Schweitzer Tilmann, Böhm Hartmut, Linz Christian, Jager Beatrice, Gerstl Lucia, Kunz Felix, Stellzig-Eisenhauer Angelika, Ernestus Ralf-Ingo, Krauß Jürgen, Meyer-Marcotty Philipp
Department of Pediatric Neurosurgery, Craniofacial Center, University of Würzburg, Josef-Schneider-Strasse 11, 97080, Würzburg, Germany.
Department of Maxillo-Facial-Surgery and Plastic Surgery, Craniofacial Center, University of Würzburg, Würzburg, Germany.
Childs Nerv Syst. 2013 Jul;29(7):1155-61. doi: 10.1007/s00381-013-2030-y. Epub 2013 Jan 31.
Stereophotogrammetry enables a simple and radiation free longitudinal analysis of skull asymmetries: in a three-dimensional coordinate system various distances (length, breadth, cephalic index, oblique diameters, ear shift, head circumference) can be analyzed. We also defined separate volume sections in order to further quantify the degree of asymmetry in the posterior and anterior components of both sides of the head.
In 51 infants (mean age, 6 months; SD 0.97) with positional plagiocephaly, we determined these parameters at the beginning as well as at the end of molding helmet therapy (mean therapy time 4.9 months). Thirty-seven infants without positional deformity (mean age, 6.4 months; SD 0.3) served as control group and provided data about what appears to be normal and how these parameters change during growth over a comparable period of time.
Compared with the control group, the plagiocephalic heads were more brachycephalic, but closely approximated the normal shape under molding therapy. The striking volume difference between the left and right posterior sections in the plagiocephalic children (the mean volume of the flattened side being 21% smaller than the one on the contralateral side) improved as well (to a residual difference of mean 8%) and ended up with a value close to the control group (mean 6%).
There is a broad clinical application area for stereophotogrammetry analyzing skull morphology: In plagiocephalic infants we demonstrate impressive changes of head shape under molding therapy; in normal-looking infants we describe the extent of unperceived asymmetry.
立体摄影测量法能够对颅骨不对称性进行简单且无辐射的纵向分析:在三维坐标系中,可以分析各种距离(长度、宽度、头指数、斜径、耳部移位、头围)。我们还定义了单独的体积截面,以便进一步量化头部两侧前后部分的不对称程度。
在51例患有体位性斜头畸形的婴儿(平均年龄6个月;标准差0.97)中,我们在塑形头盔治疗开始时以及结束时(平均治疗时间4.9个月)测定了这些参数。37例无体位性畸形的婴儿(平均年龄6.4个月;标准差0.3)作为对照组,提供了关于正常情况以及这些参数在可比时间段内生长过程中如何变化的数据。
与对照组相比,斜头畸形婴儿的头部更呈短头型,但在塑形治疗下形状接近正常。斜头畸形儿童左右后截面之间显著的体积差异(扁平侧的平均体积比另一侧小21%)也有所改善(残余差异平均为8%),最终接近对照组的值(平均6%)。
立体摄影测量法在分析颅骨形态方面有广泛的临床应用领域:在患有斜头畸形的婴儿中,我们展示了塑形治疗下头形的显著变化;在外观正常的婴儿中,我们描述了未被察觉的不对称程度。