AIM:To introduce a simple and safe anvil insertion technique to esophagus during laparoscopic total gastrectomy(LTG).METHODS:Between July 2010 and December 2012,58 consecutive patients with early gastric cancer underw...AIM:To introduce a simple and safe anvil insertion technique to esophagus during laparoscopic total gastrectomy(LTG).METHODS:Between July 2010 and December 2012,58 consecutive patients with early gastric cancer underwent LTG were enrolled.We performed a simple and safe Roux-en-Y esophagojejunostomy using the double stapling technique to all patients.Then patients’characteristics,perioperative outcome and histopathologic data were analyzed retrospectively.RESULTS:The mean age and body mass index were59.3±9.7 years and 22.7±2.6 kg/m2.The mean operation,reconstruction and anvil insertion times(from gastric incision to linear stapling)were 251.8±57.0,43.1±2.8 and 4.2±1.9 min,respectively.Intraoperative blood loss was 204.6±156.3 m L and there was no open conversion.The postoperative complications were in 8 cases(delayed gastric emptying in 4 cases,pulmonary complication in 2cases,pancreatitis in 1 case,anastomotic stricture in 1case).Anastomotic stricture occurred after discharge and was recovered by endoscopic intervention.The patients were discharged at a mean of 9.6±2.0 d after surgery.Neither leakage nor bleeding from the esophagojejunostomy occurred postoperatively.The mean proximal margin of specimen was 2.7±2.8 cm CONCLUSION:Roux-en Y esophagojejunostomy usingthe double stapling technique is simple and rapid,and it may offer a solid,alternative reconstruction method for LTG or proximal gastrectomy.展开更多
Peptide stapling strategy has been proven a promising solution in addressing two major pharmacological hurdles, proteolytic stability and membrane permeability, for small peptides as therapeutics. This stapling peptid...Peptide stapling strategy has been proven a promising solution in addressing two major pharmacological hurdles, proteolytic stability and membrane permeability, for small peptides as therapeutics. This stapling peptides feature a covalent cross-link of side chains, thus effectively mimicking α-helix as inhibitors of protein-protein interactions. In this review, we category and analyze key examples of various peptide stapling strategies based on different cross-links aligned on the side chain of peptides mainly in the last three years.展开更多
The SRS TM Endoscopic Stapling System(Medigus,Tel Aviv,Israel) is a new tool capable of creating a totally endoscopic fundoplication,combined with an endoscope,endoscopic ultrasound and a surgical stapler.SRS TM endos...The SRS TM Endoscopic Stapling System(Medigus,Tel Aviv,Israel) is a new tool capable of creating a totally endoscopic fundoplication,combined with an endoscope,endoscopic ultrasound and a surgical stapler.SRS TM endoscopic stapling for gastro-esophageal reflux disease is a minimally invasive,outpatient procedure,which requires general anesthesia with positive-pressure ventilation.Keeping the patient on positive endexpiratory pressure(PEEP) may minimize the pressure gradient between the esophagus and the mediastinum,as well as help to prevent air from leaking around the screws and causing pneumomediastinum.In addition,in patients with hiatal hernia,higher PEEP levels may be required to increase intra-thoracic pressure and to force the stomach to slide into the abdomen for ease of endoscopy.We advise smoother emergence from anesthesia,taking precautions for retching,postoperative nausea and vomiting(PONV),while coughing and gagging during extubation and PONV may affect the success of the procedure.Total intravenous anesthesia with propofol and remifentanil seems to be a good choice for these reasons.展开更多
All-hydrocarbon stapling strategy has been widely applied for enhancing the proteolytic stability of peptides. However, two major technical hurdles to some extent limit the development of stapled peptides for therapeu...All-hydrocarbon stapling strategy has been widely applied for enhancing the proteolytic stability of peptides. However, two major technical hurdles to some extent limit the development of stapled peptides for therapeutic usage: rational selection of the stapling sites and the corresponding deletion of the native side chains. Previously we described the development of the olefin-terminated amino acids with the retention of native side chains and successfully applied them in the synthesis of hydrocarbon stapled peptides with single side-chain retention. Here, we explored the feasibility and effectiveness of hydrocarbon stapling strategy characterized as double side-chains retention. Modeled after a lengthy human immunodeficiency virus-1(HIV-1) fusion inhibitor SC34 EK, Leu^(i), Ser^(i+4)and Lys^(i), Leu^(i+4)stapled peptides with the retention of double side-chains were effectively obtained. Our complementary study provided a convenient alternative to address where to install the staple in sequence for conventional all-hydrocarbon peptide stapling. Furthermore, this method not only conferred conformational reinforcement for SC34 EK with high α-helicity and protease resistance, but also preserved the structural characteristic(key peripheral residues, charge and solubility) of the linear peptide to the maximum, which are crucial for anti-HIV-1 activity.展开更多
Minimally invasive surgery(MIS)robots,such as single-arm stapling robots,are key to oral and maxillofacial surgery because they overcome space constraints in the oral cavity and deep throat.However,biodegradable sutur...Minimally invasive surgery(MIS)robots,such as single-arm stapling robots,are key to oral and maxillofacial surgery because they overcome space constraints in the oral cavity and deep throat.However,biodegradable suture staples should be developed for the single-arm stapling robots to avoid a secondary operation.For this aim,a new type of Mg-3Zn-0.2Ca-2Ag biodegradable alloy wire was developed in this study applied as suture staples.Its tensile strength,yield strength,and elongation are 326.1 MPa,314.5 MPa,and 19.6%,respectively.Especially,the alloy wire attains the highest yield strength value reported among all the biodegradable Mg wires,which is mainly attributed to fine grain strengthening and second phase strengthening such as Mg_(2)Zn_(11) nano phase strengthening.Moreover,the corrosion rate of this alloy wire in simulated body fluid(SBF)reaches 26.8 mm/y,the highest value among all the biodegradable Mg alloy wires reported so far,which is mainly from the intensified galvanic corrosion between the Ag17Mg54 phase and the Mg matrix.In vitro studies demonstrate that the alloy wire exhibits good blood compatibility and low cytotoxicity.The cone beam computed tomography(CBCT)data shows that the suture staple made of the Mg alloy wire provides better mechanical support in the early postoperative period.From the single arm robot tests,it confirms that suture staples can close the wound tightly and remain stable over time.This research provides a good material selection for the automated suturing in oral and throat surgery robots.展开更多
BACKGROUND Benign oesophageal strictures carry a significant level of morbidity,causing burdensome symptoms impacting on quality of life.Post-oesophagectomy anastomotic stricture rates as high as 41%have been reported...BACKGROUND Benign oesophageal strictures carry a significant level of morbidity,causing burdensome symptoms impacting on quality of life.Post-oesophagectomy anastomotic stricture rates as high as 41%have been reported in the literature.These can require endoscopic dilatation,often multiple times to relieve dysphagia.The aim of the present study was to determine a single surgeons stricture rate in a series of 2-stage Ivor-Lewis procedures,and to identify any independent risk factors in their development.AIM To determine a single surgeons stricture rate in a series of 2-stage Ivor-Lewis procedures,and to identify any independent risk factors in their development.METHODS We performed a retrospective analysis of a prospectively collected database of Ivor-Lewis oesophagectomy performed from 2004-2018 to determine the stricture rate.The database comprised a single-surgeon series of open,two-stage oesophagectomies with a circular stapled intra-thoracic anastomosis.Tumour location,histology,neoadjuvant chemotherapy,stapler size,T-stage and R-status were analysed to see if they could predict stricture formation.Stricture was defined as dysphagia requiring endoscopic dilatation.Patients with anastomotic leaks were excluded on the basis they would develop an anastomotic stricture.RESULTS One hundred and seventy patients were collected in the database.Nineteen were excluded on the basis of anastomotic leak,perioperative death and early recurrence.One hundred and fifty-four patients(119 males,35 females)with a mean age of 64±10 years were eligible for analysis.A total of 15 patients developed strictures a median of 99 d(interquartile range:84-133)after surgery,giving a Kaplan-Meier estimated stricture rate of 10%at one year.None of the factors considered were found to be significantly associated with strictures.CONCLUSION In this study the stricture rate was 10%,with the majority occurring in the first 100 d after surgery.No significant independent factors were found in the development of strictures.展开更多
Site-selective modification of peptide/protein is a vital approach to disclose post-translational modifications(PTMs) and plays a crucial role in chemical biology, as well as drug development. Compared with synthetic ...Site-selective modification of peptide/protein is a vital approach to disclose post-translational modifications(PTMs) and plays a crucial role in chemical biology, as well as drug development. Compared with synthetic and chemical biology methods, chemical modification of native peptide/protein provides a more versatile approach to achieve late-stage diversification for functional studies. Lysine featured high nucleophilicity, frequency, and solvent accessibility, making its site-selective modification important but elusive. Herein, we reported a visible-light-driven and Cys-directed Lys site-selective stapling approach for peptide/protein. By cleavable Cys anchoring, site-selective Lys single-site modification was achieved, and this method could be applied to multi-functionalization.展开更多
Cyclic peptides have found applications in fields ranging from drug discovery to nanomaterials.Peptide stapling reagents crosslink two or more residues in peptides to generate macrocycles of diverse topology and intro...Cyclic peptides have found applications in fields ranging from drug discovery to nanomaterials.Peptide stapling reagents crosslink two or more residues in peptides to generate macrocycles of diverse topology and introduce linker units that might directly impact the properties and biological functions of cyclic peptides.Herein,we demonstrate that chlorooxime derivatives are cysteine-specific peptide bioconjugation and stapling reagents that generate stable thiohydroximate linkages.展开更多
In recent years,the strategy of inhibiting the interactions of p53 with murine double minute 2(MDM2)and murine double minute X(MDMX)has been proved to be a promising approach for tumor therapy.However,the poor proteol...In recent years,the strategy of inhibiting the interactions of p53 with murine double minute 2(MDM2)and murine double minute X(MDMX)has been proved to be a promising approach for tumor therapy.However,the poor proteolytical stability and low intracellular delivery efficiency of peptide inhibitors limit their clinical application.Here,we designed and synthesized the bicyclic stapled peptides based on p53 by combining all-hydrocarbon stapling and lactam stapling strategies.We demonstrated that bicyclic stapled peptide p53-16 significantly improvedα-helicity and proteolytic stability.Especially,p53-16showed nanomolar binding affinity for MDM2 and MDMX.In addition,p53-16 could penetrate the cell membrane,and selectively inhibited the activity of tumor cells via activating p53 pathway in vitro.Our data suggest that p53-16 is a potential dual inhibitor of MDM2 and MDMX interactions.The bicyclic stapling strategy is a promising drug design strategy for protein–protein interactions inhibitors.展开更多
In 2024,global shipments of new short-staple spindles and open-end rotors decreased by 40%and 39%,respectively(year-on-year).Deliveries of long-staple spindles increased by 62%.The number of draw texturing spindles im...In 2024,global shipments of new short-staple spindles and open-end rotors decreased by 40%and 39%,respectively(year-on-year).Deliveries of long-staple spindles increased by 62%.The number of draw texturing spindles improved by 77%and shipped shuttleless looms grew by 32%.Shipments of large circular knitting machines deteriorated by 15%and shipped flat knitting machines registered a 16%increase.The sum of all deliveries in the fin-ishing segment slightlyrose by 6%.展开更多
Many staple crops like wheat,soybeans,and maize stubbornly resist regrowing from lab-grown tissues-a major bottleneck for genetic modification and improvement of these crops.A Cell study in June 2024 may become a game...Many staple crops like wheat,soybeans,and maize stubbornly resist regrowing from lab-grown tissues-a major bottleneck for genetic modification and improvement of these crops.A Cell study in June 2024 may become a game-changer.Led by Dr.DENG Lei(Shandong Agricultural University)and Dr.LI Chuanyou(the CAS Institute of Genetics and Developmental Biology),the collaborative effort identified a peptide called REGENERATION FACTOR1(REF1)as a local wound signal that regulates damage-triggered tissue repair and organ regeneration.This very finding may greatly expand opportunities for improving crop resilience through targeted bioengineering.展开更多
In response to the interest in degradable magnesium staples for oral and maxillofacial surgical procedures,high-performance Mg−3Zn−0.2Ca−2Ag alloy wires were reported.The impact of annealing temperature on the mechani...In response to the interest in degradable magnesium staples for oral and maxillofacial surgical procedures,high-performance Mg−3Zn−0.2Ca−2Ag alloy wires were reported.The impact of annealing temperature on the mechanical properties and corrosion behavior of the alloy wires was investigated.Results indicated that an increased annealing temperature led to grain growth,reduced the volume fraction of the second phase,and lowered dislocation density,causing decreased strength.The alloy annealed at 150℃exhibited the highest elongation(19.6%)due to uniform and fine grains,along with lower dislocation density.Microscopic observation,and electrochemical and immersion tests highlighted the significant influence of annealing temperature on corrosion rates.Alloy wires annealed at 150℃demonstrated superior corrosion resistance,which is attributed to small and uniform grains,low stress,and a well-distributed nano-second phase.Finally,the alloy wires annealed at 150℃exhibited enhanced comprehensive properties,making them good candidates for degradable staples.展开更多
BACKGROUND Stapled hemorrhoidopexy(SH)is one of the most commonly used surgical techniques for hemorrhoidal disease,being particularly effective for grade III and IV hemorrhoids.The procedure is associated with better...BACKGROUND Stapled hemorrhoidopexy(SH)is one of the most commonly used surgical techniques for hemorrhoidal disease,being particularly effective for grade III and IV hemorrhoids.The procedure is associated with better short-term outcomes,including less postoperative pain,shorter operative time,faster return to work,and higher patient satisfaction.However,there is a risk-benefit debate surrounding SH due to significant complications from the procedure,such as anal stenosis,rectovaginal fistula,fecal incontinence,and recurrence.AIM To evaluate recurrence rates and factors influencing surgical outcomes following SH in patients with grade III and IV hemorrhoids.METHODS This retrospective,single-center study enrolled a total of 77 patients with grade III/IV hemorrhoids for analysis.Early(less than 7 days after SH)and late(7 or more days after SH)complications were analyzed.Recurrence rates were calculated as well.RESULTS Patients were categorized by hemorrhoid grade and showed no differences in demographic data between the two groups.Recurrence was observed in 4 patients(23.6%)with grade IV hemorrhoids,and no recurrence was noted in patients with grade III hemorrhoids.Postoperative bleeding,incomplete defecation,urgent defecation,incontinence,skin tags,and anal fissure were complications reported by both groups.CONCLUSION Due to the high recurrence rate,SH is not an appropriate treatment option for patients with grade IV hemorrhoids.Open surgery may be a more suitable option for these patients.展开更多
Staple crops are the cornerstone of the food supply but are frequently threatened by plant diseases.Effective disease management,including disease identification and severity assessment,helps to better address these c...Staple crops are the cornerstone of the food supply but are frequently threatened by plant diseases.Effective disease management,including disease identification and severity assessment,helps to better address these challenges.Currently,methods for disease severity assessment typically rely on calculating the area proportion of disease segmentation regions or using classification networks for severity assessment.However,these methods require large amounts of labeled data and fail to quantify lesion proportions when using classification networks,leading to inaccurate evaluations.To address these issues,we propose an automated framework for disease severity assessment that combines multi-task learning and knowledge-driven large-model segmentation techniques.This framework includes an image information processor,a lesion and leaf segmentation module,and a disease severity assessment module.First,the image information processor utilizes a multi-task learning strategy to analyze input images comprehensively,ensuring a deep understanding of disease characteristics.Second,the lesion and leaf segmentation module employ prompt-driven large-model technology to accurately segment diseased areas and entire leaves,providing detailed visual analysis.Finally,the disease severity assessment module objectively evaluates the severity of the disease based on professional grading standards by calculating lesion area proportions.Additionally,we have developed a comprehensive database of diseased leaf images from major crops,including several task-specific datasets.Experimental results demonstrate that our framework can accurately identify and assess the types and severity of crop diseases,even without extensive labeled data.Codes and data are available at http://dkp-ads.samlab.cn/.展开更多
While most mammals find highly acidic foods aversive,many bird species have evolved remarkable tolerance for sour fruits-a crucial adaptation that has opened new ecological niches.Wild fruits can contain organic acid ...While most mammals find highly acidic foods aversive,many bird species have evolved remarkable tolerance for sour fruits-a crucial adaptation that has opened new ecological niches.Wild fruits can contain organic acid concentrations dozens of times higher than cultivated varieties,yet species like the redwing(Turdus iliacus)and black grouse(Tetrao tetrix)have evolved to actually prefer these acidic foods as dietary staples.展开更多
Tomato is one of the most essential vegetable crops worldwide,with the highest annual production rate of all agricultural staples(Kimura and Sinha,2008).Long-term domestication of tomatoes has led to the selection of ...Tomato is one of the most essential vegetable crops worldwide,with the highest annual production rate of all agricultural staples(Kimura and Sinha,2008).Long-term domestication of tomatoes has led to the selection of favorable agronomic traits that often come at the expense of stress resistance.To identify potential genetic targets for improved stress tolerance,whole-genome sequencing(WGS)has been applied to wild and cultivated accessions.展开更多
With the rapid growth of the global population and the increasing demand for healthier diets,improving the nutrient utilization efficiency of staple food crops has become a critical scientific and industrial chal-leng...With the rapid growth of the global population and the increasing demand for healthier diets,improving the nutrient utilization efficiency of staple food crops has become a critical scientific and industrial chal-lenge,prompting innovation in food processing technologies.This review introduces first the common nutritional challenges in the processing of staple food crops,followed by the comprehensive examination of research aiming to enhance the nutritional quality of staple food crop-based foods through innovative processing technologies,including microwave(MW),pulsed electric field(PEF),ultrasound,modern fer-mentation technology,and enzyme technology.Additionally,soybean processing is used as an example to underscore the importance of integrating innovative processing technologies for optimizing nutrient utilization in staple food crops.Although these innovative processing technologies have demonstrated a significant potential to improve nutrient utilization efficiency and enhance the overall nutritional pro-file of staple food crop-based food products,their current limitations must be acknowledged and addressed in future research.Fortunately,advancements in science and technology will facilitate pro-gress in food processing,enabling both the improvement of existing techniques as well as the develop-ment of entirely novel methodologies.This work aims to enhance the understanding of food practitioners on the way processing technologies may optimize nutrient utilization,thereby fostering innovation in food processing research and synergistic multi-technological strategies,ultimately providing valuable references to address global food security challenges.展开更多
This paper introduced the definition and importance of combination of sta-ple food. With broad bean nutrition flour as a sample, the preparation of the combi-nation of staple food was also described. In addition, the ...This paper introduced the definition and importance of combination of sta-ple food. With broad bean nutrition flour as a sample, the preparation of the combi-nation of staple food was also described. In addition, the main nutritional value of broad bean nutrition flour was introduced. Compared with those of other single flours, the nutritional value of broad bean nutrition flour was improved. Moreover, the nutrients in the broad bean nutrition flour would not be destroyed during the processing and preparation of staple food, and the processed steamed bread and raw noodle are more characteristic. The application value and prospects of broad bean nutrition flour, as a combination of staple food, were further discussed.展开更多
基金Supported by Pusan National Universitythe National R&D Program for Cancer Control at the Ministry for Health,Welfare and Family Affairs,South Korea,No.0920050
文摘AIM:To introduce a simple and safe anvil insertion technique to esophagus during laparoscopic total gastrectomy(LTG).METHODS:Between July 2010 and December 2012,58 consecutive patients with early gastric cancer underwent LTG were enrolled.We performed a simple and safe Roux-en-Y esophagojejunostomy using the double stapling technique to all patients.Then patients’characteristics,perioperative outcome and histopathologic data were analyzed retrospectively.RESULTS:The mean age and body mass index were59.3±9.7 years and 22.7±2.6 kg/m2.The mean operation,reconstruction and anvil insertion times(from gastric incision to linear stapling)were 251.8±57.0,43.1±2.8 and 4.2±1.9 min,respectively.Intraoperative blood loss was 204.6±156.3 m L and there was no open conversion.The postoperative complications were in 8 cases(delayed gastric emptying in 4 cases,pulmonary complication in 2cases,pancreatitis in 1 case,anastomotic stricture in 1case).Anastomotic stricture occurred after discharge and was recovered by endoscopic intervention.The patients were discharged at a mean of 9.6±2.0 d after surgery.Neither leakage nor bleeding from the esophagojejunostomy occurred postoperatively.The mean proximal margin of specimen was 2.7±2.8 cm CONCLUSION:Roux-en Y esophagojejunostomy usingthe double stapling technique is simple and rapid,and it may offer a solid,alternative reconstruction method for LTG or proximal gastrectomy.
文摘Peptide stapling strategy has been proven a promising solution in addressing two major pharmacological hurdles, proteolytic stability and membrane permeability, for small peptides as therapeutics. This stapling peptides feature a covalent cross-link of side chains, thus effectively mimicking α-helix as inhibitors of protein-protein interactions. In this review, we category and analyze key examples of various peptide stapling strategies based on different cross-links aligned on the side chain of peptides mainly in the last three years.
文摘The SRS TM Endoscopic Stapling System(Medigus,Tel Aviv,Israel) is a new tool capable of creating a totally endoscopic fundoplication,combined with an endoscope,endoscopic ultrasound and a surgical stapler.SRS TM endoscopic stapling for gastro-esophageal reflux disease is a minimally invasive,outpatient procedure,which requires general anesthesia with positive-pressure ventilation.Keeping the patient on positive endexpiratory pressure(PEEP) may minimize the pressure gradient between the esophagus and the mediastinum,as well as help to prevent air from leaking around the screws and causing pneumomediastinum.In addition,in patients with hiatal hernia,higher PEEP levels may be required to increase intra-thoracic pressure and to force the stomach to slide into the abdomen for ease of endoscopy.We advise smoother emergence from anesthesia,taking precautions for retching,postoperative nausea and vomiting(PONV),while coughing and gagging during extubation and PONV may affect the success of the procedure.Total intravenous anesthesia with propofol and remifentanil seems to be a good choice for these reasons.
基金supported by the National Key R&D Program of China (No. 2019YFC1711000, to X. Li)the National Nature Science Foundation of China (No. 21807112, to X. Li+2 种基金No. 91849129, to H. HuNo. 22077078, to H. Hu)Shanghai Rising-Star Program (to X. Li)。
文摘All-hydrocarbon stapling strategy has been widely applied for enhancing the proteolytic stability of peptides. However, two major technical hurdles to some extent limit the development of stapled peptides for therapeutic usage: rational selection of the stapling sites and the corresponding deletion of the native side chains. Previously we described the development of the olefin-terminated amino acids with the retention of native side chains and successfully applied them in the synthesis of hydrocarbon stapled peptides with single side-chain retention. Here, we explored the feasibility and effectiveness of hydrocarbon stapling strategy characterized as double side-chains retention. Modeled after a lengthy human immunodeficiency virus-1(HIV-1) fusion inhibitor SC34 EK, Leu^(i), Ser^(i+4)and Lys^(i), Leu^(i+4)stapled peptides with the retention of double side-chains were effectively obtained. Our complementary study provided a convenient alternative to address where to install the staple in sequence for conventional all-hydrocarbon peptide stapling. Furthermore, this method not only conferred conformational reinforcement for SC34 EK with high α-helicity and protease resistance, but also preserved the structural characteristic(key peripheral residues, charge and solubility) of the linear peptide to the maximum, which are crucial for anti-HIV-1 activity.
基金supported by the National Key R&D Program of China(grant number:2020YFB1312801)the National Natural Science Foundation of China(No.51971020,No.52171097)+4 种基金the Opening Research Fund of State Key Laboratory for Advanced Metals and Materials(2021-Z08)the Fundamental Research Funds for the Central Universities(grant number:PKU2022XGK005)the Non-profit Central Research Institute Fund of Chinese Academy of Medical Sciences(2022-JKCS-24)the Key Scientific Research Project in Shanxi Province(202102050201003)the“Dingxinbeike”Project(G20200001105).
文摘Minimally invasive surgery(MIS)robots,such as single-arm stapling robots,are key to oral and maxillofacial surgery because they overcome space constraints in the oral cavity and deep throat.However,biodegradable suture staples should be developed for the single-arm stapling robots to avoid a secondary operation.For this aim,a new type of Mg-3Zn-0.2Ca-2Ag biodegradable alloy wire was developed in this study applied as suture staples.Its tensile strength,yield strength,and elongation are 326.1 MPa,314.5 MPa,and 19.6%,respectively.Especially,the alloy wire attains the highest yield strength value reported among all the biodegradable Mg wires,which is mainly attributed to fine grain strengthening and second phase strengthening such as Mg_(2)Zn_(11) nano phase strengthening.Moreover,the corrosion rate of this alloy wire in simulated body fluid(SBF)reaches 26.8 mm/y,the highest value among all the biodegradable Mg alloy wires reported so far,which is mainly from the intensified galvanic corrosion between the Ag17Mg54 phase and the Mg matrix.In vitro studies demonstrate that the alloy wire exhibits good blood compatibility and low cytotoxicity.The cone beam computed tomography(CBCT)data shows that the suture staple made of the Mg alloy wire provides better mechanical support in the early postoperative period.From the single arm robot tests,it confirms that suture staples can close the wound tightly and remain stable over time.This research provides a good material selection for the automated suturing in oral and throat surgery robots.
文摘BACKGROUND Benign oesophageal strictures carry a significant level of morbidity,causing burdensome symptoms impacting on quality of life.Post-oesophagectomy anastomotic stricture rates as high as 41%have been reported in the literature.These can require endoscopic dilatation,often multiple times to relieve dysphagia.The aim of the present study was to determine a single surgeons stricture rate in a series of 2-stage Ivor-Lewis procedures,and to identify any independent risk factors in their development.AIM To determine a single surgeons stricture rate in a series of 2-stage Ivor-Lewis procedures,and to identify any independent risk factors in their development.METHODS We performed a retrospective analysis of a prospectively collected database of Ivor-Lewis oesophagectomy performed from 2004-2018 to determine the stricture rate.The database comprised a single-surgeon series of open,two-stage oesophagectomies with a circular stapled intra-thoracic anastomosis.Tumour location,histology,neoadjuvant chemotherapy,stapler size,T-stage and R-status were analysed to see if they could predict stricture formation.Stricture was defined as dysphagia requiring endoscopic dilatation.Patients with anastomotic leaks were excluded on the basis they would develop an anastomotic stricture.RESULTS One hundred and seventy patients were collected in the database.Nineteen were excluded on the basis of anastomotic leak,perioperative death and early recurrence.One hundred and fifty-four patients(119 males,35 females)with a mean age of 64±10 years were eligible for analysis.A total of 15 patients developed strictures a median of 99 d(interquartile range:84-133)after surgery,giving a Kaplan-Meier estimated stricture rate of 10%at one year.None of the factors considered were found to be significantly associated with strictures.CONCLUSION In this study the stricture rate was 10%,with the majority occurring in the first 100 d after surgery.No significant independent factors were found in the development of strictures.
基金supported by Guangdong Natural Science Funds for Distinguished Young Scholar (2018B030306017)the National Natural Science Foundation of China (22077144)+1 种基金Guangdong Provincial Key Laboratory of Chiral Molecule and Drug Discovery (2019B030301005)Key Research and Development Program of Guangdong Province (2020B1111110003)。
文摘Site-selective modification of peptide/protein is a vital approach to disclose post-translational modifications(PTMs) and plays a crucial role in chemical biology, as well as drug development. Compared with synthetic and chemical biology methods, chemical modification of native peptide/protein provides a more versatile approach to achieve late-stage diversification for functional studies. Lysine featured high nucleophilicity, frequency, and solvent accessibility, making its site-selective modification important but elusive. Herein, we reported a visible-light-driven and Cys-directed Lys site-selective stapling approach for peptide/protein. By cleavable Cys anchoring, site-selective Lys single-site modification was achieved, and this method could be applied to multi-functionalization.
基金supported by the National Natural Science Foundation(NSF)of China(grant nos.21922703 and 91953112)the NSF of Jiangsu Province(grant nos.BK20190004 and BK20202004)+2 种基金the National Key R&D Program of China(grant no.2019YFA0905800)Shenzhen Basic Research Program(grant no.JCYJ20180508-182240106)the Fundamental Research Funds for the Central Universities(grant nos.14380138 and 14380131).
文摘Cyclic peptides have found applications in fields ranging from drug discovery to nanomaterials.Peptide stapling reagents crosslink two or more residues in peptides to generate macrocycles of diverse topology and introduce linker units that might directly impact the properties and biological functions of cyclic peptides.Herein,we demonstrate that chlorooxime derivatives are cysteine-specific peptide bioconjugation and stapling reagents that generate stable thiohydroximate linkages.
基金supported by National Natural Science Foundation of China-Shandong Joint Fund(No.U1606403)Innovation Project of Qingdao National Laboratory for Marine Science and Technology(No.2015ASKJ02)。
文摘In recent years,the strategy of inhibiting the interactions of p53 with murine double minute 2(MDM2)and murine double minute X(MDMX)has been proved to be a promising approach for tumor therapy.However,the poor proteolytical stability and low intracellular delivery efficiency of peptide inhibitors limit their clinical application.Here,we designed and synthesized the bicyclic stapled peptides based on p53 by combining all-hydrocarbon stapling and lactam stapling strategies.We demonstrated that bicyclic stapled peptide p53-16 significantly improvedα-helicity and proteolytic stability.Especially,p53-16showed nanomolar binding affinity for MDM2 and MDMX.In addition,p53-16 could penetrate the cell membrane,and selectively inhibited the activity of tumor cells via activating p53 pathway in vitro.Our data suggest that p53-16 is a potential dual inhibitor of MDM2 and MDMX interactions.The bicyclic stapling strategy is a promising drug design strategy for protein–protein interactions inhibitors.
文摘In 2024,global shipments of new short-staple spindles and open-end rotors decreased by 40%and 39%,respectively(year-on-year).Deliveries of long-staple spindles increased by 62%.The number of draw texturing spindles improved by 77%and shipped shuttleless looms grew by 32%.Shipments of large circular knitting machines deteriorated by 15%and shipped flat knitting machines registered a 16%increase.The sum of all deliveries in the fin-ishing segment slightlyrose by 6%.
文摘Many staple crops like wheat,soybeans,and maize stubbornly resist regrowing from lab-grown tissues-a major bottleneck for genetic modification and improvement of these crops.A Cell study in June 2024 may become a game-changer.Led by Dr.DENG Lei(Shandong Agricultural University)and Dr.LI Chuanyou(the CAS Institute of Genetics and Developmental Biology),the collaborative effort identified a peptide called REGENERATION FACTOR1(REF1)as a local wound signal that regulates damage-triggered tissue repair and organ regeneration.This very finding may greatly expand opportunities for improving crop resilience through targeted bioengineering.
基金The National Natural Science Foundation of China(Nos.51971020,52171097)the Major State Research and Development Program of China(No.2021YFB3701100)+1 种基金Key Scientific Research Project in Shanxi Province,China(No.202102050201003)the Opening Research Fund of State Key Laboratory for Advanced Metals and Materials,China(No.2023-Z03).
文摘In response to the interest in degradable magnesium staples for oral and maxillofacial surgical procedures,high-performance Mg−3Zn−0.2Ca−2Ag alloy wires were reported.The impact of annealing temperature on the mechanical properties and corrosion behavior of the alloy wires was investigated.Results indicated that an increased annealing temperature led to grain growth,reduced the volume fraction of the second phase,and lowered dislocation density,causing decreased strength.The alloy annealed at 150℃exhibited the highest elongation(19.6%)due to uniform and fine grains,along with lower dislocation density.Microscopic observation,and electrochemical and immersion tests highlighted the significant influence of annealing temperature on corrosion rates.Alloy wires annealed at 150℃demonstrated superior corrosion resistance,which is attributed to small and uniform grains,low stress,and a well-distributed nano-second phase.Finally,the alloy wires annealed at 150℃exhibited enhanced comprehensive properties,making them good candidates for degradable staples.
文摘BACKGROUND Stapled hemorrhoidopexy(SH)is one of the most commonly used surgical techniques for hemorrhoidal disease,being particularly effective for grade III and IV hemorrhoids.The procedure is associated with better short-term outcomes,including less postoperative pain,shorter operative time,faster return to work,and higher patient satisfaction.However,there is a risk-benefit debate surrounding SH due to significant complications from the procedure,such as anal stenosis,rectovaginal fistula,fecal incontinence,and recurrence.AIM To evaluate recurrence rates and factors influencing surgical outcomes following SH in patients with grade III and IV hemorrhoids.METHODS This retrospective,single-center study enrolled a total of 77 patients with grade III/IV hemorrhoids for analysis.Early(less than 7 days after SH)and late(7 or more days after SH)complications were analyzed.Recurrence rates were calculated as well.RESULTS Patients were categorized by hemorrhoid grade and showed no differences in demographic data between the two groups.Recurrence was observed in 4 patients(23.6%)with grade IV hemorrhoids,and no recurrence was noted in patients with grade III hemorrhoids.Postoperative bleeding,incomplete defecation,urgent defecation,incontinence,skin tags,and anal fissure were complications reported by both groups.CONCLUSION Due to the high recurrence rate,SH is not an appropriate treatment option for patients with grade IV hemorrhoids.Open surgery may be a more suitable option for these patients.
基金supported by the National Key Research and Development Program of China (2024YFD2001100,2024YFE0214300)the National Natural Science Foundation of China (62162008)+3 种基金Guizhou Provincial Science and Technology Projects ([2024]002, CXTD[2023]027)Guizhou Province Youth Science and Technology Talent Project ([2024]317)Guiyang Guian Science and Technology Talent Training Project ([2024]2-15)the Guizhou Province Graduate Education Innovation Program Project (2024YJSKYJJ096)
文摘Staple crops are the cornerstone of the food supply but are frequently threatened by plant diseases.Effective disease management,including disease identification and severity assessment,helps to better address these challenges.Currently,methods for disease severity assessment typically rely on calculating the area proportion of disease segmentation regions or using classification networks for severity assessment.However,these methods require large amounts of labeled data and fail to quantify lesion proportions when using classification networks,leading to inaccurate evaluations.To address these issues,we propose an automated framework for disease severity assessment that combines multi-task learning and knowledge-driven large-model segmentation techniques.This framework includes an image information processor,a lesion and leaf segmentation module,and a disease severity assessment module.First,the image information processor utilizes a multi-task learning strategy to analyze input images comprehensively,ensuring a deep understanding of disease characteristics.Second,the lesion and leaf segmentation module employ prompt-driven large-model technology to accurately segment diseased areas and entire leaves,providing detailed visual analysis.Finally,the disease severity assessment module objectively evaluates the severity of the disease based on professional grading standards by calculating lesion area proportions.Additionally,we have developed a comprehensive database of diseased leaf images from major crops,including several task-specific datasets.Experimental results demonstrate that our framework can accurately identify and assess the types and severity of crop diseases,even without extensive labeled data.Codes and data are available at http://dkp-ads.samlab.cn/.
文摘While most mammals find highly acidic foods aversive,many bird species have evolved remarkable tolerance for sour fruits-a crucial adaptation that has opened new ecological niches.Wild fruits can contain organic acid concentrations dozens of times higher than cultivated varieties,yet species like the redwing(Turdus iliacus)and black grouse(Tetrao tetrix)have evolved to actually prefer these acidic foods as dietary staples.
基金supported by grants from the Shanghai Agriculture Applied Technology Development Program(2021-02-08-00-12-F00792)Projects of International Cooperation and Exchanges NSFC(3201101910).
文摘Tomato is one of the most essential vegetable crops worldwide,with the highest annual production rate of all agricultural staples(Kimura and Sinha,2008).Long-term domestication of tomatoes has led to the selection of favorable agronomic traits that often come at the expense of stress resistance.To identify potential genetic targets for improved stress tolerance,whole-genome sequencing(WGS)has been applied to wild and cultivated accessions.
基金supported by the National Key Research and Development Program of China(2023YFD2100205)the Fujian Province Science and Technology Plan Project,China(2023N3008).
文摘With the rapid growth of the global population and the increasing demand for healthier diets,improving the nutrient utilization efficiency of staple food crops has become a critical scientific and industrial chal-lenge,prompting innovation in food processing technologies.This review introduces first the common nutritional challenges in the processing of staple food crops,followed by the comprehensive examination of research aiming to enhance the nutritional quality of staple food crop-based foods through innovative processing technologies,including microwave(MW),pulsed electric field(PEF),ultrasound,modern fer-mentation technology,and enzyme technology.Additionally,soybean processing is used as an example to underscore the importance of integrating innovative processing technologies for optimizing nutrient utilization in staple food crops.Although these innovative processing technologies have demonstrated a significant potential to improve nutrient utilization efficiency and enhance the overall nutritional pro-file of staple food crop-based food products,their current limitations must be acknowledged and addressed in future research.Fortunately,advancements in science and technology will facilitate pro-gress in food processing,enabling both the improvement of existing techniques as well as the develop-ment of entirely novel methodologies.This work aims to enhance the understanding of food practitioners on the way processing technologies may optimize nutrient utilization,thereby fostering innovation in food processing research and synergistic multi-technological strategies,ultimately providing valuable references to address global food security challenges.
基金Supported by Jiangsu Agricultural Science and Technology Innovation Fund[CX(13)3084]Jiangsu Province Science and Technology Support Program,China(BE2013352)~~
文摘This paper introduced the definition and importance of combination of sta-ple food. With broad bean nutrition flour as a sample, the preparation of the combi-nation of staple food was also described. In addition, the main nutritional value of broad bean nutrition flour was introduced. Compared with those of other single flours, the nutritional value of broad bean nutrition flour was improved. Moreover, the nutrients in the broad bean nutrition flour would not be destroyed during the processing and preparation of staple food, and the processed steamed bread and raw noodle are more characteristic. The application value and prospects of broad bean nutrition flour, as a combination of staple food, were further discussed.
