The sudden and large oscillation of pressure of compressed air/gas entrapped in porous medium due to the changes in the actual pore-fluid pressure, during recharge of water following intense rainfall after a prolonged...The sudden and large oscillation of pressure of compressed air/gas entrapped in porous medium due to the changes in the actual pore-fluid pressure, during recharge of water following intense rainfall after a prolonged period of dryness such that the rainfall intensity exceeding infiltration capacity, leads to the generation of hydo-tremors. These hydro-tremors cause ground rupturing, subsidence, developments of cracks in the building, etc. A theoretical model has been presented to estimate the successive values of compressed air/gas pressures due to the successive development of actual pore-fluid pressures and effective stresses during recharge of water of the unconfined zone during the onset of the summer monsoon of 2008 in the northern parts of India.展开更多
On the assumption that seismic source is simplified as linear rupture fault with finite length, this paper qualitatively studies the seismic source effects on space correlation of strong ground motion. Based on expand...On the assumption that seismic source is simplified as linear rupture fault with finite length, this paper qualitatively studies the seismic source effects on space correlation of strong ground motion. Based on expanding expression of Fourier spectrum of strong ground motion with space coordinate variables, this paper also gives a expression of describing correlation of strong ground motion field. According to far-field condition, the theoretical formula of the expression can be obtained. Furthermore, this paper presents a theoretical formula of estimation the radius of strong ground motion field, which depends on expansion condition of Fourier spectrum of strong ground motion, with space variables. At last, taking one earthquake as an example, this paper gives three-dimension patterns of radius of the field with epicenter distance and azimuth as well as frequency.展开更多
This paper deals wiah a new method for identification of long-term slip behavior of a conceaiedfault in a plain area from tectono-stratigraphic and chronological data obtained by drilling.Chronological determination a...This paper deals wiah a new method for identification of long-term slip behavior of a conceaiedfault in a plain area from tectono-stratigraphic and chronological data obtained by drilling.Chronological determination and lithological analysis and correlation of sediments in stratigraphic colunms of drills NO.1 and No.2 at Dongliuhe Village on the hanging and foot walls ofXiadian fault allow us to quantitatively reconstruct the differential sedimentary history and vertical dislocation process on the hanging and foot walls of the fault since 26 ka BP and to set upa tectono-stratigraphic indicators for identifying paleoearthquakes.On this basis,taking theaccumulative vertical displacement of both sides of a fault to be a quantitative constraint,thestate before an abrupt dislocation in surface-rupturing earthquake can be reconstructed(de-ducting the later coseismic vertical displacement),then 11 surface-rupturing paleoseismic even-ts can be identified.A close correlation between recurrence behavior of展开更多
On November 14, 2001, an extraordinarily large earthquake (MS8.1) occurred on the Hoh Sai Hu segment of the Eastern Kunlun Fault, in the northern Qinghai-Tibetan Plateau. The seismogenic fault, the Hoh Sai Hu segment,...On November 14, 2001, an extraordinarily large earthquake (MS8.1) occurred on the Hoh Sai Hu segment of the Eastern Kunlun Fault, in the northern Qinghai-Tibetan Plateau. The seismogenic fault, the Hoh Sai Hu segment, is a left-lateral fault with a high slip rate in geological history, with the average slip rate reaching(14.8±2.8)mm/a since the late Pleistocene. Different slip rates of the Hoh Sai Hu segment can affect fault motion in the future. Therefore, this paper analyzes the effect of different slip rates and different initial friction coefficients on the fault plane of the Hoh Sai Hu segment of the eastern Kunlun Fault on the rupture behaviors of the fault. In this research, we apply the single degree of spring block model controlled by the rateand state-dependent frictional constitutive laws. Using the fault dislocation model and based on ancient earthquake research, historical earthquakes data and the achievements of previous researchers, we obtained the parameters of this model. Through numerical simulation of the rupturing motion of the Hoh Sai Hu segment in the next 6500 years under different slip rates, we find that a faster annual slip rate will shorten the recurrence interval of the earthquake. For example, the earthquake recurrence interval is 2100a at a slip rate of 0.014m/a, which agrees with previous research, but, the recurrence interval will be 1000~1500a and 2100~2500a, corresponding to the slip rates of 0.018m/a and 0.008m/a, respectively. The fault slip rate has no regular effect on the coseismic slip rate and fault displacement in an earthquake. The initial friction coefficient on the fault surface has an effect on the earthquake recurrence interval. A smaller initial friction coefficient will lengthen the earthquake recurrence interval. At the same time, the smaller initial friction coefficient will lead to larger slip rates and fault displacement when earthquakes occur.展开更多
The Litang fault zone (LFZ) is an active fault zone within the northwestern Sichuan sub-block. Field investigation reveals new evidence for its late Quaternary offset, neoteric earthquake ruptures and surface-rupturin...The Litang fault zone (LFZ) is an active fault zone within the northwestern Sichuan sub-block. Field investigation reveals new evidence for its late Quaternary offset, neoteric earthquake ruptures and surface-rupturing segmentation, from which long-term slip-rates, char-acteristic earthquake magnitudes and recurrence intervals on the fault zone are estimated. This study shows that the LFZ consists of three subordinate faults, and they are the northern Maoyaba fault, Litang fault and Kangga-Dewu fault, respectively. All of them are dominated by left-lateral strike-slip with reverse dip-slip component on different segments. Based on offset landforms and ages of relevant deposits collected from seven sites, it is estimated that the average left-lateral slip-rate on the LFZ reaches 4.0±1.0 mm/a in the past 14 ka BP, and vertical (reverse) dip-slip rate in the range of 0.1―1.8 mm/a. Three subordinate faults are independent earthquake rup-turing segments, on which the maximum moment magnitude of the characteristic earthquakes is estimated to be 7.0―7.3, and their average recurrence interval to be 500―1000 a. The latest earthquake ruptures occurred 119±2 years ago on the northern Maoyaba fault, about 1890 AD on the Litang fault, and in 1948 AD on the Kangga-Dewu fault, and this may indicate a unidirectional migration for surface rupturing earthquakes along the Litang fault zone, related to stress trigger-ing between the segments.展开更多
BACKGROUND Ankle fractures are well-documented in snow sports,but concomitant Achilles tendon and peroneal tendon ruptures are rare.This case report presents a previously unreported combination of Achilles tendon rupt...BACKGROUND Ankle fractures are well-documented in snow sports,but concomitant Achilles tendon and peroneal tendon ruptures are rare.This case report presents a previously unreported combination of Achilles tendon rupture,peroneal tendon rupture,and fibular fracture in a snowboarder,highlighting the complex nature of diagnosis,management,and rehabilitation.CASE SUMMARY A 50-year-old male snowboarder presented with severe right ankle pain following a high speed tumbling crash.Initial evaluation revealed an Achilles tendon rupture and a non-displaced distal lateral malleolus fracture.Subsequent magnetic resonance imaging confirmed complete tears of the Achilles tendon and both peroneus longus and brevis tendons,along with a Weber A lateral malleolus fracture.Surgical intervention included a 4-suture core Kraków repair of the Achilles tendon with calcaneal docking,open reduction and internal fixation of the distal fibula fracture,and primary repair of both peroneal tendons.Postoperatively,a modified Achilles repair protocol was implemented.At 16 weeks post-surgery,radiographs showed a well-healed fibular fracture,and physical examination confirmed intact Achilles and peroneal tendon repairs.By 6 months,the patient had regained full daily and work activities,including recreational pursuits.CONCLUSION This case underscores the importance of maintaining a high index of suspicion for concomitant injuries in high-energy ankle trauma during snow sports.Timely advanced imaging and a comprehensive surgical approach are crucial for optimal outcomes in such complex cases.展开更多
The Hualien M 7.3 earthquake on April 3,2024,was a significant and strong earthquake in Taiwan,China in the past two decades.The rupture process of the main shock and strong aftershocks is of great significance to the...The Hualien M 7.3 earthquake on April 3,2024,was a significant and strong earthquake in Taiwan,China in the past two decades.The rupture process of the main shock and strong aftershocks is of great significance to the subsequent seismic activity and seismogenic tectonic research.Based on local strong-motion data,we used the IDS(Iterative Deconvolution and Stacking)method to obtain the rupture process of the mainshock and two strong aftershocks on the 23rd.The rupture of the mainshock was mainly unilateral,lasting 31 s,with a maximum slip of 2m,and the depth of the large slip zone is about 41–49 km.There is a clear difference between the rupture depth of the main shock and the two strong aftershocks.The depths of the large slip zones of the latter two are 3–9 km and 8–10 km,respectively.There is also a significant difference in the seismogenic fault between the mainshock and the aftershocks,and we believe that there are two seismogenic fault zones in the study area,the deep and the shallow fault zone.The slip of the deep faults activates the shallow faults.展开更多
The 2025 M_(w)7.7 Myanmar earthquake highlighted the challenge of near-fault seismic intensity field reconstruction due to sparse seismic networks.To address this limitation,a framework was proposed integrating seismi...The 2025 M_(w)7.7 Myanmar earthquake highlighted the challenge of near-fault seismic intensity field reconstruction due to sparse seismic networks.To address this limitation,a framework was proposed integrating seismic wave simulation with a data-constrained finite-fault rupture model.The constraint is implemented by identifying the optimal ground motion models(GMMs)through a scoring system that selects the best-fit GMMs to mid-and far-field China Earthquake Networks Center(CENC)seismic network data;and applying the optimal GMMs to refine the rupture model parameters for near-fault intensity field simulation.The simulated near-fault seismic intensity field reproduces seismic intensities collected from Myanmar’s sparse seismic network and concentrated in≥Ⅷintensity zones within 50 km of the projected fault plane;and identifies abnormal intensity regions exhibiting≥Ⅹintensity along the Meiktila-Naypyidaw corridor and near Shwebo that are attributed to soft soil amplification effects and near-fault directivity.This framework can also be applied to post-earthquake assessments in other similar regions.展开更多
To the Editor:Chylothorax is a serious disease characterized by rupture of the thoracic tube and milky exudation from the pleural cavity,which can lead to a variety of pathological symptoms and is life threatening[1]....To the Editor:Chylothorax is a serious disease characterized by rupture of the thoracic tube and milky exudation from the pleural cavity,which can lead to a variety of pathological symptoms and is life threatening[1].Chylothorax is common after thoracic surgery or trauma.The non-traumatic chylothorax is rare in the clinical practice,and the etiology is complex and often associated with the primary disease[2].Chylothorax is a rare complication of patients with advanced cirrhosis[3],most of which are manifested as dyspnea,cough,chest pain,and the medical treatment effect is relatively poor.We performed orthotopic liver transplantation(OLT)in a patient with advanced cirrhosis combined with massive chylothorax and chyloperitoneum.The 2-year follow-up showed that the patient’s liver function was stable and no recurrence of chylothorax.展开更多
In the scenario of a steam generator tube rupture accident in a lead-cooled fast reactor,secondary circuit subcooled water under high pressure is injected into an ordinary-pressure primary vessel,where a molten lead-b...In the scenario of a steam generator tube rupture accident in a lead-cooled fast reactor,secondary circuit subcooled water under high pressure is injected into an ordinary-pressure primary vessel,where a molten lead-based alloy(typically pure lead or lead-bismuth eutectic(LBE))is used as the coolant.To clarify the pressure build-up characteristics under water-jet injection,this study conducted several experiments by injecting pressurized water into a molten LBE pool at Sun Yat-sen University.To obtain a further understanding,several new experimental parameters were adopted,including the melt temperature,water subcooling,injection pressure,injection duration,and nozzle diameter.Through detailed analyses,it was found that the pressure and temperature during the water-melt interaction exhibited a consistent variation trend with our previous water-droplet injection mode LBE experiment.Similarly,the existence of a steam explosion was confirmed,which typically results in a much stronger pressure build-up.For the non-explosion cases,increasing the injection pressure,melt-pool temperature,nozzle diameter,and water subcooling promoted pressure build-up in the melt pool.However,a limited enhancement effect was observed when increasing the injection duration,which may be owing to the continually rising pressure in the interaction vessel or the isolation effect of the generated steam cavity.Regardless of whether a steam explosion occurred,the calculated mechanical and kinetic energy conversion efficiencies of the melt were relatively small(not exceeding 4.1%and 0.7%,respectively).Moreover,the range of the conversion efficiency was similar to that of previous water-droplet experiments,although the upper limit of the jet mode was slightly lower.展开更多
BACKGROUND The incidence of acute myocardial infarction(AMI)is rising,with cardiac rupture accounting for approximately 2%of deaths in patients with acute ST-segment elevation myocardial infarction(STEMI).Ventricular ...BACKGROUND The incidence of acute myocardial infarction(AMI)is rising,with cardiac rupture accounting for approximately 2%of deaths in patients with acute ST-segment elevation myocardial infarction(STEMI).Ventricular free wall rupture(FWR)occurs in approximately 2%of AMI patients and is notably rare in patients with non-STEMI.Types of cardiac rupture include left ventricular FWR,ventricular septal rupture,and papillary muscle rupture.The FWR usually leads to acute cardiac tamponade or electromechanical dissociation,where standard resuscitation efforts may not be effective.Ventricular septal rupture and papillary muscle rupture often result in refractory heart failure,with mortality rates over 50%,even with surgical or percutaneous repair options.CASE SUMMARY We present a rare case of an acute non-STEMI patient who suffered sudden FWR causing cardiac tamponade and loss of consciousness immediate before undergoing coronary angiography.Prompt resuscitation and emergency open-heart repair along with coronary artery bypass grafting resulted in successful patient recovery.CONCLUSION This case emphasizes the risks of AMI complications,shares a successful treatment scenario,and discusses measures to prevent such complications.展开更多
A great earthquake struck central Myanmar on March 28,2025,causing extensive and severe damage in Myanmar and neighboring countries such as Thailand.Observed waveforms indicated the possibility of supershear rupture a...A great earthquake struck central Myanmar on March 28,2025,causing extensive and severe damage in Myanmar and neighboring countries such as Thailand.Observed waveforms indicated the possibility of supershear rupture at the source of this event.To investigate this possibility,a joint source inversion using near-field and teleseismic waveforms was performed.The fault model used,with a total length of 580 km,comprises five segments with varying strike directions and dip angles.Within the first 10 s after initiation at the hypocenter,the rupture propagated southward at a high speed of 5–6 km/s.while rupture in the northern direction proceeded at a speed lower than the local S-wave velocity of 3.5 km/s.Subsequently,the rupture propagated bilaterally in both northern and southern directions at high speeds of 5–6 km/s.The largest asperity,with a maximum slip of 5–6 m,occurred in the shallow part of the fault model,approximately 240 km south of the hypocenter.Large slips of 2–3 m were also found near the southern end of the fault model.Slips on the fault plane were dominated by strike-slip components,though slips south of the largest asperity included significant dip-slip components.展开更多
The southern region of Saudi Arabia exhibits a distinct seismic profile shaped by the Red Sea Rift and local fault systems, necessitating rigorous seismic hazard evaluations and tailored structural design strategies. ...The southern region of Saudi Arabia exhibits a distinct seismic profile shaped by the Red Sea Rift and local fault systems, necessitating rigorous seismic hazard evaluations and tailored structural design strategies. This study applies a robust Probabilistic Seismic Hazard Analysis (PSHA) framework to compute Maximum Considered Earthquake (MCE) and Risk-Targeted Maximum Considered Earthquake (MCER) values for major cities, including Jazan, Abha, and Najran. Utilizing local seismotectonic models, ground motion prediction equations (GMPEs), and soil classifications, the study generates precise ground motion parameters critical for infrastructure planning and safety. Results indicate significant seismic hazard variability, with Jazan showing high seismic risks with an MCER SA (0.2 s) of 0.45 g, compared to Najran’s lower risks at 0.23 g. Structural design guidelines, informed by MCE and MCER calculations, prioritize the integration of site-specific seismic data, enhanced ductility requirements, and advanced analytical methods to ensure resilient and sustainable infrastructure. The study underscores the necessity of localized seismic assessments and modern engineering practices to effectively mitigate seismic risks in this geologically complex region.展开更多
Introduction: Arteriovenous malformation is a rare pathology, often discovered accidentally in children. Generally, it presents as an intra-parenchymal hematoma following rupture of the affected vessels. The risk of r...Introduction: Arteriovenous malformation is a rare pathology, often discovered accidentally in children. Generally, it presents as an intra-parenchymal hematoma following rupture of the affected vessels. The risk of rupture is linked to the volume of the malformation, its cortical location and venous drainage. In literature, few cases of rupture have been reported in cases of meningitis, but none are associated with a brain abscess. Objective: To report a case of an intraparenchymal hemorrhage due to rupture of an arteriovenous malformation with an associated brain abscess. Observation: The authors report the case of a 2-year-old child, admitted for impaired state of consciousness associated with a right hemiparesis and seizures in a febrile context. Clinical evaluation revealed a Blantyre score of 3, fever at 40˚C, divergent strabismus of the right eye, a right pyramidal syndrome and meningeal irritative syndrome. Cerebral CT scan revealed a left fronto-parietal intra-parenchymal hematoma and a right occipital ring-enhanced lesion, suggesting a brain abscess. An MRI suggested a probable rupture of an arteriovenous malformation resulting in the intra-parenchymal hematoma. Management consisted of craniotomy to evacuate the intra-parenchymal hematoma, antibiotic therapy with vancomycin and ceftriaxone at meningeal doses. Histopathological analysis of the intraoperative sample revealed an arteriovenous malformation. The postoperative course was marked by regression of hyperthermia, persistence of spasticity, irritability and clonic movement of the right lower limb. These were managed with baclofen, phenobarbital, and ergotherapy. We observed a regression of spasticity and improved motor skills in the right limbs. At 6 months follow-up, child could interact with his social environment despite aphasia, regression of spasticity and right hemiparesis. Conclusion: Rupture of arteriovenous malformations can be enhanced by neuro-meningeal infections and particularly brain abscesses. Cerebrovascular complications of these conditions mostly have unfavorable outcomes and neurological sequelae.展开更多
The effect of carbon content on the microstructures and stress rupture properties of a newly developed polycrystalline Ni-based superalloy with high Cr content has been studied.It was observed that both grain size and...The effect of carbon content on the microstructures and stress rupture properties of a newly developed polycrystalline Ni-based superalloy with high Cr content has been studied.It was observed that both grain size and the number of carbides increased with an increase in carbon content.After heat treatment,granular M_(23)C_(6)carbides were dispersed around MC carbides along grain boundaries and inside grains.The quantity of granular M_(23)C_(6)carbides increased while their sizes decreased.These findings can be verified with the results of thermodynamic calculation and differential scanning calorimetry analysis.The stress rupture times(975℃/225 MPa)increased from 13.3 to 25.5 h with the carbon content increased from 0.1 to 0.2 wt.%.The improvement can be attributed to two primary factors.Firstly,grain boundary is typically weak region during deformation process and the grain size increased as carbon content increased in the alloy.Secondly,carbides act as hindrances to impede dislocation movement,leading to dislocation entanglement.As carbon content rose,the quantity of carbides in interdendritic regions and grain boundaries increased,providing a certain degree of strengthening effect and resulting in a longer stress rupture time.展开更多
BACKGROUND Boerhaave syndrome,or spontaneous esophageal rupture,is a rare and lifethreatening emergency,typically caused by a sudden increase in esophageal pressure due to violent coughing or vomiting.Early diagnosis ...BACKGROUND Boerhaave syndrome,or spontaneous esophageal rupture,is a rare and lifethreatening emergency,typically caused by a sudden increase in esophageal pressure due to violent coughing or vomiting.Early diagnosis is challenging as its symptoms often resemble those of other diseases.Understanding its pathological features and treatment strategies is therefore critical for clinical practice.CASE SUMMARY This report describes a case of spontaneous esophageal rupture triggered by violent coughing in a 55-year-old male with a history of smoking and hypertension.Following severe coughing,the patient developed chest pain,vomiting,and respiratory distress.Initial clinical evaluation was inconclusive,with a suspected diagnosis of cardiovascular or gastrointestinal conditions.After further examination,the diagnosis of spontaneous esophageal rupture was confirmed.Chest X-ray,computed tomography,and endoscopy revealed a rupture in the lower esophagus,along with mediastinal abscess and pleural effusion.Laboratory tests showed mild infection markers.The patient underwent surgical repair of the esophageal rupture(approximately 3 cm in length)with mediastinal drainage.Postoperatively,the patient’s temperature normalized within 3 days,respiratory function improved,and pleural effusion significantly decreased.After two weeks of treatment,the patient was discharged without complications and had a favorable prognosis.The study suggests that while violent coughing is a rare trigger,it can lead to severe damage,and imaging techniques play a crucial role in diagnosis.CONCLUSION Spontaneous esophageal rupture presents significant diagnostic and therapeutic challenges.Early recognition and timely intervention are crucial for improving prognosis.This case highlights the importance of imaging and surgical treatment,offering new insights for managing similar cases and providing valuable clinical guidance.展开更多
This article revisits the concept of epistemological rupture by questioning the stark division between scientific and non-scientific thought. Drawing on the theory of representation, it contends that both forms of kno...This article revisits the concept of epistemological rupture by questioning the stark division between scientific and non-scientific thought. Drawing on the theory of representation, it contends that both forms of knowledge are socially constructed, moulded by communication, norms and group dynamics. Rather than labelling non-scientific thought as flawed or regressive, the discussion shows how decontextualization and recontextualization processes apply equally to everyday ‘natural' knowledge and formal science,exposing the social and historical contingencies shaping concepts. Consequently, rupture appears less a sudden break than a gradual threshold reached through dialectical transformations in cognition and society. Rather than conferring total superiority on science, ruptures highlight how certain discourses gain legitimacy while others become ‘non-knowledge'. The article concludes that science's dominance reflects broader power relationships and evolving modes of production and validation. By situating epistemological rupture within these processes, it illuminates how different knowledge forms coexist, evolve and sometimes conflict in stratified social fields—ultimately challenging a simplistic binary between scientific progress and supposedly primitive or natural thought. This viewpoint opens new possibilities for examining the shifting boundaries between rational explanations and the shared beliefs shaping collective reality and daily life.展开更多
On December 18,2023,an M_(s)6.2 earthquake jolted Jishishan County in the Linxia Hui Autonomous Prefecture in Northwest China's Gansu Province,causing substantial casualties and building collapses.The earthquake o...On December 18,2023,an M_(s)6.2 earthquake jolted Jishishan County in the Linxia Hui Autonomous Prefecture in Northwest China's Gansu Province,causing substantial casualties and building collapses.The earthquake occurred in the Qilian Block on the northeastern border of the Qinghai-Tibet Plateau,where faults are highly active and the geological structure is complex.In this study,we utilized methods such as relocation,focal mechanism solutions,and earthquake rupture processes to describe seismogenic faults.The results indicated that the majority of aftershocks occurred at a depth of 12 km.The centroid depth of the main shock and the depth of the maximum rupture point during the rupture process were also 12 km.Various geophysical methods exhibited a high degree of consistency in depth exploration.Aftershocks were distributed mainly to the west and north of the main shock and extended in the NNW direction,primarily through unilateral rupture.The main shock was a reverse thrust event with a small dextral strike-slip component.In this study,more regional data,such as previous GPS observations,field geological observations,and the distributions of the primary stress states in the region,were also incorporated.We inferred that the main shock was triggered by the main fault at the northern margin of the Lajishan Fault and that the movement of the main fault also activated some secondary faults.The compressive forces on both sides of the Lajishan Fault Zone led to the uplift of mountain areas,accompanied by some landslides,leading to this catastrophic earthquake event.In this article,the activity relationships among the 2022 M_(s)6.9 Menyuan earthquake,the 2019 M_(s)5.7 Xiahe earthquake,and the Jishishan earthquake under the action of regional stress are also discussed.This study provides additional evidence and new ideas for exploring the seismogenic process of the Lajishan Fault Zone and has implications for future in-depth research on underground activity in this region.展开更多
Background:The incidence of spontaneously ruptured hepatocellular carcinoma(srHCC)has been shown to significantly elevate mortality rates.However,the precise mechanisms underlying srHCC remain poorly understood.Method...Background:The incidence of spontaneously ruptured hepatocellular carcinoma(srHCC)has been shown to significantly elevate mortality rates.However,the precise mechanisms underlying srHCC remain poorly understood.Methods:Analysis was conducted on the data of 198 hepatocellular carcinoma(HCC)patients to inves-tigate the factors contributing to srHCC.The clinical data of 33 transcriptome HCC patients were served for verification.An in-depth transcriptome analysis was conducted to investigate the distinctions between 26 cases of srHCC and 35 cases of non-ruptured hepatocellular carcinoma(nrHCC).Weighted Gene Co-expression Network Analysis(WGCNA)tool was utilized to develop a gene co-expression network.Gene ontology(GO)and Kyoto encyclopedia of genes and genomes(KEGG)pathways enrichment,and protein-protein interaction(PPI)network were carried out.The corresponding samples for spontaneously rup-tured hepatocellular carcinoma tissue(srHCC-T)and ruptured hepatocellular carcinoma paracancerous tissue(srHCC-P)were selected for verification.Transcriptional data were validated through reverse tran-scription quantitative polymerase chain reaction(RT-qPCR).Immunofluorescence(IF),immunohistochem-istry(IHC)and Western blot were used to detect the protein expression.Results:Our results showed that white blood cell(WBC)and monocyte levels were significant inde-pendent risk factors for srHCC(P<0.05).There was a strong association between the srHCC-T and the expression of cell cycle-related genes BUB1B and macrophage function-related gene MACRO.Furthermore,chemokines and the PI3K/AKT signaling pathway play a crucial role in regulating the cell cycle process through a complex network of interactions,ultimately impacting the occurrence of srHCC.Conclusions:Our study confirms that chemokines and the PI3K/AKT signaling pathway mediate the occur-rence of HCC rupture by regulating the cell cycle.We provide a theoretical basis for the clinical treatment of srHCC.展开更多
Introduction: Uterine rupture is certainly one of the most serious, as it immediately jeopardises the vital prognosis of the mother and foetus. It is a common obstetric tragedy in our delivery rooms in countries with ...Introduction: Uterine rupture is certainly one of the most serious, as it immediately jeopardises the vital prognosis of the mother and foetus. It is a common obstetric tragedy in our delivery rooms in countries with limited resources, reflecting the poor quality of obstetric care and, consequently, an unmet obstetric need. Methods: This was a descriptive and analytical cross-sectional study with prospective data collection over a four-year period from 1 January 2020 to 31 December 2023 at the University Hospital Centre (CHU) of Bouaké, in the Obstetrics and Gynaecology Department. The variables studied were epidemiological characteristics, therapeutic aspects and factors associated with maternal. Results: The prevalence of uterine rupture was 0.63%. The average age was 32, with patients aged 35 and over accounting for 33.68%, married 44.21% and 70% not in education. Patients with uterine rupture had been evacuated in 85.26% of cases. Uterine rupture was diagnosed in 97.89% of cases during labour. Maternal lethality due to rupture was 15.79%. The causes of maternal death were dominated by haemorrhagic shock (53.33%). Factors statistically associated with death were age ≥ 35 years (OR: 3.14), duration of labour ≥ 12 hours (OR: 5.8), multiparity (OR: 19.04), admission delay beyond 2 hours (OR: 4.36), haemoglobin level ≤ 7 g/dl (OR: 36.84), coma or obnubilation (OR: 71.82), haemorrhagic shock (OR: 243.94) and occurrence of post-operative complications (OR: 76.45). Conclusion: The frequency of uterine rupture remains significant in the department (0.63%), with maternal mortality still high (15.79%). The key to reducing uterine rupture and its consequences lies in timely referral and early, appropriate management.展开更多
文摘The sudden and large oscillation of pressure of compressed air/gas entrapped in porous medium due to the changes in the actual pore-fluid pressure, during recharge of water following intense rainfall after a prolonged period of dryness such that the rainfall intensity exceeding infiltration capacity, leads to the generation of hydo-tremors. These hydro-tremors cause ground rupturing, subsidence, developments of cracks in the building, etc. A theoretical model has been presented to estimate the successive values of compressed air/gas pressures due to the successive development of actual pore-fluid pressures and effective stresses during recharge of water of the unconfined zone during the onset of the summer monsoon of 2008 in the northern parts of India.
文摘On the assumption that seismic source is simplified as linear rupture fault with finite length, this paper qualitatively studies the seismic source effects on space correlation of strong ground motion. Based on expanding expression of Fourier spectrum of strong ground motion with space coordinate variables, this paper also gives a expression of describing correlation of strong ground motion field. According to far-field condition, the theoretical formula of the expression can be obtained. Furthermore, this paper presents a theoretical formula of estimation the radius of strong ground motion field, which depends on expansion condition of Fourier spectrum of strong ground motion, with space variables. At last, taking one earthquake as an example, this paper gives three-dimension patterns of radius of the field with epicenter distance and azimuth as well as frequency.
基金The research was supported by China Seismological Bureau (contrace No. 9504080202) China.
文摘This paper deals wiah a new method for identification of long-term slip behavior of a conceaiedfault in a plain area from tectono-stratigraphic and chronological data obtained by drilling.Chronological determination and lithological analysis and correlation of sediments in stratigraphic colunms of drills NO.1 and No.2 at Dongliuhe Village on the hanging and foot walls ofXiadian fault allow us to quantitatively reconstruct the differential sedimentary history and vertical dislocation process on the hanging and foot walls of the fault since 26 ka BP and to set upa tectono-stratigraphic indicators for identifying paleoearthquakes.On this basis,taking theaccumulative vertical displacement of both sides of a fault to be a quantitative constraint,thestate before an abrupt dislocation in surface-rupturing earthquake can be reconstructed(de-ducting the later coseismic vertical displacement),then 11 surface-rupturing paleoseismic even-ts can be identified.A close correlation between recurrence behavior of
基金jointly sponsored by the Special Program of Basic R&D Fund,Institute of Geology,CEAthe Seismic Industry Research Program,CEA( 200808018)
文摘On November 14, 2001, an extraordinarily large earthquake (MS8.1) occurred on the Hoh Sai Hu segment of the Eastern Kunlun Fault, in the northern Qinghai-Tibetan Plateau. The seismogenic fault, the Hoh Sai Hu segment, is a left-lateral fault with a high slip rate in geological history, with the average slip rate reaching(14.8±2.8)mm/a since the late Pleistocene. Different slip rates of the Hoh Sai Hu segment can affect fault motion in the future. Therefore, this paper analyzes the effect of different slip rates and different initial friction coefficients on the fault plane of the Hoh Sai Hu segment of the eastern Kunlun Fault on the rupture behaviors of the fault. In this research, we apply the single degree of spring block model controlled by the rateand state-dependent frictional constitutive laws. Using the fault dislocation model and based on ancient earthquake research, historical earthquakes data and the achievements of previous researchers, we obtained the parameters of this model. Through numerical simulation of the rupturing motion of the Hoh Sai Hu segment in the next 6500 years under different slip rates, we find that a faster annual slip rate will shorten the recurrence interval of the earthquake. For example, the earthquake recurrence interval is 2100a at a slip rate of 0.014m/a, which agrees with previous research, but, the recurrence interval will be 1000~1500a and 2100~2500a, corresponding to the slip rates of 0.018m/a and 0.008m/a, respectively. The fault slip rate has no regular effect on the coseismic slip rate and fault displacement in an earthquake. The initial friction coefficient on the fault surface has an effect on the earthquake recurrence interval. A smaller initial friction coefficient will lengthen the earthquake recurrence interval. At the same time, the smaller initial friction coefficient will lead to larger slip rates and fault displacement when earthquakes occur.
基金the Natiomal Basic Recearch Prognam(Gant No.2004CB418401) the Ministy of Sciance&Technology,PRC(Grcnt No.2003DIA6N005).
文摘The Litang fault zone (LFZ) is an active fault zone within the northwestern Sichuan sub-block. Field investigation reveals new evidence for its late Quaternary offset, neoteric earthquake ruptures and surface-rupturing segmentation, from which long-term slip-rates, char-acteristic earthquake magnitudes and recurrence intervals on the fault zone are estimated. This study shows that the LFZ consists of three subordinate faults, and they are the northern Maoyaba fault, Litang fault and Kangga-Dewu fault, respectively. All of them are dominated by left-lateral strike-slip with reverse dip-slip component on different segments. Based on offset landforms and ages of relevant deposits collected from seven sites, it is estimated that the average left-lateral slip-rate on the LFZ reaches 4.0±1.0 mm/a in the past 14 ka BP, and vertical (reverse) dip-slip rate in the range of 0.1―1.8 mm/a. Three subordinate faults are independent earthquake rup-turing segments, on which the maximum moment magnitude of the characteristic earthquakes is estimated to be 7.0―7.3, and their average recurrence interval to be 500―1000 a. The latest earthquake ruptures occurred 119±2 years ago on the northern Maoyaba fault, about 1890 AD on the Litang fault, and in 1948 AD on the Kangga-Dewu fault, and this may indicate a unidirectional migration for surface rupturing earthquakes along the Litang fault zone, related to stress trigger-ing between the segments.
文摘BACKGROUND Ankle fractures are well-documented in snow sports,but concomitant Achilles tendon and peroneal tendon ruptures are rare.This case report presents a previously unreported combination of Achilles tendon rupture,peroneal tendon rupture,and fibular fracture in a snowboarder,highlighting the complex nature of diagnosis,management,and rehabilitation.CASE SUMMARY A 50-year-old male snowboarder presented with severe right ankle pain following a high speed tumbling crash.Initial evaluation revealed an Achilles tendon rupture and a non-displaced distal lateral malleolus fracture.Subsequent magnetic resonance imaging confirmed complete tears of the Achilles tendon and both peroneus longus and brevis tendons,along with a Weber A lateral malleolus fracture.Surgical intervention included a 4-suture core Kraków repair of the Achilles tendon with calcaneal docking,open reduction and internal fixation of the distal fibula fracture,and primary repair of both peroneal tendons.Postoperatively,a modified Achilles repair protocol was implemented.At 16 weeks post-surgery,radiographs showed a well-healed fibular fracture,and physical examination confirmed intact Achilles and peroneal tendon repairs.By 6 months,the patient had regained full daily and work activities,including recreational pursuits.CONCLUSION This case underscores the importance of maintaining a high index of suspicion for concomitant injuries in high-energy ankle trauma during snow sports.Timely advanced imaging and a comprehensive surgical approach are crucial for optimal outcomes in such complex cases.
基金sponsored by the Earthquake Spark Technology Project(XH23051B)。
文摘The Hualien M 7.3 earthquake on April 3,2024,was a significant and strong earthquake in Taiwan,China in the past two decades.The rupture process of the main shock and strong aftershocks is of great significance to the subsequent seismic activity and seismogenic tectonic research.Based on local strong-motion data,we used the IDS(Iterative Deconvolution and Stacking)method to obtain the rupture process of the mainshock and two strong aftershocks on the 23rd.The rupture of the mainshock was mainly unilateral,lasting 31 s,with a maximum slip of 2m,and the depth of the large slip zone is about 41–49 km.There is a clear difference between the rupture depth of the main shock and the two strong aftershocks.The depths of the large slip zones of the latter two are 3–9 km and 8–10 km,respectively.There is also a significant difference in the seismogenic fault between the mainshock and the aftershocks,and we believe that there are two seismogenic fault zones in the study area,the deep and the shallow fault zone.The slip of the deep faults activates the shallow faults.
基金Scientific Research Fund of Institute of Engineering Mechanics,China Earthquake Administration under Grant No.2023C01National Natural Science Foundation of China under Grant No.52478570Distinguished Young Scholars Program of the Natural Science Foundation of Heilongjiang Province,China under Grant No.JQ2024E002。
文摘The 2025 M_(w)7.7 Myanmar earthquake highlighted the challenge of near-fault seismic intensity field reconstruction due to sparse seismic networks.To address this limitation,a framework was proposed integrating seismic wave simulation with a data-constrained finite-fault rupture model.The constraint is implemented by identifying the optimal ground motion models(GMMs)through a scoring system that selects the best-fit GMMs to mid-and far-field China Earthquake Networks Center(CENC)seismic network data;and applying the optimal GMMs to refine the rupture model parameters for near-fault intensity field simulation.The simulated near-fault seismic intensity field reproduces seismic intensities collected from Myanmar’s sparse seismic network and concentrated in≥Ⅷintensity zones within 50 km of the projected fault plane;and identifies abnormal intensity regions exhibiting≥Ⅹintensity along the Meiktila-Naypyidaw corridor and near Shwebo that are attributed to soft soil amplification effects and near-fault directivity.This framework can also be applied to post-earthquake assessments in other similar regions.
基金supported by grants from the Clinical Research and Development Program of Zhongnan Hospital of Wuhan University(LCYF 202205)the National Natural Science Foundation of China(82370671)。
文摘To the Editor:Chylothorax is a serious disease characterized by rupture of the thoracic tube and milky exudation from the pleural cavity,which can lead to a variety of pathological symptoms and is life threatening[1].Chylothorax is common after thoracic surgery or trauma.The non-traumatic chylothorax is rare in the clinical practice,and the etiology is complex and often associated with the primary disease[2].Chylothorax is a rare complication of patients with advanced cirrhosis[3],most of which are manifested as dyspnea,cough,chest pain,and the medical treatment effect is relatively poor.We performed orthotopic liver transplantation(OLT)in a patient with advanced cirrhosis combined with massive chylothorax and chyloperitoneum.The 2-year follow-up showed that the patient’s liver function was stable and no recurrence of chylothorax.
基金supported by Basic and Applied Basic research foundation of Guangdong province(Nos.2021A1515010343 and 2022A1515011582)the Science and Technology Program of Guangdong Province(Nos.2021A0505030026 and 2022A0505050029).
文摘In the scenario of a steam generator tube rupture accident in a lead-cooled fast reactor,secondary circuit subcooled water under high pressure is injected into an ordinary-pressure primary vessel,where a molten lead-based alloy(typically pure lead or lead-bismuth eutectic(LBE))is used as the coolant.To clarify the pressure build-up characteristics under water-jet injection,this study conducted several experiments by injecting pressurized water into a molten LBE pool at Sun Yat-sen University.To obtain a further understanding,several new experimental parameters were adopted,including the melt temperature,water subcooling,injection pressure,injection duration,and nozzle diameter.Through detailed analyses,it was found that the pressure and temperature during the water-melt interaction exhibited a consistent variation trend with our previous water-droplet injection mode LBE experiment.Similarly,the existence of a steam explosion was confirmed,which typically results in a much stronger pressure build-up.For the non-explosion cases,increasing the injection pressure,melt-pool temperature,nozzle diameter,and water subcooling promoted pressure build-up in the melt pool.However,a limited enhancement effect was observed when increasing the injection duration,which may be owing to the continually rising pressure in the interaction vessel or the isolation effect of the generated steam cavity.Regardless of whether a steam explosion occurred,the calculated mechanical and kinetic energy conversion efficiencies of the melt were relatively small(not exceeding 4.1%and 0.7%,respectively).Moreover,the range of the conversion efficiency was similar to that of previous water-droplet experiments,although the upper limit of the jet mode was slightly lower.
文摘BACKGROUND The incidence of acute myocardial infarction(AMI)is rising,with cardiac rupture accounting for approximately 2%of deaths in patients with acute ST-segment elevation myocardial infarction(STEMI).Ventricular free wall rupture(FWR)occurs in approximately 2%of AMI patients and is notably rare in patients with non-STEMI.Types of cardiac rupture include left ventricular FWR,ventricular septal rupture,and papillary muscle rupture.The FWR usually leads to acute cardiac tamponade or electromechanical dissociation,where standard resuscitation efforts may not be effective.Ventricular septal rupture and papillary muscle rupture often result in refractory heart failure,with mortality rates over 50%,even with surgical or percutaneous repair options.CASE SUMMARY We present a rare case of an acute non-STEMI patient who suffered sudden FWR causing cardiac tamponade and loss of consciousness immediate before undergoing coronary angiography.Prompt resuscitation and emergency open-heart repair along with coronary artery bypass grafting resulted in successful patient recovery.CONCLUSION This case emphasizes the risks of AMI complications,shares a successful treatment scenario,and discusses measures to prevent such complications.
基金Scientific Research Fund of Institute of Engineering Mechanics,China Earthquake Administration under Grant No.2024B15National Natural Science Fundation of China under Grant Nos.U2239252 and 52478567Natural Science Foundation of Heilongjiang Province under Grant No.JQ2023E002。
文摘A great earthquake struck central Myanmar on March 28,2025,causing extensive and severe damage in Myanmar and neighboring countries such as Thailand.Observed waveforms indicated the possibility of supershear rupture at the source of this event.To investigate this possibility,a joint source inversion using near-field and teleseismic waveforms was performed.The fault model used,with a total length of 580 km,comprises five segments with varying strike directions and dip angles.Within the first 10 s after initiation at the hypocenter,the rupture propagated southward at a high speed of 5–6 km/s.while rupture in the northern direction proceeded at a speed lower than the local S-wave velocity of 3.5 km/s.Subsequently,the rupture propagated bilaterally in both northern and southern directions at high speeds of 5–6 km/s.The largest asperity,with a maximum slip of 5–6 m,occurred in the shallow part of the fault model,approximately 240 km south of the hypocenter.Large slips of 2–3 m were also found near the southern end of the fault model.Slips on the fault plane were dominated by strike-slip components,though slips south of the largest asperity included significant dip-slip components.
文摘The southern region of Saudi Arabia exhibits a distinct seismic profile shaped by the Red Sea Rift and local fault systems, necessitating rigorous seismic hazard evaluations and tailored structural design strategies. This study applies a robust Probabilistic Seismic Hazard Analysis (PSHA) framework to compute Maximum Considered Earthquake (MCE) and Risk-Targeted Maximum Considered Earthquake (MCER) values for major cities, including Jazan, Abha, and Najran. Utilizing local seismotectonic models, ground motion prediction equations (GMPEs), and soil classifications, the study generates precise ground motion parameters critical for infrastructure planning and safety. Results indicate significant seismic hazard variability, with Jazan showing high seismic risks with an MCER SA (0.2 s) of 0.45 g, compared to Najran’s lower risks at 0.23 g. Structural design guidelines, informed by MCE and MCER calculations, prioritize the integration of site-specific seismic data, enhanced ductility requirements, and advanced analytical methods to ensure resilient and sustainable infrastructure. The study underscores the necessity of localized seismic assessments and modern engineering practices to effectively mitigate seismic risks in this geologically complex region.
文摘Introduction: Arteriovenous malformation is a rare pathology, often discovered accidentally in children. Generally, it presents as an intra-parenchymal hematoma following rupture of the affected vessels. The risk of rupture is linked to the volume of the malformation, its cortical location and venous drainage. In literature, few cases of rupture have been reported in cases of meningitis, but none are associated with a brain abscess. Objective: To report a case of an intraparenchymal hemorrhage due to rupture of an arteriovenous malformation with an associated brain abscess. Observation: The authors report the case of a 2-year-old child, admitted for impaired state of consciousness associated with a right hemiparesis and seizures in a febrile context. Clinical evaluation revealed a Blantyre score of 3, fever at 40˚C, divergent strabismus of the right eye, a right pyramidal syndrome and meningeal irritative syndrome. Cerebral CT scan revealed a left fronto-parietal intra-parenchymal hematoma and a right occipital ring-enhanced lesion, suggesting a brain abscess. An MRI suggested a probable rupture of an arteriovenous malformation resulting in the intra-parenchymal hematoma. Management consisted of craniotomy to evacuate the intra-parenchymal hematoma, antibiotic therapy with vancomycin and ceftriaxone at meningeal doses. Histopathological analysis of the intraoperative sample revealed an arteriovenous malformation. The postoperative course was marked by regression of hyperthermia, persistence of spasticity, irritability and clonic movement of the right lower limb. These were managed with baclofen, phenobarbital, and ergotherapy. We observed a regression of spasticity and improved motor skills in the right limbs. At 6 months follow-up, child could interact with his social environment despite aphasia, regression of spasticity and right hemiparesis. Conclusion: Rupture of arteriovenous malformations can be enhanced by neuro-meningeal infections and particularly brain abscesses. Cerebrovascular complications of these conditions mostly have unfavorable outcomes and neurological sequelae.
基金supported by the National Natural Science Foundation of China(No.52303394)the National Key Research and Development Program of China(No.2022YFB3705000)+1 种基金the Natural Science Foundation of Liaoning Province(No.2023-BS-015)the Science Center for Gas Turbine Project(No.P2022-C-IV-002-001).
文摘The effect of carbon content on the microstructures and stress rupture properties of a newly developed polycrystalline Ni-based superalloy with high Cr content has been studied.It was observed that both grain size and the number of carbides increased with an increase in carbon content.After heat treatment,granular M_(23)C_(6)carbides were dispersed around MC carbides along grain boundaries and inside grains.The quantity of granular M_(23)C_(6)carbides increased while their sizes decreased.These findings can be verified with the results of thermodynamic calculation and differential scanning calorimetry analysis.The stress rupture times(975℃/225 MPa)increased from 13.3 to 25.5 h with the carbon content increased from 0.1 to 0.2 wt.%.The improvement can be attributed to two primary factors.Firstly,grain boundary is typically weak region during deformation process and the grain size increased as carbon content increased in the alloy.Secondly,carbides act as hindrances to impede dislocation movement,leading to dislocation entanglement.As carbon content rose,the quantity of carbides in interdendritic regions and grain boundaries increased,providing a certain degree of strengthening effect and resulting in a longer stress rupture time.
基金Supported by Guangzhou Municipal Science and Technology Bureau,No.SL2024AD3JD0112.
文摘BACKGROUND Boerhaave syndrome,or spontaneous esophageal rupture,is a rare and lifethreatening emergency,typically caused by a sudden increase in esophageal pressure due to violent coughing or vomiting.Early diagnosis is challenging as its symptoms often resemble those of other diseases.Understanding its pathological features and treatment strategies is therefore critical for clinical practice.CASE SUMMARY This report describes a case of spontaneous esophageal rupture triggered by violent coughing in a 55-year-old male with a history of smoking and hypertension.Following severe coughing,the patient developed chest pain,vomiting,and respiratory distress.Initial clinical evaluation was inconclusive,with a suspected diagnosis of cardiovascular or gastrointestinal conditions.After further examination,the diagnosis of spontaneous esophageal rupture was confirmed.Chest X-ray,computed tomography,and endoscopy revealed a rupture in the lower esophagus,along with mediastinal abscess and pleural effusion.Laboratory tests showed mild infection markers.The patient underwent surgical repair of the esophageal rupture(approximately 3 cm in length)with mediastinal drainage.Postoperatively,the patient’s temperature normalized within 3 days,respiratory function improved,and pleural effusion significantly decreased.After two weeks of treatment,the patient was discharged without complications and had a favorable prognosis.The study suggests that while violent coughing is a rare trigger,it can lead to severe damage,and imaging techniques play a crucial role in diagnosis.CONCLUSION Spontaneous esophageal rupture presents significant diagnostic and therapeutic challenges.Early recognition and timely intervention are crucial for improving prognosis.This case highlights the importance of imaging and surgical treatment,offering new insights for managing similar cases and providing valuable clinical guidance.
文摘This article revisits the concept of epistemological rupture by questioning the stark division between scientific and non-scientific thought. Drawing on the theory of representation, it contends that both forms of knowledge are socially constructed, moulded by communication, norms and group dynamics. Rather than labelling non-scientific thought as flawed or regressive, the discussion shows how decontextualization and recontextualization processes apply equally to everyday ‘natural' knowledge and formal science,exposing the social and historical contingencies shaping concepts. Consequently, rupture appears less a sudden break than a gradual threshold reached through dialectical transformations in cognition and society. Rather than conferring total superiority on science, ruptures highlight how certain discourses gain legitimacy while others become ‘non-knowledge'. The article concludes that science's dominance reflects broader power relationships and evolving modes of production and validation. By situating epistemological rupture within these processes, it illuminates how different knowledge forms coexist, evolve and sometimes conflict in stratified social fields—ultimately challenging a simplistic binary between scientific progress and supposedly primitive or natural thought. This viewpoint opens new possibilities for examining the shifting boundaries between rational explanations and the shared beliefs shaping collective reality and daily life.
基金funded by the National Natural Science Foundation of China(Grant No.42304072)。
文摘On December 18,2023,an M_(s)6.2 earthquake jolted Jishishan County in the Linxia Hui Autonomous Prefecture in Northwest China's Gansu Province,causing substantial casualties and building collapses.The earthquake occurred in the Qilian Block on the northeastern border of the Qinghai-Tibet Plateau,where faults are highly active and the geological structure is complex.In this study,we utilized methods such as relocation,focal mechanism solutions,and earthquake rupture processes to describe seismogenic faults.The results indicated that the majority of aftershocks occurred at a depth of 12 km.The centroid depth of the main shock and the depth of the maximum rupture point during the rupture process were also 12 km.Various geophysical methods exhibited a high degree of consistency in depth exploration.Aftershocks were distributed mainly to the west and north of the main shock and extended in the NNW direction,primarily through unilateral rupture.The main shock was a reverse thrust event with a small dextral strike-slip component.In this study,more regional data,such as previous GPS observations,field geological observations,and the distributions of the primary stress states in the region,were also incorporated.We inferred that the main shock was triggered by the main fault at the northern margin of the Lajishan Fault and that the movement of the main fault also activated some secondary faults.The compressive forces on both sides of the Lajishan Fault Zone led to the uplift of mountain areas,accompanied by some landslides,leading to this catastrophic earthquake event.In this article,the activity relationships among the 2022 M_(s)6.9 Menyuan earthquake,the 2019 M_(s)5.7 Xiahe earthquake,and the Jishishan earthquake under the action of regional stress are also discussed.This study provides additional evidence and new ideas for exploring the seismogenic process of the Lajishan Fault Zone and has implications for future in-depth research on underground activity in this region.
基金supported by grants from the National Natu-ral Science Foundation of China(52072005 and 51872279).
文摘Background:The incidence of spontaneously ruptured hepatocellular carcinoma(srHCC)has been shown to significantly elevate mortality rates.However,the precise mechanisms underlying srHCC remain poorly understood.Methods:Analysis was conducted on the data of 198 hepatocellular carcinoma(HCC)patients to inves-tigate the factors contributing to srHCC.The clinical data of 33 transcriptome HCC patients were served for verification.An in-depth transcriptome analysis was conducted to investigate the distinctions between 26 cases of srHCC and 35 cases of non-ruptured hepatocellular carcinoma(nrHCC).Weighted Gene Co-expression Network Analysis(WGCNA)tool was utilized to develop a gene co-expression network.Gene ontology(GO)and Kyoto encyclopedia of genes and genomes(KEGG)pathways enrichment,and protein-protein interaction(PPI)network were carried out.The corresponding samples for spontaneously rup-tured hepatocellular carcinoma tissue(srHCC-T)and ruptured hepatocellular carcinoma paracancerous tissue(srHCC-P)were selected for verification.Transcriptional data were validated through reverse tran-scription quantitative polymerase chain reaction(RT-qPCR).Immunofluorescence(IF),immunohistochem-istry(IHC)and Western blot were used to detect the protein expression.Results:Our results showed that white blood cell(WBC)and monocyte levels were significant inde-pendent risk factors for srHCC(P<0.05).There was a strong association between the srHCC-T and the expression of cell cycle-related genes BUB1B and macrophage function-related gene MACRO.Furthermore,chemokines and the PI3K/AKT signaling pathway play a crucial role in regulating the cell cycle process through a complex network of interactions,ultimately impacting the occurrence of srHCC.Conclusions:Our study confirms that chemokines and the PI3K/AKT signaling pathway mediate the occur-rence of HCC rupture by regulating the cell cycle.We provide a theoretical basis for the clinical treatment of srHCC.
文摘Introduction: Uterine rupture is certainly one of the most serious, as it immediately jeopardises the vital prognosis of the mother and foetus. It is a common obstetric tragedy in our delivery rooms in countries with limited resources, reflecting the poor quality of obstetric care and, consequently, an unmet obstetric need. Methods: This was a descriptive and analytical cross-sectional study with prospective data collection over a four-year period from 1 January 2020 to 31 December 2023 at the University Hospital Centre (CHU) of Bouaké, in the Obstetrics and Gynaecology Department. The variables studied were epidemiological characteristics, therapeutic aspects and factors associated with maternal. Results: The prevalence of uterine rupture was 0.63%. The average age was 32, with patients aged 35 and over accounting for 33.68%, married 44.21% and 70% not in education. Patients with uterine rupture had been evacuated in 85.26% of cases. Uterine rupture was diagnosed in 97.89% of cases during labour. Maternal lethality due to rupture was 15.79%. The causes of maternal death were dominated by haemorrhagic shock (53.33%). Factors statistically associated with death were age ≥ 35 years (OR: 3.14), duration of labour ≥ 12 hours (OR: 5.8), multiparity (OR: 19.04), admission delay beyond 2 hours (OR: 4.36), haemoglobin level ≤ 7 g/dl (OR: 36.84), coma or obnubilation (OR: 71.82), haemorrhagic shock (OR: 243.94) and occurrence of post-operative complications (OR: 76.45). Conclusion: The frequency of uterine rupture remains significant in the department (0.63%), with maternal mortality still high (15.79%). The key to reducing uterine rupture and its consequences lies in timely referral and early, appropriate management.
