Abstract
Primary and post-primary tuberculosis (TB) are different diseases caused by the same organism. Primary TB produces systemic immunity. Post-primary TB produces cavities to support massive proliferation of organisms for transmission of infection to new hosts from a person with sufficient immunity to prevent systemic infection. Post-primary, also known as bronchogenic, TB begins in humans as asymptomatic bronchial spread of obstructive lobular pneumonia, not as expanding granulomas. Most lesions regress spontaneously. However, some undergo caseation necrosis that is coughed out through the necrotic bronchi to form cavities. Caseous pneumonia that is not expelled through the bronchi is retained to become the focus of fibrocaseous disease. No animal reproduces this entire process. However, it appears that many mammals utilize similar mechanisms, but fail to coordinate them as do humans. Understanding this makes it possible to use human tuberculous lung sections to guide manipulation of animals to produce models of particular human lesions. For example, slowly progressive and reactivation TB in mice resemble developing human bronchogenic TB. Similarly, bronchogenic TB and cavities resembling those in humans can be induced by bronchial infection of sensitized rabbits. Granulomas in guinea pigs have characteristics of both primary and post primary TB. Mice can be induced to produce a spectrum of human like caseating granulomas. There is evidence that primates can develop bronchogenic TB. We are optimistic that such models developed by coordinated study of human and animal tissues can be used with modern technologies to finally address long-standing questions about host/parasite relationships in TB, and support development of targeted therapeutics and vaccines.
Highlights
It is widely recognized that gaps in knowledge of susceptibility/resistance to pulmonary tuberculosis (TB) are major impediments to development of new vaccines and host directed therapies [1,2]
2018, 7, x FORmultiple of 11 were Pathogens sensitized with injections of heat-killed M. bovis in incomplete Freund’s 5adjuvant followed by installation of viable Mycobacterium tuberculosis (MTB) directly in to the lung by bronchoscopy to produce post-primary has been further developed by Kubler et al who produced a model of cavities in rabbits [34], Figure disease
Like human post primary TB, it typically begins as sub pleural wedgeare shaped insert).inAcid bacilli The are present in low numbers in alveolar macrophages
Summary
It is widely recognized that gaps in knowledge of susceptibility/resistance to pulmonary tuberculosis (TB) are major impediments to development of new vaccines and host directed therapies [1,2]. Post-primary begins as subclinical, asymptomatic spontaneously, but some for undergo necrosis to produce caseousTB pneumonia that is either coughed out to leave a cavity or remains to become surrounded by granulomas and fibrocaseous disease. This is bronchogenic spread of obstructive lobular pneumonia. PEER REVIEW of 11 were Pathogens sensitized with injections of heat-killed M. bovis in incomplete Freund’s 5adjuvant followed by installation of viable MTB directly in to the lung by bronchoscopy to produce post-primary has been further developed by Kubler et al who produced a model of cavities in rabbits [34], Figure disease.
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