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      Near-infrared photoactivated nanomedicines for photothermal synergistic cancer therapy

      , , , , ,
      Nano Today
      Elsevier BV

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          Cancer nanomedicine: progress, challenges and opportunities

          The intrinsic limits of conventional cancer therapies prompted the development and application of various nanotechnologies for more effective and safer cancer treatment, herein referred to as cancer nanomedicine. Considerable technological success has been achieved in this field, but the main obstacles to nanomedicine becoming a
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            The future of immune checkpoint therapy.

            Immune checkpoint therapy, which targets regulatory pathways in T cells to enhance antitumor immune responses, has led to important clinical advances and provided a new weapon against cancer. This therapy has elicited durable clinical responses and, in a fraction of patients, long-term remissions where patients exhibit no clinical signs of cancer for many years. The way forward for this class of novel agents lies in our ability to understand human immune responses in the tumor microenvironment. This will provide valuable information regarding the dynamic nature of the immune response and regulation of additional pathways that will need to be targeted through combination therapies to provide survival benefit for greater numbers of patients.
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              Stimuli-responsive nanocarriers for drug delivery.

              Spurred by recent progress in materials chemistry and drug delivery, stimuli-responsive devices that deliver a drug in spatial-, temporal- and dosage-controlled fashions have become possible. Implementation of such devices requires the use of biocompatible materials that are susceptible to a specific physical incitement or that, in response to a specific stimulus, undergo a protonation, a hydrolytic cleavage or a (supra)molecular conformational change. In this Review, we discuss recent advances in the design of nanoscale stimuli-responsive systems that are able to control drug biodistribution in response to specific stimuli, either exogenous (variations in temperature, magnetic field, ultrasound intensity, light or electric pulses) or endogenous (changes in pH, enzyme concentration or redox gradients).
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                Author and article information

                Contributors
                Journal
                Nano Today
                Nano Today
                Elsevier BV
                17480132
                April 2021
                April 2021
                : 37
                : 101073
                Article
                10.1016/j.nantod.2020.101073
                793ae7d9-c687-4d0c-99b0-2c664ccedab8
                © 2021

                https://www.elsevier.com/tdm/userlicense/1.0/

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