Smart Nanomaterials Targeting Pathological Hypoxia
portes grátis
Smart Nanomaterials Targeting Pathological Hypoxia
Singh, Sachidanand; Chawla, Sonam; Husen, Azamal
Springer Verlag, Singapore
06/2023
415
Dura
Inglês
9789819917174
15 a 20 dias
Descrição não disponível.
Bio-inspired nano systems interacting with the host environment: smart nano systems.- Recent progress in hypoxia-targeting: peptide-based nanomaterials.- New developments in nanotheranostics combined with intelligent bioresponsive systems.- Recent advancements in the field of stimuli-responsive nanopolymers for cancer treatment.- Novel Strategies to repress tumor hypoxia for the enhancement of cancer therapy.- Anopoxia: Antimonene-based nanoplatform for precision cancer therapy targeting cancer hypoxia.- Efficacy of diverse oxygen delivering nanoparticles in vitro and in animal models for treating hypoxia.- Anoproteomic: An approach for the identification of molecular targets associated with hypoxia.- Advances of nanomaterial with hypoxia inducible factor in periodontal inflammation.- ROS responsive silica nanoparticles for controlled and targeted drug delivery.- Tissue oxygenation and pH responsive fluorescent nano sensors in tumour diagnosis.- Hypoxia responsive nanomaterials for cerebral ischemia diagnosis.- Multifunctional hypoxia imaging nanoparticles.- Anaerobic bacteria mediated hypoxia-specific delivery of nanoparticles.- Reversible switch ON-OFF responsive nanoparticles in hypoxia management.
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Hypoxic microenvironment;Theragnostic;Stimuli responsive nanomaterials;Smart nanoformulations;Targeted delivery;Nano diagnostics;Pro-oxidant mediators;Pro-inflammatory mediators;cancer treatment;Nanoparticles
Bio-inspired nano systems interacting with the host environment: smart nano systems.- Recent progress in hypoxia-targeting: peptide-based nanomaterials.- New developments in nanotheranostics combined with intelligent bioresponsive systems.- Recent advancements in the field of stimuli-responsive nanopolymers for cancer treatment.- Novel Strategies to repress tumor hypoxia for the enhancement of cancer therapy.- Anopoxia: Antimonene-based nanoplatform for precision cancer therapy targeting cancer hypoxia.- Efficacy of diverse oxygen delivering nanoparticles in vitro and in animal models for treating hypoxia.- Anoproteomic: An approach for the identification of molecular targets associated with hypoxia.- Advances of nanomaterial with hypoxia inducible factor in periodontal inflammation.- ROS responsive silica nanoparticles for controlled and targeted drug delivery.- Tissue oxygenation and pH responsive fluorescent nano sensors in tumour diagnosis.- Hypoxia responsive nanomaterials for cerebral ischemia diagnosis.- Multifunctional hypoxia imaging nanoparticles.- Anaerobic bacteria mediated hypoxia-specific delivery of nanoparticles.- Reversible switch ON-OFF responsive nanoparticles in hypoxia management.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
