Pharmaceuticals, and more recently biopharmaceuticals, have become the mainstay for antineoplastic treatments in combination with surgical interventions and radiation therapy. In recent years, advances have been made in the development of nano-technological interventions for the treatment of cancer alone or in combination with existing therapeutic modalities. Nanotechnology used for therapeutic drug delivery and sensitization of photodynamic, sonodynamic and radiotherapy are now being tested in preclinical and clinical trials for the treatment of cancer. This article will review the current state of the art for nanotechnology therapies with an emphasis on targeted drug delivery and the observed and likely benefits when used in combination w...
In nanomedicines, currently a wide array of reported nanoparticle systems is being explored by targe...
Cancer is a leading cause of mortality worldwide, accounting for 8.8 million deaths in 2015. The lan...
In 21st century scientist all around are trying to formulate the new drug delivery with better effic...
Pharmaceuticals, and more recently biopharmaceuticals, have become the mainstay for antineoplastic t...
The advent of nanomedicine marks an unparalleled opportunity to advance the treatment of a variety o...
Advancement in science and technology has brought a remarkable change in therapy of cancer. Particle...
Abstract: Deregulation of cell growth and development lead to cancer, a severe condition that claims...
The design and utilization of nanomedicines offers great potential for treating various diseases inc...
Cancer is caused by damage of genes which control the growth and division of cells. Detection/diagno...
Cancer is caused by damage of genes which control the growth and division of cells. Detection/diagno...
Engineered nanomaterials that produce reactive oxygen species on exposure to X‐ and gamma‐rays used ...
Engineered nanomaterials that produce reactive oxygen species on exposure to X- and gamma-rays used ...
Despite improvements in our understanding of cancer and the emerging concept of ...
Despite improvements in our understanding of cancer and the emerging concept of ...
Despite improvements in our understanding of cancer and the emerging concept of ...
In nanomedicines, currently a wide array of reported nanoparticle systems is being explored by targe...
Cancer is a leading cause of mortality worldwide, accounting for 8.8 million deaths in 2015. The lan...
In 21st century scientist all around are trying to formulate the new drug delivery with better effic...
Pharmaceuticals, and more recently biopharmaceuticals, have become the mainstay for antineoplastic t...
The advent of nanomedicine marks an unparalleled opportunity to advance the treatment of a variety o...
Advancement in science and technology has brought a remarkable change in therapy of cancer. Particle...
Abstract: Deregulation of cell growth and development lead to cancer, a severe condition that claims...
The design and utilization of nanomedicines offers great potential for treating various diseases inc...
Cancer is caused by damage of genes which control the growth and division of cells. Detection/diagno...
Cancer is caused by damage of genes which control the growth and division of cells. Detection/diagno...
Engineered nanomaterials that produce reactive oxygen species on exposure to X‐ and gamma‐rays used ...
Engineered nanomaterials that produce reactive oxygen species on exposure to X- and gamma-rays used ...
Despite improvements in our understanding of cancer and the emerging concept of ...
Despite improvements in our understanding of cancer and the emerging concept of ...
Despite improvements in our understanding of cancer and the emerging concept of ...
In nanomedicines, currently a wide array of reported nanoparticle systems is being explored by targe...
Cancer is a leading cause of mortality worldwide, accounting for 8.8 million deaths in 2015. The lan...
In 21st century scientist all around are trying to formulate the new drug delivery with better effic...
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