Protecting Hyposplenic Children And Adults: Identifying Optimal Immunisation Regimens
Funder
National Health and Medical Research Council
Funding Amount
$472,044.00
Summary
Children and adults without normal spleen function are at massively increased risk of overwhelming infection with the pneumococcus bacteria, with 200 times the risk of death from sepsis compared with the normal community. Poor spleen function can be due to an absent spleen (eg after surgery following a car accident) or an underlying medical condition (eg thalassaemia or cancer therapy). Thousands of Australians are affected by this condition and need extra protection from daily antibiotics and a ....Children and adults without normal spleen function are at massively increased risk of overwhelming infection with the pneumococcus bacteria, with 200 times the risk of death from sepsis compared with the normal community. Poor spleen function can be due to an absent spleen (eg after surgery following a car accident) or an underlying medical condition (eg thalassaemia or cancer therapy). Thousands of Australians are affected by this condition and need extra protection from daily antibiotics and additional immunsiations against pneumococcus. A new vaccine against pneumococcus was introduced for Australian infants routinely in 2005 and has prevented many from developing pneumococcal meningitis, sepsis and pneumonia. We wish to see whether this new vaccine, when used with the older existing pneumococcal vaccine, will better protect older children and adults with poor spleen function from the devastating effects of pneumococcus. We will compare different ways of using these vaccines to try to identify the most protective vaccination plan for this vulnerable group of Australians.Read moreRead less
Understanding The Mechanisms That Regulate Spleen Organogenesis
Funder
National Health and Medical Research Council
Funding Amount
$414,227.00
Summary
Spleen is a organ with regenerative capacity but the cells driving this have been largely unexplored. A cell-type essential for spleen tissue formation was recently discovered, termed a spleen organiser cell. We are now are attempting to understand where these cells originate from, what cells they develop into, and which genes are important for spleen regeneration. These findings will advance fundamental knowledge of spleen development and lead to better strategies for spleen transplant therapy.