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Journal of Medical Engineering & Technology Volume 32, 2008 - Issue 3
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Original Article

Intermittent pneumatic compression—systems and applications

R. J. Morris Department of Medical Physics and Clinical Engineering, University Hospital of Wales, Heath Park, Cardiff, CF14 4XW, UKCorrespondence[email protected]
Pages 179-188 | Published online: 09 Jul 2009

Citations (40)

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G. Belforte, G. Eula, A. Ivanov, R. Grassi, H. Askri & S. Appendino. (2014) Comparison of assembly techniques for textiles used in pneumatic devices. The Journal of The Textile Institute 105:7, pages 717-728.
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Karen L Herbst & Thomas Rutledge. (2010) Pilot study: rapidly cycling hypobaric pressure improves pain after 5 days in adiposis dolorosa. Journal of Pain Research 3, pages 147-153.
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Articles from other publishers (38)

Bitian Wang, Yawei Wang, Hanhao Liu, Zhujun Sun, Junchao Guo, Fang Pu, Guifu Wu & Yubo Fan. (2023) Personalized intermittent pneumatic calf compression frequency for augmenting foot blood perfusion: The optimized effect and a personalized mode predicting method. Journal of Biomechanics 160, pages 111820.
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Karolina Anuszkiewicz, Jerzy Jankau & Martyna Kur. (2022) What do we know about treating breast-cancer-related lymphedema? Review of the current knowledge about therapeutic options. Breast Cancer 30:2, pages 187-199.
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Bitian Wang, Yawei Wang, Zhujun Sun, Hanhao Liu, Weiyan Ren, Ruya Li, Guifu Wu & Yubo Fan. (2022) Multiple blood flow surges during intermittent pneumatic compression: The origins and their implications. Journal of Biomechanics 143, pages 111264.
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Airi Banba, Masafumi Koshiyama, Yumiko Watanabe, Koji Makino, Eri Ikuta, Nami Yanagisawa, Ayumi Ono, Miwa Nakagawa, Keiko Seki, Shin-ichi Sakamoto, Yoko Hara & Akira Nakajima. (2022) Measurement of Skin Thickness Using Ultrasonography to Test the Usefulness of Elastic Compression Stockings for Leg Edema in Pregnant Women. Healthcare 10:9, pages 1754.
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Nimesh Kankariya. (2022) Material, structure, and design of textile-based compression devices for managing chronic edema. Journal of Industrial Textiles 52, pages 152808372211188.
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Weiyan Ren, Yijie Duan, Yih‐Kuen Jan, Jianchao Li, Wei Liu, Fang Pu & Yubo Fan. (2021) Effect of intermittent pneumatic compression with different inflation pressures on the distal microvascular responses of the foot in people with type 2 diabetes mellitus. International Wound Journal 19:5, pages 968-977.
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Dilshan Hedigalla, Malindu Ehelagasthenna, Indrajith D. Nissanka, Ranjith Amarasinghe & Gayani K. Nandasiri. (2022) Numerical Study to Investigate the Pressure Propagation Patterns by a Compression Sleeve with Miniaturised Air-Bladders. Numerical Study to Investigate the Pressure Propagation Patterns by a Compression Sleeve with Miniaturised Air-Bladders.
Mehmet Fatih Celebi, Zeynep Beler, Elif Dede, Emine Dilara Kocak, Ozgur Atalay, Asli Tuncay Atalay & Veysel Gazi. (2022) Textile-Based Thermally Driven Actuators for Soft Robotic Mechanotherapy Applications. Textile-Based Thermally Driven Actuators for Soft Robotic Mechanotherapy Applications.
Mauro Figueiredo Carvalho de Andrade, Anke Bergmann, Eduardo Montag, Jaqueline Baiocchi Munaretto & Alfredo Jacomo. 2022. Vascular Surgery in Oncology. Vascular Surgery in Oncology 501 520 .
Hui Xie, Gongcheng Xu, Congcong Huo, Wenhao Li, Haihong Zhao, Zeping Lv & Zengyong Li. (2021) Brain Function Changes Induced by Intermittent Sequential Pneumatic Compression in Patients With Stroke as Assessed by Functional Near-Infrared Spectroscopy. Physical Therapy 101:9.
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Alex Tang, Katherine A. Lygrisse, Stephen G. Zak, Matthew S. Hepinstall, James D. Slover, William J. Long, Ran Schwarzkopf & William Macaulay. (2021) Low-Dose Aspirin Thromboprophylaxis Is Safe and Effective in Patients Undergoing Total Hip Arthroplasty with or without Outpatient Pneumatic Compression Devices. The Journal of Hip Surgery 05:03, pages 118-125.
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Vanessa Sanchez, Conor J. Walsh & Robert J. Wood. (2020) Textile Technology for Soft Robotic and Autonomous Garments. Advanced Functional Materials 31:6, pages 2008278.
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Anke Bergmann, Jaqueline Munaretto Timm Baiocchi & Mauro Figueiredo Carvalho de Andrade. (2021) Conservative treatment of lymphedema: the state of the art. Jornal Vascular Brasileiro 20.
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Yu Hui Won, Myoung-Hwan Ko & Dong Hyun Kim. (2021) Intermittent pneumatic compression for prolonged standing workers with leg edema and pain. Medicine 100:28, pages e26639.
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Alex Tang, Chelsea sue Sicat, Vivek Singh, Joshua C. Rozell, Ran Schwarzkopf & William J. Long. (2020) Aspirin Use for Venous Thromboembolism Prevention Is Safe and Effective in Overweight and Obese Patients Undergoing Revision Total Hip and Knee Arthroplasty. The Journal of Arthroplasty.
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Rhys John Morris, Bethan Sarah Ridgway & John Patrick Woodcock. (2020) The use of intermittent pneumatic compression of the thigh to affect arterial and venous blood flow proximal to a chronic wound site. International Wound Journal 17:5, pages 1483-1489.
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Ambreen Chohan, Simon Abram, Amy Parkes, Lauren Haworth & Justine C. Whitaker. (2020) Examination of a new mobile intermittent pneumatic compression device in healthy adults. Journal of Wound Care 29:6, pages 370-374.
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Rhys J Morris. (2019) Research quality in the study of mechanical methods of deep vein thrombosis prophylaxis. Phlebology: The Journal of Venous Disease 35:5, pages 297-304.
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Carlo Ferraresi, Carlo De Benedictis, Daniela Maffiodo, Walter Franco, Alessandro Messere, Raffaele Pertusio & Silvestro Roatta. (2019) Design and Simulation of a Novel Pneumotronic System Aimed to the Investigation of Vascular Phenomena Induced by Limb Compression. Journal of Bionic Engineering 16:3, pages 550-562.
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Carlo Ferraresi, Carlo De Benedictis, Daniela Maffiodo, Walter Franco, Alessandro Messere, Raffaele Pertusio & Silvestro Roatta. 2019. New Trends in Medical and Service Robotics. New Trends in Medical and Service Robotics 207 215 .
Christopher J. Payne, Elizabeth Gallardo Hevia, Nathan Phipps, Asli Atalay, Ozgur Atalay, Bo Ri Seo, David J. Mooney & Conor J. Walsh. (2018) Force Control of Textile-Based Soft Wearable Robots for Mechanotherapy. Force Control of Textile-Based Soft Wearable Robots for Mechanotherapy.
Mahan Rahimi, Andrew P. Blaber & Carlo Menon. (2017) Motorized adaptive compression system for enhancing venous return: A feasibility study on healthy individuals. Medical Engineering & Physics 50, pages 65-74.
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Ji Hye Hwang. 2017. Congenital Vascular Malformations. Congenital Vascular Malformations 307 313 .
Natalie Lee, Jane Wigg, Stacy Pugh, Janet Barclay & Hayley Moore. (2016) Lymphoedema management with the LymphFlow Advance pneumatic compression pump. British Journal of Community Nursing 21:Sup10, pages S13-S19.
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Daniela Maffiodo, Giuseppe De Nisco, Diego Gallo, Alberto Audenino, Umberto Morbiducci & Carlo Ferraresi. (2016) A reduced-order model-based study on the effect of intermittent pneumatic compression of limbs on the cardiovascular system. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 230:4, pages 279-287.
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Zhe Wang, Qian Chen, Mao Ye, Guang-Hui Shi & Bo Zhang. (2016) Active Ankle Movement May Prevent Deep Vein Thrombosis in Patients Undergoing Lower Limb Surgery. Annals of Vascular Surgery 32, pages 65-72.
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Martin Dennis, Peter Sandercock, Catriona Graham & John Forbes. (2015) The Clots in Legs Or sTockings after Stroke (CLOTS) 3 trial: a randomised controlled trial to determine whether or not intermittent pneumatic compression reduces the risk of post-stroke deep vein thrombosis and to estimate its cost-effectiveness. Health Technology Assessment 19:76, pages 1-90.
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KJ Williams, HM Moore & AH Davies. (2014) Haemodynamic changes with the use of neuromuscular electrical stimulation compared to intermittent pneumatic compression. Phlebology: The Journal of Venous Disease 30:5, pages 365-372.
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Marzanna ZaleskaWaldemar L. OlszewskiMarta CakalaJaroslaw CwiklaTadeusz Budlewski. (2015) Intermittent Pneumatic Compression Enhances Formation of Edema Tissue Fluid Channels in Lymphedema of Lower Limbs. Lymphatic Research and Biology 13:2, pages 146-153.
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Barry J Broderick, Sandra O?Connell, Shelly Moloney, Kevin O?Halloran, James Sheehan, Fabio Quondamatteo, Leo R Quinlan & Gearoid ?Laighin. (2014) Comparative lower limb hemodynamics using neuromuscular electrical stimulation (NMES) versus intermittent pneumatic compression (IPC). Physiological Measurement 35:9, pages 1849-1859.
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Carlo Ferraresi, Daniela Maffiodo & Hamidreza Hajimirzaalian. (2013) A model-based method for the design of intermittent pneumatic compression systems acting on humans. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine 228:2, pages 118-126.
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Yi Shao, Kang Qi, Qing-Hua Zhou & Dian-Sheng Zhong. (2014) Intermittent Pneumatic Compression Pump for Breast Cancer-Related Lymphedema: A Systematic Review and Meta-Analysis of Randomized Controlled Trials. Oncology Research and Treatment 37:4, pages 170-174.
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Ryan D. Sheldon, Bruno T. Roseguini, M. Harold Laughlin & Sean C. Newcomer. (2013) New insights into the physiologic basis for intermittent pneumatic limb compression as a therapeutic strategy for peripheral artery disease. Journal of Vascular Surgery 58:6, pages 1688-1696.
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Martijn L. Dijkstra, Nyan Y. Khin, Shannon D. Thomas & Rodney J. Lane. (2013) Popliteal vein compression syndrome pathophysiology and correlation with popliteal compartment pressures. Journal of Vascular Surgery: Venous and Lymphatic Disorders 1:2, pages 181-186.
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Erica Arverud, Jorge Azevedo, Fausto Labruto & Paul W. Ackermann. (2012) Adjuvant compression therapy in orthopaedic surgery?an evidence-based review. European Orthopaedics and Traumatology 4:1, pages 49-57.
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Mark Oremus, Ian Dayes, Kathryn Walker & Parminder Raina. (2012) Systematic review: conservative treatments for secondary lymphedema. BMC Cancer 12:1.
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B. T. Roseguini, S. Mehmet Soylu, J. J. Whyte, H. T. Yang, S. Newcomer & M. H. Laughlin. (2010) Intermittent pneumatic leg compressions acutely upregulate VEGF and MCP-1 expression in skeletal muscle. AJP: Heart and Circulatory Physiology 298:6, pages H1991-H2000.
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Carol Tweed & Neil Wigglesworth. (2009) Re-using intermittent pneumatic compression garments designed for single-patient-use is a potential source of cross-infection. Journal of Infection Prevention 10:4, pages 128-133.
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