Facial soft tissue thickness in skeletal type I Japanese children

Facial reconstruction techniques used in forensic anthropology require knowledge of the facial soft tissue thickness of each race if facial features are to be reconstructed correctly. If this is inaccurate, so also will be the reconstructed face. Knowledge of differences by age and sex are also required. Therefore, when unknown human skeletal remains are found, the forensic anthropologist investigates for race, sex, and age, and for other variables of relevance. Cephalometric X-ray images of living persons can help to provide this information. They give an approximately 10% enlargement from true size and can demonstrate the relationship between soft and hard tissue. In the present study, facial soft tissue thickness in Japanese children was measured at 12 anthropological points using X-ray cephalometry in order to establish a database for facial soft tissue thickness. This study of both boys and girls, aged from 6 to 18 years, follows a previous study of Japanese female children only, and focuses on facial soft tissue thickness in only one skeletal type. Sex differences in thickness of tissue were found from 12 years of age upwards. The study provides more detailed and accurate measurements than past reports of facial soft tissue thickness, and reveals the uniqueness of the Japanese child's facial profile.     

Facial soft tissue thickness in northwest Indian adults

In order to reconstruct the face from a bare skull, the facial soft tissue thickness (FSTT) was determined at 29 standard anthropological landmarks by magnetic resonance imaging (MRI) in 173 male and 127 female adult subjects of northwest Indian origin. Repeatability and accuracy of the measurements was assessed by paired t-test and 95% confidence intervals. A stepwise discriminant function analysis selected nine landmarks for better sex classification in FSTT measurements. The thickness of soft tissue was different from that described in the literature and reported for samples from other countries. A correlation between skinfold thickness and body mass index (BMI) with that of FSTT was observed. The data of facial soft tissue thickness will help forensic experts in reconstructing the face from a skull for identification purposes.     

Variation in midfacial tissue thickness of African-American children

Forensic anthropologists use facial reconstruction to develop a likeness of an unknown individual in order to generate public interest that may lead to a positive identification. Tissue thicknesses of the face from living persons or cadavers are an essential part of the reconstruction method. The purpose of this study is to add to the growing database of tissue thicknesses along the facial midline of African-American children and to begin to examine the possibility of geographic differences between children of the same ancestral group. Results indicate that significant differences do not exist between males and females or between African-American females from the Midwest and Southeast U.S. Only age was determined to have a significant effect on mean tissue thickness variation, in our sample, with the majority of change occurring in the facial region.     

Large-scale in-vivo Caucasian facial soft tissue thickness database for craniofacial reconstruction

A large-scale study of facial soft tissue depths of Caucasian adults was conducted. Over a 2-years period, 967 Caucasian subjects of both sexes, varying age and varying body mass index (BMI) were studied. A user-friendly and mobile ultrasound-based system was used to measure, in about 20min per subject, the soft tissue thickness at 52 facial landmarks including most of the landmarks used in previous studies. This system was previously validated on repeatability and accuracy [S. De Greef, P. Claes, W. Mollemans, M. Loubele, D. Vandermeulen, P. Suetens, G. Willems, Semi-automated ultrasound facial soft tissue depth registration: method and validation. J. Forensic Sci. 50 (2005)]. The data of 510 women and 457 men were analyzed in order to update facial soft tissue depth charts of the contemporary Caucasian adult. Tables with the average thickness values for each landmark as well as the standard deviation and range, tabulated according to gender, age and BMI are reported. In addition, for each landmark and for both sexes separately, a multiple linear regression of thickness versus age and BMI is calculated. The lateral asymmetry of the face was analysed on an initial subset of 588 subjects showing negligible differences and thus warranting the unilateral measurements of the remaining subjects. The new dataset was statistically compared to three datasets for the Caucasian adults: the traditional datasets of Rhine and Moore [J.S. Rhine, C.E. Moore, Tables of facial tissue thickness of American Caucasoids in forensic anthropology. Maxwell Museum Technical series 1 (1984)] and Helmer [R. Helmer, Sch?delidentifizierung durch elektronische bildmischung, Kriminalistik Verlag GmbH, Heidelberg, 1984] together with the most recent in vivo study by Manhein et al. [M.H. Manhein, G.A. Listi, R.E. Barsley, R. Musselman, N.E. Barrow, D.H. Ubelbaker, In vivo facial tissue depth measurements for children and adults. J. Forensic Sci. 45 (2000) 48-60]. The large-scale database presented in this paper offers a denser sampling of the facial soft tissue depths of a more representative subset of the actual Caucasian population over the different age and body posture subcategories. This database can be used as an updated chart for manual and computer-based craniofacial approximation and allows more refined analyses of the possible factors affecting facial soft tissue depth.     

中国土家族人群头面部软组织厚度的测量

目的测量中国土家族人群头面部软组织厚度。方法156名中国湖南西部土家族成年男女(男80,女76),经拍摄头面部侧位X线片,选取正中矢状面5个部位上的10个点,测量其软组织厚度,并对所得数据进行统计学处理。结果中国土家族成年人群头面部10个点的软组织厚度测量值,男性在(3.46±0.09)mm~(9.11±0.14)mm范围,女性在(3.29±0.16)mm~(9.05±0.18)mm;除鼻下点外(男性9.06mm±0.15mm,女性9.02mm±0.19mm),男女性之间各点均有显著性差异,且下面部软组织厚度较上面部大。结论土家族成年男女性头面部软组织厚度存在着性别差异和年龄差异。     

Midline facial soft tissue thickness database of Turkish population: MRI study

Facial reconstruction is the approximation of an antemortem face from human skeletal remains. Since the nineteenth century, several methods have been developed for reconstruction of the face; all of them require the measurement of average tissue thicknesses at various points on the face. To our knowledge, there are no publications on soft tissue thickness in the Turkish population. In addition, there are few publications on the value of magnetic resonance imaging (MRI) in measuring soft tissue thickness for forensic sciences. The aim of this study was to create a reference database of facial tissue thickness in the Turkish population, and to present data illustrating the successful use of MRI for this purpose. The study included 161 patients (79 males and 82 females) between the ages of 18 and 78 who had undergone brain MRI in our radiology clinic, and showed no sign of maxillofacial pathology. Measurements were taken at 9 points at the midline; glabella, nasion, end of nasals, mid-philtrum, upper lip margin, lower lip margin, chin-lip fold, mental eminence, and beneath chin points. The mean values for these points in the patient sample population were determined, and differences related to age, sex, and body mass index (BMI) were calculated. The values were then compared to the findings of the Manhein study.     

Accuracy of facial soft tissue thickness measurements in personal computer-based multiplanar reconstructed computed tomographic images

The purpose of this study was to determine the precision and accuracy of facial soft tissue measurement using personal computer (PC)-based multiplanar reconstructed (MPR) computed tomography (CT) images and to evaluate the effect of the various CT scanning protocols on the facial soft tissue thickness measurement. Thirteen different CT imaging protocols were used to image a cadaver head. MPR reformations and three-dimensional (3D) reconstructions viewed on a laptop PC were used to make measurements at six specific sites on each set of images. These measurements were compared to physical measurements at the same sites. Increasing the slice thickness resulted in decreased image quality. Within the same slice thickness, increasing the pitch ratio in the spiral mode, resulted in decreasing image quality. The image quality of conventional CT scanning was relatively poorer than that of the spiral CT scanning. However, the mean deviation from the physical measurement was within 0.43 mm in every instance. This mean deviation was quite small and clinically acceptable for measuring the soft tissue thickness of the facial area. PC-based MPR CT images of the face using routine scanning CT protocols can be used to accurately measure soft tissue thickness in the facial region. However, for more fine and accurate data collection, scanning protocols with slice thicknesses less than 5mm, and a spiral/helical mode pitch less than 2:1 are recommended.     

Age and sex related measurement of craniofacial soft tissue thickness and nasal profile in the Chinese population

The purpose of this study was to acquire accurate data of craniofacial soft tissue thickness (CFSTT) and nasal profile in Chinese people of Han population. A total of 31 anatomical landmarks and 4 nasal profile parameters were determined using magnetic resonance imaging (MRI) in 425 subjects (233 males and 192 females). In the present study, the mean CFSTT values of male subjects exceeded those of female subjects at most anatomical landmarks except at seven (22.58%) and 6 out of the 7 landmarks were bilateral anatomical landmark points. The age-related and sex × age interactions were found to be statistically significant at all landmarks. Significant differences were found in the nasal profile data of males and females, and 15 out of 20 different groups had significant differences between sexes, and the mean values of nasal length, nasal height, nasal depth and nasal breadth in males were all greater than those in females. Furthermore, both CFSTT and nasal profile showed good correlation with age. The thickest CFSTT of male and female were found at the respective ages of 45-59 and 35-44, and the nasal profile becomes more constant after 24 years of age. CFSTT of the lower part of the face shows greater variation compared to the upper part, so special care needs to be applied when reconstructing the lower portion of the face. Our data on CFSTT and nasal profile for the Chinese Xi'an Han population is important in understanding craniofacial characteristics of the Chinese population and might be potentially helpful in forensic identification.     

四川汉族青少年面部中线软组织厚度的数字X线测量

目的 测量四川汉族青少年（8—20岁）人群面部中线软组织厚度，探讨其生长发育变化规律，为法医人类学的面部重建提供的基础数据。方法 选取974例（男496，女478）头颅侧位数字X线片，分13个年龄段（8—20岁）。选择面部10个标志点的软组织厚度测量，并进行描述性统计学分析。结果 四川汉族青少年人群面部10个标志点的中线软组织平均厚度，在青少年阶段大多数测量标志点随年龄增长而增厚；男女性面部中线软组织厚度统计学分析存在性别差异（P〈0．05），在15岁之后差异增大，且LU点显著差异性在9-20岁之间均存在（P〈0．01）。结论 四川汉族青少年面部中线软组织厚度有随年龄增长而增厚的档势．男女面部软组织厚度存在性别差异。     

Facial soft tissue depths in craniofacial identification (part II): An analytical review of the published sub-adult data

Prior research indicates that while statistically significant differences exist between subcategories of the adult soft tissue depth data, magnitudes of difference are small and possess little practical meaning when measurement errors and variations between measurement methods are considered. These findings raise questions as to what variables may or may not hold meaning for the sub-adult data. Of primary interest is the effect of age, as these differences have the potential to surpass the magnitude of measurement error. Data from the five studies in the literature on sub-adults which describe values for single integer age groups were pooled and differences across the ages examined. From 1 to 18 years, most soft tissue depth measurements increased by less than 3 mm. These results suggest that dividing the data for children into more than two age groups is unlikely to hold many advantages. Data were therefore split into two groups with the division point corresponding to the mid-point of the observed trends and main data density (0-11 and 12-18 years; division point = 11.5 years). Published sub-adult data for seven further studies which reported broader age groups were pooled with the data above to produce the final tallied soft tissue depth tables. These tables hold the advantages of increased sample sizes (pogonion has greater than 1770 individuals for either age group) and increased levels of certainty (as random and opposing systematic errors specific to each independent study should average out when the data are combined).     

Facial soft tissue depths in craniofacial identification (part I): An analytical review of the published adult data

With the ever increasing production of average soft tissue depth studies, data are becoming increasingly complex, less standardized, and more unwieldy. So far, no overarching review has been attempted to determine: the validity of continued data collection; the usefulness of the existing data subcategorizations; or if a synthesis is possible to produce a manageable soft tissue depth library. While a principal components analysis would provide the best foundation for such an assessment, this type of investigation is not currently possible because of a lack of easily accessible raw data (first, many studies are narrow; second, raw data are infrequently published and/or stored and are not always shared by some authors). This paper provides an alternate means of investigation using an hierarchical approach to review and compare the effects of single variables on published mean values for adults whilst acknowledging measurement errors and within-group variation. The results revealed: (i) no clear secular trends at frequently investigated landmarks; (ii) wide variation in soft tissue depth measures between different measurement techniques irrespective of whether living persons or cadavers were considered; (iii) no clear clustering of non-Caucasoid data far from the Caucasoid means; and (iv) minor differences between males and females. Consequently, the data were pooled across studies using weighted means and standard deviations to cancel out random and opposing study-specific errors, and to produce a single soft tissue depth table with increased sample sizes (e.g., 6786 individuals at pogonion).     

四川汉族青少年面部中线软组织厚度的数字X线测量

目的测量四川汉族青少年(8～20岁)人群面部中线软组织厚度,探讨其生长发育变化规律,为法医人类学的面部重建提供的基础数据。方法选取974例(男496,女478)头颅侧位数字X线片,分13个年龄段(8～20岁),选择面部10个标志点的软组织厚度测量,并进行描述性统计学分析。结果四川汉族青少年人群面部10个标志点的中线软组织平均厚度,在青少年阶段大多数测量标志点随年龄增长而增厚;男女性面部中线软组织厚度统计学分析存在性别差异(P<0.05),在15岁之后差异增大,且LLI点显著差异性在9～20岁之间均存在(P<0.01)。结论四川汉族青少年面部中线软组织厚度有随年龄增长而增厚的趋势,男女面部软组织厚度存在性别差异。     

广泛软组织挫伤--挤压综合征

本文通过回顾国内外医学文献,对广泛性软组织挫伤－挤压综合征的研究现状和取得的成就进行了介绍,并对其今后的发展趋势进行了探讨。     

广泛软组织挫伤--挤压综合征

本文通过回顾国内外医学文献,对广泛性软组织挫伤--挤压综合征的研究现状和取得的成就进行了介绍,并对其今后的发展趋势进行了探讨.     

辽宁汉族青年女性面部不对称性的分析

目的研究辽宁汉族青年女性面部的不对称性,为面部识别和颅面复原提供数据。方法随机选择100例正常青年女性,采用MRI摄片,应用VG Studio 2.2MAX软件测量面部的标志点,测量后的右、左侧面部坐标进行欧几里德几何距离矩阵分析（EDMA）,最后使用Geomagic Wrap 12软件对左侧面部三维图像进行镜像合成,生成完全对称的镜像面部并与真实面部进行比较。结果 EDMA分析显示,右、左侧面部有显著形态学差异,bootstrap检验T=1.402,P=0.001,形状差异矩阵（FDM）比值（右侧比左侧）在0.95-1.05的有224个占85%,FDM比值小于0.95和大于1.05的部分有40个占15%,40个不对称比值中有15个小于0.95占37.5%,25个比值大于1.05占62.5%。Geomagic Wrap 12分析结果显示镜像合成的面部与真实面部图像有明显差异。结论辽宁汉族青年女性面部不对称,不对称性为15%,右侧面部比左侧面部不对称性影响大。     

Cervical soft tissue emphysema in hanging--a prospective autopsy study

The underlying mechanism of cervical soft tissue emphysema (CSTE) in hanging remains unclear. The aim of this study was to determine the frequency of CSTE in cases of hanging. The sample included 83 deceased persons, average age 55.3 ± 17.9 years. CSTE was established in 44 cases. CSTE is presented as frothy air, soap bubble-like formations in superficial and/or deep connective tissue between the neck muscles up to the ligature mark, visible during gross neck examination, using special neck autopsy technique-preparation of the neck organs in layers. The interpretation of positive CSTE must be taken with caution: it could be an antemortem phenomenon possibly because of either Macklin Effect or direct or indirect trauma to the cervical airways, as well as an ante- or postmortem artifact.