TY - JOUR
T1 - Nanomedicines in the future of pediatric therapy
AU - Sosnik, Alejandro
AU - Carcaboso, Angel M.
N1 - Funding Information:
AS thanks the support of the Marie Curie Reintegration Grant “NANOTAR” ( PCIG13-GA-2013-612765 , European Commission ). AMC acknowledges support from the AECC Scientific Foundation, Marie Curie Reintegration Grant “NEUROBLASTOMA CHEMO” ( PIRG-08-GA-2010-276998 , European Commission), MINECO (Grant SAF2011-22660 ) and ISCiii (Miguel Servet program, contract CP13/00189 ).
PY - 2014/6/30
Y1 - 2014/6/30
N2 - Nanotechnology has become a key tool to overcome the main (bio)pharmaceutical drawbacks of drugs and to enable their passive or active targeting to specific cells and tissues. Pediatric therapies usually rely on the previous clinical experience in adults. However, there exists scientific evidence that drug pharmacokinetics and pharmacodynamics in children differ from those in adults. For example, the interaction of specific drugs with their target receptors undergoes changes over the maturation of the different organs and systems. A similar phenomenon is observed for toxicity and adverse effects. Thus, it is clear that the treatment of disease in children cannot be simplified to the direct adjustment of the dose to the body weight/surface. In this context, the implementation of innovative technologies (e.g., nanotechnology) in the pediatric population becomes extremely challenging. The present article overviews the different attempts to use nanotechnology to treat diseases in the pediatric population. Due to the relevance, though limited available literature on the matter, we initially describe from preliminary in vitro studies to preclinical and clinical trials aiming to treat pediatric infectious diseases and pediatric solid tumors by means of nanotechnology. Then, the perspectives of pediatric nanomedicine are discussed.
AB - Nanotechnology has become a key tool to overcome the main (bio)pharmaceutical drawbacks of drugs and to enable their passive or active targeting to specific cells and tissues. Pediatric therapies usually rely on the previous clinical experience in adults. However, there exists scientific evidence that drug pharmacokinetics and pharmacodynamics in children differ from those in adults. For example, the interaction of specific drugs with their target receptors undergoes changes over the maturation of the different organs and systems. A similar phenomenon is observed for toxicity and adverse effects. Thus, it is clear that the treatment of disease in children cannot be simplified to the direct adjustment of the dose to the body weight/surface. In this context, the implementation of innovative technologies (e.g., nanotechnology) in the pediatric population becomes extremely challenging. The present article overviews the different attempts to use nanotechnology to treat diseases in the pediatric population. Due to the relevance, though limited available literature on the matter, we initially describe from preliminary in vitro studies to preclinical and clinical trials aiming to treat pediatric infectious diseases and pediatric solid tumors by means of nanotechnology. Then, the perspectives of pediatric nanomedicine are discussed.
KW - Cancer
KW - HIV/AIDS
KW - Malaria
KW - Pediatric nanomedicine
KW - Tuberculosis
UR - http://www.scopus.com/inward/record.url?scp=84902345856&partnerID=8YFLogxK
U2 - 10.1016/j.addr.2014.05.004
DO - 10.1016/j.addr.2014.05.004
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AN - SCOPUS:84902345856
SN - 0169-409X
VL - 73
SP - 140
EP - 161
JO - Advanced Drug Delivery Reviews
JF - Advanced Drug Delivery Reviews
ER -