Leprosy is an infectious disease that affects peripheral nerves and can lead to severe lifelong disabilities. Despite the availability of an effective cure, a fairly stable number of about 200,000... Show moreLeprosy is an infectious disease that affects peripheral nerves and can lead to severe lifelong disabilities. Despite the availability of an effective cure, a fairly stable number of about 200,000 new leprosy patients per year has been reported since 2010. This stagnation shows that the transmission of the mycobacteria that cause leprosy, Mycobacterium leprae and Mycobacterium lepromatosis, is still taking place. Timely diagnosis of leprosy patients is therefore vital, so that the time frame in which a person is contagious is shortened, but also irreversible nerve damage and leprosy-associated disabilities can be prevented. However, tools that confirm the diagnosis of leprosy are not yet available. This thesis investigated which factors in blood (the so-called biomarkers) can help to diagnose leprosy. The clinical signs of leprosy have a spectral character and are influenced by the immune response of the host. A combination of biomarkers is described that is able to identify patients with a lot of bacteria (multibacillary) as well as the more difficult to diagnose patients with few bacteria (paucibacillary). Subsequently, these biomarkers have been implemented in user-friendly lateral flow assays, which have been extensively validated in leprosy endemic areas. Show less
Leprosy is a multifactorial chronic disease caused by Mycobacterium leprae or Mycobacterium lepromatosis that affects the skin and nerves. More than 200.000 new cases are diagnosed per year; thus,... Show moreLeprosy is a multifactorial chronic disease caused by Mycobacterium leprae or Mycobacterium lepromatosis that affects the skin and nerves. More than 200.000 new cases are diagnosed per year; thus, transmission is still ongoing. The most likely way of transmission is the respiratory route form human-to-human; however, transmission is still not clearly understood. Early diagnosis of leprosy is crucial to reduce and avoid transmission as well as leprosy-associated disabilities, which are also a cause of stigma. Currently, diagnosis is performed based on clinical signs and symptoms and late- or mis-diagnosis are not uncommon.In this thesis, we combined the study of pathogen transmission with host transcriptomic and genomic biomarkers. To explore M. leprae transmission a One Health approach was followed, where human, animal and environmental samples were studied.The combination of demographic characteristics, pathogen detection, genetic and/or transcriptomic biomarkers can be applied in a multifactorial leprosy signature applicable for early diagnosis of leprosy and/or to guide intervention strategies. Identification of predictive biomarkers will in due course lead to prompt treatment, preventing leprosy-associated irreversible disabilities as well as reducing M. leprae transmission. Show less
Globally more than 200,000 people develop leprosy every year and 2-3 million people live with leprosy associated disabilities. Despite the availability of multi drug therapy, leprosy has continued... Show moreGlobally more than 200,000 people develop leprosy every year and 2-3 million people live with leprosy associated disabilities. Despite the availability of multi drug therapy, leprosy has continued affecting many individuals, including children because of the uninterrupted transmission in the population. Untreated multi bacillary cases as well as non-symptomatic M. leprae infected individuals in the population are believed to be the major sources of M. leprae infection and transmission. Leprosy reactions are also the major causes of disabilities. However, no tools are available to predict their occurrence. This thesis focuses on in vitro assessment of recombinant M. leprae proteins and synthetic peptides for their immunogenicity and specificity in populations with different genetic backgrounds by measuring cell mediated immunity and this has shown the presence of potential antigens. Further in depth analysis of the host immune responses against these unique antigens in leprosy patients, their household contacts and healthy endemic controls has led to identification of potential biomarkers with an immense importance in development of diagnostic tools for detection of M. leprae infection and early diagnosis of leprosy reactions. Currently, field friendly tests for early detection are developed at the LUMC using identified M. leprae antigens and host biomarkers with diagnostic potential. Show less