Fig. 4. Notification of tuberculosis in 2 hospitals in London by medical specialty in the period 1985–1989 compared to 1992–1993. Data reproduced from [49], with permission from BMJ Publishing Group Ltd.
Reliable notification of TB cases remained difficult to implement. In the United States, uniform national reporting was introduced only in 1953 [43]. A 1993 analysis of case notification systems in 14 Western European countries showed the dismal state of surveillance, in some as recently as between 1974 and 1991 [44]. As a disease with a slowly changing epidemiology, it is contrary to its nature to exhibit large annual changes at the country level. Changes of more than 10% in either direction from 1 year to another are epidemiologically decidedly unusual, and more likely reflect inconsistencies, inaccuracies, and blatant errors in the surveillance system. While in most of the examined 14 countries, the amplitude was constrained to realistic values, it was definitively not so in some others. Of course, even where there is consistency (smaller year-to-year amplitudes) in reporting, this view of the data cannot reveal the extent of underreporting. Nevertheless, it underlines the fact that where there is not at least a minimum consistency and instead huge year-to-year amplitudes are reported, the data are not trustworthy. We note that these data are not from the times of war but in a peaceful period when Western Europe was moving to ever-greater prosperity. Subsequent to this rather embarrassing assessment, a consensus was reached in Europe to base its TB case surveillance system on a uniform and more rigorous base by taking recourse at its core to mandatory notification, not just by physicians but notably as well by laboratories that isolate and identify M. tuberculosis complex [45]. In 1996, a Europe-wide “EuroTB” program for the surveillance of TB was set up to collect, analyze, and disseminate data on TB cases notified in the World Health Organization (WHO) European region, which began to produce annual reports from 1998 onwards [46]. The project was funded by the European Union through 1997, and the last annual report appeared in 2008 [47]. Subsequently, the responsibility was transferred to the European Centre for Disease Prevention and Control and the WHO Regional Office for Europe [48].
The impediment to early attempts to implement surveillance resulting from the reluctance of physicians to report cases of TB among their patients has already been mentioned. That such reluctance was nevertheless not necessarily the only or even main problem in case notifications are exemplified in a study from 2 London hospitals (Fig. 4) [49]. The same 2 hospitals were visited in 2 periods and their records examined for newly diagnosed TB cases, and the results were then compared to the actually notified cases. Chest physicians reported only four of five diagnosed cases, surgeons only 3 of 5, and other specialties only half of the known cases. Reluctance to report is likely to have been a minor issue in hospitals in this period in the United Kingdom. More likely is forgetfulness or preoccupation with care of patients rather than administrative public health tasks. That this is actually the case is suggested by the improvement in notifications when the same hospitals were visited again a few years later. Apparently, the first visit had sensitized the hospital staff about the necessity to report. Based on these considerations, the European recommendations for surveillance emphasized a certain need for both physicians and microbiologic laboratories to notify bacteriologically confirmed cases of TB [45]: there are fewer laboratories than physicians and for them the administrative procedures for reporting can easily be automated.
Most countries in the world probably have at least a mandatory legal notification system of cases. Nevertheless, it is quite remarkable that India – the highest burden country in the world – legally mandated notification of TB only as recently as May 2012. This long overdue edict resulted in about a 30% increase of notified cases from 2013 to 2014 [50], which rose to 34% from 2013 to 2015 [51].
Thus, in the last quarter of the 20th century, even in prosperous Western Europe, surveillance of TB cases was in a deplorable state in some countries and has only slowly been improving. Globally, some of the highest burden countries have started only recently to address issues with their sometimes inefficient surveillance systems [52, 53]. For these reasons, one must be prepared to have a critical mind when judging morbidity data from countries at earlier times and when their situation was in turmoil due to war, such as often prevailed during WWII.
So far, this chapter has addressed only numerator data, that is, actual TB case counts. To allow comparison across populations or over time, the magnitude of a problem is commonly expressed in rates; in other words, case counts are divided by the population from which the cases arose and by the observation time, usually 1 year of surveillance. Population data are obtained by a census that is repeated ever so often and then interpolated for intercensal years. Demography has a long history, and methods have been developed on whom to count and how to avoid losing targeted people in the count, which is a non-trivial task. The problem is compounded when jurisdictions change through political decisions, but may also be heavily affected by population movements. In wartime, movements are introduced through mobilization of population segments, most notably young men, into the military, imposing challenges on how and where to count such people. This might be relatively easily accomplished during a census, but the difficulties for health departments can be substantial between census years. It must be feasible to define the jurisdiction in which the cases occur and the correct population count for that jurisdiction, else correct rates cannot be calculated. This may require requesting information from one of more other authorities which may