Pancreatic carcinoma(PC)has one of the highest rates of cancer-related death worldwide.Except for surgery,adjuvant chemotherapy,chemoradiotherapy,and immunotherapy have shown various efficacies depending on the stage ...Pancreatic carcinoma(PC)has one of the highest rates of cancer-related death worldwide.Except for surgery,adjuvant chemotherapy,chemoradiotherapy,and immunotherapy have shown various efficacies depending on the stage of the patient.We read the review“Current and emerging therapeutic strategies in pancreatic cancer:Challenges and opportunities”and offer some opinions that may improve its precision and completeness.This review presents a map of appropriate therapies for PC at different stages.Based on the clinical trial outcomes mentioned in the review,we evaluated the potential therapeutic options for PC and helped explain the contradictory efficacy between different programmed cell death protein 1/programmed cell death ligand 1 clinical trials,which may have resulted from the unique features of PC.Although R0 resection and adjuvant chemotherapy are still the gold standards for PC,new modalities,with or without clinical validation,are needed to establish more specific and precise treatments for PC.展开更多
Transplant recipients are vulnerable to a higher risk of malignancy after solid organ transplantation and allogeneic hematopoietic stem-cell transplant.Posttransplant lymphoproliferative disorders(PTLD)include a wide ...Transplant recipients are vulnerable to a higher risk of malignancy after solid organ transplantation and allogeneic hematopoietic stem-cell transplant.Posttransplant lymphoproliferative disorders(PTLD)include a wide spectrum of diseases ranging from benign proliferation of lymphoid tissues to frank malignancy with aggressive behavior.Two main risk factors of PTLD are:Firstly,the cumulative immunosuppressive burden,and secondly,the oncogenic impact of the Epstein-Barr virus.The latter is a key pathognomonic driver of PTLD evolution.Over the last two decades,a considerable progress has been made in diagnosis and therapy of PTLD.The treatment of PTLD includes reduction of immunosuppression,rituximab therapy,either isolated or in combination with other chemotherapeutic agents,adoptive therapy,surgical intervention,antiviral therapy and radiotherapy.In this review we shall discuss the prevalence,clinical clues,prophylactic measures as well as the current and future therapeutic strategies of this devastating disorder.展开更多
Dear editors, The seminal, discoveries by Jeffrey Connor Hall, Michael Rosbash and Michael Warren Young have earned the Nobel Prize in Physiology and Medicine 2017 for revealing a crucial physiological mechanism expla...Dear editors, The seminal, discoveries by Jeffrey Connor Hall, Michael Rosbash and Michael Warren Young have earned the Nobel Prize in Physiology and Medicine 2017 for revealing a crucial physiological mechanism explaining biological clock, with important implications for human health and diseases. The work explains the interplay between the biological clock, the transcriptional feedback loop, and neuroscience, where they identified genes and proteins that work together both in humans and other animals. This article describes the link between biological clock disruption and consequent neurodegeneration and also highlights the significance of biological clock modulators for possible clinical interventions in neurological disorders.展开更多
Neoplasms can be considered as a group of aberrant cells that need more vascular supply to fulfill all their functions.Therefore,they promote angiogenesis through the same neovascularization pathway used physiological...Neoplasms can be considered as a group of aberrant cells that need more vascular supply to fulfill all their functions.Therefore,they promote angiogenesis through the same neovascularization pathway used physiologically.Angiogenesis is a process characterized by a heterogeneous distribution of oxygen caused by the tumor and oxidative stress;the latter being one of the most powerful stimuli of angiogenesis.As a result of altered tumor metabolism due to hypoxia,acidosis occurs.The angiogenic process and oxidative stress can be detected by measuring serum and tissue biomarkers.The study of the mechanisms underlying angiogenesis and oxidative stress could lead to the identification of new biomarkers,ameliorating the selection of patients with neoplasms and the prediction of their response to possible anti-tumor therapies.In particular,in the treatment of patients with similar clinical tumor phenotypes but different prognoses,the new biomarkers could be useful.Moreover,they may lead to a better understanding of the mechanisms underlying drug resistance.Experimental studies show that blocking the vascular supply results in antiproliferative activity in vivo in neuroendocrine tumor cells,which require a high vascular supply.展开更多
Hepatocellular carcinoma(HCC)is an epidemic burden and remains highly prevalent worldwide.The significant mortality rates of HCC are largely due to the tendency of late diagnosis and the multifaceted,complex nature of...Hepatocellular carcinoma(HCC)is an epidemic burden and remains highly prevalent worldwide.The significant mortality rates of HCC are largely due to the tendency of late diagnosis and the multifaceted,complex nature of treatment.Meanwhile,current therapeutic modalities such as liver resection and transplantation are only effective for resolving early-stage HCC.Hence,alt-ernative approaches are required to improve detection and enhance the efficacy of current treatment options.Nanotheranostic platforms,which utilize biocompatible nanoparticles to perform both diagnostics and targeted delivery,has been considered a potential approach for cancer management in the past few decades.Advancement of nanomaterials and biomedical engineering techniques has led to rapid expansion of the nanotheranostics field,allowing for more sensitive and specific diagnosis,real-time monitoring of drug delivery,and enhanced treatment efficacies across various malignancies.The focus of this review is on the applications of nanotheranostics for HCC.The review first explores the current epidemiology and the commonly encountered obstacles in HCC diagnosis and treatment.It then presents the current technological and functional advancements in nanotheranostic technology for cancer in general,and then specifically explores the use of nanotheranostic modalities as a promising option to address the key challenges present in HCC management.展开更多
The term lipidome is mentioned to the total amount of the lipids inside the biological cells.The lipid enters the human gastrointestinal tract through external source and internal source.The absorption pathway of lipi...The term lipidome is mentioned to the total amount of the lipids inside the biological cells.The lipid enters the human gastrointestinal tract through external source and internal source.The absorption pathway of lipids in the gastrointestinal tract has many ways;the 1st way,the lipid molecules are digested in the lumen before go through the enterocytes,digested products are re-esterified into complex lipid molecules.The 2nd way,the intracellular lipids are accumulated into lipoproteins(chylomicrons)which transport lipids throughout the whole body.The lipids are re-synthesis again inside the human body where the gastrointestinal lipids are:(1)Transferred into the endoplasmic reticulum;(2)Collected as lipoproteins such as chylomicrons;or(3)Stored as lipid droplets in the cytosol.The lipids play an important role in many stages of the viral replication cycle.The specific lipid change occurs during viral infection in advanced viral replication cycle.There are 47 lipids within 11 lipid classes were significantly disturbed after viral infection.The virus connects with blood-borne lipoproteins and apolipoprotein E to change viral infectivity.The viral interest is cholesterol-and lipid raft-dependent molecules.In conclusion,lipidome is important in gastrointestinal fat absorption and coronavirus disease 2019(COVID-19)infection so lipidome is basic in gut metabolism and in COVID-19 infection success.展开更多
文摘Pancreatic carcinoma(PC)has one of the highest rates of cancer-related death worldwide.Except for surgery,adjuvant chemotherapy,chemoradiotherapy,and immunotherapy have shown various efficacies depending on the stage of the patient.We read the review“Current and emerging therapeutic strategies in pancreatic cancer:Challenges and opportunities”and offer some opinions that may improve its precision and completeness.This review presents a map of appropriate therapies for PC at different stages.Based on the clinical trial outcomes mentioned in the review,we evaluated the potential therapeutic options for PC and helped explain the contradictory efficacy between different programmed cell death protein 1/programmed cell death ligand 1 clinical trials,which may have resulted from the unique features of PC.Although R0 resection and adjuvant chemotherapy are still the gold standards for PC,new modalities,with or without clinical validation,are needed to establish more specific and precise treatments for PC.
文摘Transplant recipients are vulnerable to a higher risk of malignancy after solid organ transplantation and allogeneic hematopoietic stem-cell transplant.Posttransplant lymphoproliferative disorders(PTLD)include a wide spectrum of diseases ranging from benign proliferation of lymphoid tissues to frank malignancy with aggressive behavior.Two main risk factors of PTLD are:Firstly,the cumulative immunosuppressive burden,and secondly,the oncogenic impact of the Epstein-Barr virus.The latter is a key pathognomonic driver of PTLD evolution.Over the last two decades,a considerable progress has been made in diagnosis and therapy of PTLD.The treatment of PTLD includes reduction of immunosuppression,rituximab therapy,either isolated or in combination with other chemotherapeutic agents,adoptive therapy,surgical intervention,antiviral therapy and radiotherapy.In this review we shall discuss the prevalence,clinical clues,prophylactic measures as well as the current and future therapeutic strategies of this devastating disorder.
基金financially supported by DST-SERB(PDF/2016/001369)
文摘Dear editors, The seminal, discoveries by Jeffrey Connor Hall, Michael Rosbash and Michael Warren Young have earned the Nobel Prize in Physiology and Medicine 2017 for revealing a crucial physiological mechanism explaining biological clock, with important implications for human health and diseases. The work explains the interplay between the biological clock, the transcriptional feedback loop, and neuroscience, where they identified genes and proteins that work together both in humans and other animals. This article describes the link between biological clock disruption and consequent neurodegeneration and also highlights the significance of biological clock modulators for possible clinical interventions in neurological disorders.
文摘Neoplasms can be considered as a group of aberrant cells that need more vascular supply to fulfill all their functions.Therefore,they promote angiogenesis through the same neovascularization pathway used physiologically.Angiogenesis is a process characterized by a heterogeneous distribution of oxygen caused by the tumor and oxidative stress;the latter being one of the most powerful stimuli of angiogenesis.As a result of altered tumor metabolism due to hypoxia,acidosis occurs.The angiogenic process and oxidative stress can be detected by measuring serum and tissue biomarkers.The study of the mechanisms underlying angiogenesis and oxidative stress could lead to the identification of new biomarkers,ameliorating the selection of patients with neoplasms and the prediction of their response to possible anti-tumor therapies.In particular,in the treatment of patients with similar clinical tumor phenotypes but different prognoses,the new biomarkers could be useful.Moreover,they may lead to a better understanding of the mechanisms underlying drug resistance.Experimental studies show that blocking the vascular supply results in antiproliferative activity in vivo in neuroendocrine tumor cells,which require a high vascular supply.
文摘Hepatocellular carcinoma(HCC)is an epidemic burden and remains highly prevalent worldwide.The significant mortality rates of HCC are largely due to the tendency of late diagnosis and the multifaceted,complex nature of treatment.Meanwhile,current therapeutic modalities such as liver resection and transplantation are only effective for resolving early-stage HCC.Hence,alt-ernative approaches are required to improve detection and enhance the efficacy of current treatment options.Nanotheranostic platforms,which utilize biocompatible nanoparticles to perform both diagnostics and targeted delivery,has been considered a potential approach for cancer management in the past few decades.Advancement of nanomaterials and biomedical engineering techniques has led to rapid expansion of the nanotheranostics field,allowing for more sensitive and specific diagnosis,real-time monitoring of drug delivery,and enhanced treatment efficacies across various malignancies.The focus of this review is on the applications of nanotheranostics for HCC.The review first explores the current epidemiology and the commonly encountered obstacles in HCC diagnosis and treatment.It then presents the current technological and functional advancements in nanotheranostic technology for cancer in general,and then specifically explores the use of nanotheranostic modalities as a promising option to address the key challenges present in HCC management.
文摘The term lipidome is mentioned to the total amount of the lipids inside the biological cells.The lipid enters the human gastrointestinal tract through external source and internal source.The absorption pathway of lipids in the gastrointestinal tract has many ways;the 1st way,the lipid molecules are digested in the lumen before go through the enterocytes,digested products are re-esterified into complex lipid molecules.The 2nd way,the intracellular lipids are accumulated into lipoproteins(chylomicrons)which transport lipids throughout the whole body.The lipids are re-synthesis again inside the human body where the gastrointestinal lipids are:(1)Transferred into the endoplasmic reticulum;(2)Collected as lipoproteins such as chylomicrons;or(3)Stored as lipid droplets in the cytosol.The lipids play an important role in many stages of the viral replication cycle.The specific lipid change occurs during viral infection in advanced viral replication cycle.There are 47 lipids within 11 lipid classes were significantly disturbed after viral infection.The virus connects with blood-borne lipoproteins and apolipoprotein E to change viral infectivity.The viral interest is cholesterol-and lipid raft-dependent molecules.In conclusion,lipidome is important in gastrointestinal fat absorption and coronavirus disease 2019(COVID-19)infection so lipidome is basic in gut metabolism and in COVID-19 infection success.