超声能准确识别麻醉状态下的活体猪模型中的软组织异物。
Ultrasound accurately identifies soft tissue foreign bodies in a live anesthetized porcine model.
作者信息
Saul Turandot, Siadecki Sebastian D, Rose Gabriel, Berkowitz Rachel, Matilsky Danielle, Godbold James, Moshier Erin
机构信息
Division of Emergency Ultrasound, Department of Emergency Medicine, Mount Sinai St. Luke's Hospital and Mount Sinai Roosevelt Hospital, New York, NY.
Biostatistics, Epidemiology and Research Design (BERD) Program, Icahn School of Medicine at Mount Sinai, New York, NY.
出版信息
Acad Emerg Med. 2015 Aug;22(8):950-4. doi: 10.1111/acem.12724. Epub 2015 Jul 23.
BACKGROUND
Some subcutaneous foreign bodies (FBs) are not easily visualized during physical examination and may not be detected on radiographic evaluation. Ultrasound (US) is capable of visualizing FBs of varying compositions. Previous studies have examined the use of US to detect FBs in deceased animal or human tissue. This study used live anesthetized porcine tissue to more closely model clinical conditions.
OBJECTIVES
The objectives were to examine the test characteristics of US in the evaluation of FBs in living tissue and to evaluate if secondary findings such as surrounding edema and hematoma improve diagnostic accuracy.
METHODS
Institutional Animal Care and Use Committee (IACUC) approval was obtained. FBs 1 cm in length and 1 to 3 mm in width were created from toothpicks (wood), 21-gauge needles (metal), and a broken ampule (glass) and inserted subcutaneously into an anesthetized 20-kg Yorkshire swine. There were 72 sites implanted with equal proportions of each FB type and null sites. Half of the FBs were inserted at time 0 and half were inserted after 2 hours. Immediately after placement, four blinded physicians performed US evaluations of the first 36 sites. At 2 hours after placement, they evaluated each of the original 36 sites and the 36 new sites. They documented the presence or absence of FBs and surrounding edema.
RESULTS
After initial FB placement, 122 of the 144 interpretations (85%) were correct, with a sensitivity of 85% (95% confidence interval [CI] = 79% to 92%) and a specificity of 86% (95% CI = 76% to 98%). No sites demonstrated surrounding edema. At 2 hours after placement, 127 of 144 interpretations (88%) for these same sites were correct, with a sensitivity of 87% (95% CI = 82% to 93%) and a specificity of 89% (95% CI = 81% to 97%). Of the 108 observations (27 sites that contained FBs), eight of the 108 (7%) observations had surrounding edema (four glass, three wood, one metal). For the 36 new sites with FBs placed 2 hours later, 126 of the 144 interpretations (83%) were correct, with a sensitivity of 88% (95% CI = 82% to 94%) and a specificity of 83% (95% CI = 73% to 95%). No sites had surrounding edema present.
CONCLUSIONS
Ultrasound was sensitive, specific, and accurate in identifying FBs in live anesthetized porcine tissue. Surrounding edema or hematoma 2 hours after placement was so infrequently observed that it was not possible to determine its influence on the test characteristics.
背景
一些皮下异物在体格检查时不易被发现,在影像学评估中也可能无法检测到。超声能够显示不同成分的异物。先前的研究已探讨了使用超声检测死亡动物或人体组织中的异物。本研究使用麻醉状态下的活体猪组织,以更贴近临床情况。
目的
本研究的目的是检验超声在评估活体组织中异物的检测特性,并评估诸如周围水肿和血肿等继发表现是否能提高诊断准确性。
方法
获得了机构动物护理与使用委员会(IACUC)的批准。用牙签(木质)、21号针头(金属)和破碎的安瓿(玻璃)制作长度为1厘米、宽度为1至3毫米的异物,并将其皮下植入一只体重20千克的麻醉约克夏猪体内。共有72个植入部位,每种异物类型及空白部位的比例相同。一半的异物在时间0时植入,另一半在2小时后植入。植入后立即由四名不知情的医生对前36个部位进行超声评估。植入后2小时,他们对最初的36个部位和36个新部位进行评估。他们记录异物及周围水肿的存在与否。
结果
在最初植入异物后,144次解读中有122次(85%)正确,灵敏度为85%(95%置信区间[CI]=79%至92%),特异度为86%(95%CI=76%至98%)。没有部位出现周围水肿。植入后2小时,对这些相同部位的144次解读中有127次(88%)正确,灵敏度为87%(95%CI=82%至93%),特异度为89%(95%CI=81%至97%)。在108次观察(27个含有异物的部位)中,108次中有8次(7%)观察到周围水肿(4次玻璃异物、3次木质异物、1次金属异物)。对于2小时后植入异物的36个新部位,144次解读中有126次(83%)正确,灵敏度为88%(95%CI=82%至94%),特异度为83%(95%CI=73%至95%)。没有部位出现周围水肿。
结论
超声在识别麻醉状态下的活体猪组织中的异物方面具有敏感性、特异性和准确性。植入后2小时很少观察到周围水肿或血肿,因此无法确定其对检测特性的影响。
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