在开放性脊柱裂中，肌肉超声可量化“二次损伤打击”。

In spina bifida aperta, muscle ultrasound can quantify the "second hit of damage".

作者信息

Verbeek R J, van der Hoeven J H, Maurits N M, Brouwer O F, Hoving E W, Sival D A

机构信息

Department of Neurology, University Medical Center Groningen, University of Groningen, PO Box 30.001, 9700RB Groningen, The Netherlands.

出版信息

Childs Nerv Syst. 2013 Mar;29(3):469-74. doi: 10.1007/s00381-012-1947-x. Epub 2012 Nov 9.

DOI:10.1007/s00381-012-1947-x

PMID:23138435

Abstract

PURPOSE

In spina bifida aperta (SBA), the "second-hit hypothesis" addresses consequences by delayed neurological damage superimposed upon the congenital myelomeningocele (MMC). This secondary damage is postulated to underlie the disappearance of leg movements shortly after birth. Innovative fetal surgery might prevent this, but results are methodologically hard to prove in small and heterogeneous treatment groups. We reasoned that delayed postnatal alterations in muscle ultrasound density (MUD = muscle echogenicity) could quantitatively reflect consequences by "the second hit" of damage. In the present study, we investigated whether delayed postnatal leg-MUD alterations are associated with postnatal muscle function loss.

METHODS

We cross-sectionally assessed leg-MUD in 16 postnatally operated SBA children (MMC-L5; at 0, 6, and 12 months; in n = 11/16; 11/16, and 15/16 children, respectively) and compared outcomes with 13 healthy control children. Additionally, we assessed SBA MUD caudal and cranial to the MMC and calculated MMC-L5 impact by: dMUD((MMC-L5)) = [MUD(calf muscle/S1-2)] - [MUD(quadriceps muscle/L2-4)] and associated outcomes with leg muscle function caudal to the MMC.

RESULTS

At 0 month, clinically discernible dMUD was more often increased in SBA than in control newborns (p < .05), but a relationship between absolute quantitative differences and leg muscle dysfunction was still lacking. At 6-12 months, additionally increased dMUD outcomes coincided with SBA leg muscle dysfunction (p < .05).

CONCLUSIONS

In post-neonatal SBA, secondarily increased dMUD (i.e., MMC impact) coincides with leg muscle dysfunction. This may implicate that muscle ultrasound could provide a quantitative tool to assess the neuromuscular impact by the second hit of damage.

摘要

目的

在开放性脊柱裂（SBA）中，“二次打击假说”探讨了先天性脊髓脊膜膨出（MMC）叠加的迟发性神经损伤所带来的后果。这种继发性损伤被认为是出生后不久腿部运动消失的原因。创新性胎儿手术或许可以预防这种情况，但在规模小且异质性高的治疗组中，结果在方法学上很难得到证实。我们推断，出生后肌肉超声密度（MUD = 肌肉回声性）的迟发性改变可以定量反映损伤“二次打击”所带来的后果。在本研究中，我们调查了出生后腿部MUD的迟发性改变是否与出生后肌肉功能丧失有关。

方法

我们对16例出生后接受手术的SBA患儿（MMC - L5；分别在0、6和12个月时；分别在n = 11/16、11/16和15/16例患儿中）的腿部MUD进行了横断面评估，并将结果与13例健康对照儿童进行比较。此外，我们评估了MMC尾侧和头侧的SBA MUD，并通过以下公式计算MMC - L5的影响：dMUD((MMC - L5)) = [MUD（小腿肌肉/S1 - 2）] - [MUD（股四头肌/L2 - 4）]，并将结果与MMC尾侧的腿部肌肉功能相关联。

结果

在0个月时，SBA患儿中临床上可察觉的dMUD升高的情况比对照新生儿更常见（p < 0.05），但绝对定量差异与腿部肌肉功能障碍之间仍缺乏关联。在6 - 12个月时，额外升高的dMUD结果与SBA腿部肌肉功能障碍同时出现（p < 0.05）。

结论

在新生儿期后的SBA中，继发性升高的dMUD（即MMC的影响）与腿部肌肉功能障碍同时出现。这可能意味着肌肉超声可以提供一种定量工具，以评估损伤二次打击对神经肌肉的影响。

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在开放性脊柱裂中，肌肉超声可量化“二次损伤打击”。

In spina bifida aperta, muscle ultrasound can quantify the "second hit of damage".

作者信息

机构信息

出版信息

PURPOSE

METHODS

RESULTS

CONCLUSIONS

目的

方法

结果

结论

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