TY - JOUR
T1 - The introduction of BCG vaccination to neonates in Northern Sweden, 1927–31
T2 - Re-analysis of historical data to understand the lower mortality among BCG-vaccinated children
AU - Schaltz-Buchholzer, Frederik
AU - Kjær Sørensen, Marcus
AU - Benn, Christine Stabell
AU - Aaby, Peter
N1 - Funding Information:
The introduction of BCG in the northernmost district in Sweden, Norrbotten, was initiated by physician Carl Näslund in September 1927 in a project sponsored by the Swedish National Anti-tuberculosis Society. Näslund wrote three papers on BCG which sequentially updated the progress of BCG vaccination rollout and the corresponding child mortality among vaccinated and unvaccinated children in Norrbotten [10–12] . For the present analysis, only the original data reported in Näslund’s papers was available. Calmette’s statements regarding data from Sweden [9] were based on Näslund’s first report, which was first provided at an Oslo TB congress in 1930 [10] , and the total dataset was later provided in a final report covering the period from September 1927 to December 1931 [12] . We extracted data from the original publications and calculated mortality data for 1930–31 as the difference between the total 1927–31 data set [12] and the data reported for 1927–29 [10] .
PY - 2022/3/8
Y1 - 2022/3/8
N2 - Background: Following the introduction of oral Bacille Calmette-Guérin (BCG) a century ago, Albert Calmette suggested that BCG both provided protection against death from tuberculosis (TB) and other causes. The findings were not pursued. Today, there is considerable evidence that intradermal BCG have beneficial non-specific effects (NSEs). We re-analyzed data from BCG's introduction 1927–1931 in Sweden hypothesizing that BCG reduced infectious deaths. Methods: In three papers published by Dr Carl Näslund, the progress of oral neonatal BCG rollout provided free-of-charge and the effects on child mortality in the highly TB-prevalent region Norrbotten was sequentially updated. We analyzed cause-specific post-neonatal mortality by vaccination status excluding deaths from congenital conditions. Due to apparent differences in effects during study years, effects were assessed overall and separately in two periods (1927–1929, 1930–1931). Results: According to Näslund, TB households were slightly more likely to accept vaccination; fewer newborns that were sick or had congenital problems were vaccinated. BCG coverage was 28.3% (5659/20,012); 8.7% (1746/20,012) died. The BCG/unvaccinated Risk Ratio (RR) of post-neonatal childhood death was 0.53 (0.45–0.62). BCG was associated with 80% (49–92%) reduced mortality from TB. From 1927 to 29, BCG appeared to protect strongly against deaths from all diseases, including the non-infectious, RR = 0.09 (0.02–0.36), presumably reflecting selection bias. From 1930 to 1931, there was no protection against non-infectious deaths, RR = 0.92 (0.49–1.70) indicating less bias (p = 0.004 for same effect). During 1930–1931, BCG was associated with reductions in non-TB infectious deaths (RR = 0.75 (0.58–0.97)); 2/3 were caused by respiratory infections, against which the BCG/unvaccinated RR was 0.61 (0.43–0.84). Other causes of death were less frequent and provided no clear pattern, except that BCG was associated with more meningitis deaths, RR = 6.85 (2.20–21.4). Conclusion: Healthy vaccinee bias, particularly in 1927–1929, resulted in strongly beneficial overall BCG effects. However, the 1930–1931 data provided some support that BCG both protected against TB deaths and deaths from respiratory infections.
AB - Background: Following the introduction of oral Bacille Calmette-Guérin (BCG) a century ago, Albert Calmette suggested that BCG both provided protection against death from tuberculosis (TB) and other causes. The findings were not pursued. Today, there is considerable evidence that intradermal BCG have beneficial non-specific effects (NSEs). We re-analyzed data from BCG's introduction 1927–1931 in Sweden hypothesizing that BCG reduced infectious deaths. Methods: In three papers published by Dr Carl Näslund, the progress of oral neonatal BCG rollout provided free-of-charge and the effects on child mortality in the highly TB-prevalent region Norrbotten was sequentially updated. We analyzed cause-specific post-neonatal mortality by vaccination status excluding deaths from congenital conditions. Due to apparent differences in effects during study years, effects were assessed overall and separately in two periods (1927–1929, 1930–1931). Results: According to Näslund, TB households were slightly more likely to accept vaccination; fewer newborns that were sick or had congenital problems were vaccinated. BCG coverage was 28.3% (5659/20,012); 8.7% (1746/20,012) died. The BCG/unvaccinated Risk Ratio (RR) of post-neonatal childhood death was 0.53 (0.45–0.62). BCG was associated with 80% (49–92%) reduced mortality from TB. From 1927 to 29, BCG appeared to protect strongly against deaths from all diseases, including the non-infectious, RR = 0.09 (0.02–0.36), presumably reflecting selection bias. From 1930 to 1931, there was no protection against non-infectious deaths, RR = 0.92 (0.49–1.70) indicating less bias (p = 0.004 for same effect). During 1930–1931, BCG was associated with reductions in non-TB infectious deaths (RR = 0.75 (0.58–0.97)); 2/3 were caused by respiratory infections, against which the BCG/unvaccinated RR was 0.61 (0.43–0.84). Other causes of death were less frequent and provided no clear pattern, except that BCG was associated with more meningitis deaths, RR = 6.85 (2.20–21.4). Conclusion: Healthy vaccinee bias, particularly in 1927–1929, resulted in strongly beneficial overall BCG effects. However, the 1930–1931 data provided some support that BCG both protected against TB deaths and deaths from respiratory infections.
KW - Bacille Calmette-Guérin (BCG) vaccine
KW - Child mortality
KW - History of vaccinology
KW - Non-specific effects of vaccines
KW - Tuberculosis
KW - Vaccine introduction
KW - Humans
KW - Vaccination
KW - Communicable Diseases
KW - BCG Vaccine
KW - Child
KW - Sweden/epidemiology
KW - Tuberculosis/prevention & control
KW - Infant, Newborn
U2 - 10.1016/j.vaccine.2021.06.006
DO - 10.1016/j.vaccine.2021.06.006
M3 - Journal article
C2 - 34134904
AN - SCOPUS:85107887628
SN - 0264-410X
VL - 40
SP - 1516
EP - 1524
JO - Vaccine
JF - Vaccine
IS - 11
ER -