Abstract

The gestational age and/or viability of a fetus can become an important forensic issue. Several investigators have produced linear regression formulas based on crown-heel length (CHL), crown-rump length, or body diameters to determine gestational age. This study re-examines the relationship between fetal long bone length and CHL and tests a method of estimating CHL, and therefore gestational age, from radiographic measurements of the major long bone diaphyses. The results are compared with data based on dry bone measurements.

Data from 252 cases confirm a strong correlation between all long bone lengths and CHL (≥r = .9063; p < 0.01). Long bone length means for each CHL group are presented, as well as regression formulas for estimating CHL from radiographic measurements of the long bone diaphyses. The findings correspond closely with results based on a European sample, thereby validating that reference population as a normative sample for fetal analysis in the United States. The radiographic method can be used in instances where skeletal preparation is impossible or undesirable.

Issue Section:
Research Papers
Keywords:
forensic science, forensic anthropology, William R. Maples, fetal osteology, growth and development, radiography

References

1.
Halac
J
,
Arias
M E
,
Numa
R Y
,
Halac
E
.
Fetal growth rates in Argentina—a national collaborative study
.
Clin Pediatr
1982
;
21
:
342
-
7
.
Google Scholar
Crossref
Search ADS
 
2.
Maresh
M M
.
Linear growth of the long bones of extremities from infancy through adolescence
.
Am J Diseases Child
1955
;
89
:725.
3.
Tanner
J M
,
Whitehouse
R H
,
Cameron
N
,
Marshall
W A
,
Healy
M JR
,
Goldstein
H
.
Assessment of skeletal maturity and prediction of adult height (TW2 method)
, 2nd edition.
San Diego
,
Academic Press, Inc.
,
1983
.
4.
Greulich
W W
,
Pyle
S I
.
Radiographic atlas of skeletal development of the hand and wrist
. 2nd edition.
Standford University Press
,
1959
.
Google Scholar
Crossref
Search ADS
 
5.
Pyle
S I
,
Hoerr
N L
.
A radiologic standard of reference for the growing knee
.
Springfield, Ill
,
Charles C. Thomas
.
1969
.
6.
Roche
A F
,
Chumlea
W C
,
Thissen
D
.
Assessing the skeletal maturity of the hand-wrist: Fels method
.
Springfield, Ill
,
Charles C Thomas
,
1988
.
7.
Warren
M W
,
Smith
K R
,
Stubblefield
P R
,
Martin
S S
,
Walsh-Haney
H A
,
Maples
W R
.
The use of clinical radiographic atlases in the determination of skeletal age in a mass fatality
.
Proc Am Acad Forensic Sci
.
1997
;3.
8.
Jantz
R L
,
Owsley
D W
.
Long bone growth variation among Arikara skeletal populations
.
Am J Phys Anthropol
1984
;
63
:
13
-
20
.
Google Scholar
Crossref
Search ADS
PubMed
 
9.
Hummert
J R
,
Van Gerven
D P
.
Skeletal growth in the Medieval population from Sudanese Nubia
.
Am J Phys Anthopol
1983
;
60
:
471
-
8
.
Google Scholar
Crossref
Search ADS
 
10.
Merchant
V
,
Ubelaker
D H
.
Skeletal growth of the protohistoric Arikara
.
Am J Phys Anthropol
1977
;
46
(
1
):
61
-
72
.
Google Scholar
Crossref
Search ADS
PubMed
 
11.
Armelagos
G J
,
Meilke
J H
,
Owen
K H
,
Van Gerven
D P
,
Dewey
J R
,
Mahler
P E
.
Bone growth and development in prehistoric populations from Sudanese Nubia
.
J Hum Evol
1972
;
1
:
89
-
119
.
Google Scholar
Crossref
Search ADS
 
12.
Mensforth
R P
.
Relative tibia long bone growth in the Libben and Bt-5 prehistoric skeletal populations
.
Am J Phys Anthropol
1985
;
68
:
247
-
62
.
Google Scholar
Crossref
Search ADS
PubMed
 
13.
Johnston
F E
.
Approaches to the study of developmental variability in human skeletal populations
.
Am J Phys Anthopol
1969
;
31
:
335
-
41
.
Google Scholar
Crossref
Search ADS
 
14.
Johnston
F E
.
Growth of the skeleton in earlier peoples
. In:
Brothwell
,
D R
, editor.
The skeletal biology of earlier human populations
.
Oxford
,
Pergamon Press
,
1968
;
57
-
66
.
15.
Johnston
F E
.
Growth of the long bones of infants and young children at Indian Knoll
.
Am J Phys Anthopol
1962
;
20
:
249
-
54
.
Google Scholar
Crossref
Search ADS
 
16.
Johnston
F E
.
Sequence of epiphyseal union in a prehistoric Kentucky population from Indian Knoll
.
Hum Biol
33
:
66
-
81
.
PubMed
 
17.
Mashiack
S
,
Blankstein
J
,
Stern
M
.
The determination of fetal age and growth rate by ultrasonography
.
Harejuah
1975
;
88
:499.
18.
Jeanty
P
,
Romero
R
.
Estimation of the gestational age
.
Semin Ultrasound CT MR
 0887-2171
1984
;
5
:121.
19.
Lange
I R
,
Manning
F A
.
Fetal biophysical assessment: An ultrasound approach
.
Semin Ultrasound CT MR
 0887-2171
1984
;
5
:269.
20.
Christie
A
.
The estimation of fetal maturity by roentgen studies of osseous development
.
Amer J Obstet Gynec
1950
;
60
:133.
21.
Olivier
G
,
Pinneau
H
.
Nouvelle determination de la taille foetale d'apres longueurs diaphysaires des os longs
.
Ann Med Leg
1960
;
40
:
141
-
4
.
Google Scholar
PubMed
 
22.
Olivier
G
,
Pinneau
H
.
Determination de l'age du foetus et de l'embryon
.
Arch Anat (La Semaine Dex Hopitaux)
1958
;
6
:
21
-
8
.
23.
Fazekas
I
,
Kósa
K
Forensic Fetal Osteology
.
Budapest, Hungary
,
Akademiai Kiado Publishers
,
1978
.
24.
Brenner
W E
,
Edelman
D A
,
Hendricks
C H
.
A standard of fetal growth for the United States of America
.
Am J Obstet Gynecol
1976
;
126
(
5
):
555
-
64
.
Google Scholar
Crossref
Search ADS
PubMed
 
25.
Birkbeck
J A
,
Billewicz
W A
,
Thomson
A M
.
Human fetal measurements between 50 and 150 days gestation
.
Ann Hum Biol
1975
;
2
:
173
-
8
.
Google Scholar
Crossref
Search ADS
PubMed
 
26.
Birkbeck
J A
,
Billewicz
W A
,
Thomson
A M
.
Fetal growth from 50 to 150 days of gestation
.
Ann Hum Biol
1975
;
2
:
319
-
26
.
Google Scholar
Crossref
Search ADS
PubMed
 
27.
Mehta
L
,
Singh
H M
.
Determination of crown-rump length from fetal long bones: Humerus and femur
.
Am J Phys Anthropol
1972
;
36
:
165
-
8
.
Google Scholar
Crossref
Search ADS
PubMed
 
28.
Russell
J G
,
Mattison
A E
,
Easson
W T
.
Skeletal dimensions as an indication of foetal maturity
.
Brit J Radiol
1972
;
45
:667.
29.
Lubchenco
L O
,
Hansman
C
,
Boyd
E
.
Intrauterine growth in length and head circumference as estimated from live births at gestational ages from 26 to 42 weeks
.
Pediatrics
 0031-4005
1966
;
37
(
3
):
403
-
8
.
Google Scholar
Crossref
Search ADS
PubMed
 
30.
Bagnall
K M
,
Harris
P F
,
Jones
P RM
.
A radiographic study of the longitudinal growth of primary ossification centers in long bones of the human fetus
.
Anat Rec
1982
;
203
:
293
-
9
.
Google Scholar
Crossref
Search ADS
PubMed
 
31.
Bagnall
K M
,
Harris
P F
,
Jones
P RM
.
Studies on the pattern of ossification in the long bones of human fetal limbs with some observations on sex and size differences
.
J Bone Joint Surg
1978
;
60
(
B
):284.
32.
Scammon
R E
,
Calkins
L A
.
Crown-heel and crown-rump length in the fetal period and at birth
.
Anat Rec
1925
;
29
:
372
-
3
.
33.
Ubelaker
D H
.
The estimation of age at death from immature human bone
. In:
Iscan
M Y
, editor.
Age markers in the human skeleton
.
Springfield, Ill.
,
Charles C Thomas
1989
;
55
-
70
.
34.
Huxley
A K
.
A comparison between the use of diaphyseal length and foot length to calculate gestational age from forensic fetal remains
.
Proc Am Acad Forensic Sci
02
1996
;
2
:180.
35.
Genovés
S
.
Proportionality of the long bones and their relation to stature among Meso-americans
.
Am J Phys Anthropol
1967
:
26
:
67
-
77
.
Google Scholar
Crossref
Search ADS
PubMed
 
36.
Trotter
M
,
Gleser
G C
.
A re-evaluation of stature based on measurements taken during life and of long bones after death
.
Am J Phys Anthropol
1958
;
16
:
79
-
123
.
Google Scholar
Crossref
Search ADS
PubMed
 
37.
Kósa
F
.
Age estimation from the fetal skeleton
. In:
Iscan
M Y
, editor.
Age markers in the human skeleton
.
Springfield, Ill.
,
Charles C Thomas
1989
;
21
-
54
.
38.
Naeye
R L
,
Dixon
J B
.
Distortions in fetal growth standards
.
Pediatr Res
1978
;
12
:
987
-
91
.
Google Scholar
Crossref
Search ADS
PubMed
 
39.
Peterson
D J
,
Alexander
G R
,
Powell-Griner
E
,
Tompkins
M E
.
Variations in the reporting of gestational age at induced termination of pregnancy
.
Am J Public Health
1989
;
79
:
603
-
6
.
Google Scholar
Crossref
Search ADS
PubMed
 
40.
Goldbus
M S
,
Berry
L C
 Jr
Human fetal development between 90 and 170 days postmenses
.
Teratology
 0040-3709
1976
;
15
:
103
-
8
.
Google Scholar
Crossref
Search ADS
 
41.
Gruenwald
P
.
Growth of the human fetus
.
Am J Obstet Gynecol
1966
;
94
(
8
):
1112
-
9
.
Google Scholar
Crossref
Search ADS
PubMed
 
42.
Lubchenco
L O
,
Hansman
C
,
Dressler
M
,
Boyd
E
.
Intrauterine growth as estimated from liveborn birth-weight data at 24 to 42 weeks gestation
.
Pediatrics
 0031-4005
1963
;
793
-
800
.
43.
Babson
S G
,
Benda
G I
.
Growth graphs for the clinical assessment of infants of varying gestational age
.
J Pediatrics
1976
;
89
(
5
):
814
-
20
.
Google Scholar
Crossref
Search ADS
 
44.
Toldt
C
.
Über Altersbestimmung menschlicher embryonen
.
Prag med Wschr
1879
;
4
:121.
45.
Dietrich
H A
.
Anatomie und Physiologie des Fetus und Biologie der Placenta
.
Halban-Seitz. I. Augl. VI
,
1925
;
1
:177.
46.
Scammon
R E
,
Calkins
L A
.
Growth in the fetal period
.
Minneapolis
,
University of Minnesota Press
,
1929
.
47.
Brock
J
.
Biologische Daten für den Kinderarzt
.
I/1
.
Berlin-Göttingen-Heidelberg
,
Springer
,
1954
.
Google Scholar
Crossref
Search ADS
 
48.
Streeter
G L
.
Weight, sitting height, head size, foot length, and meastrual age of the human embryo
.
Contrib. To Embryol., Carnegie Inst. Washington
.
1920
;
32
:133.
This content is only available via PDF.
All rights reserved. This material may not be reproduced or copied, in whole or in part, in any printed, mechanical, electronic, film, or other distribution and storage media, without the written consent of ASTM International.
You do not currently have access to this content.