Synovial fluid detection in intra-articular injections using a bioimpedance probe (BIP) needle—a clinical study

Intra-articular glucocorticoid injections are the recommended treatment for active arthritis, but accurate positioning of the needle may be challenging. Inexperienced physicians might decide not to inject because an unsuccessful injection impairs clinical outcome and may lead to complications; howev...

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Veröffentlicht in:	Clinical rheumatology 2017-06, Vol.36 (6), p.1349-1355
Hauptverfasser:	Halonen, Sanna, Kankaanpää, Eeva, Kari, Juho, Parmanne, Pinja, Relas, Heikki, Kronström, Kai, Luosujärvi, Riitta, Peltomaa, Ritva
Format:	Artikel
Sprache:	eng
Schlagworte:	Adult Aged Aged, 80 and over Arthritis Electric Impedance Female Glucocorticoids Humans Injection Injections, Intra-Articular - methods Joint diseases Male Mathematical models Medicine Medicine & Public Health Middle Aged Needles Original Article Orthopedic Procedures - instrumentation Orthopedic Procedures - statistics & numerical data Rheumatology Spatial discrimination Synovial fluid Synovial Fluid - physiology Ultrasound Young Adult
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container_issue	6
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container_title	Clinical rheumatology
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creator	Halonen, Sanna Kankaanpää, Eeva Kari, Juho Parmanne, Pinja Relas, Heikki Kronström, Kai Luosujärvi, Riitta Peltomaa, Ritva
description	Intra-articular glucocorticoid injections are the recommended treatment for active arthritis, but accurate positioning of the needle may be challenging. Inexperienced physicians might decide not to inject because an unsuccessful injection impairs clinical outcome and may lead to complications; however, choosing not to inject may impair or delay the best possible treatment. Here, we address this problem by introducing a novel Bioimpedance Probe (BIP) Needle-guidance method that was tested in a clinical study. The BIP Needle was utilized for detection of synovial fluid. It measures real-time bioimpedance spectra and identifies when the needle tip is in contact with the synovial fluid. Injections into 80 joints with active arthritis were performed by an experienced rheumatologist using the BIP Needle. The location of the BIP Needle was ensured by aspiration of synovial fluid, absence of resistance during injection, and/or using real-time ultrasound imaging. Sensitivity and specificity of the device for synovial fluid detection were 86 % (CI 75–93 %) and 85 % (CI 74–92 %), respectively. The BIP Needles showed high spatial resolution and differentiated the synovial fluid from the surrounding tissues. However, lack of synovial fluid, anatomic variability, and intra-articular structures challenged the technology. The BIP Needles provided adequate results in intra-articular injections. Performance of the device was good even in small joints, which may be the most difficult for inexperienced physicians. Further performance improvement can be expected when more data is collected for mathematical models. Overall, this novel method showed potential to be used in real-time needle guidance.
doi_str_mv	10.1007/s10067-016-3210-4
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Inexperienced physicians might decide not to inject because an unsuccessful injection impairs clinical outcome and may lead to complications; however, choosing not to inject may impair or delay the best possible treatment. Here, we address this problem by introducing a novel Bioimpedance Probe (BIP) Needle-guidance method that was tested in a clinical study. The BIP Needle was utilized for detection of synovial fluid. It measures real-time bioimpedance spectra and identifies when the needle tip is in contact with the synovial fluid. Injections into 80 joints with active arthritis were performed by an experienced rheumatologist using the BIP Needle. The location of the BIP Needle was ensured by aspiration of synovial fluid, absence of resistance during injection, and/or using real-time ultrasound imaging. Sensitivity and specificity of the device for synovial fluid detection were 86 % (CI 75–93 %) and 85 % (CI 74–92 %), respectively. The BIP Needles showed high spatial resolution and differentiated the synovial fluid from the surrounding tissues. However, lack of synovial fluid, anatomic variability, and intra-articular structures challenged the technology. The BIP Needles provided adequate results in intra-articular injections. Performance of the device was good even in small joints, which may be the most difficult for inexperienced physicians. Further performance improvement can be expected when more data is collected for mathematical models. 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The BIP Needles showed high spatial resolution and differentiated the synovial fluid from the surrounding tissues. However, lack of synovial fluid, anatomic variability, and intra-articular structures challenged the technology. The BIP Needles provided adequate results in intra-articular injections. Performance of the device was good even in small joints, which may be the most difficult for inexperienced physicians. Further performance improvement can be expected when more data is collected for mathematical models. 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Inexperienced physicians might decide not to inject because an unsuccessful injection impairs clinical outcome and may lead to complications; however, choosing not to inject may impair or delay the best possible treatment. Here, we address this problem by introducing a novel Bioimpedance Probe (BIP) Needle-guidance method that was tested in a clinical study. The BIP Needle was utilized for detection of synovial fluid. It measures real-time bioimpedance spectra and identifies when the needle tip is in contact with the synovial fluid. Injections into 80 joints with active arthritis were performed by an experienced rheumatologist using the BIP Needle. The location of the BIP Needle was ensured by aspiration of synovial fluid, absence of resistance during injection, and/or using real-time ultrasound imaging. Sensitivity and specificity of the device for synovial fluid detection were 86 % (CI 75–93 %) and 85 % (CI 74–92 %), respectively. The BIP Needles showed high spatial resolution and differentiated the synovial fluid from the surrounding tissues. However, lack of synovial fluid, anatomic variability, and intra-articular structures challenged the technology. The BIP Needles provided adequate results in intra-articular injections. Performance of the device was good even in small joints, which may be the most difficult for inexperienced physicians. Further performance improvement can be expected when more data is collected for mathematical models. Overall, this novel method showed potential to be used in real-time needle guidance.</abstract><cop>London</cop><pub>Springer London</pub><pmid>26873101</pmid><doi>10.1007/s10067-016-3210-4</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adult Aged Aged, 80 and over Arthritis Electric Impedance Female Glucocorticoids Humans Injection Injections, Intra-Articular - methods Joint diseases Male Mathematical models Medicine Medicine & Public Health Middle Aged Needles Original Article Orthopedic Procedures - instrumentation Orthopedic Procedures - statistics & numerical data Rheumatology Spatial discrimination Synovial fluid Synovial Fluid - physiology Ultrasound Young Adult
title	Synovial fluid detection in intra-articular injections using a bioimpedance probe (BIP) needle—a clinical study
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