Trumm C G, Glaser C, Paasche V, Crispin A, Popp P, Küttner B, Francke M, Nissen-Meyer S, Reiser M
Institut für Klinische Radiologie, Klinikum der Universität München Grosshadern.
Rofo. 2006 Apr;178(4):400-9. doi: 10.1055/s-2006-926610.
Quantification of the impact of a PACS/RIS-integrated speech recognition system (SRS) on the time expenditure for radiology reporting and on hospital-wide report availability (RA) in a university institution.
In a prospective pilot study, the following parameters were assessed for 669 radiographic examinations (CR): 1. time requirement per report dictation (TED: dictation time (s)/number of images [examination] x number of words [report]) with either a combination of PACS/tape-based dictation (TD: analog dictation device/mini-cassette/transcription) or PACS/RIS/speech recognition system (RR: remote recognition/transcription and OR: online recognition/self-correction by radiologist), respectively, and 2. the Report Turnaround Time (RTT) as the time interval from the entry of the first image into the PACS to the available RIS/HIS report. Two equal time periods were chosen retrospectively from the RIS database: 11/2002 - 2/2003 (only TD) and 11/2003 - 2/2004 (only RR or OR with speech recognition system [SRS]). The mid-term (> or = 24 h, 24 h intervals) and short-term (< 24 h, 1 h intervals) RA after examination completion were calculated for all modalities and for CR, CT, MR and XA/DS separately. The relative increase in the mid-term RA (RIMRA: related to total number of examinations in each time period) and increase in the short-term RA (ISRA: ratio of available reports during the 1st to 24th hour) were calculated.
Prospectively, there was a significant difference between TD/RR/OR (n = 151/257/261) regarding mean TED (0.44/0.54/0.62 s [per word and image]) and mean RTT (10.47/6.65/1.27 h), respectively. Retrospectively, 37 898/39 680 reports were computed from the RIS database for the time periods of 11/2002 - 2/2003 and 11/2003 - 2/2004. For CR/CT there was a shift of the short-term RA to the first 6 hours after examination completion (mean cumulative RA 20 % higher) with a more than three-fold increase in the total number of available reports within 24 hours (all modalities). The RIMRA for CR/CT/MR was 3.1/5.8/4.0 in the first 24 hours, and 2.0 for XA/DS in the second 24-hour interval.
In comparison to tape-based dictation, an SRS results in a significantly higher primary time expenditure and a modified report dictation workflow. In a university institution, a PACS/RIS-integrated SRS achieves a marked improvement in both short- and mid-term RA which eventually results in an improvement in patient care.
量化PACS/RIS集成语音识别系统(SRS)对一所大学机构中放射学报告时间消耗以及全院报告可用性(RA)的影响。
在一项前瞻性试点研究中,对669例X线摄影检查(CR)评估了以下参数:1. 每份报告听写的时间需求(TED:听写时间(秒)/图像数量[检查]×单词数量[报告]),分别采用PACS/基于磁带的听写(TD:模拟听写设备/微型盒式磁带/转录)或PACS/RIS/语音识别系统(RR:远程识别/转录以及OR:在线识别/放射科医生自我校正)的组合;2. 报告周转时间(RTT),即从第一张图像进入PACS到可用的RIS/HIS报告的时间间隔。从RIS数据库中回顾性选取两个相等的时间段:2002年11月 - 2003年2月(仅TD)和2003年11月 - 2004年2月(仅RR或带有语音识别系统[SRS]的OR)。计算所有检查方式以及CR、CT、MR和XA/DS单独检查完成后的中期(≥24小时,间隔24小时)和短期(<24小时,间隔1小时)RA。计算中期RA的相对增加量(RIMRA:与每个时间段内检查总数相关)以及短期RA的增加量(ISRA:第1小时到第24小时内可用报告的比率)。
前瞻性地,TD/RR/OR(n = 151/257/261)在平均TED(分别为0.44/0.54/0.62秒[每单词和图像])和平均RTT(10.47/6.65/1.27小时)方面存在显著差异。回顾性地,从RIS数据库中计算出2002年11月 - 2003年2月和2003年11月 - 2004年时间段的37898/39680份报告。对于CR/CT,短期RA转移到检查完成后的前6小时(平均累积RA高20%),24小时内可用报告总数增加了三倍多(所有检查方式)。CR/CT/MR在第一个24小时内的RIMRA为3.1/5.8/4.0,XA/DS在第二个24小时间隔内为2.0。
与基于磁带的听写相比,SRS导致初始时间消耗显著增加且报告听写工作流程有所改变。在一所大学机构中,PACS/RIS集成的SRS在短期和中期RA方面均实现了显著改善,最终改善了患者护理。
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