Equine Clinic at the Faculty of Veterinary Medicine, Free University of Berlin, Berlin, Germany.
Equine Vet J. 2023 Jan;55(1):48-58. doi: 10.1111/evj.13856. Epub 2022 Oct 11.
Digital flexor tendon sheath (DFTS) pathology is an important cause of lameness in horses. The outcome after surgical treatment is variable and depends on the exact diagnosis.
To (1) describe the prevalence of lesions associated with lameness caused by nonseptic DFTS tenosynovitis in a large population of German sports and pleasure horses; (2) determine the sensitivity and specificity of diagnostic imaging techniques for identifying lesions within the DFTS with tenoscopic diagnosis being the gold standard; (3) explore associations between tenoscopically diagnosed lesions and signalment, purpose, and limb affected; and (4) describe the outcome following DFTS tenoscopy with nonseptic DFTS tenosynovitis in this population.
Retrospective case series.
Medical records of horses admitted for tenoscopic surgery of nonseptic DFTS tenosynovitis between 2011 and 2020 were reviewed. Follow-up information was obtained via telephone contact. Sensitivity and specificity of ultrasonography and contrast tenography were determined using tenoscopic diagnosis as gold standard and univariable analysis was used to explore associations between signalment, case history, and tenoscopic diagnosis.
Medical records from 131 horses were retrieved, of which 8 horses had bilateral disease and 6 horses were presented for tenoscopy on two separate occasions (3 for tenoscopy in the same limb, 3 in a different limb), thus, making a total of 145 limbs. Lesions were most commonly diagnosed in the deep (DDFT; n = 55 limbs) and superficial (SDFT; n = 55 limbs) digital flexor tendons. Manica flexoria (MF) lesions were detected in 44 limbs and palmar/plantar annular ligament (PAL) constriction in 99 limbs. In 36 limbs, only one structure within the DFTS was injured, whereas in 109 limbs a combination of lesions was noted, the most common being the combination of a SDFT lesion with PAL constriction. All affected limbs were examined with diagnostic ultrasonography; contrast tenography was performed in 86 limbs. For diagnosis of MF and DDFT tears, tenography was more sensitive (89% [confidence interval, CI: 65.4%-95.2%]; 72% [CI: 46.4%-89.3%], respectively) than specific (64% [CI: 52.5%-77.6%]; 53% [CI: 42.2%-73.3%], respectively) whereas ultrasonography was more specific (92% [CI: 84.5%-96.3%]; 92% [CI: 83.6%-96.0%]) with lower sensitivity (64% [CI: 47.7%-77.2%]; 54% [CI: 39.5%-67.9%]). For SDFT lesions, ultrasonography was highly specific (94% [CI: 86.9%-97.9%]) with lower sensitivity (66% [CI: 51.3%-77.4%]). Follow-up information following first surgery was obtained for 118 horses (132 limbs): 18 (15.3%) of 118 horses remained chronically lame, 40 (33.8%) performed at a reduced level and 60 (50.8%) performed at the same or higher level following rehabilitation after tenoscopy. Horses with DDFT lesions had the poorest outcomes with only 36.6% returning to the same or higher level of exercise.
Retrospective analysis of clinical records and subjective outcome assessment based on owner follow-up with potential recall bias. Findings on diagnostic imaging are impacted by many factors including equipment quality and operator expertise and experience.
Diagnostic imaging techniques were complimentary and contrast tenography was sensitive and ultrasonography was specific for the diagnosis of MF and DDFT lesions. Following tenoscopic surgery for nonseptic tenosynovitis of the DFTS, approximately half the cases were able to return to preinjury level of exercise.
手指屈肌腱鞘(DFTS)的病理学是马匹跛行的一个重要原因。手术治疗的结果是可变的,这取决于确切的诊断。
(1)描述在德国运动和休闲马的大群体中,非感染性 DFTS 腱鞘炎引起的跛行相关病变的患病率;(2)确定诊断成像技术识别 DFTS 内病变的敏感性和特异性,以关节镜诊断为金标准;(3)探索关节镜诊断的病变与品种、用途和受影响的肢体之间的关联;(4)描述在该人群中患有非感染性 DFTS 腱鞘炎的 DFTS 关节镜检查后的结果。
回顾性病例系列。
对 2011 年至 2020 年接受非感染性 DFTS 腱鞘炎关节镜手术的马匹的病历进行了回顾。通过电话联系获得了随访信息。使用关节镜诊断作为金标准确定了超声检查和对比造影术的敏感性和特异性,并使用单变量分析探索了品种、病史和关节镜诊断之间的关联。
共检索到 131 匹马的病历,其中 8 匹马患有双侧疾病,6 匹马在两次不同的就诊时接受了关节镜检查(3 匹马在同一肢,3 匹马在不同的肢),因此共有 145 肢。病变最常见于深部(DDFT;n=55 肢)和浅部(SDFT;n=55 肢)屈指肌腱。在 44 肢中检测到挠侧屈肌腱滑膜鞘(MF)病变,在 99 肢中检测到掌/跖环状韧带(PAL)狭窄。在 36 肢中,只有一个 DFTS 结构受伤,而在 109 肢中注意到了病变的组合,最常见的是 SDFT 病变与 PAL 狭窄的组合。所有受影响的肢体均接受了诊断性超声检查;86 肢进行了对比造影术。对于 MF 和 DDFT 撕裂的诊断,造影术的敏感性(89%[置信区间,CI:65.4%-95.2%];72%[CI:46.4%-89.3%])高于特异性(64%[CI:52.5%-77.6%];53%[CI:42.2%-73.3%]),而超声检查的特异性更高(92%[CI:84.5%-96.3%];92%[CI:83.6%-96.0%]),敏感性较低(64%[CI:47.7%-77.2%];54%[CI:39.5%-67.9%])。对于 SDFT 病变,超声检查具有很高的特异性(94%[CI:86.9%-97.9%]),敏感性较低(66%[CI:51.3%-77.4%])。第一次手术后的随访信息获得了 118 匹马(132 肢):118 匹马中有 18 匹(15.3%)仍慢性跛行,40 匹(33.8%)运动水平降低,60 匹(50.8%)在关节镜检查后康复后运动水平相同或更高。DFTS 病变的马匹预后最差,只有 36.6%的马匹恢复到相同或更高的运动水平。
临床记录的回顾性分析和基于所有者随访的主观结果评估,存在潜在的回忆偏倚。诊断成像的结果受许多因素的影响,包括设备质量和操作人员的专业知识和经验。
诊断成像技术具有互补性,对比造影术对 MF 和 DDFT 病变的诊断具有敏感性,超声检查具有特异性。在非感染性 DFTS 腱鞘炎的 DFTS 关节镜手术后,大约一半的病例能够恢复到术前的运动水平。
