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Journal articles on the topic 'Effusive'

Author: Grafiati
Published: 10 December 2022
Last updated: 19 July 2025

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1

D'Souza, Melroy S., Kaitlin Shinn, and Anup D. Patel. "Posttraumatic Subacute Effusive-Constrictive Pericarditis After a Motor Vehicle Accident." Texas Heart Institute Journal 47, no. 3 (2020): 233–35. http://dx.doi.org/10.14503/thij-19-7002.

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Effusive-constrictive pericarditis is typically caused by tuberculosis or other severe inflammatory conditions that affect the pericardium. We report a case of effusive-constrictive pericarditis consequent to a motor vehicle accident. A 32-year-old man with gastroesophageal reflux disease presented with severe substernal chest pain of a month's duration and dyspnea on exertion for one week. Echocardiograms revealed a moderate pericardial effusion, and the diagnosis was subacute effusive-constrictive pericarditis. After thorough tests revealed nothing definitive, we learned that the patient had been in a motor vehicle accident weeks before symptom onset, which made blunt trauma the most likely cause of pericardial injury and effusion. Medical management resolved the effusion and improved his symptoms. To our knowledge, this is the first report of effusion from posttraumatic constrictive pericarditis associated with a motor vehicle accident. We encourage providers to consider recent trauma as a possible cause of otherwise idiopathic pericarditis.
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2

Adamson, Van W., Jennifer N. Slim, Kenneth M. Leclerc, and Ahmad M. Slim. "A Rare Case of Effusive Constrictive Cholesterol Pericarditis: A Case Report and Review." Case Reports in Medicine 2013 (2013): 1–2. http://dx.doi.org/10.1155/2013/439505.

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Effusive constrictive cholesterol pericarditis is exceedingly rare. Most cases have an unclear etiology but can be associated with rheumatoid arthritis, tuberculosis infection, and hypothyroidism. The hallmark of the effusion is the distinctively high levels of cholesterol. We present the case of a 68-year-old male with prolonged symptoms of dyspnea with associated moderate pericardial effusion that were later determined to be constrictive effusive etiology, and the patient was referred for stripping with pathologic cholesterol crystal formation on pathology review.
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3

Wang, Wen, Yan Yan, Yeqi Zhou, and Jiahuan Cui. "Review of Advanced Effusive Cooling for Gas Turbine Blades." Energies 15, no. 22 (2022): 8568. http://dx.doi.org/10.3390/en15228568.

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Turbine inlet temperature has continuously increased to improve gas turbine performance during the past few decades. Although internal convection cooling and traditional film cooling have contributed significantly to the current achievement, advanced cooling schemes are needed to minimize the coolant consumption and maximize the cooling efficiency for future gas turbines. This paper conducts a comprehensive review of advanced effusive cooling schemes for gas turbine blades. First, the background and the history of turbine blade cooling are introduced. Then, the metrics of effusive cooling efficiency are defined. Next, effusion cooling, impingement/effusion cooling, and transpiration cooling are reviewed. The flow and heat transfer mechanisms of the cooling schemes are emphasized, and the design trends of the cooling schemes are revealed. Finally, the conclusions and future research perspectives are summarized.
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4

Erickson, Brandon, Gurpreet Dhaliwal, Mark C. Henderson, Ezra Amsterdam, and Joseph Rencic. "Effusive Reasoning." Journal of General Internal Medicine 26, no. 10 (2011): 1204–8. http://dx.doi.org/10.1007/s11606-011-1785-7.

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5

Kelly, Bryan, and Darlene Nelson. "RECURRENT LEFT PLEURAL EFFUSION CAUSED BY EFFUSIVE CONSTRICTIVE PERICARDITIS." Chest 156, no. 4 (2019): A1915. http://dx.doi.org/10.1016/j.chest.2019.08.1650.

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6

SANTARONE, M. "Effusive-constrictive pericarditis." Heart 83, no. 5 (2000): 556. http://dx.doi.org/10.1136/heart.83.5.556.

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7

Ayan, Mohamed, Aisha Siraj, and Sabha Bhatti. "EFFUSIVE CONSTRICTIVE PERICARDITIS." Journal of the American College of Cardiology 71, no. 11 (2018): A2383. http://dx.doi.org/10.1016/s0735-1097(18)32924-3.

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8

Sagristà-Sauleda, Jaume, Juan Angel, Antonio Sánchez, Gaietà Permanyer-Miralda, and Jordi Soler-Soler. "Effusive–Constrictive Pericarditis." New England Journal of Medicine 350, no. 5 (2004): 469–75. http://dx.doi.org/10.1056/nejmoa035630.

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9

Syed, Faisal F., Mpiko Ntsekhe, Bongani M. Mayosi, and Jae K. Oh. "Effusive-constrictive pericarditis." Heart Failure Reviews 18, no. 3 (2012): 277–87. http://dx.doi.org/10.1007/s10741-012-9308-0.

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10

Zurick, Andrew O., and Allan L. Klein. "Effusive-Constrictive Pericarditis." Journal of the American College of Cardiology 56, no. 1 (2010): 86. http://dx.doi.org/10.1016/j.jacc.2009.10.088.

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11

Garg, Rajeev, Avneet Singh, and Anand Chockalingam. "Effusive Constrictive Pericarditis." Congestive Heart Failure 15, no. 4 (2009): 199–201. http://dx.doi.org/10.1111/j.1751-7133.2008.00032.x.

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12

Miranda, William R., and Jae K. Oh. "Effusive-Constrictive Pericarditis." Cardiology Clinics 35, no. 4 (2017): 551–58. http://dx.doi.org/10.1016/j.ccl.2017.07.008.

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13

Zheng, Xu-Zhi, Yi-Ting Tsai, Chih-Yuan Lin, Chien-Sung Tsai, and Yi-Chang Lin. "Effusive Tuberculous Pericarditis." Annals of Thoracic Surgery 104, no. 5 (2017): e397. http://dx.doi.org/10.1016/j.athoracsur.2017.07.010.

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14

Sagristà-Sauleda, J., J. Angel, A. Sánchez, G. Permanyer-Miralda, and J. Soler-Soler. "Effusive-constrictive pericarditis." ACC Current Journal Review 13, no. 4 (2004): 14. http://dx.doi.org/10.1016/j.accreview.2004.03.083.

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15

Passarelli, I., G. Castelli, M. Pirondini, et al. "P398 ACUTE PERICARDITIS COMPLICATED BY RAPID DEVELOPMENT OF CONSTRICTION: A CASE REPORT." European Heart Journal Supplements 25, Supplement_D (2023): D200—D201. http://dx.doi.org/10.1093/eurheartjsupp/suad111.469.

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Abstract A 57–years–old man with no previous cardiovascular history presented with fever, hypotension, dyspnoea at rest and chest pain. The electrocardiogram showed sinus tachycardia, PR–segment depression and diffuse concave–upwards ST–segment elevation. Elevated C–reactive protein and low pro–BNP level were found at lab tests, procalcitonin and troponin were negative. Chest X–ray showed bilateral pleural effusion. Transthoracic echocardiogram (TTE) revealed mild–to–moderate serofibrinous pericardial effusion with initial diastolic collapse of right chambers, suggesting cardiac pre–tamponade. Because of the exiguity of liquid component, pericardiocentesis was not performed, patient was stabilized by fluid–challenge with hypertonic solution. Ibuprofen and colchicine were started. Left thoracentesis was performed removing one liter of fluid overall compatible with transudate. Cytological and microbiological examinations were negative. Despite of initial clinical improvement, the patient showed kidney failure and worsening of lung failure; perianal abscess was detected causing sepsis and requiring surgical drainage and antibiotic therapy with vancomycin and piperacillin/tazobactam. Culture exams were negative. After ibuprofen replacement with indomethacin a repeated TTE showed reduced pericardial effusion, but also respiratory variation in ventricular filling with signs of interventricular dependence. Cardiac magnetic resonance showed thickening and high signal intensity of pericardial layers on T2 weighted imaging and ventricular septal shift on free–breathing cine sequences, suggesting effusive–constrictive pericarditis. Left and right cardiac catheterization demonstrated ventricular “dip and plateau” pattern and ventricular discordance. Considering the lack of clinical improvement on medical therapy, off–bypass pericardiectomy was performed. Incomplete adhesion between the two pericardial layers and thick gelatinous material were found. After surgery patient experienced rapid clinical improvement; cardiac index increased from 1.5 to 3.5 L/min/m2. Effusive–constrictive pericarditis is a rare and dreaded complication of acute pericarditis. Surgery, when appropriated, is crucial for prognosis. In our case initial response to anti–inflammatory therapy with reduced pericardial effusion unmasked constrictive physiology in an effusive–constrictive pericarditis. Clinical management was complicated by sepsis which could have played a role in constriction developing.
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16

Wadsworth, Fabian B., Edward W. Llewellin, Jérémie Vasseur, James E. Gardner, and Hugh Tuffen. "Explosive-effusive volcanic eruption transitions caused by sintering." Science Advances 6, no. 39 (2020): eaba7940. http://dx.doi.org/10.1126/sciadv.aba7940.

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Silicic volcanic activity has long been framed as either violently explosive or gently effusive. However, recent observations demonstrate that explosive and effusive behavior can occur simultaneously. Here, we propose that rhyolitic magma feeding subaerial eruptions generally fragments during ascent through the upper crust and that effusive eruptions result from conduit blockage and sintering of the pyroclastic products of deeper cryptic fragmentation. Our proposal is supported by (i) rhyolitic lavas are volatile depleted; (ii) textural evidence supports a pyroclastic origin for effusive products; (iii) numerical models show that small ash particles ≲10−5 m can diffusively degas, stick, and sinter to low porosity, in the time available between fragmentation and the surface; and (iv) inferred ascent rates from both explosive and apparently effusive eruptions can overlap. Our model reconciles previously paradoxical observations and offers a new framework in which to evaluate physical, numerical, and geochemical models of Earth’s most violent volcanic eruptions.
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17

Cordova Sanchez, Andres, Mostafa Vasigh, Ravi Singh, Adriana May, Mehdi Marvasti, and Sakti Pada Mookherjee. "Right Heart Failure With Recurrent Pericardial Effusion Mimicking Effusive-Constrictive Pericarditis Several Years After Renal Transplantation." Journal of Investigative Medicine High Impact Case Reports 10 (January 2022): 232470962211117. http://dx.doi.org/10.1177/23247096221111765.

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Pericardial disease is a rare complication after renal transplantation. We present a patient who developed high-output cardiac failure from a large arteriovenous (AV) fistula with recurrent pericardial effusion resulting in a constrictive hemodynamic pattern that was revealed during cardiac catheterization. Pericardiectomy was considered for recurrent effusive pericarditis, but per cardiac surgery recommendations, closure of the AV fistula dramatically cured the patient’s heart failure, and no recurrence of pericardial effusion was seen during follow-up almost a year later.
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18

Imazio, Massimo, Marzia Colopi, and Gaetano Maria De Ferrari. "Pericardial diseases in patients with cancer: contemporary prevalence, management and outcomes." Heart 106, no. 8 (2020): 569–74. http://dx.doi.org/10.1136/heartjnl-2019-315852.

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Neoplastic pericardial effusion is a common and serious manifestation of advanced malignancies. Lung and breast carcinoma, haematological malignancies, and gastrointestinal cancer are the most common types of cancer involving the pericardium. Pericardial involvement in neoplasia may arise from several different pathophysiological mechanisms and may be manifested by pericardial effusion with or without tamponade, effusive-constrictive pericarditis and constrictive pericarditis. Management of these patients is a complex multidisciplinary problem, affected by clinical status and prognosis of patients.
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19

Coppola, Diego, Simone Aveni, Adele Campus, Marco Laiolo, Francesco Massimetti, and Benjamin Bernard. "Rapid Response to Effusive Eruptions Using Satellite Infrared Data: The March 2024 Eruption of Fernandina (Galápagos)." Remote Sensing 17, no. 7 (2025): 1191. https://doi.org/10.3390/rs17071191.

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On 3 March 2024, a new effusive eruption began from a sub-circular fissure on the southeast upper flank of the Fernandina volcano (Galápagos archipelago, Ecuador). Although the eruption posed no threat to people, as the island is uninhabited, it provided an opportunity to test a rapid response system for effusive eruptions, based on satellite infrared (IR) data. In this work, we illustrate how the analysis of data from multiple IR sensors allowed us to monitor the eruption in near real-time (NRT), providing recurrent updates on key parameters, such as (i) lava discharge rate and trend, (ii) erupted lava volume, (iii) lava field area, (iv) active flow front position (v) flow velocity, (vi) location of active vents and breakouts, and (vii) emplacement style. Overall, the eruption lasted 68 days, during which 58.5 ± 29.2 Mm3 of lava was erupted and an area of 14.9 ± 0.5 km2 was invaded. The eruption was characterized by a peak effusion rate of 206 ± 103 m3/s, an initial velocity of ~2.3 km/h, and by an almost exponential decline in the effusion rate, accompanied by a transition from channel- to tube-fed emplacement style. The advance of the lava flow was characterized by three lengthening phases that allowed the front to reach the coast (~12.5 km from the vent) after 36 days (at an average velocity of ~0.015 km/h). The results demonstrate the efficiency of satellite thermal data in responding to effusive eruptions and maintaining situational awareness at remote volcanoes where ground-based data are limited or completely unavailable. The requirements, limitations, and future perspectives for applying this rapid response protocol on a global scale are finally discussed.
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20

Haq, Ikram, Daniel Davies, Rebecca Yao, Garrett A. Welle, and Mandeep Singh. "EFFUSIVE-CONSTRICTIVE TUBERCULOUS PERICARDITIS." Journal of the American College of Cardiology 79, no. 9 (2022): 2629. http://dx.doi.org/10.1016/s0735-1097(22)03620-8.

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21

Ayhan, Erkan. "Transient effusive constrictive pericarditis." Dicle Medical Journal / Dicle Tip Dergisi 39, no. 4 (2012): 571–74. http://dx.doi.org/10.5798/diclemedj.0921.2012.04.0203.

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22

Bhatti, Zabeer, Zohair Hasan, Alexander Volodarsky, Xuming Dai, and Yuvrajsinh Parmar. "TUBERCULOUS EFFUSIVE-CONSTRICTIVE PERICARDITIS." Journal of the American College of Cardiology 73, no. 9 (2019): 2484. http://dx.doi.org/10.1016/s0735-1097(19)33090-6.

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23

Paiardi, Silvia, Marta Pellegrino, Francesco Cannata, Monica Bocciolone, and Antonio Voza. "Transitory effusive-constrictive pericarditis." American Journal of Emergency Medicine 36, no. 3 (2018): 524.e1–524.e6. http://dx.doi.org/10.1016/j.ajem.2017.11.047.

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24

Erickson, Brandon, Gurpreet Dhaliwal, Mark C. Henderson, Ezra Amsterdam, and Joseph Rencic. "Erratum to: Effusive Reasoning." Journal of General Internal Medicine 26, no. 10 (2011): 1235. http://dx.doi.org/10.1007/s11606-011-1846-y.

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25

Klein, Allan L., and Paul C. Cremer. "Ephemeral Effusive Constrictive Pathophysiology." JACC: Cardiovascular Imaging 11, no. 4 (2018): 542–45. http://dx.doi.org/10.1016/j.jcmg.2017.10.028.

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26

Sukanto, Wega, Adrian Tangkilisan, Christa Tamburian, and Gufi George Stefanus. "EFFUSIVE CONSTRICTIVE PERICARDITIS: HOW TO DIFFERENTIATE WITH CARDIAC TAMPONADE." Jurnal Impresi Indonesia 2, no. 10 (2023): 1003–8. http://dx.doi.org/10.58344/jii.v2i10.3766.

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Constrictive-effusive pericarditis (ECP) is a rare syndrome but is gaining increasing attention in the classification of pericardial diseases. The aim of this research is to identify the differences in clinical symptoms between constrictive pericardial effusion and cardiac tamponade, such as chest pain, shortness of breath, blood pressure, heart rate, and other symptoms. We report the case of a 67-year-old man who had exertional dyspnea, lack of energy, fatigue, and pleuritic chest pain for the past 6 months. X-rays showed pericardial effusion and pericardial thickening with calcification indicating constrictive pericarditis. Echocardiographic examination also revealed similar findings. The patient then underwent pericardiectomy, during which the pericardial effusion was evacuated. However, after this procedure, cardiac contractions were still limited, underlying the constrictive process. This case illustrates the complexity in differentiating constrictive pericarditis from cardiac tamponade and the importance of accurate diagnosis in the management of this pericardial disease. In this case report, we discuss the clinical findings, diagnostic measures, and management implications in a patient with overt constrictive pericarditis.
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27

Fidalgo García, María, Juan Carlos Rodríguez Sanjuán, María Riaño Molleda, Marta González Andaluz, Hector Real Noval, and Manuel Gómez Fleitas. "Purulent Pericarditis after Liver Abscess: A Case Report." Case Reports in Medicine 2014 (2014): 1–3. http://dx.doi.org/10.1155/2014/735478.

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We present the case of a 49-year-old woman, with previous clinical antecedents of recent hepatic metastasis, who was admitted to the ICU due to respiratory failure and hemodynamic instability. She was found to have purulent pericarditis complicated by pericardial tamponade and pleural effusion, as well as surgical site infection, which was the origin of the disease. Cultures of the surgical wound and the pericardial effusion were positive forEnterococcus faecalisandEscherichia coli. A pericardial tap was performed and the intra-abdominal abscess was surgically drained. Pleural effusion was also evacuated. She received antibiotic treatment and recovered successfully. The only after-effect was a well-tolerated effusive-constrictive pericarditis.
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28

P Chaurasia, Sandeep, PP Deshmukh, and Harshwardhan V Khandait. "Effusive-Constrictive Pericarditis with Echocardiography - Its Importance." International Journal of Science and Research (IJSR) 11, no. 8 (2022): 52–57. http://dx.doi.org/10.21275/sr22730162126.

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29

Pedersen, Jens Olaf Pepke. "Relative-Velocity Distributions for Two Effusive Atomic Beams in Counterpropagating and Crossed-Beam Geometries." Advances in Mathematical Physics 2012 (2012): 1–18. http://dx.doi.org/10.1155/2012/906414.

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Formulas are presented for calculating the relative velocity distributions in effusive, orthogonal crossed beams and in effusive, counterpropagating beams experiments, which are two important geometries for the study of collision processes between atoms. In addition formulas for the distributions of collision rates and collision energies are also given.
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30

Dunbar, Dawn, Wendy Kwok, Elizabeth Graham, et al. "Diagnosis of non-effusive feline infectious peritonitis by reverse transcriptase quantitative PCR from mesenteric lymph node fine-needle aspirates." Journal of Feline Medicine and Surgery 21, no. 10 (2018): 910–21. http://dx.doi.org/10.1177/1098612x18809165.

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Objectives The aim of this study was to evaluate a feline coronavirus (FCoV) reverse transcriptase quantitative PCR (RT-qPCR) on fine-needle aspirates (FNAs) from mesenteric lymph nodes (MLNs) collected in sterile saline for the purpose of diagnosing non-effusive feline infectious peritonitis (FIP) in cats. Methods First, the ability of the assay to detect viral RNA in MLN FNA preparations compared with MLN biopsy preparations was assessed in matched samples from eight cats. Second, a panel of MLN FNA samples was collected from a series of cats representing non-effusive FIP cases (n = 20), FCoV-seropositive individuals (n = 8) and FCoV-seronegative individuals (n = 18). Disease status of the animals was determined using a combination of gross pathology, histopathology and/or ‘FIP profile’, consisting of serology, clinical pathology and clinical signs. Results Viral RNA was detected in 18/20 non-effusive FIP cases; it was not detected in two cases that presented with neurological FIP. Samples from 18 seronegative non-FIP control cats and 7/8 samples from seropositive non-FIP control cats contained no detectable viral RNA. Thus, as a method for diagnosing non-effusive FIP, MLN FNA RT-qPCR had an overall sensitivity of 90.0% and specificity of 96.1%. Conclusions and relevance In cases with a high index of suspicion of disease, RT-qPCR targeting FCoV in MLN FNA can provide important information to support the ante-mortem diagnosis of non-effusive FIP. Importantly, viral RNA can be reliably detected in MLN FNA samples in saline submitted via the national mail service. When applied in combination with biochemistry, haematology and serological tests in cases with a high index of suspicion of disease, the results of this assay may be used to support a diagnosis of non-effusive FIP.
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31

Ibe, Tatsuro, Tomohiro Nakamura, Yousuke Taniguchi, and Shin-ichi Momomura. "IgG4-related effusive constrictive pericarditis." European Heart Journal – Cardiovascular Imaging 17, no. 6 (2016): 707. http://dx.doi.org/10.1093/ehjci/jew056.

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32

Maisch, Bernhard. "Effusive-constrictive pericarditis: current perspectives." Journal of Vascular Diagnostics and Interventions Volume 6 (September 2018): 7–14. http://dx.doi.org/10.2147/jvd.s125950.

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33

Hirata, Kazuhito, Izumi Nakayama, and Minoru Wake. "Acute Transient Effusive-Constrictive Pericarditis." JACC: Case Reports 1, no. 4 (2019): 616–21. http://dx.doi.org/10.1016/j.jaccas.2019.08.027.

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34

Kim, Kye Hun, William R. Miranda, Larry J. Sinak, et al. "Effusive-Constrictive Pericarditis After Pericardiocentesis." JACC: Cardiovascular Imaging 11, no. 4 (2018): 534–41. http://dx.doi.org/10.1016/j.jcmg.2017.06.017.

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35

Cruz, Daniel, Haitham Ahmed, Yousuf Gandapur, and M. Roselle Abraham. "Propionibacterium acnes: A Treatable Cause of Constrictive Pericarditis." Case Reports in Medicine 2015 (2015): 1–3. http://dx.doi.org/10.1155/2015/193272.

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In this case report we share a case of infective Pericarditis caused byPropionibacterium acnes(P. acnes) in an immune-competent, nonsurgical patient. This case and review will illustrate the importance of consideringP. acnesas a cause of idiopathic pericardial effusion and effusive constrictive disease. The patient was a 61-year-old male with history of osteoarthritis of the knee. He received an intra-articular steroid injection in July 2013. Two months later, he presented with atrial fibrillation and heart failure. He was found to have pericardial and bilateral pleural effusions which grewP. acnes. This organism was initially considered to be contaminant; however, asP. acneswas isolated from both pleural and pericardial fluids, he was started on oral amoxicillin. He was noted to have recurrence of effusions within 2 weeks with evidence of constrictive physiology by echocardiography. Treatment was subsequently changed to intravenous Penicillin G with marked symptomatic improvement, resolution of pericardial/pleural effusions, and no echocardiographic evidence of constrictive pericarditis at 10 weeks follow-up. Pursuit and treatment ofP. acnescould lead to prevention of constrictive pericarditis. We believe that further studies are needed to assess prevalence ofP. acnesand response to intravenous Penicillin G in patients presenting with effusive constrictive disease.
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36

Degterev, A. V. "Activation of the Sarychev Peak volcano in 2020–2021 (Matua Isl., the Central Kuril Islands)." Geosystems of Transition Zones 5, no. 2 (2021): 167–71. http://dx.doi.org/10.30730/gtrz.2021.5.2.167-171.

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This publication, based on remote sensing data, examines the features of the effusive eruption of the Sarychev Peak volcano (Matua Isl., the Central Kuril Islands), which took place from December 2020 till February 2021. On the basis of the analysis of the Sentinel satellite data, it was established that starting from December 2020, the crater of the Sarychev Peak volcano began to fill with lava. As of January 18, 2021, it was completely filled, then lava outpouring through a fissure in the north-northwest part began. A lava flow (length 2 km, width 80–90 m) descended along the bottom of the valley, which cuts the northwestern slope of the volcanic cone. The outpouring of lava was completed by February 7, 2021. The effusive eruption of the Sarychev Peak volcano in 2020–2021 is atypical for the modern stage of eruptive history, characterized mainly by explosive and explosive-effusive type of eruptions.
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37

Buyukbayrak, Fuat, Eray Aksoy, Serpil Tas, and Kaan Kirali. "Surgical management of effusive constrictive pericarditis." Cardiovascular Journal Of Africa 24, no. 8 (2013): 303–7. http://dx.doi.org/10.5830/cvja-2013-042.

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38

Piehler, Jeffrey M., James R. Pluth, Hartzell V. Schaff, Gordon K. Danielson, Thomas A. Orszulak, and Francisco J. Puga. "Surgical management of effusive pericardial disease." Journal of Thoracic and Cardiovascular Surgery 90, no. 4 (1985): 506–16. http://dx.doi.org/10.1016/s0022-5223(19)38563-0.

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39

van der Bijl, Pieter, Philip Herbst, and Anton F. Doubell. "Redefining Effusive-Constrictive Pericarditis with Echocardiography." Journal of Cardiovascular Ultrasound 24, no. 4 (2016): 317. http://dx.doi.org/10.4250/jcu.2016.24.4.317.

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40

Patil, V. V., M. V. Bodakhe, K. S. Munde, and N. O. Bansal. "Pulmonary Embolism Masking Effusive Constrictive Pericarditis." Indian Heart Journal 71 (November 2019): S81—S82. http://dx.doi.org/10.1016/j.ihj.2019.11.186.

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41

Hazelrigg, Stephen R., Michael J. Mack, Rodney J. Landreneau, Tea E. Acuff, Paul E. Seifert, and James E. Auer. "Thoracoscopic pericardiectomy for effusive pericardial disease." Annals of Thoracic Surgery 56, no. 3 (1993): 792–95. http://dx.doi.org/10.1016/0003-4975(93)90982-n.

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42

Azarisman, Shah M., James D. Richardson, S. K. Chua, Michael S. Cunningham, Karen S. Teo, and Stephen G. Worthley. "An Ideal Image: Effusive Constrictive Pericarditis." American Journal of Medicine 126, no. 1 (2013): 25–26. http://dx.doi.org/10.1016/j.amjmed.2012.08.014.

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43

Kiamanesh, Omid, Adriana Luk, Gillian C. Nesbitt, Mitesh Badiwala, and Susanna Mak. "Pericardial waffle for effusive‐constrictive pericarditis." ESC Heart Failure 7, no. 5 (2020): 3213–14. http://dx.doi.org/10.1002/ehf2.12926.

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44

Lanier, Brennan, Edgar Acuna-Morin, Rachel Park, Hogan K. Hudgins, Chandan Buttar, and Robert C. Hendel. "POST-CARDIAC SURGERY EFFUSIVE-CONSTRICTIVE PERICARDITIS." Journal of the American College of Cardiology 81, no. 8 (2023): 3193. http://dx.doi.org/10.1016/s0735-1097(23)03637-9.

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45

Oughebbi, Ismail, Reda Bzikha, Mustapha Harandou, and Mohamed Messouak. "PERICARDIECTOMY FOR TUBERCULOUS EFFUSIVE-CONSTRICTIVE PERICARDITIS." International Journal of Advanced Research 11, no. 03 (2023): 1073–77. http://dx.doi.org/10.21474/ijar01/16536.

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Effusive-constrictive pericarditis isan uncommon condition characterizedby concomitant existence of pericardial effusionand constriction caused by the visceral pericardium. Tuberculosis remains the main cause in developing countries.The clinical profile of our case is presented as well as a discussion of the definition, etiologies, indications for surgery and surgical management.
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46

Majid, Muhammad, Zachary S. Yaker, Chad Brands, Shinya Unai, and Allan L. Klein. "Not So Transient Effusive-Constrictive Pericarditis." JACC: Case Reports 28 (December 2023): 102088. http://dx.doi.org/10.1016/j.jaccas.2023.102088.

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47

Shah, Anand D., Daniel L. Molloy, and John E. A. Blair. "Hemodynamic Findings of Effusive-Constrictive Pericarditis." JACC: Cardiovascular Interventions 9, no. 17 (2016): e167-e168. http://dx.doi.org/10.1016/j.jcin.2016.05.047.

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48

Shankar, Bairavi, and Joseph Ebinger. "EFFUSIVE CONSTRICTIVE PERICARDITIS FROM MRSA BACTEREMIA." Journal of the American College of Cardiology 85, no. 12 (2025): 4118. https://doi.org/10.1016/s0735-1097(25)04602-9.

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Kahlon, Tanvir K., Ryan Kuhnlein, Jerry Sojan, and Raghavendra Kamath. "SYSTEMIC SCLEROSIS PRESENTING AS AN EFFUSIVE CONSTRICTIVE PERICARDITIS SYSTEMIC SCLEROSIS PRESENTING AS AN EFFUSIVE CONSTRICTIVE PERICARDITIS." Journal of the American College of Cardiology 71, no. 11 (2018): A2420. http://dx.doi.org/10.1016/s0735-1097(18)32961-9.

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50

Бойнагрян, В. Р. "ПРОЯВЛЕНИЯ КАРСТА И ОБРАЗОВАНИЕ ПОДЗЕМНЫХ ПУСТОТ НА АРМЯНСКОМ НАГОРЬЕ". Proceedings of the YSU C: Geological and Geographical Sciences 49, № 3 (238) (2015): 31–37. http://dx.doi.org/10.46991/pysu:c/2015.49.3.031.

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Displays of karst in calcareous rocks and forming of underground emptinesses in effusive rocks of Armenian highlands have been examined in the article. Broad spreading limestone-dolomite rocks in the mountains of the Minor Caucasus, Armenian Eastern Taurus and Inside Taurus, their considerable dislocation and intensive partition of ranges by deep valleys assist in developing of karst in the highland. In effusive rocks the formation of underground emptinesses are only partially. A lot of emptinesses are formed in them as a result of cooling of lava flow and loss of gas.
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