BACKGROUND Slipping rib syndrome(SRS)is caused by abnormal subluxation of floating ribs,resulting in chronic pain and possible tissue damage.Its prevalence is often overlooked,as it shares symptoms with other musculos...BACKGROUND Slipping rib syndrome(SRS)is caused by abnormal subluxation of floating ribs,resulting in chronic pain and possible tissue damage.Its prevalence is often overlooked,as it shares symptoms with other musculoskeletal conditions,and is more common in young females and athletes.Symptoms include pain along the lower rib margin,aggravated by trunk movements,deep breathing and coughing.Treatment usually starts conservatively with physiotherapy and analgesics.In severe cases,extrapleural rib resection may be required.CASE SUMMARY In April 2023,a 24-year-old woman presented with persistent right hemithorax pain in the eleventh rib for one year.Instrumental examinations,including ultrasonography and magnetic resonance imaging,were negative for abdominal and osteochondral abnormalities.The pain intensity,rated 8/10 on the numeric rating scale(NRS),remained unresponsive to pain therapy.After a careful literature review and discussion with the patient,we opted for a minimally invasive surgical approach.Under general anesthesia,a mini-thoracotomy was performed along the anterior course of the eleventh rib.After exposure,abnormal rib mobility was detected,which led to resection of the medial margin and anchoring to the overlying rib with nonabsorbable sutures.Histological examination revealed no abnormalities.The patient was discharged on the first postoperative day.Pain decreased significantly,reaching 1/10 on the NRS at one month.At 3 months,the patient had mild fluctuating pain(2/10)requiring occasional analgesics but did not interfere with daily activities.CONCLUSION Minimally invasive rib-preserving surgery effectively reduces pain and hospitalization time,offering a valid alternative to conventional rib resection for refractory SRS.展开更多
Researchers from the National Institute for Occupational Safety and Health(NIOSH)are developing a coal pillar rib rating(CPRR)technique to measure the integrity of coal ribs.The CPRR characterizes the rib composition ...Researchers from the National Institute for Occupational Safety and Health(NIOSH)are developing a coal pillar rib rating(CPRR)technique to measure the integrity of coal ribs.The CPRR characterizes the rib composition and evaluates its impact on the inherent stability of the coal ribs.The CPRR utilizes four parameters:rib homogeneity,bedding condition,face cleat orientation with respect to entry direction,and rib height.All these parameters are measurable in the field.A rib data collecting procedure and a simple sheet to calculate the CPRR were developed.The developed CPRR can be used as a rib quality mapping tool in underground coal mines and to determine the potential of local rib instabilities and support requirements associated with overburden depth.CPRR calculations were conducted for 22 surveyed solid coal ribs,mainly composed of coal units.Based on this study,the rib performance was classified into four categories.A preliminary minimum primary rib support density(PRSD)line was obtained from these surveyed cases.Two sample cases are presented that illustrate the data collection form and CPRR calculations.展开更多
The National Institute for Occupational Safety and Health(NIOSH)conducted a comprehensive monitoring program in a room-and-pillar mine located in Southern Virginia.The deformation and the stress change in an instrumen...The National Institute for Occupational Safety and Health(NIOSH)conducted a comprehensive monitoring program in a room-and-pillar mine located in Southern Virginia.The deformation and the stress change in an instrumented pillar were monitored during the progress of pillar retreat mining at two sites of different geological conditions and depths of cover.The main objectives of the monitoring program were to better understand the stress transfer and load shedding on coal pillars and to quantify the rib deformation due to pillar retreat mining;and to examine the effect of rib geology and overburden depth on coal rib performance.The instrumentation at both sites included pull-out tests to measure the anchorage capacity of rib bolts,load cells mounted on rib bolts to monitor the induced loads in the bolts,borehole pressure cells(BPCs)installed at various depths in the study pillar to measure the change in vertical pressure within the pillar,and roof and rib extensometers installed to quantify the vertical displacement of the roof and the horizontal displacement of the rib that would occur during the retreat mining process.The outcome from the monitoring program provides insight into coal pillar rib support optimization at various depths and geological conditions.Also,this study contributes to the NIOSH rib support database in U.S coal mines and provides essential data for rib support design.展开更多
Background: Reconstruction of Nasal Tip Columella (NTC) subunits is one of the most challenging aspects in functional aesthetic rhinoplasty. Moreover, racial variation for Asian nose rhinoplasty could even demand soph...Background: Reconstruction of Nasal Tip Columella (NTC) subunits is one of the most challenging aspects in functional aesthetic rhinoplasty. Moreover, racial variation for Asian nose rhinoplasty could even demand sophistication of tip and columella strut graft infrastructure enhancement. Various autogenous graft options such as 6th costal cartilage, septal cartilage and conchal cartilage are very commonly considered whilst the 10th costal cartilage is scarcely reported. Objective and Method: The purpose of this manuscript is to illustrate the detailed operative steps to harvest the 10th costal cartilage for infrastructural grafting at NTC subunits by a case illustration. The pros and cons of different cartilage options will be discussed, particularly its application in cleft nose rhinoplasty in Chinese patient. We have adopted the 10th rib as the key option for NTC reconstruction in 11 cases of Chinese cleft secondary rhinoplasty since 2019 and have achieved good and stable results without complications. Conclusion: The 10th costal cartilage is one of the best options in Nasal Tip Columella subunits reconstruction, particularly in complex cleft nose or failure revision aesthetic rhinoplasty cases, due to its safety of harvesting, and the sufficient quality and quantity of grafting materials it provides for simultaneous adjunctive augmentation purpose.展开更多
Rib spalling is a highly severe issue during mining in deep-buried large-mining-height working faces.This study takes Zhaogu No.2 Coal Mine in Jiaozuo Coalfield,China,as the research background and carries out three f...Rib spalling is a highly severe issue during mining in deep-buried large-mining-height working faces.This study takes Zhaogu No.2 Coal Mine in Jiaozuo Coalfield,China,as the research background and carries out three focused works to address this problem.Firstly,field measurements were conducted to clarify rib spalling characteristics:the coal wall is dominated by shear failure,internal cracks are mainly distributed 3–6 m above the coal wall surface,and the maximum depth of crack development reaches 3 m.Secondly,Universal Distinct Element Code(UDEC)numerical simulation software was used to build a rib spalling model,with the Trigon model adopted to divide the coal wall into blocks.Analysis of four key factors shows that increased buried depth and mining height significantly raise the total length of coal wall internal cracks,increasing rib spalling risk,while higher coal body strength and support strength effectively alleviate this phenomenon.Finally,an orthogonal experiment was designed to quantitatively determine the influence degree of the four factors on rib spalling.Results show that coal body strength has the greatest impact,followed by support strength,mining height,and mining depth in order of influence.This study provides valuable theoretical guidance for on-site prevention and control of coal wall rib spalling.展开更多
Objective:To compare the diagnostic value of 99mTc-MDP SPECT/CT and MSCT in detecting thoracic wall and rib involvement in lung adenocarcinoma.Methods:A retrospective analysis was conducted on the imaging data of 78 t...Objective:To compare the diagnostic value of 99mTc-MDP SPECT/CT and MSCT in detecting thoracic wall and rib involvement in lung adenocarcinoma.Methods:A retrospective analysis was conducted on the imaging data of 78 thoracic wall and rib lesions from 66 patients,a total of 32 males and 34 females,aged(53.2±5.6)years old with pathologically confirmed lung adenocarcinoma who underwent both 99mTc-MDP SPECT/CT and MSCT examinations from March 2017 to September 2023.The diagnostic efficacy of the two imaging modalities was compared using pathological confirmation or clinical follow-up as the gold standard.Results:Pathological confirmation or clinical follow-up revealed 74 lesions with thoracic wall bone involvement in lung adenocarcinoma(20 lesions confirmed by surgical pathology and 54 lesions confirmed by clinical follow-up)and 4 lesions without thoracic wall or rib involvement(2 lesions confirmed by surgical pathology and 2 lesions confirmed by clinical follow-up).The diagnostic sensitivity,specificity,and accuracy of 99mTc-MDP SPECT/CT were 97.3%,50.0%,and 94.9%,respectively.Its diagnostic sensitivity and accuracy were higher than those of MSCT(72.3%and 74.4%,respectively),with statistically significant differences(P<0.05).The specificity of 99mTc-MDP SPECT/CT was lower than that of MSCT(100.0%),but the difference was not statistically significant(P<0.05).There were no statistically significant differences in the positive predictive value and negative predictive value between 99mTc-MDP SPECT/CT and MSCT(P>0.05).99mTc-MDP SPECT/CT examination revised the MSCT tumor staging in 14 patients[21.2%(14/66)]with lung adenocarcinoma.Conclusion:99mTc-MDP SPECT/CT imaging demonstrates superior diagnostic efficacy compared to MSCT in detecting thoracic wall and rib involvement in lung adenocarcinoma.It offers more accurate tumor staging than MSCT,and an accurate diagnosis aids in clinical treatment decision-making.展开更多
The mass transport and ohmic losses in proton exchange membrane fuel cells(PEMFCs)is significantly influenced by the channel to rib width ratio(CRWR),particularly when accounting for the interfacial contact resistance...The mass transport and ohmic losses in proton exchange membrane fuel cells(PEMFCs)is significantly influenced by the channel to rib width ratio(CRWR),particularly when accounting for the interfacial contact resistance between bipolar plates(BPs)and gas diffusion layers(GDLs)(ICRBP-GDL).Both the determination of the optimal CRWR value and the development of an efficient flow field structure are significantly influenced by ICRBP-GDLs.To investigate this,three-dimensional numerical models were developed,revealing that selecting an optimal CRWR tailored to specific ICRBP-GDL values can effectively balance mass transport and ohmic losses.Building on this insight,a novel island two-dimensional flow field design is proposed,demonstrating the ability to enhance oxygen transport to the catalyst layer(CL)and achieve a more uniform oxygen distribution without increasing ohmic losses.Compared to conventional straight and serpentine flow fields,the island flow field improves output power density by 4.5%and 3.5%,respectively,while reducing the liquid water coverage ratio by 30%.Additionally,the study identifies optimal CRWR values for conventional flow fields corresponding to ICRBP-GDLs of 2.5,5,10,20,and 40 mΩ·cm^(2) as 1.5,1.5,1.0,0.67,and 0.43,respectively.For the island flow field,the optimal CRWRs are consistently smaller-1.5,1.0,0.67,0.43,and 0.43-due to its superior mass transfer capability.This work provides a valuable framework for optimizing flow field designs to achieve improved PEMFC performance.展开更多
Ensuring rib stability during pillar extraction is of prime importance in bord and pillar(B&P) method of underground coal mining with caving. Rib stability has been assessed here by way of assessing factor of safe...Ensuring rib stability during pillar extraction is of prime importance in bord and pillar(B&P) method of underground coal mining with caving. Rib stability has been assessed here by way of assessing factor of safety(FOS), a ratio of the strength of rib to stress on it. Earlier formulations for rib stability when applied to case studies gave very low FOS value suggesting significant ground control problems, which were contrary to the field observations. This has necessitated the need to revisit the concept of rib stability. The stress coming on the rib is estimated with the use of numerical modeling technique using the FLAC^(3D) software. The methodology of assessing rib-stability with the help of suggested rib-strength formulation has been validated at eight Indian coal mines. The outcome of this study finds relevance and importance in ensuring underground coal liquidation with improved safety and conservation.展开更多
目的探讨采用Ribbed股骨柄假体行人工全髋关节置换术(total hip arthroplasty,THA)的中远期疗效。方法回顾分析2006年10月—2016年5月采用Ribbed股骨柄假体行THA且获完整随访的354例(384髋)髋关节疾病患者临床资料。男171例,女183例;年...目的探讨采用Ribbed股骨柄假体行人工全髋关节置换术(total hip arthroplasty,THA)的中远期疗效。方法回顾分析2006年10月—2016年5月采用Ribbed股骨柄假体行THA且获完整随访的354例(384髋)髋关节疾病患者临床资料。男171例,女183例;年龄20~82岁,平均53.4岁。单髋324例,双髋30例。关节置换原因:股骨头缺血性坏死151例(159髋),髋关节骨关节炎134例(136髋),类风湿性关节炎43例(43髋),强直性脊柱炎20例(40髋),创伤6例(6髋)。术前患者Harris评分为(42.34±8.89)分。术后采用Harris评分评价髋关节功能;摄X线片判断双下肢是否等长、股骨侧有无透亮带、假体稳定性以及应力遮挡发生情况。结果术后切口均Ⅰ期愈合。354例患者均获随访,随访时间2~11年,平均7.4年。末次随访时Harris评分为(80.52±7.61)分,与术前比较差异有统计学意义(t=134.804,P=0.000)。术后发生2例(2髋)假体感染,3例(3髋)假体松动,4例(4髋)假体周围骨折,48例(48髋)存在轻到中度大腿疼痛。X线片示76例(78髋)股骨侧存在透亮线以及不同程度应力遮挡。按照Engh等的方法评价假体稳定性,骨长入性稳定364髋,纤维长入性稳定15髋,假体不稳定5髋。25例(25髋)发生股骨柄假体下沉,其中5例患者双下肢长度差异>10 mm。结论采用Ribbed股骨柄假体行THA具有初始稳定性好、骨长入好等优点,术后应力遮挡发生率相对较高,但对假体中远期生存率和疗效无明显影响。展开更多
Tapered ring with thin wall and three high ribs(TRTWTHR),showing complicated geometry(wall thickness is less than 4 mm and rib height exceeds 20 mm),is extensively utilized to fabricate the critical structural parts o...Tapered ring with thin wall and three high ribs(TRTWTHR),showing complicated geometry(wall thickness is less than 4 mm and rib height exceeds 20 mm),is extensively utilized to fabricate the critical structural parts of aerospace equipment such as spacecraft cabin,rocket body and fuel tank because of light weight and high carrying capacity.How to fabricate TRTWTHR with high performance is a critical problem that aerospace area needs to solve.In this work,constraining ring rolling(CRR)technique is first adopted to form TRTWTHR.However.unreasonable metal streamlines(UMS)and uncoordinated growth of three ribs easily occur in CRR of TRTWTHR,which makes the forming quality of TRTWTHR difficult to be controlled.Faced with this difficulty,an analytical model that can predict UMS and the height of three ribs in CRR of TRTWTHR is established so as to guide the process design of CRR.Subsequently,the reliability of the established analytical model and the feasibility of CRR of TRTWTHR are confirmed by FE simulation and experiment.Then,using the established analytical model,the window of UMS occurring relevant to the tapered angle of TRTWTHR and the location of the rib of middle end is developed.Finally,three uncoordinated growth modes among three ribs are found when the width of three ribs is identical and UMS do not occur,and the mechanisms of three uncoordinated growth modes are revealed.展开更多
Fragment containing the whole riboflavin(rib)operons of B.cereus ATCC14579 was detected from GenBank and annotated.The rib operon of ATCC14579 was cloned with Pn,its native promoter,or with P43,the vegetative growth p...Fragment containing the whole riboflavin(rib)operons of B.cereus ATCC14579 was detected from GenBank and annotated.The rib operon of ATCC14579 was cloned with Pn,its native promoter,or with P43,the vegetative growth promoter,into the plasmid.Expression analysis showed that heterologous rib operon was operative in B.subtilis.Integrative plasmid with P43-rib fragment was integrated into the chromosome of B.subtilis RH33,yielding transformant B.subtilis PY.With optimized medium components,4.3 g·L -1 of riboflavin was achieved in batch culture of B.subtilis PY,which was 27%enhancement compared to the host strain.Real-time reverse transcription polymerase chain reaction(RT-PCR)analysis indicated that the transcriptional level of ribA maintained 2.8-fold higher with the expression of herterologous rib operon.Furthermore,the stability of B.subtilis PY was increased form 45%to 87%.The high transcriptional level of rib gene and higher stability of B.subtilis PY could explain the increased riboflavin production.展开更多
The fabrication of Bragg gratings on silicon-on-insulator (SOI) rib waveguides using electron-beam lithography is presented. The grating waveguide is optimally designed for actual photonic integration. Experimental ...The fabrication of Bragg gratings on silicon-on-insulator (SOI) rib waveguides using electron-beam lithography is presented. The grating waveguide is optimally designed for actual photonic integration. Experimental and theoretical evaluations of the Bragg grating are demonstrated. By thinning the SOl device layer and deeply etching the Bragg grating, a large grating coupling coefficient of 30cm^-1 is obtained.展开更多
A novel structure of spot size converter is designed to allow low loss and large alignment tolerance between single mode rib waveguide devices and fiber arrays theoretically.The spot size converter consists of a ta...A novel structure of spot size converter is designed to allow low loss and large alignment tolerance between single mode rib waveguide devices and fiber arrays theoretically.The spot size converter consists of a tapered rib core region and a double cladding region.Through optimizing parameters,an expanded mode field can be tightly confined in the inner cladding and thus radiation loss be reduced largely at the tapered region.The influence of refractive index and thickness of the inner cladding on coupling loss is analyzed in particular.A novel,easy method of fabricating tapered rib spot size converter based on silicon on insulator material is proposed.展开更多
文摘BACKGROUND Slipping rib syndrome(SRS)is caused by abnormal subluxation of floating ribs,resulting in chronic pain and possible tissue damage.Its prevalence is often overlooked,as it shares symptoms with other musculoskeletal conditions,and is more common in young females and athletes.Symptoms include pain along the lower rib margin,aggravated by trunk movements,deep breathing and coughing.Treatment usually starts conservatively with physiotherapy and analgesics.In severe cases,extrapleural rib resection may be required.CASE SUMMARY In April 2023,a 24-year-old woman presented with persistent right hemithorax pain in the eleventh rib for one year.Instrumental examinations,including ultrasonography and magnetic resonance imaging,were negative for abdominal and osteochondral abnormalities.The pain intensity,rated 8/10 on the numeric rating scale(NRS),remained unresponsive to pain therapy.After a careful literature review and discussion with the patient,we opted for a minimally invasive surgical approach.Under general anesthesia,a mini-thoracotomy was performed along the anterior course of the eleventh rib.After exposure,abnormal rib mobility was detected,which led to resection of the medial margin and anchoring to the overlying rib with nonabsorbable sutures.Histological examination revealed no abnormalities.The patient was discharged on the first postoperative day.Pain decreased significantly,reaching 1/10 on the NRS at one month.At 3 months,the patient had mild fluctuating pain(2/10)requiring occasional analgesics but did not interfere with daily activities.CONCLUSION Minimally invasive rib-preserving surgery effectively reduces pain and hospitalization time,offering a valid alternative to conventional rib resection for refractory SRS.
文摘Researchers from the National Institute for Occupational Safety and Health(NIOSH)are developing a coal pillar rib rating(CPRR)technique to measure the integrity of coal ribs.The CPRR characterizes the rib composition and evaluates its impact on the inherent stability of the coal ribs.The CPRR utilizes four parameters:rib homogeneity,bedding condition,face cleat orientation with respect to entry direction,and rib height.All these parameters are measurable in the field.A rib data collecting procedure and a simple sheet to calculate the CPRR were developed.The developed CPRR can be used as a rib quality mapping tool in underground coal mines and to determine the potential of local rib instabilities and support requirements associated with overburden depth.CPRR calculations were conducted for 22 surveyed solid coal ribs,mainly composed of coal units.Based on this study,the rib performance was classified into four categories.A preliminary minimum primary rib support density(PRSD)line was obtained from these surveyed cases.Two sample cases are presented that illustrate the data collection form and CPRR calculations.
基金The authors want to thank Todd Minoski for preparing the data collection system and James Addis and Cynthia Hollerich for help with installing the test instruments.
文摘The National Institute for Occupational Safety and Health(NIOSH)conducted a comprehensive monitoring program in a room-and-pillar mine located in Southern Virginia.The deformation and the stress change in an instrumented pillar were monitored during the progress of pillar retreat mining at two sites of different geological conditions and depths of cover.The main objectives of the monitoring program were to better understand the stress transfer and load shedding on coal pillars and to quantify the rib deformation due to pillar retreat mining;and to examine the effect of rib geology and overburden depth on coal rib performance.The instrumentation at both sites included pull-out tests to measure the anchorage capacity of rib bolts,load cells mounted on rib bolts to monitor the induced loads in the bolts,borehole pressure cells(BPCs)installed at various depths in the study pillar to measure the change in vertical pressure within the pillar,and roof and rib extensometers installed to quantify the vertical displacement of the roof and the horizontal displacement of the rib that would occur during the retreat mining process.The outcome from the monitoring program provides insight into coal pillar rib support optimization at various depths and geological conditions.Also,this study contributes to the NIOSH rib support database in U.S coal mines and provides essential data for rib support design.
文摘Background: Reconstruction of Nasal Tip Columella (NTC) subunits is one of the most challenging aspects in functional aesthetic rhinoplasty. Moreover, racial variation for Asian nose rhinoplasty could even demand sophistication of tip and columella strut graft infrastructure enhancement. Various autogenous graft options such as 6th costal cartilage, septal cartilage and conchal cartilage are very commonly considered whilst the 10th costal cartilage is scarcely reported. Objective and Method: The purpose of this manuscript is to illustrate the detailed operative steps to harvest the 10th costal cartilage for infrastructural grafting at NTC subunits by a case illustration. The pros and cons of different cartilage options will be discussed, particularly its application in cleft nose rhinoplasty in Chinese patient. We have adopted the 10th rib as the key option for NTC reconstruction in 11 cases of Chinese cleft secondary rhinoplasty since 2019 and have achieved good and stable results without complications. Conclusion: The 10th costal cartilage is one of the best options in Nasal Tip Columella subunits reconstruction, particularly in complex cleft nose or failure revision aesthetic rhinoplasty cases, due to its safety of harvesting, and the sufficient quality and quantity of grafting materials it provides for simultaneous adjunctive augmentation purpose.
基金supported by the National Key Research and Development Program of China(No.2023YFC2907501)the National Natural Science Foundation of China(No.52374106)+1 种基金the China Postdoctoral Science Foundation(Grant no.2024T171006)the National Natural Science Foundation of China(Grant no.52204163).
文摘Rib spalling is a highly severe issue during mining in deep-buried large-mining-height working faces.This study takes Zhaogu No.2 Coal Mine in Jiaozuo Coalfield,China,as the research background and carries out three focused works to address this problem.Firstly,field measurements were conducted to clarify rib spalling characteristics:the coal wall is dominated by shear failure,internal cracks are mainly distributed 3–6 m above the coal wall surface,and the maximum depth of crack development reaches 3 m.Secondly,Universal Distinct Element Code(UDEC)numerical simulation software was used to build a rib spalling model,with the Trigon model adopted to divide the coal wall into blocks.Analysis of four key factors shows that increased buried depth and mining height significantly raise the total length of coal wall internal cracks,increasing rib spalling risk,while higher coal body strength and support strength effectively alleviate this phenomenon.Finally,an orthogonal experiment was designed to quantitatively determine the influence degree of the four factors on rib spalling.Results show that coal body strength has the greatest impact,followed by support strength,mining height,and mining depth in order of influence.This study provides valuable theoretical guidance for on-site prevention and control of coal wall rib spalling.
文摘Objective:To compare the diagnostic value of 99mTc-MDP SPECT/CT and MSCT in detecting thoracic wall and rib involvement in lung adenocarcinoma.Methods:A retrospective analysis was conducted on the imaging data of 78 thoracic wall and rib lesions from 66 patients,a total of 32 males and 34 females,aged(53.2±5.6)years old with pathologically confirmed lung adenocarcinoma who underwent both 99mTc-MDP SPECT/CT and MSCT examinations from March 2017 to September 2023.The diagnostic efficacy of the two imaging modalities was compared using pathological confirmation or clinical follow-up as the gold standard.Results:Pathological confirmation or clinical follow-up revealed 74 lesions with thoracic wall bone involvement in lung adenocarcinoma(20 lesions confirmed by surgical pathology and 54 lesions confirmed by clinical follow-up)and 4 lesions without thoracic wall or rib involvement(2 lesions confirmed by surgical pathology and 2 lesions confirmed by clinical follow-up).The diagnostic sensitivity,specificity,and accuracy of 99mTc-MDP SPECT/CT were 97.3%,50.0%,and 94.9%,respectively.Its diagnostic sensitivity and accuracy were higher than those of MSCT(72.3%and 74.4%,respectively),with statistically significant differences(P<0.05).The specificity of 99mTc-MDP SPECT/CT was lower than that of MSCT(100.0%),but the difference was not statistically significant(P<0.05).There were no statistically significant differences in the positive predictive value and negative predictive value between 99mTc-MDP SPECT/CT and MSCT(P>0.05).99mTc-MDP SPECT/CT examination revised the MSCT tumor staging in 14 patients[21.2%(14/66)]with lung adenocarcinoma.Conclusion:99mTc-MDP SPECT/CT imaging demonstrates superior diagnostic efficacy compared to MSCT in detecting thoracic wall and rib involvement in lung adenocarcinoma.It offers more accurate tumor staging than MSCT,and an accurate diagnosis aids in clinical treatment decision-making.
基金the financial support of Natural Science Foundation of Hunan Province(2023JJ40261).
文摘The mass transport and ohmic losses in proton exchange membrane fuel cells(PEMFCs)is significantly influenced by the channel to rib width ratio(CRWR),particularly when accounting for the interfacial contact resistance between bipolar plates(BPs)and gas diffusion layers(GDLs)(ICRBP-GDL).Both the determination of the optimal CRWR value and the development of an efficient flow field structure are significantly influenced by ICRBP-GDLs.To investigate this,three-dimensional numerical models were developed,revealing that selecting an optimal CRWR tailored to specific ICRBP-GDL values can effectively balance mass transport and ohmic losses.Building on this insight,a novel island two-dimensional flow field design is proposed,demonstrating the ability to enhance oxygen transport to the catalyst layer(CL)and achieve a more uniform oxygen distribution without increasing ohmic losses.Compared to conventional straight and serpentine flow fields,the island flow field improves output power density by 4.5%and 3.5%,respectively,while reducing the liquid water coverage ratio by 30%.Additionally,the study identifies optimal CRWR values for conventional flow fields corresponding to ICRBP-GDLs of 2.5,5,10,20,and 40 mΩ·cm^(2) as 1.5,1.5,1.0,0.67,and 0.43,respectively.For the island flow field,the optimal CRWRs are consistently smaller-1.5,1.0,0.67,0.43,and 0.43-due to its superior mass transfer capability.This work provides a valuable framework for optimizing flow field designs to achieve improved PEMFC performance.
文摘Ensuring rib stability during pillar extraction is of prime importance in bord and pillar(B&P) method of underground coal mining with caving. Rib stability has been assessed here by way of assessing factor of safety(FOS), a ratio of the strength of rib to stress on it. Earlier formulations for rib stability when applied to case studies gave very low FOS value suggesting significant ground control problems, which were contrary to the field observations. This has necessitated the need to revisit the concept of rib stability. The stress coming on the rib is estimated with the use of numerical modeling technique using the FLAC^(3D) software. The methodology of assessing rib-stability with the help of suggested rib-strength formulation has been validated at eight Indian coal mines. The outcome of this study finds relevance and importance in ensuring underground coal liquidation with improved safety and conservation.
文摘目的探讨采用Ribbed股骨柄假体行人工全髋关节置换术(total hip arthroplasty,THA)的中远期疗效。方法回顾分析2006年10月—2016年5月采用Ribbed股骨柄假体行THA且获完整随访的354例(384髋)髋关节疾病患者临床资料。男171例,女183例;年龄20~82岁,平均53.4岁。单髋324例,双髋30例。关节置换原因:股骨头缺血性坏死151例(159髋),髋关节骨关节炎134例(136髋),类风湿性关节炎43例(43髋),强直性脊柱炎20例(40髋),创伤6例(6髋)。术前患者Harris评分为(42.34±8.89)分。术后采用Harris评分评价髋关节功能;摄X线片判断双下肢是否等长、股骨侧有无透亮带、假体稳定性以及应力遮挡发生情况。结果术后切口均Ⅰ期愈合。354例患者均获随访,随访时间2~11年,平均7.4年。末次随访时Harris评分为(80.52±7.61)分,与术前比较差异有统计学意义(t=134.804,P=0.000)。术后发生2例(2髋)假体感染,3例(3髋)假体松动,4例(4髋)假体周围骨折,48例(48髋)存在轻到中度大腿疼痛。X线片示76例(78髋)股骨侧存在透亮线以及不同程度应力遮挡。按照Engh等的方法评价假体稳定性,骨长入性稳定364髋,纤维长入性稳定15髋,假体不稳定5髋。25例(25髋)发生股骨柄假体下沉,其中5例患者双下肢长度差异>10 mm。结论采用Ribbed股骨柄假体行THA具有初始稳定性好、骨长入好等优点,术后应力遮挡发生率相对较高,但对假体中远期生存率和疗效无明显影响。
基金the National Natural Science Foundation of China (No. U2037204)the 111 Project (No. B17034)+1 种基金Innovative Research Team Development Program of Ministry of Education of China (No. IRT17R83)the National Natural Science Foundation of China (No. 52005375)
文摘Tapered ring with thin wall and three high ribs(TRTWTHR),showing complicated geometry(wall thickness is less than 4 mm and rib height exceeds 20 mm),is extensively utilized to fabricate the critical structural parts of aerospace equipment such as spacecraft cabin,rocket body and fuel tank because of light weight and high carrying capacity.How to fabricate TRTWTHR with high performance is a critical problem that aerospace area needs to solve.In this work,constraining ring rolling(CRR)technique is first adopted to form TRTWTHR.However.unreasonable metal streamlines(UMS)and uncoordinated growth of three ribs easily occur in CRR of TRTWTHR,which makes the forming quality of TRTWTHR difficult to be controlled.Faced with this difficulty,an analytical model that can predict UMS and the height of three ribs in CRR of TRTWTHR is established so as to guide the process design of CRR.Subsequently,the reliability of the established analytical model and the feasibility of CRR of TRTWTHR are confirmed by FE simulation and experiment.Then,using the established analytical model,the window of UMS occurring relevant to the tapered angle of TRTWTHR and the location of the rib of middle end is developed.Finally,three uncoordinated growth modes among three ribs are found when the width of three ribs is identical and UMS do not occur,and the mechanisms of three uncoordinated growth modes are revealed.
基金Supported by the National Natural Science Foundation of China(20536040) the State Key Development Program for Basic Research of China(2007CB707802) the Development Project of Science and Technology of Tianjin(05YFGZGX04500)
文摘Fragment containing the whole riboflavin(rib)operons of B.cereus ATCC14579 was detected from GenBank and annotated.The rib operon of ATCC14579 was cloned with Pn,its native promoter,or with P43,the vegetative growth promoter,into the plasmid.Expression analysis showed that heterologous rib operon was operative in B.subtilis.Integrative plasmid with P43-rib fragment was integrated into the chromosome of B.subtilis RH33,yielding transformant B.subtilis PY.With optimized medium components,4.3 g·L -1 of riboflavin was achieved in batch culture of B.subtilis PY,which was 27%enhancement compared to the host strain.Real-time reverse transcription polymerase chain reaction(RT-PCR)analysis indicated that the transcriptional level of ribA maintained 2.8-fold higher with the expression of herterologous rib operon.Furthermore,the stability of B.subtilis PY was increased form 45%to 87%.The high transcriptional level of rib gene and higher stability of B.subtilis PY could explain the increased riboflavin production.
文摘The fabrication of Bragg gratings on silicon-on-insulator (SOI) rib waveguides using electron-beam lithography is presented. The grating waveguide is optimally designed for actual photonic integration. Experimental and theoretical evaluations of the Bragg grating are demonstrated. By thinning the SOl device layer and deeply etching the Bragg grating, a large grating coupling coefficient of 30cm^-1 is obtained.
文摘A novel structure of spot size converter is designed to allow low loss and large alignment tolerance between single mode rib waveguide devices and fiber arrays theoretically.The spot size converter consists of a tapered rib core region and a double cladding region.Through optimizing parameters,an expanded mode field can be tightly confined in the inner cladding and thus radiation loss be reduced largely at the tapered region.The influence of refractive index and thickness of the inner cladding on coupling loss is analyzed in particular.A novel,easy method of fabricating tapered rib spot size converter based on silicon on insulator material is proposed.
