Abstract
Glucose drips which are also known as dextrose, are widely used in medical sector as an energy supplement. When the glucose drip bottle is emptied and if not detached from the body, blood will start to flow in a reverse direction through the tube and fills the glucose bottle making the condition of the patient worse. The conventional method needs to change the glucose drip bottle once it is emptied with the new one as per requirement. This demands a skilled person for monitoring the patient and dextrose level. This present work aims to analyze the smart device to control the reverse flow of blood from the intravenous line. The device uses the specially designed unidirectional valve, automatic flow limiting valve and storage cylinder to meet the above problems. Static analysis of cylinder and unidirectional valve has been analyzed. Flow analysis of glucose through the unidirectional valve, arresting of blood during the reverse flow has been analyzed through mathematical calculation and simulation.
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References
Dremin V, Kozlov I, Volkov M, Margaryants N, Potemkin A, Zherebtsov E, Dunaev A, Gurov I (2019) Dynamic evaluation of blood flow microcirculation by combined use of the laser Doppler flowmetry and high-speed videocapillaroscopy methods. J Biophotonics 12(6):e201800317
De Mul F, Van Spijker J, Van der Plas D, Greve J, Aarnoudse J, Smits T (1984) Mini laser-Doppler (blood) flow monitor with diode laser source and detection integrated in the probe. Appl Opt 23(17):2970–2973
Rajasekar R, Nayak G, Malas A, Das C (2012) Development of compatibilized SBR and EPR nanocomposites containing dual filler system. Mater Des 35:878–885
Ayyar M, Mani MP, Jaganathan SK, Rathanasamy R (2018) Preparation, characterization and blood compatibility assessment of a novel electrospun nanocomposite comprising polyurethane and ayurvedic-indhulekha oil for tissue engineering applications. Biomed Eng/Biomed Tech 63(3):245–253
Jaganathan SK, Mani MP, Ayyar M, Rathanasamy R (2019) Biomimetic electrospun polyurethane matrix composites with tailor made properties for bone tissue engineering scaffolds. Polymer Testing 78:105955
Nayak GC, Sahoo S, Rajasekar R, Das CK (2012) Novel approach for the selective dispersion of MWCNTs in the Nylon/SAN blend system. Compos A Appl Sci Manuf 43(8):1242–1251
Gileva K, Gazimagomedova A (2021) Reconstruction of supraorbital region with a pedicled skin flap from periauricular region under reverse blood flow. Khirurgiia 8:107–111
Nokovitch L, Peyrachon B, Chaux-Bodard A-G, Poupart M, Roux P-E, Devauchelle B, Deneuve S (2021) Reverse blood flow in cervicofacial veins after venous ligations: potential implications in microsurgery. J Plast Reconstr Aesthet Surg 74(9):2042–2049
Duraikannu J, Jawahar U (2021) Reverse blood flow cause of fatal bleeding in severe atonic post-partum hemorrhage. Univ J Surg Surg Spec 7(3)
Tennent DJ, Hylden CM, Johnson AE, Burns TC, Wilken JM, Owens JG (2017) Blood flow restriction training after knee arthroscopy: a randomized controlled pilot study. Clin J Sport Med 27(3):245–252
Chang S-M, Gu Y-D, Li J-F (2003) Comparison of venous drainage in reverse-flow island flaps: an experimental study of the rabbit saphenous fasciocutaneous flap. Ann Plast Surg 51(2):177–181
Shen X, Schnell S, Barker AJ, Suwa K, Tashakkor L, Jarvis K, Carr JC, Collins JD, Prabhakaran S, Markl M (2018) Voxel-by-voxel 4D flow MRI-based assessment of regional reverse flow in the aorta. J Mag Reson Imaging 47(5):1276–1286
Wilkins E, Atanasov P (1996) Glucose monitoring: state of the art and future possibilities. Med Eng Phys 18(4):273–288
Rankouhi B, Javadpour S, Delfanian F, Letcher T (2016) Failure analysis and mechanical characterization of 3D printed ABS with respect to layer thickness and orientation. J Fail Anal Prev 16(3):467–481
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© 2023 The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd.
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Rathanasamy, R., Baskar, Y., Ravichandran, V., Kannan, R., Sivaraj, S. (2023). Prevention of Reversal Blood Flow Phenomenon into Intravenous Line with the Aid of Smart Device. In: Prakash, C., Singh, S., Krolczyk, G. (eds) Advances in Functional and Smart Materials. Lecture Notes in Mechanical Engineering. Springer, Singapore. https://doi.org/10.1007/978-981-19-4147-4_40
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DOI: https://doi.org/10.1007/978-981-19-4147-4_40
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