prepared under a collaborative arrangement with the U.S. Census Bureau. Available from: http://www.cdc.gov/nchs/nvss/bridged_race.htm as of June 30, 2017, following release by the U.S. Census Bureau of the unbridged Vintage 2017 postcensal estimates by 5-year age group on June 30, 2017. The Data Analysis Team downloaded the data on July 16, 2018.

Selected References

1. Snedecor, G.W. Statistical Methods, Seventh Edition, The Iowa State University Press, 1980.

2. Keyfitz, N. Sampling Variance of Standardized Mortality Rates. Human Biology 38:309–317, 1966.