The prediction of physique from the skeleton
This paper attempts to define the relation between (1) human skeletal measurements and (2) height, weight and physique indices. Admitted to the study were 686 men and women from five ethnic groups (White, Inuit, Gurkha, Bantu and San). In addition to height and weight, subjects had defined cranial a...
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| description | This paper attempts to define the relation between (1) human skeletal measurements and (2) height, weight and physique indices. Admitted to the study were 686 men and women from five ethnic groups (White, Inuit, Gurkha, Bantu and San). In addition to height and weight, subjects had defined cranial and postcranial measurements taken using methods derived from clinical examination techniques. Measurements were checked for reliability. Skinfold callipers were used to allow for the thickness of soft‐tissues overlying bone widths. Adjustment factors were derived from radiological gold standards. Radiological measurements, adjusted for magnification, of the lumbar vertebrae from 42 subjects were also done. A correlation matrix was constructed for the complete study population and all variables to allow a preliminary assessment of useful predictive independent variables. Discriminant scores for classification by gender were calculated. Regression computations, using least square regression, were calculated for six defined reference populations. The regression residuals were examined to confirm fulfilment of assumptions. The results indicated that skull and dental arcade variables yield little information about the size and physique of an individual but have some relevance for group comparisons. Long bone widths are moderately and equally correlated with height and weight. Lower limb bone widths are better correlated with body weight than those of the upper limb. The best predictive variables for body weight are the minimal ‘area’ of the lumbar vertebrae (L1–L4) and regressions involving various bone widths. It is confirmed that height correlates well with the lengths of long bones, but the prediction is improved by the addition of a width from the same bone as a second independent variable. Lower limb long bones are not better predictors of height than upper limb ones. The body mass index is best predicted from the available measurements by a regression with the minimal ‘area’ of L1 and the tibial length as independent variables. A lumbar vertebra, particularly L1, yields important information about height, weight and the body mass index. The patella width is, in part, a marker for mesomorphy. Reconstruction of the ankle to enable the width across the malleoli to be measured would yield useful estimates of weight and height. The findings have been applied to the Paviland femur. A provisional male attribution has been made. The derived height is similar to that of |
| doi_str_mv | 10.1002/(SICI)1099-1212(199903/04)9:2<102::AID-OA460>3.0.CO;2-2 |
| format | Article |
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Admitted to the study were 686 men and women from five ethnic groups (White, Inuit, Gurkha, Bantu and San). In addition to height and weight, subjects had defined cranial and postcranial measurements taken using methods derived from clinical examination techniques. Measurements were checked for reliability. Skinfold callipers were used to allow for the thickness of soft‐tissues overlying bone widths. Adjustment factors were derived from radiological gold standards. Radiological measurements, adjusted for magnification, of the lumbar vertebrae from 42 subjects were also done. A correlation matrix was constructed for the complete study population and all variables to allow a preliminary assessment of useful predictive independent variables. Discriminant scores for classification by gender were calculated. Regression computations, using least square regression, were calculated for six defined reference populations. The regression residuals were examined to confirm fulfilment of assumptions. The results indicated that skull and dental arcade variables yield little information about the size and physique of an individual but have some relevance for group comparisons. Long bone widths are moderately and equally correlated with height and weight. Lower limb bone widths are better correlated with body weight than those of the upper limb. The best predictive variables for body weight are the minimal ‘area’ of the lumbar vertebrae (L1–L4) and regressions involving various bone widths. It is confirmed that height correlates well with the lengths of long bones, but the prediction is improved by the addition of a width from the same bone as a second independent variable. Lower limb long bones are not better predictors of height than upper limb ones. The body mass index is best predicted from the available measurements by a regression with the minimal ‘area’ of L1 and the tibial length as independent variables. A lumbar vertebra, particularly L1, yields important information about height, weight and the body mass index. The patella width is, in part, a marker for mesomorphy. Reconstruction of the ankle to enable the width across the malleoli to be measured would yield useful estimates of weight and height. The findings have been applied to the Paviland femur. A provisional male attribution has been made. The derived height is similar to that of tall modern White men. The physique was probably mesomorphic and ectopenic, the physique of strength rather than mobility, but the confidence intervals are very wide. To enable this sort of assessment to be made more confidently, the study requires replication substituting the precision of magnetic resonance imaging for the relative imprecision of skeletal measurements taken directly from the intact body. 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J. Osteoarchaeol</addtitle><description>This paper attempts to define the relation between (1) human skeletal measurements and (2) height, weight and physique indices. Admitted to the study were 686 men and women from five ethnic groups (White, Inuit, Gurkha, Bantu and San). In addition to height and weight, subjects had defined cranial and postcranial measurements taken using methods derived from clinical examination techniques. Measurements were checked for reliability. Skinfold callipers were used to allow for the thickness of soft‐tissues overlying bone widths. Adjustment factors were derived from radiological gold standards. Radiological measurements, adjusted for magnification, of the lumbar vertebrae from 42 subjects were also done. A correlation matrix was constructed for the complete study population and all variables to allow a preliminary assessment of useful predictive independent variables. Discriminant scores for classification by gender were calculated. 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The body mass index is best predicted from the available measurements by a regression with the minimal ‘area’ of L1 and the tibial length as independent variables. A lumbar vertebra, particularly L1, yields important information about height, weight and the body mass index. The patella width is, in part, a marker for mesomorphy. Reconstruction of the ankle to enable the width across the malleoli to be measured would yield useful estimates of weight and height. The findings have been applied to the Paviland femur. A provisional male attribution has been made. The derived height is similar to that of tall modern White men. The physique was probably mesomorphic and ectopenic, the physique of strength rather than mobility, but the confidence intervals are very wide. To enable this sort of assessment to be made more confidently, the study requires replication substituting the precision of magnetic resonance imaging for the relative imprecision of skeletal measurements taken directly from the intact body. Copyright © 1999 John Wiley & Sons, Ltd.</description><subject>height</subject><subject>human skeleton</subject><subject>Paviland femur</subject><subject>physique</subject><subject>somatotypes</subject><subject>weight</subject><issn>1047-482X</issn><issn>1099-1212</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1999</creationdate><recordtype>article</recordtype><sourceid>K30</sourceid><recordid>eNqFkFtP4zAQRiMEEtf_EIkXkDZlPE5iu6xAVXaBiksfuGpfRlnHFoHSFDtot_8ehyBeQOLJ9jfjM6MTRYcMBgwA93Yux8V4l4FSCUOGO0wpBXwP0l01xJ8McDgcjX8lk1GawwEfwKCY7GOCS9Hax5_l7p6KJJV4txqte_8AEGqIa9GPq3sTz52pat3WzSxubDy_X_j6-cXE1jVPcRvq_tFMTdvMNqMVW0692Xo_N6Lro99XxUlyNjkeF6OzRHMJkNgKMmnzSjCGqKQ2qC3jpUZEqLAEK0ujWYa5lhyF_auYKrUUFROitLbK-Ea03XPnrgmL-JYemhc3CyOJ5TyFTMhUhq7bvku7xntnLM1d_VS6BTGgTh1Rp446DdRpoF4dQUqKwqvrCOroTR2FnIpJyDGQ73ryv3pqFp-w31K_gvZBQCc9uvat-f-BLt0j5YKLjG4vjsMG56f5zZ8TSvkrm1qOzg</recordid><startdate>199903</startdate><enddate>199903</enddate><creator>Porter, A.M.W.</creator><general>John Wiley & Sons, Ltd</general><general>Chichester, West Sussex :Wiley,1991</general><scope>BSCLL</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>K30</scope><scope>PAAUG</scope><scope>PAWHS</scope><scope>PAWZZ</scope><scope>PAXOH</scope><scope>PBHAV</scope><scope>PBQSW</scope><scope>PBYQZ</scope><scope>PCIWU</scope><scope>PCMID</scope><scope>PCZJX</scope><scope>PDGRG</scope><scope>PDWWI</scope><scope>PETMR</scope><scope>PFVGT</scope><scope>PGXDX</scope><scope>PIHIL</scope><scope>PISVA</scope><scope>PJCTQ</scope><scope>PJTMS</scope><scope>PLCHJ</scope><scope>PMHAD</scope><scope>PNQDJ</scope><scope>POUND</scope><scope>PPLAD</scope><scope>PQAPC</scope><scope>PQCAN</scope><scope>PQCMW</scope><scope>PQEME</scope><scope>PQHKH</scope><scope>PQMID</scope><scope>PQNCT</scope><scope>PQNET</scope><scope>PQSCT</scope><scope>PQSET</scope><scope>PSVJG</scope><scope>PVMQY</scope><scope>PZGFC</scope><scope>SOGVL</scope></search><sort><creationdate>199903</creationdate><title>The prediction of physique from the skeleton</title><author>Porter, A.M.W.</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-c3800-fd058f6d7112298ce2cf13ac2220d2a0f8aec1526c8327fb919ac87d177affd53</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>1999</creationdate><topic>height</topic><topic>human skeleton</topic><topic>Paviland femur</topic><topic>physique</topic><topic>somatotypes</topic><topic>weight</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Porter, A.M.W.</creatorcontrib><collection>Istex</collection><collection>CrossRef</collection><collection>Periodicals Index Online</collection><collection>Primary Sources Access—Foundation Edition (Plan E) - 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J. Osteoarchaeol</addtitle><date>1999-03</date><risdate>1999</risdate><volume>9</volume><issue>2</issue><spage>102</spage><epage>115</epage><pages>102-115</pages><issn>1047-482X</issn><eissn>1099-1212</eissn><abstract>This paper attempts to define the relation between (1) human skeletal measurements and (2) height, weight and physique indices. Admitted to the study were 686 men and women from five ethnic groups (White, Inuit, Gurkha, Bantu and San). In addition to height and weight, subjects had defined cranial and postcranial measurements taken using methods derived from clinical examination techniques. Measurements were checked for reliability. Skinfold callipers were used to allow for the thickness of soft‐tissues overlying bone widths. Adjustment factors were derived from radiological gold standards. Radiological measurements, adjusted for magnification, of the lumbar vertebrae from 42 subjects were also done. A correlation matrix was constructed for the complete study population and all variables to allow a preliminary assessment of useful predictive independent variables. Discriminant scores for classification by gender were calculated. Regression computations, using least square regression, were calculated for six defined reference populations. The regression residuals were examined to confirm fulfilment of assumptions. The results indicated that skull and dental arcade variables yield little information about the size and physique of an individual but have some relevance for group comparisons. Long bone widths are moderately and equally correlated with height and weight. Lower limb bone widths are better correlated with body weight than those of the upper limb. The best predictive variables for body weight are the minimal ‘area’ of the lumbar vertebrae (L1–L4) and regressions involving various bone widths. It is confirmed that height correlates well with the lengths of long bones, but the prediction is improved by the addition of a width from the same bone as a second independent variable. Lower limb long bones are not better predictors of height than upper limb ones. The body mass index is best predicted from the available measurements by a regression with the minimal ‘area’ of L1 and the tibial length as independent variables. A lumbar vertebra, particularly L1, yields important information about height, weight and the body mass index. The patella width is, in part, a marker for mesomorphy. Reconstruction of the ankle to enable the width across the malleoli to be measured would yield useful estimates of weight and height. The findings have been applied to the Paviland femur. A provisional male attribution has been made. The derived height is similar to that of tall modern White men. The physique was probably mesomorphic and ectopenic, the physique of strength rather than mobility, but the confidence intervals are very wide. To enable this sort of assessment to be made more confidently, the study requires replication substituting the precision of magnetic resonance imaging for the relative imprecision of skeletal measurements taken directly from the intact body. Copyright © 1999 John Wiley & Sons, Ltd.</abstract><cop>Chichester, UK</cop><pub>John Wiley & Sons, Ltd</pub><doi>10.1002/(SICI)1099-1212(199903/04)9:2<102::AID-OA460>3.0.CO;2-2</doi><tpages>14</tpages></addata></record> |
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| language | eng |
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| source | Wiley Online Library Journals Frontfile Complete; Periodicals Index Online |
| subjects | height human skeleton Paviland femur physique somatotypes weight |
| title | The prediction of physique from the skeleton |
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