Handheld 3D Lumbar Spine Navigation: A Clinical Validation Study RM002
Currently, at UVA, handheld ultrasound devices (like those used to view an unborn baby) are only two dimensional. The Accuro is a three dimensional handheld ultrasound device. This device uses sound waves to create pictures of the spine in three dimensions. This may allow the physician to view the spine in more detail for procedures such as spinal anesthesia and other diagnostic procedures. Epidural analgesia is the mainstay procedure for the management of labor pain. The precise placement of a needle or catheter in proximity to landmarks of the spinal bone anatomy is required for the procedure to succeed. The current standard of care is called the 'blind approach' (i.e. without medical imaging) and involves a physician manually palpating a patient's back to locate spinal bone landmarks. The needle is then inserted with respect to the location of the landmarks and inserted until a loss-of-resistance is manually detected. This approach, while most common, has been associated with success rates as low as 68% in obese patients (2).
Alternative methods have been investigated for this problem, including ultrasound (US) guidance, which offers real-time imaging. Several studies have demonstrated ultrasound's efficacy for spinal anesthesia (1-6). However, standard US systems are engineered to image soft tissue rather than bone structures, with the consequence that bone is imaged poorly. US images are often degraded by a number of noise sources including speckle noise, reverberations and off-axis scattering, particularly when bone is present, making visualization of bone anatomy features difficult. Moreover, arranging access to ultrasound for the purpose of spinal anesthesia alone is cumbersome. Thus, the efficacy of guided spinal anesthesia and diagnostic procedures using standard ultrasound systems is limited and the benefits that it offers are heavily dependent on the user's familiarity and skill with ultrasonography (4).
Recently, new medical imaging technologies have been developed at Rivanna Medical, LLC to address the significant clinical need for technological advances that improve the placement of spinal anesthesia, epidural analgesia and other diagnostic procedures. The Accuro is a pocket-sized and battery operated ultrasound instrument that incorporates new signal processing-based technologies for enhanced bone imaging including 3D navigation of the lumbar spine. The device is a single self-contained unit consisting of an ultrasound system, ultrasound probe, and rotatable touchscreen display. The instrument enables a SpineView3D™ technology to facilitate spinal anesthesia guidance with real-time 3D navigation of the lumbar spine anatomy.
SpineView3D™ technology facilitates image interpretation of individual 2D lumbar spine scans by automating spinal bone landmark detection and depth measurements and providing a real-time assessment of scan plane orientation in 3D. SpineView3D™ makes image interpretation and measurements of the lumbar spine anatomy simple, quick, and easy. Real-time 2D scans from either SpineView3D™ or general-purpose bone presets are formed using patent-pending BoneEnhance+™ technology. The BoneEnhance+™ technology provides images of bone anatomy at greater bone-to-tissue contrast compared with conventional ultrasound image reconstructions.
調査の概要
状態
条件
研究の種類
入学 (実際)
連絡先と場所
研究場所
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Virginia
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Charlottesville、Virginia、アメリカ、22908
- University of Virginia Health System
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参加基準
適格基準
就学可能な年齢
健康ボランティアの受け入れ
受講資格のある性別
サンプリング方法
調査対象母集団
説明
Inclusion Criteria:
Patients between the ages of 18 and 40 presenting for delivery and planning epidural anesthesia
- ASA-1 and ASA-2
- BMI > 30
Exclusion Criteria:
Patients with known spinal deformities allergies to ultrasound gel
研究計画
研究はどのように設計されていますか?
デザインの詳細
コホートと介入
グループ/コホート |
介入・治療 |
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Control group (CG):
Standard practice group
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Standard practice group
他の名前:
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Ultrasound group (UG):
SpineView3D™ anatomical "scouting" approach
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SpineView3D™ anatomical "scouting" approach
他の名前:
subject will be scanned with 'Accuro SpineView3D
他の名前:
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この研究は何を測定していますか?
主要な結果の測定
結果測定 |
メジャーの説明 |
時間枠 |
---|---|---|
Success rates:
時間枠:1 day
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defined as successful epidural administration on the first needle insertion attempt.
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1 day
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協力者と研究者
スポンサー
捜査官
- 主任研究者:Mohammed Tiouririne, MD、UVA Health System
出版物と役立つリンク
一般刊行物
- Chin KJ, Perlas A, Chan V, Brown-Shreves D, Koshkin A, Vaishnav V. Ultrasound imaging facilitates spinal anesthesia in adults with difficult surface anatomic landmarks. Anesthesiology. 2011 Jul;115(1):94-101. doi: 10.1097/ALN.0b013e31821a8ad4.
- Vallejo MC, Phelps AL, Singh S, Orebaugh SL, Sah N. Ultrasound decreases the failed labor epidural rate in resident trainees. Int J Obstet Anesth. 2010 Oct;19(4):373-8. doi: 10.1016/j.ijoa.2010.04.002. Epub 2010 Aug 8.
- Grau T, Bartusseck E, Conradi R, Martin E, Motsch J. Ultrasound imaging improves learning curves in obstetric epidural anesthesia: a preliminary study. Can J Anaesth. 2003 Dec;50(10):1047-50. doi: 10.1007/BF03018371.
- Grau T, Leipold RW, Conradi R, Martin E. Ultrasound control for presumed difficult epidural puncture. Acta Anaesthesiol Scand. 2001 Jul;45(6):766-71. doi: 10.1034/j.1399-6576.2001.045006766.x.
- Chin KJ, Karmakar MK, Peng P. Ultrasonography of the adult thoracic and lumbar spine for central neuraxial blockade. Anesthesiology. 2011 Jun;114(6):1459-85. doi: 10.1097/ALN.0b013e318210f9f8.
- Karmakar MK. Ultrasound for central neuroaxial blocks. Techniques in regional anesthesia and pain management 2009;13:161-70.
研究記録日
主要日程の研究
研究開始
一次修了 (実際)
研究の完了 (実際)
試験登録日
最初に提出
QC基準を満たした最初の提出物
最初の投稿 (見積もり)
学習記録の更新
投稿された最後の更新 (実際)
QC基準を満たした最後の更新が送信されました
最終確認日
詳しくは
本研究に関する用語
その他の研究ID番号
- Rivanna Clin-002
個々の参加者データ (IPD) の計画
個々の参加者データ (IPD) を共有する予定はありますか?
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