Cancers derived from the gastrointestinal(GI)tract are often treated with radical surgery to achieve a cure.However,recent advances in the management of GI cancers involve the use of a combination of neoadjuvant radia...Cancers derived from the gastrointestinal(GI)tract are often treated with radical surgery to achieve a cure.However,recent advances in the management of GI cancers involve the use of a combination of neoadjuvant radiation and chemotherapy followed by surgical intervention to achieve improved local control and cure.Interestingly,a small proportion of patients with highly sensitive tumors achieved a pathological complete response(pCR)(no residual tumor cells in the resected specimen)to neoadjuvant chemoradiation therapy(nCRT).The desire for organ preservation and avoidance of surgical morbidity brings the idea of a nonoperative management(NOM)strategy.Because of the different nature of tumor biology,GI cancers present diverse responses to nCRT,ranging from high sensitivity(anal cancer)to low sensitivity(gastric/esophageal cancer).There is an increasing attention to NOM of localized GI cancers;however,without the use of biomarkers/imaging parameters to select such patients,NOM will remain a challenge.Therefore,this review intends to summarize some of the recent updates from the aspect of current nCRT regimens,criteria for patient selection and active surveillance schedules.We also hope to review significant sequelae of radical surgery and the complications of nCRT to clarify the directions for optimization of nCRT and NOM for oncologic outcomes and quality of life.展开更多
Pancreatic-duct disruption (PDD) can be difficult to manage, with diverse etiologies and sequelae in a heterogeneous population. Common etiologies include pancreatitis, iatrogenic injury, and trauma. Sequelae of PDD i...Pancreatic-duct disruption (PDD) can be difficult to manage, with diverse etiologies and sequelae in a heterogeneous population. Common etiologies include pancreatitis, iatrogenic injury, and trauma. Sequelae of PDD include pseudocyst, pancreatic ascites,展开更多
BACKGROUND The spleen is the most commonly injured solid organ in blunt abdominal trauma,and splenic pseudoaneurysm rupture is associated with a high risk of mortality.Nonoperative management has become the standard t...BACKGROUND The spleen is the most commonly injured solid organ in blunt abdominal trauma,and splenic pseudoaneurysm rupture is associated with a high risk of mortality.Nonoperative management has become the standard treatment for hemodynam-ically stable patients with splenic injuries.On the other hand,delayed splenic pseudoaneurysms can develop in any patient,and at present,there are no known risk factors that may reliably predict their occurrence.Furthermore,there is a lack of consensus regarding the most appropriate strategies for monitoring and mana-ging splenic injuries,especially lower-grade(I-III).AIM To determine the predictors of pseudo-aneurysm formation following splenic injury and develop follow-up strategies for early detection of pseudoaneurysms.METHODS We retrospectively analyzed patients who visited the Level I Trauma Center bet-ween January 2013 and December 2022 and were diagnosed with spleen injuries after blunt abdominal trauma.RESULTS Using the American Association for the Surgery of Trauma spleen injury scale,the splenic injuries were categorized into the following order based on severity:Grade I(n=57,17.6%),grade II(n=114,35.3%),grade III(n=89,27.6%),grade IV(n=50,15.5%),and grade V(n=13,4.0%).Of a total of 323 patients,35 underwent splenectomy and 126 underwent angioembolization.19 underwent delayed angioembolization,and 5 under-went both initial and delayed angioem-bolization.In 14 patients who had undergone delayed angioembolization,no extravasation or pseudoaneurysm was observed on the initial computed tomography scan.There are no particular patient-related risk factors for the formation of a delayed splenic pseudoaneurysm,which can occur even in a grade I spleen injury or even 21 days after the injury.The mean detection time for a delayed pseudoaneurysm was 6.26±5.4(1-21,median:6,inter-quartile range:2-9)days.CONCLUSION We recommend regular follow-up computed tomography scans,including an arterial and portal venous phase,at least 1 week and 1 month after injury in any grade of blunt traumatic spleen injury for the timely detection of delayed pseudoaneurysms.展开更多
We present a case of a pediatric patient with high grade renal injury following a minor fall,where clinical suspicion of occult injury resulted in diagnosis.Additionally,we review the management of high grade renal la...We present a case of a pediatric patient with high grade renal injury following a minor fall,where clinical suspicion of occult injury resulted in diagnosis.Additionally,we review the management of high grade renal lacerations in children,including the role of ultrasound in managing these injuries.展开更多
BACKGROUND Patients with mesenteric ischemia frequently suffer from bowel necrosis even after revascularization.Hydrogen gas has showed promising effects for ischemiareperfusion injury by reducing reactive oxygen spec...BACKGROUND Patients with mesenteric ischemia frequently suffer from bowel necrosis even after revascularization.Hydrogen gas has showed promising effects for ischemiareperfusion injury by reducing reactive oxygen species in various animal and clinical studies.We examined intestinal tissue injury by ischemia and reperfusion under continuous initiation of 3%hydrogen gas.AIM To clarify the treatment effects and target cells of hydrogen gas for mesenteric ischemia.METHODS Three rat groups underwent 60-min mesenteric artery occlusion(ischemia),60-min reperfusion following 60-min occlusion(reperfusion),or ischemiareperfusion with the same duration under continuous 3%hydrogen gas inhalation(hydrogen).The distal ileum was harvested.Immunofluorescence staining with caspase-3 and leucine-rich repeat-containing G-protein-coupled 5(LGR5),a specific marker of intestinal stem cell,was conducted to evaluate the injury location and cell types protected by hydrogen.mRNA expressions of LGR5,olfactomedin 4(OLFM4),hairy and enhancer of split 1,Jagged 2,and Neurogenic locus notch homolog protein 1 were measured by quantitative polymerase chain reaction.Tissue oxidative stress was analyzed with immunostaining for 8-hydroxy-2'-deoxyguanosine(8-OHdG).Systemic oxidative stress was evaluated by plasma 8-OHdG.RESULTS Ischemia damaged the epithelial layer at the tip of the villi,whereas reperfusion induced extensive apoptosis of the cells at the crypt base,which were identified as intestinal stem cells with double immunofluorescence stain.Hydrogen mitigated such apoptosis at the crypt base,and the LGR5 expression of the tissues was higher in the hydrogen group than in the reperfusion group.OLFM4 was also relatively higher in the hydrogen group,whereas other measured RNAs were comparable between the groups.8-OHdG concentration was high in the reperfusion group,which was reduced by hydrogen,particularly at the crypt base.Serum 8-OHdG concentrations were relatively higher in both reperfusion and hydrogen groups without significance.CONCLUSION This study demonstrated that hydrogen gas inhalation preserves intestinal stem cells and mitigates oxidative stress caused by mesenteric ischemia and reperfusion.展开更多
The liver is the most frequently injured organ during abdominal trauma.The management of hepatic trauma has undergone a paradigm shift over the past several decades,with mandatory operation giving way to nonoperative ...The liver is the most frequently injured organ during abdominal trauma.The management of hepatic trauma has undergone a paradigm shift over the past several decades,with mandatory operation giving way to nonoperative treatment.Better understanding of the mechanisms and grade of liver injury aids in the initial assessment and establishment of a management strategy.Hemodynamically unstable patients should undergo focused abdominal sonography for trauma,whereas stable patients may undergo computed tomography,the standard examination protocol.The grade of liver injury alone does not accurately predict the need for operation,and nonoperative management is rapidly becoming popular for high-grade injuries.Hemodynamic instability with positive focused abdominal sonography for trauma and peritonitis is an indicator of the need for emergent operative intervention.The damage control concept is appropriate for the treatment of major liver injuries and is associated with significant survival advantages compared with traditional prolonged surgical techniques.Although surgical intervention for hepatic trauma is not as common now as it was in the past,current trauma surgeons should be familiar with the emergency surgical skills necessary to manage complex hepatic injuries,such as packing,Pringle maneuver,selective vessel ligation,resectional debridement,and parenchymal sutures.The present review presents emergency strategies and trends in the management of liver trauma.展开更多
The philosophy of abdominal injury management is currently changing from mandatory exploration to selective non-operative management (NOM). The patient with hemodynamic stability and absence of peritonitis should be m...The philosophy of abdominal injury management is currently changing from mandatory exploration to selective non-operative management (NOM). The patient with hemodynamic stability and absence of peritonitis should be managed non-operatively. NOM has an overall success rate of 80%—90%. It also can reduce the rate of non-therapeutic abdominal exploration, preserve organ function, and has been defined as the safest choice in experienced centers. However, NOM carries a risk of missed injury such as hollow organ injury, diaphragm injury, and delayed hemorrhage. Adjunct therapies such as angiography with embolization, endoscopic retrograde cholangiopancreatography with stenting, and percutaneous drainage could increase the chances of successful NOM. This article aims to describe the evolution of NOM and define its place in specific abdominal solid organ injury for the practitioner who faces this problem.展开更多
基金National Natural Science Foundation(No.81773214)Beijing Municipal Administration of Hospital Medicine Development of Special Funding Support(No.ZYLX202116)+2 种基金Beijing Municipal Administration of Hospitals Incubating Program(No.PZ2020027)Beijing Talent Incubating Funding(No.2019-4)Science Foundation of Peking University Cancer Hospital(No.2023-10)。
文摘Cancers derived from the gastrointestinal(GI)tract are often treated with radical surgery to achieve a cure.However,recent advances in the management of GI cancers involve the use of a combination of neoadjuvant radiation and chemotherapy followed by surgical intervention to achieve improved local control and cure.Interestingly,a small proportion of patients with highly sensitive tumors achieved a pathological complete response(pCR)(no residual tumor cells in the resected specimen)to neoadjuvant chemoradiation therapy(nCRT).The desire for organ preservation and avoidance of surgical morbidity brings the idea of a nonoperative management(NOM)strategy.Because of the different nature of tumor biology,GI cancers present diverse responses to nCRT,ranging from high sensitivity(anal cancer)to low sensitivity(gastric/esophageal cancer).There is an increasing attention to NOM of localized GI cancers;however,without the use of biomarkers/imaging parameters to select such patients,NOM will remain a challenge.Therefore,this review intends to summarize some of the recent updates from the aspect of current nCRT regimens,criteria for patient selection and active surveillance schedules.We also hope to review significant sequelae of radical surgery and the complications of nCRT to clarify the directions for optimization of nCRT and NOM for oncologic outcomes and quality of life.
文摘Pancreatic-duct disruption (PDD) can be difficult to manage, with diverse etiologies and sequelae in a heterogeneous population. Common etiologies include pancreatitis, iatrogenic injury, and trauma. Sequelae of PDD include pseudocyst, pancreatic ascites,
文摘BACKGROUND The spleen is the most commonly injured solid organ in blunt abdominal trauma,and splenic pseudoaneurysm rupture is associated with a high risk of mortality.Nonoperative management has become the standard treatment for hemodynam-ically stable patients with splenic injuries.On the other hand,delayed splenic pseudoaneurysms can develop in any patient,and at present,there are no known risk factors that may reliably predict their occurrence.Furthermore,there is a lack of consensus regarding the most appropriate strategies for monitoring and mana-ging splenic injuries,especially lower-grade(I-III).AIM To determine the predictors of pseudo-aneurysm formation following splenic injury and develop follow-up strategies for early detection of pseudoaneurysms.METHODS We retrospectively analyzed patients who visited the Level I Trauma Center bet-ween January 2013 and December 2022 and were diagnosed with spleen injuries after blunt abdominal trauma.RESULTS Using the American Association for the Surgery of Trauma spleen injury scale,the splenic injuries were categorized into the following order based on severity:Grade I(n=57,17.6%),grade II(n=114,35.3%),grade III(n=89,27.6%),grade IV(n=50,15.5%),and grade V(n=13,4.0%).Of a total of 323 patients,35 underwent splenectomy and 126 underwent angioembolization.19 underwent delayed angioembolization,and 5 under-went both initial and delayed angioem-bolization.In 14 patients who had undergone delayed angioembolization,no extravasation or pseudoaneurysm was observed on the initial computed tomography scan.There are no particular patient-related risk factors for the formation of a delayed splenic pseudoaneurysm,which can occur even in a grade I spleen injury or even 21 days after the injury.The mean detection time for a delayed pseudoaneurysm was 6.26±5.4(1-21,median:6,inter-quartile range:2-9)days.CONCLUSION We recommend regular follow-up computed tomography scans,including an arterial and portal venous phase,at least 1 week and 1 month after injury in any grade of blunt traumatic spleen injury for the timely detection of delayed pseudoaneurysms.
文摘We present a case of a pediatric patient with high grade renal injury following a minor fall,where clinical suspicion of occult injury resulted in diagnosis.Additionally,we review the management of high grade renal lacerations in children,including the role of ultrasound in managing these injuries.
文摘BACKGROUND Patients with mesenteric ischemia frequently suffer from bowel necrosis even after revascularization.Hydrogen gas has showed promising effects for ischemiareperfusion injury by reducing reactive oxygen species in various animal and clinical studies.We examined intestinal tissue injury by ischemia and reperfusion under continuous initiation of 3%hydrogen gas.AIM To clarify the treatment effects and target cells of hydrogen gas for mesenteric ischemia.METHODS Three rat groups underwent 60-min mesenteric artery occlusion(ischemia),60-min reperfusion following 60-min occlusion(reperfusion),or ischemiareperfusion with the same duration under continuous 3%hydrogen gas inhalation(hydrogen).The distal ileum was harvested.Immunofluorescence staining with caspase-3 and leucine-rich repeat-containing G-protein-coupled 5(LGR5),a specific marker of intestinal stem cell,was conducted to evaluate the injury location and cell types protected by hydrogen.mRNA expressions of LGR5,olfactomedin 4(OLFM4),hairy and enhancer of split 1,Jagged 2,and Neurogenic locus notch homolog protein 1 were measured by quantitative polymerase chain reaction.Tissue oxidative stress was analyzed with immunostaining for 8-hydroxy-2'-deoxyguanosine(8-OHdG).Systemic oxidative stress was evaluated by plasma 8-OHdG.RESULTS Ischemia damaged the epithelial layer at the tip of the villi,whereas reperfusion induced extensive apoptosis of the cells at the crypt base,which were identified as intestinal stem cells with double immunofluorescence stain.Hydrogen mitigated such apoptosis at the crypt base,and the LGR5 expression of the tissues was higher in the hydrogen group than in the reperfusion group.OLFM4 was also relatively higher in the hydrogen group,whereas other measured RNAs were comparable between the groups.8-OHdG concentration was high in the reperfusion group,which was reduced by hydrogen,particularly at the crypt base.Serum 8-OHdG concentrations were relatively higher in both reperfusion and hydrogen groups without significance.CONCLUSION This study demonstrated that hydrogen gas inhalation preserves intestinal stem cells and mitigates oxidative stress caused by mesenteric ischemia and reperfusion.
文摘The liver is the most frequently injured organ during abdominal trauma.The management of hepatic trauma has undergone a paradigm shift over the past several decades,with mandatory operation giving way to nonoperative treatment.Better understanding of the mechanisms and grade of liver injury aids in the initial assessment and establishment of a management strategy.Hemodynamically unstable patients should undergo focused abdominal sonography for trauma,whereas stable patients may undergo computed tomography,the standard examination protocol.The grade of liver injury alone does not accurately predict the need for operation,and nonoperative management is rapidly becoming popular for high-grade injuries.Hemodynamic instability with positive focused abdominal sonography for trauma and peritonitis is an indicator of the need for emergent operative intervention.The damage control concept is appropriate for the treatment of major liver injuries and is associated with significant survival advantages compared with traditional prolonged surgical techniques.Although surgical intervention for hepatic trauma is not as common now as it was in the past,current trauma surgeons should be familiar with the emergency surgical skills necessary to manage complex hepatic injuries,such as packing,Pringle maneuver,selective vessel ligation,resectional debridement,and parenchymal sutures.The present review presents emergency strategies and trends in the management of liver trauma.
文摘The philosophy of abdominal injury management is currently changing from mandatory exploration to selective non-operative management (NOM). The patient with hemodynamic stability and absence of peritonitis should be managed non-operatively. NOM has an overall success rate of 80%—90%. It also can reduce the rate of non-therapeutic abdominal exploration, preserve organ function, and has been defined as the safest choice in experienced centers. However, NOM carries a risk of missed injury such as hollow organ injury, diaphragm injury, and delayed hemorrhage. Adjunct therapies such as angiography with embolization, endoscopic retrograde cholangiopancreatography with stenting, and percutaneous drainage could increase the chances of successful NOM. This article aims to describe the evolution of NOM and define its place in specific abdominal solid organ injury for the practitioner who faces this problem.