Therapeutic potential of iron chelators in retinal vascular diseases

Iron is one of the necessary metal elements in the human body.There are numerous factors that control the balance of iron metabolism,and its storage and transportation mechanisms are intricate.As one of the most energyintensive tissues in the body,the retina is susceptible to iron imbalance.The occurrence of iron overload in the retina leads to the generation of a significant quantity of reactive oxygen species.This will aggravate local oxidative stress and inflammatory reactions and even lead to ferroptosis,eventually resulting in retinal dysfunction.The blood-retinaretinal barrier is eventually harmed by oxidative stress and elevated inflammation,which are characteristics of retinal vascular disorders.The pathophysiology of retinal vascular disorders may be significantly influenced by iron.Recently,iron-chelating agents have been found to have antioxidative and anti-inflammatory actions in addition to iron chelating.Therefore,iron neutralization is considered to be a new and potentially useful therapeutic strategy.This article reviews the iron overload in retinal vascular diseases and discusses the therapeutic potential of iron-chelating agents.

Advances in medical treatment for pancreatic neuroendocrine neoplasms

Pancreatic neuroendocrine neoplasms(PanNENs)are rare neoplasms with strong heterogeneity that have experienced an increasing incidence rate in recent years.For patients with locally advanced or distant metastatic PanNENs,systemic treatment options vary due to the different differentiations,grades and stages.The available options for systemic therapy include somatostatin analogs,molecularly targeted agents,cytotoxic chemotherapeutic agents,immune checkpoint inhibitors,and peptide receptor radionuclide therapy.In addition,the development of novel molecularly targeted agents is currently in progress.The sequence of selection between different chemotherapy regimens has been of great interest,and resistance to chemotherapeutic agents is the major limitation in their clinical application.Novel agents and high-level clinical evidence continue to emerge in the field of antiangiogenic agents.Peptide receptor radionuclide therapy is increasingly employed for the treatment of advanced neuroendocrine tumors,and greater therapeutic efficacy may be achieved by emerging radiolabeled peptides.Since immune checkpoint inhibitor monotherapies for PanNENs appear to have limited antitumor activity,dual immune checkpoint inhibitor therapies or combinations of antiangiogenic therapies and immune checkpoint inhibitors have been applied in the clinic to improve clinical efficacy.Combining the use of a variety of agents with different mechanisms of action provides new possibilities for clinical treatments.In the future,the study of systemic therapies will continue to focus on the screening of the optimal benefit population and the selection of the best treatment sequence strategy with the aim of truly achieving individualized precise treatment of PanNENs.