ARTICLES |
This bibliography has been compiled from a variety of primary and secondary
sources. While every effort has been made to make it as comprehensive as
possible, the bioimpedance field is a large one and inevitably some literature
will have been excluded either by omission or comission. Most notably,
articles pertaining to impedance plethysmography, impedance imaging (EIT
or APT), studies in plants and bacteria and conference abstracts
have been largely omitted.
The compilers would like to be notified by users of the bibliography
of important reference materials which should be included in updates.
Updates to the bibliography may be found on the following Web
page:
http://florey.biosci.uq.edu.au/BIA/index.html
(c) UniQuest-SEAC 1992-1996
Archived References G - M
GAGNON, R., GAGNER, M. & DUPLESSIS, S. (1994)
[Variations of body
composition by bioelectric impedancemetry
after major surgery.] [French].
Annales de Chirurgie 48, 708-716.
Galles R, Renouf D. Use of bioelectrical
impedance analysis to assess
body composition of seals . Marine Mammal
Science. 1994; 10: 1-12
GAMBINI, J.E., RAGGUENEAU, J.L., SPECTOR,
M., LEVANTE, A. &
THUREL, C. (1980). Determination
des volumes extracellulaire et
intracellulaire par mesure de l'impedance
corporelle totale. Comparison
avec les techniques isotpiques.
Agressologie 21, 219-224.
Garcia JM. Percent fat mass predictions
in Texas A&I University
undergraduate students using a sex-specific,
single-site BIA
anthropometric model [dissertation].
Kingsville (TX): Texas A&I University;
1992. 76 p.
Garn S M. The Impedance Index in Predicting
Total Body Water. American
Journal of Clinical Nutrition. 1993;
57, N 6: 947
Gartner A, Maire B, Delpeuch F, Sarda P,
Dupuy RP, Rieu D. The use of
bioelectrical impedance analysis in newborns.
The need for
standardization. Basic Life Sci
1993;60:165-8.
Gartner A, Maire B, Delpeuch F, Sarda P,
Dupuy R P, Rieu D . Importance
of Electrode Position in Bioelectrical
Impedance Analysis . American
Journal of Clinical Nutrition D December
1992 ; 56, N 6: 1067-1068
Gartner A, Sarda P, Dupuy RP, Maire B,
Delpeuch F, Rieu D. Bioelectrical
impedance analysis in small- and appropriate-for-gestational-age
newborn
infants. Eur J Clin Nutr 1994;48(6):425-32.
Garzarella L, Graves JE, Pollock ML, Carroll
JF, Ishida Y, Foley MA,
Boileau R, Lohman T, Sinning W, ET AL.
Predicting body composition of
obese women with bioelectrical impedance
[abstract]. Med Sci Sports
Exerc 1992;24(5 Suppl):S118.
Garzarella L. Predicting body composition
of healthy females by B mode
ultrasound: comparison with anthropometry
and bioelectrical impedance
[master's thesis on microfiche].
Eugene (OR): University of Oregon,
College of Human Development and Performance,
Microform Publications;
1992. 2 microfiche.
GEDDES, L.A. & BAKER, L.E. (1967).
The specific resistance of biological
material - a compendium of data for the
biomedical engineer and
physiologist. Med Biol Eng Comput
5, 271-293.
GEDDES, L.A. & BAKER, L.E. (1989).
Detection of Physiological Events
by Impedance. In Principles of Applied
Biomedical Instrumentation,
Anonymous pp. 537-651. New York:
John Wiley & Sons.
Gencer, N. G., Y. Z. Ider, and S. J. Williamson.
1996. Electrical impedance
tomography: Induced-current imaging achieved
with a multiple coil system.
IEEE Trans Biomed Eng 43: 139-149.
Gencer, N.G.; Ider, Y.Z.; Williamson, S.J.
Electrical impedance
tomography: Induced-current imaging
achieved with a multiple coil
system (vol 43, pg 139, 1996). IEEE
Transactions on Biomedical
Engineering; 43: 1996, 758.
Gencer, N. G., Y. Z. Ider, and S. J. Williamson.
1996. Electrical impedance
tomography: Induced-current imaging achieved
with a multiple coil system
(vol 43, pg 139, 1996). IEEE Trans Biomed
Eng 43: 758.
Gerard E L, Snow R C, Kennedy D N, Frisch
R E, Guimaraes A R, Barbieri
R L . Overall body fat and regional fat
distribution in young women:
quantification with MR imaging. AJR-Am-J-Roentgenol.
1991 ; Jul, 157(1):
99-104
Gersing, E., W. Kruger, M. Osypka, and
P. Vaupel. 1995. Problems
involved in temperature measurements using
EIT. Physiological
Measurement 16: A153-A160.
GESSERT, W.l., REID, K.A. & NYBOER,
J. (1969). Reliability of tetrapolar
electrical impedance plethsmography. Biomedical
Sciences
Instrumentation 5, 143-152.
Gimsa, J.; Muller, T.; Schnelle, T.; Fuhr,
G. Dielectric spectroscopy of
single human erythrocytes at
physiological ionic strength: Dispersion of
the cytoplasm. Biophysical Journal;
71: 1996, 495-506.
Girandola RN, Contarsy SA, Wiswll RA, Artal
R. The efficacy of
height-weight measures to evaluate obesity
in a college-age population
[abstract]. Med Sci Sports Exerc 1991;23(4
Suppl):S75.
Gleichauf C N, Roe D A. The menstrual cycle's
effect on the reliability of
bioimpedance measurements for assessing
body composition.
Am-J-Clin-Nutr. 1989; Nov, 50(5):
903-7
Glidewell ME, Ng KT. The use of magnetic
resonance imaging data and
the inclusion of anisotropic regions in
electrical impedance tomography.
Biomed Sci Instrum 1993;29:251-7.
Gohlke EM. Comparison of body assessment
using bioelectrical
impedance and skinfold measurements in
the critically ill [dissertation].
Kalamazoo (MI): Western Michigan University;
1991. 112 p.
GOING, S.B., LOHMAN, T.G., WILMORE, J.H.,
BOILEAU, R.A., VAN
LOAN, M., SINNING, W., GOLDING,
L. & CARSWELL, C. (1987).
Segmental versus whole body bioelectrical
impedance measurements for
estimation of body composition. Med Sci
Sports Exerc 19, S39.
Gold, J.; High, H.A.; Li, Y.M.; Michelmore,
H.; Safety and efficacy of
nandrolone decanoate for treatment of
wasting in patients with HIV
infection. AIDS; 10: 1996, 745-752.
Gold J, Oliver C. Evaluation of megestrol
acetate treatment in AIDS
[abstract]. Int Conf AIDS 1989 Jun
4-9;5:336 (abstract no. T.B.P. 298).
Gold, J., H. A. High, Y. M. Li, H. Michelmore,
N. J. Bodsworth, R.
Finlayson, V. L. Furner, B. J. Allen,
and C. J. Oliver. 1996. Safety and
efficacy of nandrolone decanoate for treatment
of wasting in patients with
HIV infection. Aids 10: 745-752.
Gomez I, Leon-Sanz M, Valero MA, Martinez
G, Hawkins F. [Comparative
study of impedance- based predictive models
of body composition]. Nutr
Hosp 1993 May-Jun;8(5):295-300. (Spa).
Gomez T, Mole PA, Collins A. Dilution
of body fluid electrolytes affects
bioelectrical impedance measurements.
Sports Med Train Rehabil
(Yverdon) 1993;4(4):291-8.
Gomez I, Leon-Sanz M, Valero MA, Martinez
G, Hawkins F. [Comparative
study of impedance- based predictive models
of body composition]. Nutr
Hosp 1993 May-Jun;8(5):295-300. (Spa).
Gonzalez, J., T. Morrissey, T. Byrne, R.
Rizzo, and D. Wilmore. 1995.
Bioelectric impedance detects fluid retention
in patients undergoing
cardiopulmonary bypass. Journal of Thoracic
and Cardiovascular Surgery
110: 111-118.
Goodmangruen, D., and E. Barrettconnor.
1996. Sex differences in
measures of body fat and body fat distribution
in the elderly. Am J
Epidemiol 143: 898-906.
Goran, M. I., and T. R. Nagy. 1996. Effect
of the pre-testing environment
on measurement of metabolic rate in children.
Int J Obes 20: 83-87.
Goran M I, Kaskoun M C, Carpenter W H,
Poehlman E T, Ravussin E,
Fontvieille A M. Estimating Body Composition
of Young Children by Using
Bioelectrical Resistance . Journal of
Applied Physiology. 1993; 75, N 4:
1776-1780
Goran MI, Poehlman ET, Nair KS, Danforth
E Jr. Deuterium exchange in
humans: effect of gender, body composition
and age. Basic Life Sci
1993;60:79-81.
Goran M I, Kaskoun M, Johnson R. Determinants
of resting energy
expenditure in young children . Journal
of Pediatrics V 125, N 3: 362-367
Goran, M. I., P. Driscoll, R. Johnson,
T. R. Nagy, and G. Hunter. 1996.
Cross-calibration of body-composition
techniques against dual-energy
X-ray absorptiometry in young children.
Am J Clin Nutr 63: 299-305.
Goran M I, Carpenter W H, Poehlman E T.
Total Energy Expenditure in
4-Yr-Old to 6-Yr-Old Children . American
Journal of Physiology. 1993; 264,
N 5 Part 1: E706-E711
Goran M I, Poehlman E T, Nair K S, Danforth
E. Effect of Gender, Body
Composition, and Equilibration Time on
the H-2-to-O-18 Dilution Space
Ratio. American Journal of Physiology.
1992; 263, N 6 Part 1:
E1119-E1124
Gotfredsen A. [Non-invasive measurement
of body composition]. Ugeskr
Laeger 1994 Jul 4;156(27):4018-25. (Dan).
Graves J E, Pollock M L, Colvin A B, Van
Loan M Lohman TG. 1989.
Comparison of Different Bioelectrical
Impedence Analyzers in the
Prediction of Body Composition. American
Journal of Human Biology .
1994; 1: 603-611
Graves J E, Pollock, M L, Sparling PB.
Body composition of elite female
distance runners. Int J Sports Medicine.
1987; Nov 8: 96-102
Gray D S, Bray G A, Gemayel N, Kaplan K.
Effect of obesity on
bioelectrical impedance. Am J Clin Nutr.
1989; 50: 255-60
Gray DS, Bray GA, Gemayel N, Kaplan K.
Effect of obesity on bioelectrical
impedance. Am J Clin Nutr 1989 Aug;50(2):255-60.
Gray D S. Diagnosis and prevalence of obesity.
Med-Clin-North-Am. 1989;
Jan, 73(1): 1-13
Gray D S, Bray G A, Bauer M, Kaplan K,
Gemayel N, Wood R, Greenway
F, Kirk S . Skinfold thickness measurements
in obese subjects [see
comments] . Comment in: Am J Clin Nutr
1990 Sep,52(3):578. 1990; Apr,
51(4): 571-7
Gray D S. Changes in bioelectrical impedance
during fasting.
Am-J-Clin-Nutr. 1988; Nov, 48(5):
1184-7
Grazioso C, Molina S, Santizo M C, Mazariegos
M, Siu M L, Vettorazzi C,
Solomons N W. Anthropometry and bioelectrical
impedance analysis in
newborns with intrauterine growth
retardation. Adv. In. Vivo. Body Comp.:
51
Greaves KA, Harrison JA, Baranowski T,
Puhl J. Inter-observer reliability
for bioelectrical impedance analysis and
anthropometric measurements
[abstract]. Med Sci Sports Exerc 1990;22(2
Suppl):S109.
Gregory J W, Greene S A , Jung R T, Scrimgeour
C M, Rennie M J.
Metabolic effects of growth hormone treatment:
an early predictor of
growth response?. Arch-Dis-Child.
1993 ; Feb, 68(2): 205-9
Gregory J W, Wilson A C, Greene S A. Body
fat and overweight among
children and adolescents with diabetes
mellitus. Diabet-Med. 1992; May,
9(4): 344-8
Gregory J W, Greene S A, Scrimgeour C M,
Rennie M J. 1991. Body water
measurement in growth disorders: a comparison
of bioelectrical impedance
and skinfold thickness techniques with
isotope dilution. Arch-Dis-Child.
1990; Feb, 66(2): 220-2
Gregory J W, Greene S A, Thompson J, Scrimgeour
C M, Rennie M J.
Effects of oral testosterone undecanoate
on growth, body composition,
strength and energy expenditure of adolescent
boys. Clin-Endocrinol-Oxf.
1992 ; Sep, 37(3): 207-13
Gregory J W, Greene S A, Jung R T, Scrimgeour
C M, Rennie M J .
Changes in body composition and energy
expenditure after six weeks'
growth hormone treatment [see comments].
Comment in: Arch Dis Child
1991 . 1991 ; Oct,66(10):1261: 598-602
Grieve C L, Henneberg M. A Modified Method
of Hydrodensitometry in
Young Children . American Journal of Clinical
Nutrition. 1993; 58, N 5:
713-714
GRIEVE, C. & HENNEBERT, M. (1995).
How solid is the theoretical basis
for bioelectrical impedance analysis?
[letter]. Am J Clin Nutr
61,1306-1308.
Griffiths, H. 1995. Tissue spectroscopy
with electrical impedance
tomography: Computer simulations. IEEE
Transactions on Biomedical
Engineering 42: 948-954.
Griffiths, H. 1995. A Cole phantom for
EIT. Physiological Measurement 16:
A29-A38.
Griffiths H, Zhang Z. A dual-frequency
electrical impedance tomography
system. Phys Med Biol 1989 Oct;34(10):1465-76.
Griffiths H, Jossinet J. Bioelectrical
Spectroscopy from Multi-Frequency
EIT. Physiological Measurement. 1994;
15, N Suppl. 2A: A59-A63
Grundy D, Reid K, McArdle FJ, Brown BH,
Barber DC, Deacon CF,
Henderson IW. Trans-thoracic fluid
shifts and endocrine responses to 6
degrees head-down tilt. Aviat Space
Environ Med 1991 Oct;62(10):923-9.
Gudivaka, R.; Schoeller, D.; Kushner, R.F.
Effect of skin temperature on
multifrequency bioelectrical
impedance analysis. Journal of Applied
Physiology; 81: 1996, 838-845.
Gudivaka, R., D. Schoeller, and R. F. Kushner.
1996. Effect of skin
temperature on multifrequency bioelectrical
impedance analysis. J Appl
Physiol 81: 838-845.
Guglielmi FW, Mastronuzzi T, De Marco F,
Laddaga L, Balestrazzi A,
Panella C, Francavilla A. [Correlation
between bioelectric parameters and
anthropometry in patients with chronic
liver disease]. Riv Ital Nutr Parenter
Enteral 1991;9(2):97-102. (Ita).
Guglielmi FW, Mastronuzzi T, De Marco M,
Laddaga L, Panella C,
Francavilla A. Oxidative metabolism
in cirrhotic patients with and without
hepatocellular carcinoma: effects of malnutrition.
Hepatology 1992
Nov;16(5):1144-9.
Guglielmi W G, Contento F, Laddaga L. Bioelectric
Impedance Analysis:
Experience with Male Patients with Cirrhosis.
Hepatol. 1991.; 13(5):
892-895
Guo S, Roche A F, Houtkooper L. Fat-Free
Mass in Children and Young
Adults Predicted from Bioelectric Impedance
and Anthropometric
Variables. Am. J. Clin. Nutr. 1989;
50(3): 435-443
Guo, S.S.; Chumlea, W.C.; Cockram, D.B.
Use of statistical methods to
estimate body composition. American
Journal of Clinical Nutrition; 64:
1996, S428-S435.
Guo S M, Roche A F, Chumlea W C, Miles
D S, Pohlman R L. Body
composition predictions from bioelectric
impedance. Hum Biol. 1987; 59,
N 2: 221-33
Guo S S, Khoury P R, Specker B, Heubi J,
Chumlea W M C, Siervogel R
M, Morrison J A. Prediction of Fat-Free
Mass in Black and White
Pre-Adolescent and Adolescent Girls from
Anthropometry and Impedance.
American Journal of Human Biology. 1993;
5, N 6: 735-745
Guo S M, Salisbury S, Roche A F, Chumlea
W C, Siervogel R M.
Cardiovascular disease risk factors and
body composition: A review .
Nutrition Research. 1994 ; 14, N
11: 1721-1777
Guo, S. S., W. C. Chumlea, and D. B. Cockram.
1996. Use of statistical
methods to estimate body composition.
Am J Clin Nutr 64: S428-S435.
Gutin, B., M. Litaker, S. Islam, T. Manos,
C. Smith, and F. Treiber. 1996.
Body-composition measurement in 9-11-y-old
children by dual-energy
X-ray absorptiometry, skinfold-thickness
measurements, and
bioimpedance analysis. Am J Clin Nutr
63: 287-292.
GUZMAN, M.J., ELSEN, R., PADILA, A., SOLOMONS,
N.W., WHALEN,C.,
SUI, M.L., MAZARIEGOS, M., MOLINA,
S., NEUFELD, L., ROSAS, A.,
BARILLAS-MURY, C., CANALES, D.,
VETTORAZZI, C., BELTRANENA,
F. & PINEDA, O. (1987). Body
composition determinations by
bioelectrical impedance in Olympic-Class
Athletes at the Third Central
American Games, Basic Life Sciences 50,
108-113.
Hahn, G., I. Sipinkova, F. Baisch, and
G. Hellige. 1995. Changes in the
thoracic impedance distribution under
different ventilatory conditions.
Physiological Measurement 16: A161-A173.
Hammond J, Rona RJ, Chinn S. Estimation
in community surveys of total
body fat of children using bioelectrical
impedance or skinfold thickness
measurements. Eur J Clin Nutr 1994
Mar;48(3):164-71.
Hampshire, A. R., R. H. Smallwood, B. H.
Brown, and R. A. Primhak. 1995.
Multifrequency and parametric EIT images
of neonatal lungs. Physiological
Measurement 16: A175-A189.
Hannan WJ, Cowen SJ, Freeman CP, Wrate
RM. Can bioelectrical
impedance improve the prediction of body
fat in patients with eating
disorders? Eur J Clin Nutr 1993
Oct;47(10):741-6.
Hannan W J, Cowen S J, Fearon K C H, Plester
C E, Falconer J S,
Richardson R A. Evaluation of multi-frequency
bio-impedance analysis for
the assessment of extracellular and total
body water in surgical patients.
Clinical Science. 1994; 86, N 4:
479-485
Hannan W J, Cowen S, Freeman C P, Shapiro
C M. Evaluation of
bioelectrical impedance analysis for body
composition measurements in
anorexia nervosa [see comments] CM: Comment
in: Clin Phys Physiol
Meas 1991 Feb,12(1):93-4 . Clin-Phys-Physiol-Meas.
1990; Aug, 11(3):
209-16
Hannan, W. J., S. J. Cowen, C. E. Plester,
K. C. H. Fearon, and A.
Debeau. 1995. Comparison of bio-impedance
spectroscopy and multi-
frequency bio-impedance analysis for the
assessment of extracellular and
total body water in surgical patients.
Clin Sci 89: 651-658.
Hannan WJ, Cowen SJ, Freeman CP, Wrate
RM, Barton J. Evaluation of
dual-energy X-ray absorptiometry for the
assessment of body composition
in anorexic females. Basic Life
Sci 1993;60:169-72.
Hannan W, Cowen S, Freeman C, Shapiro C.
Evaluation of Bioelectrical
Impedance Analysis for Body Composition
Measurements in Anorexia
Nervosa. Clin Phys Physiol Meas. 1990;
11: 209-216
Hansen N J, Lohman T G, Going S B, Hall
M C, Pamenter R W, Bare L A,
Boyden T W, Houtkooper L B. Prediction
of Body Composition in
Premenopausal Females from Dual-Energy
X-Ray Absorptiometry. Journal
of Applied Physiology. 1993; 75,
N 4: 1637-1641
Harrington G R, Hnatiuk O W. Noninvasive
Monitoring. American Journal
of Medicine. 1993; 95, N 2: 221-228
HARTMAN, C., BOWERS, R.W. & LIU, N.Y.
(1988). Relationships
between bio-resistance body composition
analyser and hydrostatic
methods for body composition. Med
Sci Sports Exerc 20, S82.
Heber, D.; Ingles, S.; Ashley, J.M.; Maxwell,
M.H.; Clinical detection of
sarcopenic obesity by bioelectrical
impedance analysis. American Journal
of Clinical Nutrition; 64: 1996,
S472-S477.
Heber, D., S. Ingles, J. M. Ashley, M.
H. Maxwell, R. F. Lyons, and R. M.
Elashoff. 1996. Clinical detection of
sarcopenic obesity by bioelectrical
impedance analysis. Am J Clin Nutr 64:
S472-S477.
Hebuterne, X., P. Hastier, J. L. Peroux,
N. Zeboudj, J. P. Delmont, and P.
Rampal. 1996. Resting energy expenditure
in patients with alcoholic
chronic pancreatitis. Dig Dis Sci 41:
533-539.
Heimler R, Doumas B T, Bernadine M, Jendzerjczak
M, Nemeth P B,
Hoffman R G, Nelin LD. Relationship between
nutrition, weight change and
fluid compartments in pre term infants
during the first week of life. J.
Pediatr. 1993; 122: 110-114
Heitmann BL. Body fat in the adult
Danish population aged 35-65 years:
an epidemiological study. Int J
Obes 1991 Aug;15(8):535-45.
Heitmann B L. 1990. Prediction of Body
Water and Fat in Adult Danes from
Measurement of Electrical Impedance.
A Validation Study. International
Journal of Obesity. 199; 14: 789-802
Heitmann BL. Evaluation of body fat
estimated from body mass index,
skinfolds and impedance. A comparative
study. Eur J Clin Nutr 1990 Nov;
44(11):831-7.
Heitmann BL, Sorensen SS, Isaksson B.
[The use of the impedance
measurement technic for calculating body
fat mass. A validity study].
Ugeskr Laeger 1989 Oct 2;151(40):2588-91.
(Dan).
Heitmann B L, Kondrup J, Engelhart M, Kristensen
J H, Podenphant J,
Hoie H, Andersen V. Changes in fat free
mass in overweight patients with
rheumatoid arthritis on a weight reducing
regimen. A comparison of eight
different body composition methods. International
Journal of Obesity, N 18:
812 - 819
Heitmann BL. Impedance: a valid method
in assessment of body
composition? Eur J Clin Nutr 1994
Apr;48(4):228-40.
Helenius M Y, Albanes D, Micozzi M S, Taylor
P R, Heinonen O P. Studies
of bioelectric resistance in overweight,
middle-aged subjects. Hum Biol V
59, N 2: 257-69
Henriquez M A, Gonzalez A, Bemis J A, Esquivel
J. 1993. Body
composition and lipid abnormalities in
hispanic and black patients on
continuous ambulatory peritoneal dialysis.
Perit-Dial-Int. 1987 ; 13 Suppl
2: S424-7: 1001-4
Herbarth L, Suttmann U, Ballmaier M, Rohde
F, Deicher H, Schedel I.
Effects of ketotifen on HIV infected individuals
[abstract]. Int Conf AIDS
1993 Jun 6-11;9(1):500 (abstract no. PO-B29-2189).
Heroux P, Bourdages M. Monitoring Living
Tissues by Electrical
Impedance Spectroscopy . Annals of Biomedical
Engineering. 1994; 22,
N 3: 328-337
Hertell NT, Juul A, Holm K, Michaelsen
KF, Muller J. Fat and fat free mass
in normal Danish children aged 6 to 16
years a bioelectrical impedance
study [abstract]. Pediatr Res 1993;33(5
Suppl):S39.
Heymsfield SB, Wang Z, Baumgartner RN,
Dilmanian FA, Ma R, Yasumura
S. Body composition and aging: a
study by in vivo neutron activation
analysis. J Nutr 1993 Feb;123(2
Suppl):432-7.
Heymsfield SB, Matthews D. Body composition:
research and clinical
advances--1993 A.S.P.E.N. research workshop.
JPEN J Parenter Enteral
Nutr 1994 Mar-Apr;18(2):91-103.
Heymsfield SB, Waki M. Body composition
in humans: advances in the
development of multicompartment chemical
models. Nutr Rev 1991
Apr;49(4):97-108.
Heymsfield SB, Wang J, Kehayias J, Heshka
S, Lichtman S, Pierson RN
Jr. Chemical determination of human body
density in vivo: relevance to
hydrodensitometry. Am J Clin Nutr
1989 Dec;50(6):1282-9.
Heymsfield SB, Waki M. Body composition
in humans: advances in the
development of multicompartment chemical
models. Nutr Rev 1991
Apr;49(4):97-108.
Heymsfield SB, Wang J, Kehayias J, Heshka
S, Lichtman S, Pierson RN
Jr. Chemical determination of human body
density in vivo: relevance to
hydrodensitometry. Am J Clin Nutr
1989 Dec;50(6):1282-9.
Heymsfield, S.B.; Wang, Z.M.; Visser, M.;
Gallagher, D.; Techniques used
in the measurement of body composition:
An overview with emphasis on
bioelectrical impedance analysis.
American Journal of Clinical Nutrition;
64: 1996, S478-S484.
Heymsfield SB, Wang J, Aulet M, Kehayias
J, Lichtman S, Kamen Y,
Dilmanian FA, Lindsay R, Pierson RN Jr.
Dual photon absorptiometry:
validation of mineral and fat measurements.
Basic Life Sci
1990;55:327-37.
Heymsfield SB, Wang J, Lichtman S, Kamen
Y, Kehayias J, Pierson RN
Jr. Body composition in elderly subjects:
a critical appraisal of clinical
methodology. Am J Clin Nutr 1989
Nov;50(5 Suppl):1167-75; discussion
1231-5.
Heymsfield SB, Waki M, Kehayias J, Lichtman
S, Dilmanian FA, Kamen Y,
Wang J, Pierson RN Jr. Chemical
and elemental analysis of humans in
vivo using improved body composition models.
Am J Physiol 1991
Aug;261(2 Pt 1):E190-8.
Heymsfield SB, Wang J, Aulet M, Kehayias
J, Lichtman S, Kamen Y,
Dilmanian FA, Lindsay R, Pierson RN Jr.
Dual photon absorptiometry:
validation of mineral and fat measurements.
Basic Life Sci
1990;55:327-37.
Heymsfield, S. B., Z. M. Wang, M. Visser,
D. Gallagher, and R. N. Pierson.
1996. Techniques used in the measurement
of body composition: An
overview with emphasis on bioelectrical
impedance analysis. Am J Clin
Nutr 64: S478-S484.
Heyward V H, Cook K L, Hicks V L, Jenkins
K A, Quatrochi J A, Wilson W
L. Predictive accuracy of three field
methods for estimating relative body
fatness of nonobese and obese women. Int-J-Sport-Nutr.
1992 ; Mar, 2(1):
75-86
Hicks VL, Wilson WL, Heyward VN.
Accuracy of bioelectrical impedance
in estimating body composition of American
indians [abstract]. Med Sci
Sports Exerc 1992;24(5 Suppl):S6.
HIMMELSTEIN, S. (1993). Calipers vs BIA:
the debate continues [letter;
comment]. J Am Diet Assoc 93, 400-401.
Ho L T, Kushner R F, Schoeller D A, Gudivaka
R, Spiegel D M.
Bioimpedance analysis of total body water
in hemodialysis patients .
Kidney International. 1994 ; 46,
N 5: 1438-1442
Hodgdon, J.A.; Friedl, K.E.; Beckett, M.B.;
Westphal, K.A.; Use of
bioelectrical impedance analysis measurements
as predictors of physical
performance. American Journal of
Clinical Nutrition; 64: 1996, S463-S468.
Hodgdon, J. A., K. E. Friedl, M. B. Beckett,
K. A. Westphal, and R. L.
Shippee. 1996. Use of bioelectrical impedance
analysis measurements as
predictors of physical performance. Am
J Clin Nutr 64: S463-S468.
Hodgdon JA, Fitzgerald PI. Validity of
Impedance Predictions at Various
Levels of Fatness . Human Biology . 1987;
59 , N 2: 281-298
HODGDON, J.A. & FITZGERALD, P.I. (1987).
Validity of impedance
predictions at various levels of
fatness. Hum Biol 59, 281-298.
HOFFER, E.C., MEADOR, C.K. & SIMPSON,
D.C. (1969). Correlation of
whole-body impedance with total
body water volume. J Appl Physiol
27,531-534.
HOFFER, E.C., MEADOR, C.K. & SIMPSON,
D.C. (1970). A relationship
between whole body impedance and
total body water volume. Ann NY
Acad Sci 170, 452-461.
Holding R E. Comments on a Comparison of
Four Commercial Systems
Used to Measure Whole-Body Electrical
Impedance. Physiological
Measurement. 1993; 14, N 4: 485
HOLT, T.L., CUI, C., THOMAS, B.J., WARD,
L.C., QUIRK, P.C.,
CRAWFORD, D. & SHEPHERD, R.W.
(1994). Clinical applicability of
bioelectric impedance to measure
body composition in health and
disease. Nutrition 10, 221-224.
Hoover LW, Boote EJ, Hillard AE, Thomas
TR, Firman JD, Hewett JE, Gay
JW. Abdominal fat assessment in
postmenopausal women receiving
hormone replacement therapy. Basic
Life Sci 1993;60:215-8.
Hortobagyi T, Israel R G, Houmard J A,
O'Brien K F, Johns R A, Wells J
M. Comparison of four methods to assess
body composition in black and
white athletes. Int-J-Sport-Nutr.
1992 ; Mar, 2(1): 60-74
HORTON, J.W. & VAN RANENSWAAY, A.C.
(1935). Electrical impedance
of the human body. J Franklin Inst
20, 557-572.
Houtkooper, L. B., T. G. Lohman, S. B.
Going, and W. H. Howell. 1996.
Why bioelectrical impedance analysis should
be used for estimating
adiposity. Am J Clin Nutr 64: S436-S448.
Houtkooper, L.B.; Lohman, T.G.; Going,
S.B.; Howell, W.H. Why
bioelectrical impedance analysis
should be used for estimating adiposity.
American Journal of Clinical Nutrition;
64: 1996, S436-S448.
Houtkooper L B, Going S B, Lohman T G,
Roche A F, Van-Loan M.
Bioelectrical impedance estimation of
fat-free body mass in children and
youth: a cross-validation study. J-Appl-Physiol.
1992 ; Jan, 72(1): 366-73
Houtkooper L B, Lohman T G, Going S B,
Hall M C. Validity of bioelectric
impedance for body composition assessment
in children. J-Appl-Physiol.
1989; Feb, 66(2): 814-21
Hu, H. Y., and Y. Kato. 1995. Body composition
assessed by bioelectrical
impedance analysis (BIA) in patients with
Graves' disease before and after
treatment. Endocrine Journal 42: 545-550.
Hu, H. Y., H. Yamamoto, M. Sohmiya, T.
Abe, Y. Murakami, and Y. Kato.
1996. Body composition assessed by bioelectrical
impedance analysis
(BIA) and the correlation with plasma
insulin- like growth factor I (IGF-I) in
normal Japanese subjects and patients
with acromegaly and GH
deficiency (vol 41, pg 63, 1994). Endocr
J 43: U7.
Hu H Y, Yamamoto H, Sohmiya M, Abe T, Murakami
Y, Kato Y. Body
Composition Assessed by Bioelectrical
Impedance Analysis (BIA) and the
Correlation with Plasma Insulin-Like Growth
Factor-I (IGF-I) in Normal
Japanese Subjects and Patients with Acromegaly
and GH Deficiency.
Endocrine Journal. 1994; 41, N 1:
63-69
Hua P, Woo EJ, Webster JG, Tompkins WJ.
Finite element modeling of
electrode-skin contact impedance in electrical
impedance tomography.
IEEE Trans Biomed Eng 1993 Apr;40(4):335-43.
Hua P, Woo EJ, Webster JG, Tompkins WJ.
Using compound electrodes
in electrical impedance tomography.
IEEE Trans Biomed Eng 1993
Jan;40(1):29-34.
Hughes V, Evans WJ. Effect of aging
on body fat [letter]. J Am Geriatr
Soc 1993 Nov;41(11): 1274-5. Comment on:
J Am Geriatr Soc 1993
Mar;41(3):211-3.
Hughes, T. A. T., P. Liu, H. Griffiths,
and C. M. Wiles. 1995. The
repeatability and variability of electrical
impedance tomography indices of
pharyngeal transit time in normal adults.
Physiological Measurement 16:
A79-A86.
Hughes, T. A. T., P. Liu, H. Griffiths,
B. W. Lawrie, and C. M. Wiles. 1996.
Simultaneous electrical impedance tomography
and videofluoroscopy in
the assessment of swallowing. Physiol
Meas 17: 109-119.
Hughes, T. A. T., P. Liu, H. Griffiths,
B. W. Lawrie, and C. M. Wiles. 1996.
Simultaneous electrical impedance tomography
and videofluoroscopy in
the assessment of swallowing. Physiol
Meas 17: 109-119.
HUGHES, V.A. & EVANS, W.J. (1987).
Assessment of fat-free mass in an
older population using bioelectric
impedance. Fred Proc 46, 1186.
Hunter G, Khaled M, Snyder S, Koester R.
Estimation of abdominal fat
pattens using segmental (BIA) analysis
and anthropometric measures
analysis [abstract]. Med Sci Sports Exerc
1992;24(5 Suppl):S8.
Hurley R S, Odorisio T M, Rinehart J J,
Welch M A, Geraghty M E,
Nahikiannelms M, Kinney P, Rice R R. Lack
of Significant Changes in
Nutrition-Related Parameters with Tumor
Necrosis Factor Treatment of
Cancer. Nutrition and Cancer - an International
Journal. 1993; 19, N 3:
253-261
Hurley R S, O'Dorisio T M, Rinehart J J,
Welch M A, Geraghty M E. Lack
of significant changes in nutrition-related
parameters with tumor necrosis
factor treatment of cancer. Nutr-Cancer.V,
19(3): 253-61
Ikeuchi T, Nishikawa H, Morimoto T.
Changes in the distribution of body
water with aging determined by bioelectrical
impedance [abstract]. Jpn J
Physiol 1993;43(Suppl 2):S134.
Ilagan J, Bhutani V, Archer P, Lin P K
H, Jen K L C. 1993. Estimation of
Body Composition Changes During Weight
Cycling by Bioelectrical
Impedance Analysis in Rats. Journal of
Applied Physiology. 1993 ; 74, N
5: 2092-2098
impedance equations for the estimation
of lean body mass in women] TO:
Validita di cinque equazioni dell'impedenziometria
bioelettrica per la stima
. Minerva-Endocrinol. 1991; Jan-Mar;
16(1): 37-41
Inada C, Yamada K, Nakao H, Otabe S, Nonaka
K. Estimation of body fat
bioelectrical impedance analysis in diabetic
patients. In: Mimura G, Chi Z,
editors. Recent progress of diabetes mellitus
in East Asia; 3rd
Japan-China Symposium on Diabetes Mellitus;
1991 Oct; Shanghai,
China. New York: Excerpta Medica;
1992. p. 199-204. (International
congress series; no. 997).
Israel RG, Eaton AW, O'Brien KF, Hortobagyi
T, Mccammon MR.
Comparison of four methods to assess body
composition in women
[abstract]. Med Sci Sports Exerc 1992;24(5):S188.
Iwata K, Satou Y, Iwata F, Hara M, Fuchigami
S, Kin H, Fuchigami T,
Okada T, Harada K, Ohkuni M, et al.
Assessment of body composition
measured by bioelectrical impedance in
children. Acta Paediatr Jpn 1993
Oct;35(5):369-72.
Jackson A S, Pollock M L, Graves J E, Mahar
M T. Reliability and validity
of bioelectrical impedance in determining
body composition.
J-Appl-Physiol. 1988; Feb, 64(2):
529-34
JACKSON, A.S., POLLOCK, M.L., GRAVES, J.E.
& MAHAR, M.T. (1987).
Validity of determining body composition
by total body bioelectrical
impedance. Med Sci Sports Exerc
(Suppl) 19, S38.
Jacobs DO. Bioelectrical impedance
analysis: a way to assess changes
in body cell mass in patients with acquired
immunodeficiency syndrome?
[editorial]. JPEN J Parenter Enteral
Nutr 1993 Sep-Oct;17(5):401-2.
Comment on: JPEN J Parenter Enteral Nutr
1993 Sep-Oct;17(5):404-5.
Jacobs, D.O. Use of bioelectrical impedance
analysis measurements in the
clinical management of critical
illness. American Journal of Clinical
Nutrition; 64: 1996, S498-S502.
Jacobs, D. O. 1996. Use of bioelectrical
impedance analysis
measurements in the clinical management
of critical illness. Am J Clin Nutr
64: S498-S502.
Jansen D F, Korbijn C M, Deurenberg P.
Variability of body density and
body impedance at different frequencies.
Eur-J-Clin-Nutr. 1992; Dec,
46(12): 865-71
Jansen, P. G. M., H. Tevelthuis, E. R.
Bulder, R. Paulus, M. R. M.
Scheltinga, L. Eijsman, and C. R. H. Wildevuur.
1995. Reduction in prime
volume attenuates the hyperdynamic response
after cardiopulmonary
bypass. Annals of Thoracic Surgery 60:
544-549.
Jansen, P. G. M., H. Tevelthuis, E. R.
Bulder, R. Paulus, M. R. M.
Scheltinga, L. Eijsman, and C. R. H. Wildevuur.
1995. Reduction in prime
volume attenuates the hyperdynamic response
after cardiopulmonary
bypass. Annals of Thoracic Surgery 60:
544-549.
Janshoff, A., J. Wegener, C. Steinem, M.
Sieber, and H. J. Galla. 1996.
Applications of impedance spectroscopy
in biochemistry and biophysics.
Acta Biochim Pol 43: 339-348.
Janshoff, A.; Wegener, J.; Steinem, C.;
Sieber, M.; Applications of
impedance spectroscopy in biochemistry
and biophysics. Acta
Biochimica Polonica; 43: 1996, 339-348.
Jebb S A, Murgatroyd P R, Goldberg G R,
Prentice A M, Coward W A.
Invivo Measurement of Changes in Body
Composition - Description of
Methods and Their Validation Against 12-D
Continuous Whole-Body
Calorimetry . American Journal of Clinical
Nutrition. 1993 ; 58, N 4:
455-462
Jebb, S. A. 1995. Review of macronutrient
metabolism group workshop.
Proceedings of the Nutrition Society 54:
569-577.
Jebb S A, Elia M. Techniques for the Measurement
of Body Composition
- A Practical Guide . International Journal
of Obesity. 1993; 17, N 11:
611-621
Jebb SA, Elia M. Assessment of changes
in total body water in patients
undergoing renal dialysis using bioelectrical
impedance analysis. Clin
Nutr 1991;10(2):81-4.
Jebb S A, Elia M. Assessment of changes
in total body water in patients
undergoing renal dialysis using bioelectrical
impedance analysis. Clinical
Nutrition. 1991; 10: 81-84
Jen, K. L. C., H. Lu, L. Savona, A. Watkins,
and M. Shaw. 1995. Long-term
weight cycling reduces body weight and
fat free mass, but not fat mass in
female Wistar rats. International Journal
of Obesity 19: 699-708.
JENIN, P., LENOIR, J., ROULLET, C., THOMASSET,
A.L. & DUCROT, H.
(1975). Determination of body
fluid compartments by electrical impedance
measurements. Aviation Space &
Environmental Medicine 46, 152-155.
Jenkins K, Heyward V, Colville B, Cook
K, Hicks V, Quatrochi J, Wilson W.
Validation of bioelectrical impedance
using fat-free mass derived from age
specific equations as the criterion [abstract].
Med Sci Sports Exerc
1991;23(4 Suppl):S73.
Jenkins K A, Heyward V H, Cook K L, Hicks
V L, Quatrochi J A, Wilson W
L, Colville B C. Predictive Accuracy of
Bioelectrical Impedance Equations
for Women . American Journal of Human
Biology. 1994; 6, N 3: 293-303
Jenkins T G, Leymaster K A, Turlington
L M. Estimation of fat-free soft
tissue in lamb carcasses by use of carcass
and resistive impedance
measurement., N 66: 2174-2179
Jenstrup M, Ejlersen E, Rasmussen L S,
Secher N H. 1994. Mixed venous
oxygen saturation and thoracic electrical
impedance for fluid volume
management during liver transplantation.
Transplantation Proceedings.
1988; 26, N 3: 1793
Joeres R, Klinker H, Listl A, Thaikattil
S, Kasper H, Richter E. Assessment
of nutritional status in HIV-infection
with bioelectrical impedance analysis,
anthropometry and biochemical markers
[abstract]. Int Conf AIDS 1991
Jun 16-21;7(2):292 (abstract no. W.B.
2443).
Johansson A G, Forslund A, Sjodin A, Mallmin
H, Hambraeus L, Ljunghall
S. Determination of Body Composition -
A Comparison of Dual-Energy
X-Ray Absorptiometry and Hydrodensitometry.
American Journal of
Clinical Nutrition. 1993 ; 57, N
3: 323-326
Johnson H L, Vanloan M D, Belko A Z, Barbieri
T F, Mayclin P L, Virk S P
S. Changes in Human Body Composition During
Calorie Restriction with
2 Levels of Protein. Nutrition Research.
1993 ; 13, N 4: 407-415
Johnson H L, Virk S P S, Mayclin P, Barbieri
T. Predicting Total Body
Water and Extracellular Fluid Volumes
from Bioelectrical Measurements
of the Human Body. Journal of the American
College of Nutrition D
October 1992; 11, N 5: 539-547
JOHNSON, K., RINKE, W. & BURMAN, K.
(1987). Comparison of
circumference, skinfold, bioelectrical
impedance and hydrodensitometry
to estimate percent of body fat
during weight loss. Fed Proc 46, 575.
Joliat T L, Leickly F E, Ownby D R. Quantitative
parameters of body
composition and theophylline disposition
. Ann. Allergy. 1988; 61: 187-191
Jones PJ, Jacobs I, Morris A, Ducharme
MB. Adequacy of food rations in
soldiers during an arctic exercise measured
by doubly labeled water. J
Appl Physiol 1993 Oct;75(4):1790-7.
Jones P J H, Jacobs I, Morris A, Ducharme
M B. Adequacy of Food
Rations in Soldiers During an Arctic Exercise
Measured by Doubly Labeled
Water. Journal of Applied Physiology.
1993; 75, N 4: 1790-1797
Jones, M. A., J. C. Kingswood, P. E. Dallyn,
and P. Sharpstone. 1996.
Haemodynamic changes measured by transthoracic
bioimpedance during
treatment with recombinant human erythropoietin.
Clin Exp Hypertension
18: 51-64.
JONES, T.E., ARAUJO, J., THOMAS, T.R. &
AGUIAR, C.A. (1988).
Predicting body density by electrical
impedance. Med Sci Sports Exerc 20,
S41.
Jossinet J, Trillaud C. Imaging the
complex impedance in electrical
impedance tomography. Clin Phys
Physiol Meas 1992;13 Suppl A:47-50.
Jossinet J, Trillaud C, Risacher F, McAdams
ET. A high frequency
electrical impedance tomograph using distributed
parallel input channels.
Med Prog Technol 1993-94;19(4):167-72.
Jovanovic-Peterson L, Crues J, Durak E,
Peterson CM. Magnetic
resonance imaging in pregnancies complicated
by gestational diabetes
predicts infant birthweight ratio and
neonatal morbidity. Am J Perinatol
1993 Nov;10(6):432-7.
Kabir I, Malek M A, Rahman M M, Abukhaled
M, Mahalanabis D. Changes
in Body Composition of Malnourished Children
After Dietary
Supplementation as Measured by Bioelectrical
Impedance. American
Journal of Clinical Nutrition. 1994 ;
59, N 1: 5-9
Kalia, Y.N.; Nonato, L.B.; Guy, R.H. The
effect of iontophoresis on skin
barrier integrity: Non- invasive
evaluation by impedance spectroscopy and
transepidermal water loss.
Pharmaceutical Research; 13: 1996, 957-960.
Kalia, Y. N., and R. H. Guy. 1995. The
electrical characteristics of human
skin in vivo. Pharmaceut Res 12: 1605-1613.
Kalia, Y. N., L. B. Nonato, and R. H. Guy.
1996. The effect of iontophoresis
on skin barrier integrity: Non- invasive
evaluation by impedance
spectroscopy and transepidermal water
loss. Pharmaceut Res 13:
957-960.
Kalia, Y. N., and R. H. Guy. 1995. The
electrical characteristics of human
skin in vivo. Pharmaceut Res 12: 1605-1613.
Kaminsky L A, Whaley M H. Differences in
estimates of percent body fat
using bioelectrical impedance. J-Sports-Med-Phys-Fitness.
1993; Jun,
33(2): 172-7
Kanai H, Sakamoto K, Haeno M. Electrical
measurement of fluid
distribution in human legs: Estimation
of Extra- and Intra-Cellular fluid
volume. J. Microwave Power. 1983;
18, N 3
Kanai H, Haeno M, Sakamoto K. Electrical
measurement of fluid
distribution in legs and arms . Medical
Progress though Technology. 1987;
12: 159-170
Kaskoun MC, Fontvielle AM, Ravussin E,
Carpenter WH, Poehlman ET,
Goran MI. Prediction of body composition
in young children using
bioelectrical impedance: a cross validation
study [abstract]. FASEB J 1993
Feb;7(3 Pt 1):A360.
Kaskoun M C, Johnson R K, Goran M I. Comparison
of energy intake by
semiquantitative food-frequency questionnaire
with total energy
expenditure by the doubly labeled water
method in young children .
American Journal of Clinical Nutrition.
1994; 60, N 1: 43-47
KATCH, F.I., SOLOMON, R.T., SHAYEVITZ,
M. & SHAYEVITS, B (1986b).
Validity of bioelectrical impedance
to estimate body composition in cardiac
and pulmonary patients [letter].
Am J Clin Nutr 43, 972-973.
KATCH, R.I., KELLER, B. & SOLOMON,
R.T. (1986a). Validity of BIA for
estimating body fat in cardiac and
pulmonary patients, and Black and
White men and women matched for
age and body fat. Med Sci Sports
Exerc (Suppl) 18, S17.
KAWAKAMI, K., LING, Q.C., NAKAMURA, N.,
IKEDA, Y. & OHNO, M.
(1994). [A comparative study of
bioelectrical impedance method and dual
energy X-ray absorptionmetry for
body composition analysis]. [Japanese].
Rinsho Byori - Japanese Journal
of Clinical Pathology 42, 1088-1092.
KAY, C.F., BOTHWELL, P.T. & FOLTZ,
E.L. (1954). Electrical resistivity
of living body tissues at low frequencies.
J Physiol 13, 131.
Kee, W. C., Y. J. Kingma, M. P. Mintchev,
and K. L. Bowes. 1996. Optimal
placement of impedance epigastrography
electrodes. Ann Biomed Eng 24:
328-332.
Kehayias JJ, Heymsfield SB, LoMonte AF,
Wang J, Pierson RN Jr. In vivo
determination of body fat by measuring
total body carbon. Am J Clin Nutr
1991 Jun;53(6):1339-44.
Kehayias J J. Aging and Body Composition
- Possibilities for Future
Studies . Journal of Nutrition V 123,
N 2 Suppl.: 454-458
Keim NL, Barbieri TF, Van Loan M.
Comparison of conductivity,
impedance and density methods for body
composition assessment of
obese women. Basic Life Sci 1990;55:227-9.
KELLER, B. & KATCH, F.I. (1986). Validity
of BIA to predict body fit in
underfat, normal and overfat males and
females and comparison to
sex-specific fatfold equations.
Med Sci Sports Exerc (Suppl) 18, S17.
KELLER, B. & KATCH, F.I. (1985). Validity
of bioelectrical resistive
impedance for estimation of body
fat in lean males. Med Sci Sports Exerc
17, S272.
Keshaviah P R, Nolph K D, Moore H L, Prowant
B, Emerson P F, Meyer M,
Twardowski Z J, Khanna R, Ponferrada L,
Collins A. 1994. Lean Body
Mass Estimation by Creatinine Kinetics.
Journal of the American Society
of Nephrology. 1993; 4, N 7: 1475-1485
Keusch G, Thea D, Ngoy N, Kapita B, Mwamba
M. Body composition by
bioelectric-impedance (BEI) analysis in
HIV+ and -adults in Kinshasa Zaire
[abstract]. Int Conf AIDS 1992 Jul
19-24;8(2):B231 (abstract no. PoB
3840).
KHALED, M.A., MCCUTCHEON, M.J., REDDY,
S., PEARMAN, P.L.,
HUNTER, G.R. & WEINSSIER, R.L.
(1988). Electrical impedance in
assessing human body composition:
the BIA method. Am J Clin Nutr 47,
789-792.
Kim H K, Matsuura Y, Tanaka K, Inagaki
A. [Physical fitness and motor
ability in obese boys 12 through 14 years
of age] . Ann-Physiol-Anthropol.
1993; Jan, 12(1): 17-23
Kim HK, Tanaka K, Nakadomo F, Watanabe
K. Fat-free mass in Japanese
boys predicted from bioelectrical impedance
and anthropometric variables.
Eur J Clin Nutr 1994;48(7):482-9.
Kimura S, Morimoto T, Uyama T, Monden Y,
Kinouchi Y, Iritani T .
Application of electrical impedance analysis
for diagnosis of a pulmonary
mass . Chest. 1994; 105, N 6: 1679-1682
Kirkendall D T, Grogan J W, Bowers R G.
Field comparison of body
composition techniques: Hydrostatic weighing,
skinfold thickness, and
bioelectric impedance. The Journal of
Orthopaedic and Sports Physical
Therapy. 1991; 13, N 5: 235
Klein C, Howaldt HP, Frenz M, Klein G.
[High caloric parenteral nutrition
in patients with mouth and oropharyngeal
cancers--a clinical study].
Zentralbl Chir 1994;119(1):28-36. (Ger).
Kleiner DM. The validity of bioelectrical
impedance analysis in
determining exercise induced dehydration
[abstract]. Med Sci Sports Exerc
1992;24(5 Suppl):S79.
Koksal, A., and B. M. Eyuboglu. 1995. Determination
of optimum injected
current patterns in electrical impedance
tomography. Physiological
Measurement 16: A99-A109.
Komiya S. [Methods for the assessment
of human body composition:
skinfold thickness and bioelectrical impedance
measurements]. Ann
Physiol Anthropol 1991 Jan;10(1):3-17.
(Jpn).
Komiya S. [Methods for the assessment of
human body composition:
skinfold thickness and bioelectrical impedance
measurements].
Ann-Physiol-Anthropol. 1991; Jan,
10(1): 3-17
Komiya S, Masuda T. Estimation of
human body composition by
bioelectrical impedance measurements -
Equation for estimating total body
water in Japanese subjects. Jpn
J Phys Fitness Sports Med
1990;39(1):53-9.
Kong C H, Thompson C M, Lewis C A, Hill
P D, Thompson F D.
Determination of total body water in uraemic
patients by bioelectrical
impedance. Nephrol-Dial-Transplant.V,
8(8): 716-9
Konig M F, Batra S. 1994. Relationship
between body fat and
anthropometric variables in a large sample
of young males. International
Journal of Sports Medicine. 1993;
15, N 4: 163-167
Konishi, Y., T. Morimoto, Y. Kinouchi,
T. Iritani, and Y. Monden. 1995.
Electrical properties of extracted rat
liver tissue. Research in Experimental
Medicine 195: 183-192.
Kontturi K, Murtomaki L, Hirvonen J, Paronen
P, Urtti A. Electrochemical
characterization of human skin by impedance
spectroscopy: the effect of
penetration enhancers. Pharm Res
1993 Mar;10(3):381-5.
Kotler DP, Tierney AR, Ferraro R, Cuff
P, Wang J, Pierson RN Jr,
Heymsfield SB. Enteral alimentation
and repletion of body cell mass in
malnourished patients with acquired immunodeficiency
syndrome. Am J
Clin Nutr 1991 Jan;53(1):149-54.
Kotler, D.P.; Burastero, S.; Wang, J.;
Pierson, R.N. Prediction of body cell
mass, fat-free mass, and total body
water with bioelectrical impedance
analysis: Effects of race,
sex, and disease. American Journal of Clinical
Nutrition; 64: 1996, S489-S497.
Kotler, D. P., S. Burastero, J. Wang, and
R. N. Pierson. 1996. Prediction
of body cell mass, fat-free mass, and
total body water with bioelectrical
impedance analysis: Effects of race, sex,
and disease. Am J Clin Nutr 64:
S489-S497.
Kouw PM, Kooman JP, Cheriex EC, Olthof
CG, de Vries PM, Leunissen
KM. Assessment of postdialysis dry
weight: a comparison of techniques.
J Am Soc Nephrol 1993 Jul;4(1):98-104.
Kouw PM, Olthof CG, ter Wee PM, Oe LP,
Donker AJ, Schneider H, de
Vries PM. Assessment of post-dialysis
dry weight: an application of the
conductivity measurement method.
Kidney Int 1992 Feb;41(2):440-4.
Kouw PM, Olthof CG, Gruteke P, de Vries
PM, Meijer JH, Oe PL,
Schneider H, Donker AJ. Influence
of high and low sodium dialysis on
blood volume preservation. Nephrol
Dial Transplant 1991;6(11):876-80.
Kozlowska J, Rigaud B, Martinez E, Dubroca
V, Morucci JP. Electrical
impedance tomography. Technical and experimental
problems
encountered in impedance spectroscopy
in the alpha and beta dispersion
regions. Clin Phys Physiol Meas
1992;13 Suppl A:57-9.
Kreitzman SN, Coxon A. The use of
electrical impedance and infra-red
interactance to determine non water lean
component of fat free mass.
Basic Life Sci 1990;55:433-5.
Krew MA, Kehl RJ, Thomas A, Catalano PM.
Relation of amniotic fluid
C-peptide levels to neonatal body composition.
Obstet Gynecol 1994
Jul;84(1):96-100.
Kuczmarski, R.J. Bioelectrical impedance
analysis measurements as part
of a national nutrition
survey. American Journal of Clinical Nutrition; 64:
1996, S453-S458.
Kuczmarski, R. J. 1996. Bioelectrical impedance
analysis measurements
as part of a national nutrition survey.
Am J Clin Nutr 64: S453-S458.
Kurtin PS, Shapiro AC, Tomita H, Raizman
D. Volume status and body
composition of chronic dialysis patients:
utility of bioelectric impedance
plethysmography. Am J Nephrol 1990;10(5):363-7.
Kushner, R. F., R. Gudivaka, and D. A.
Schoeller. 1996. Clinical
characteristics influencing bioelectrical
impedance analysis
measurements. Am J Clin Nutr 64: S423-S427.
Kushner R. Nutritional assessment: Body
composition measurement in
nutrition support [abstract]. J Am Coll
Nutr 1993;12(5):583.
Kushner RF. Bioelectrical impedance
analysis: a review of principles and
applications. J Am Coll Nutr 1992
Apr;11(2):199-209.
Kushner R. Nutritional assessment:
body composition measurement in
nutrition support [abstract]. J Am Coll
Nutr 1993;12(5):583.
Kushner R F, Kunigk A, Alspaugh M, Andronis
P T, LeitchC, Scholler D A.
Validation of Bioelectrical-Impedance
Analysis As a Measurement of
Change in Body Composition in Obesity.
Am J Clin Nutr. 1990 ; 52(2):
219-223
Kushner, R.F.; Gudivaka, R.; Schoeller,
D.A. Clinical characteristics
influencing bioelectrical impedance
analysis measurements. American
Journal of Clinical Nutrition; 64: 1996,
S423-S427.
Kushner, R.F.; Devries, P.M.J.M.; Gudivaka,
R. Use of bioelectrical
impedance analysis measurements
in the clinical management of
patients undergoing dialysis. American
Journal of Clinical Nutrition; 64:
1996, S503-S509.
Kushner, R. F., P. Devries, and R. Gudivaka.
1996. Use of bioelectrical
impedance analysis measurements in the
clinical management of patients
undergoing dialysis. Am J Clin Nutr 64:
S503-S509.
Kushner R F, Schoeller D A, Fjeld C R,
Danford L D November 1992. Is
the Impedance Index (ht2/R) Significant
in Predicting Total Body Water .
American Journal of Clinical Nutrition.
1986; 56, N 5: 835-839
Kushner RF, Schoeller DA, Fjeld CR, Danford
L. Is the impedance index
(ht2/R) significant in predicting total
body water? Am J Clin Nutr 1992
Nov;56(5):835-9. Comment in: Am J Clin
Nutr 1993 Jun;57(6):947.
Lacy, F., M. Kadimanzuji, F. J. Malveaux,
and E. L. Carter. 1996.
Distinguishing between activated and nonactivated
eosinophils by AC
impedance measurements. IEEE Trans Biomed
Eng 43: 218-221.
LAWLOR, M.R., CRISMAN, R.P. & HODGDON,
J.A. (1985). Bioelectrical
impedance analysis as a method to
asses body composition. Med Sci
Sports Exerc 17, 271.
Lederman SA, Pierson RN Jr, Wang J, Paxton
A, Thornton J, Wendel J,
Heymsfield SB. Body composition
measurements during pregnancy.
Basic Life Sci 1993;60:193-5.
Lee PD, Hwu K, Henson H, Brown BT, Bricker
JT, LeBlanc AD, Fiorotto
ML, Greenberg F, Klish WJ. Body
composition studies in Prader-Willi
syndrome: effects of growth hormone therapy.
Basic Life Sci
1993;60:201-5.
Leiter, L. A. 1996. Use of bioelectrical
impedance analysis measurements
in patients with diabetes (Reprinted from
Int J Obes, vol 18, pg 829-34,
1994). Am J Clin Nutr 64: S515-S518.
Leiter, L.A. Use of bioelectrical impedance
analysis measurements in
patients with diabetes (Reprinted
from Int J Obes, vol 18, pg 829-34,
1994). American Journal of Clinical
Nutrition; 64: 1996, S515-S518.
LEITER, L.A., LUKASKI, H.C., KENNY, D.J.,
BARNIE, A., CAMELON, K.,
FERGUSON, R.S., MACLEAN, S., SIMKINS,
S., ZINMAN, B. & CLEARY,
P.A. (1994). The use of bioelectrical
impedance analysis (BIA) to estimate
body composition in the Diabetes
Control and Complications Trial
(DCCT). International Journal of
Obesity & Related Metabolic Disorders
18, 829-835.
Li, J.H.; Joppek, C.; Faust, U. In vivo
EIT electrode system with 32
interlaced active electrodes.
Medical & Biological Engineering &
Computing; 34: 1996, 253-256.
Liang M T C, Norris S. Effects of Skin
Blood Flow and Temperature on
Bioelectric Impedance After Exercise.
Medicine and Science in Sports and
Exercise. 1993; 25, N 11: 1231-1239
Librenti MC, Vedani P, Micossi P, Pozza
G. [Evaluation of an impedance
measurement method for determining body
composition in diabetic
subjects and normal controls]. Minerva
Endocrinol 1991
Jan-Mar;16(1):27-30. (Ita).
Lichtenbelt W D V, Westerterp K R, Wouters
L, Luijendijk S C M
body-water compartments. American Journal
of Clinical Nutrition. 1994 T
Validation of bioelectrical-impedance
measurements as a method to
estimate; 60, N 2: 159-166
Lichtman SW, Pisarska K, Berman ER, Pestone
M, Dowling H,
Offenbacher E, Weisel H, Heshka S, Matthews
DE, Heymsfield SB.
Discrepancy between self-reported and
actual caloric intake and exercise
in obese subjects. N Engl J Med
1992 Dec 31;327(27):1893-8. Comment
in: N Engl J Med 1992 Dec 31;327(27):1947-8;
N Engl J Med 1993 May
20;328(20):1494; discusssion 1495; and
N Engl J Med 1993 May
20;328(20):1494-5.
Lichtman S, Tierney AR, Wang J, Pierson
RN JR, Heymsfield S, Kotler DP.
The use of (BIA) as a predictor of total
body water in AIDS patients.
[abstract]. Clin Res 1991;39(2):650A.
Lindley EJ, Brown BH, Barber DC, Grundy
D, Knowles R, McArdle FJ,
Wilson AJ. Monitoring body fluid
distribution in microgravity using
impedance tomography (APT (applied potential
tomography)). Clin Phys
Physiol Meas 1992;13 Suppl A:181-4.
Lindsay R, Himmelstein S, Herrington B
S, Cosman F. Body composition
studies in premenopausal healthy women.
Basic-Life-Sci. 1990; 55 :
206-9
Lipkin EW, Bell S. Assessment of
nutritional status. The clinician's
perspective. Clin Lab Med 1993 Jun;13(2):329-52.
Little KD, Sinning WE, Wilmore JH, Pollock
ML, Graves JE, Lohman TG.
Bioelectrical impedance and anthropometric
estimates of body composition
in middle-age adults [abstract]. Med Sci
Sports Exerc 1989;21(2
Suppl):S38.
Ljungqvist O, Hedenborg G, Jacobson SH,
Lins LE, Samuelson K, Tedner
B, Zetterholm UB. Whole body impedance
measurements reflect total
body water changes. A study in hemodialysis
patients. Int J Clin Monit
Comput 1990 Jul;7(3):163-9.
Lo WK, Prowant BF, Moore HL, Gamboa SB,
Nolph KD, Flynn MA,
Londeree B, Keshaviah P, Emerson P.
Comparison of different
measurements of lean body mass in normal
individuals and in chronic
peritoneal dialysis patients. Am
J Kidney Dis 1994 Jan;23(1):74-85.
Lo, C. M., C. R. Keese, and I. Giaever.
1995. Impedance analysis of
MDCK cells measured by electric cell-
substrate impedance sensing.
Biophys J 69: 2800-2807.
LOFGREN, B. (1951), The electrical impedance
of a complex tissue and
its relation to change in volume
and fluid distribution. A study of rat
kidneys. Acta Physiol Scand 23,
5-50.
Lohman TG. Advances in body composition
assessment. Champaign (IL):
Human Kinetics Books; 1992. 150 p. (Current
issues in exercise science;
3).
Lohman TG. Assessment of body composition
in children. Pediatr Exerc
Sci 1989 Feb;1(1):19-30.
LOHMAN, T.G., GOING, S.B., GOLDING, L.
WILMORE, H.H., SINNING,
W., BOILEAU, R.A. & VAN LOAN, M. (1987).
Interlaboratory bioelectric
resistance comparisons, Med Sci
Sports Exerc 19, S40.
Longbottom, C., M. Huysmans, N. B. Pitts,
P. Los, and P. G. Bruce. 1996.
Detection of dental decay and its extent
using ac impedance spectroscopy.
Nature Med 2: 235-237.
Lozano, A., J. Rosell, and R. Pallasareny.
1995. A multifrequency
multichannel electrical impedance data
acquisition system for body fluid
shift monitoring. Physiol Meas 16: 227-237.
Lu, L., L. Hamzaoui, B. H. Brown, B. Rigaud,
R. H. Smallwood, D. C.
Barber, and J. P. Morucci. 1996. Parametric
modelling for electrical
impedance spectroscopy system. Med Biol
Eng Comput 34: 122-126.
Lukaski HC. Comparison of proximal
and distal placements of electrodes
to assess human body composition by bioelectrical
impedance. Basic Life
Sci 1993;60:39-43.
Lukaski H C, Johnson P E, Bolonchuk W W,
Lykken G. Assessment of
fat-free mass using bioelectrical impedance
measurements of the human
body. The American Journal of clinical
Nutrition. 1985; 41: 810 - 817
Lukaski HC. Applications of bioelectrical
impedance analysis: a critical
review. Basic Life Sci 1990;55:365-74.
Lukaski H C, Bolonchuk W W, Siders W A,
Hall C B. Body composition
assessment of athletes using bioelectrical
impedance measurements.
J-Sports-Med-Phys-Fitness. 1990;
Dec, 30(4): 434-40
Lukaski H C. Applications of bioelectrical
impedance analysis: a critical
review. Basic-Life-Sci. 1990;
55: 365-74: 206-9
Lukaski HC. Assessment of body composition
using tetrapolar
bioelectrical impedance analysis. In:
Whitehead RG, Prentice A, editors.
New techniques in nutritional research;
proceedings of the 9th-Annual
Bristol-Myers Squibb/Mead Johnson Nutrition
Symposium; 1989 Sep
11-13; Cambridge, England. San Diego:
Academic Press; 1991. p. 303-16.
(Bristol-Myers Squibb/Mead Johnson Nutrition
Symposia; vol. 9).
Lukaski H C, Bolonchuk W W. Estimation
of body fluid volumes using
tetrapolar bioelectrical impedance
measurements.
Aviat-Space-Environ-Med. 1988; Dec,
59(12): 1163-9
Lukaski HC. Methods for the assessment
of human body composition:
traditional and new. Am J Clin Nutr.
1987; Oct;46, N 4: 537-56
Lukaski H C, Siders W A, Nielsen E J, Hall
C B. Total Body Water in
Pregnancy - Assessment by Using Bioelectrical
Impedance . American
Journal of Clinical Nutrition. 1994;
59, N 3: 578-585
Lukaski, H.C. Biological indexes considered
in the derivation of the
bioelectrical impedance analysis. American
Journal of Clinical Nutrition;
64: 1996, S397-S404.
Lukaski, H. C. 1996. Biological indexes
considered in the derivation of the
bioelectrical impedance analysis. Am J
Clin Nutr 64: S397-S404.
Lusseveld E M, Peters E T J, Deurenberg
P. Multifrequency Bioelectrical
Impedance as a Measure of Differences
in Body Water Distribution.
Annals of Nutrition and Metabolism. 1993;
37, N 1: 44-51
Macdonald JR. Impedance spectroscopy.
Ann Biomed Eng
1992;20(3):289-305.
Madden, R. H., and A. Gilmour. 1995. Impedance
as an alternative to MPN
enumeration of coliforms in pasteurized
milks. Lett Appl Microbiol 21:
387-388.
Madden A M, Morgan M Y. A comparison of
skinfold anthropometry and
bioelectrical impedance analysis for measuring
percentage body fat in
patients with cirrhosis. Journal of Hepatology,
N 21: 878-883
Madore F, Wuest M, Ethier J H. 1994. Nutritional
evaluation of
hemodialysis patients using an impedance
index . Clinical Nephrology.
1994; 41, N 6: 377-382
Maehara T, Novak I, Wyse R K, Elliot M
J. Perioperative monitoring of total
body water by bio-electrical impedance
in children undergoing open heart
surgery. Eur-J-Cardiothorac-Surg. 1991;
5(5): 258-64, discussion 265
Maggiore Q, Nigrelli S, Enia G, Ciccarelli
C, Cerrai T, Dattolo P, Rossi A,
Santoni R. Bioimpedentiometric analysis
(BIA) for assessing nutritional
status NS in hemodialysis HD PTS [abstract].
J Am Soc Nephrol
1991;2(3):337.
Maitland L A, Myers E R, Hipp J A, Hayes
W C, Greenspan S L. Read my
hips: measuring trochanteric soft tissue
thickness. Calcif-Tissue-Int. 1993; Feb, 52(2): 85-9
Maki KC, Briones ER, Langbein WE, Inman-Felton
A, Nemchausky BA,
Burton J, Welch M. A comparison
between bioelectrical impedance and
near infrared interactance for assessing
body composition in persons with
spinal cord injury [abstract]. J Am Coll
Nutr 1993;12(5):616.
Maksimenko VA, Belorusov OS, Krivitskii
NM, Ho ZZ, Shifris SV, Kislukhin
VV. [The electrical impedance indicator
dilution method in studying the
basic hemodynamic parameters during dialysis].
Urol Nefrol (Mosk) 1991
Jul-Aug;(4):55-7. (Rus).
Malina, R M. Bioelectric methods for estimating body composition:
an
overview and discussion . Hum Biol . 1987; 59, N 2: 271-9
Mandolfo S, Imbasciati E. [Comparison and repeatability
among
bioelectric impedance anthropometry and kinetic modelling].
G Ital Nefrol
1993;10(2):111-5. (Ita).
Marchello M J, Slanger W D. Use of bioelectrical impedance to
predict
leanness of Boston butts. J-Anim-Sci. 1992;
Nov, 70(11): 3443-50
Marchello M J. Bioelectrical Impedance analysis for the Prediction
of
fat-free mass in lambs and lamb carcasses. J Anim. Sci. 1994;
72:
322-329
Marchello M J, Slanger W D. Bioelectrical impedance can predict
skeletal
muscle and fat-free skeletal muscle of beef cows and their carcasses.
J.
Anim. Sci. 1994; 72: 3118-3123
Marinides GN, Mookerjee BK. Assessment of bioelectrical
impedance
analysis (BIA) in dialysis patients [abstract]. J Am Soc Nephrol
1992;3(3):428.
Marriott BM, Grumstrup-Scott J, editors. Body composition
and physical
performance: applications for the military services. Washington:
National
Academy Press; 1992. 356 p.
Marsili PM, Mounie G, Granie M, Morucci JP. Conductivity
interface
modelling with dipoles by means of optimal control and boundary
element
methods in impedance tomography. Clin Phys Physiol Meas
1992;13
Suppl A:107-11.
Martelletti P, Andreoli A, Bernoni R M, Di-Sabato F, Del-Bolgia
F, Baldi A,
Sasso G F, Barra P, De-Lorenzo A, Giacovazzo M. Bioelectrical
impedance assay (BIA) of total body composition in alcohol-induced
migraine patients. Preliminary report. Headache. 1991;
Jan, 31(1): 41-5
Marti B, Suter E, Riesen W F, Tschopp A, Wanner H U. Anthropometric
and lifestyle correlates of serum lipoprotein and apolipoprotein
levels
among normal non-smoking men and women. Atherosclerosis.
1989; Feb,
75(2-3) : 111-22
Martin Pena G, Galdos Anuncibay P. [The application of
impedance
analysis to the study of body composition]. Nutr Hosp
1993
Dec;8(9):525-47. (Spa).
Martinsen, O. G., S. Grimnes, and J. Karlsen. 1995. Electrical
methods for
skin moisture assessment. Skin Pharmacology 8: 237-245.
Martorell R, Habicht JP, Haas J. Predicting total body
water from
bioelectrical impedance in children [letter]. Ann Hum
Biol 1989
Mar-Apr;16(2):173-4.
Masuda T, Imai K, Komiya S. Relationship of anthropometric indices
of
body fat to cardiovascular risk in Japanese women. Ann-Physiol-Anthropol.
1993; May, 12(3): 135-44
Mattar JA, Salas CE, Bernstein DP, Lehr D, Bauer R. Hemodynamic
changes after an intensive short-term exercise and nutrition
program in
hypertensive and obese patients with and without coronary artery
disease.
Arq Bras Cardiol 1990 May;54(5):307-12.
Matthie, J. R., and P. O. Withers. 1995. Segmental vs whole body
multifrequency bioimpedance measurements. J Appl Physiol 79:
2177-2178.
Matthie, J. R., and P. O. Withers. 1996. Bioimpedance, the Cole
model
equation and the prediction of intra and extracellular water:
Science or
marketing (vol 15, pg 147, 1996). Clin Nutr 15: 217-219.
Matthie, J. R., and P. O. Withers. 1996. Bioimpedance, the Cole
model
equation and the prediction of intra and extracellular water:
Science or
marketing. Clin Nutr 15: 147-148.
Matthie, J.R.; Withers, P.O. Bioimpedance, the Cole model equation
and
the prediction of intra and extracellular
water: Science or marketing.
Clinical Nutrition; 15: 1996, 147-148.
Matthie, J.R.; Withers, P.O. Bioimpedance, the Cole model equation
and
the prediction of intra and extracellular
water: Science or marketing (vol
15, pg 147, 1996). Clinical Nutrition; 15:
1996, 217-219.
Matthie, J. R., and P. O. Withers. 1995. The ambiguities of predicting
total
body water and body cell mass with a single frequency (50KHz)
measurement of bioimpedance. J Amer Soc Nephrol 6: 1682-1685.
Maughan R J. An evaluation of a bioelectrical impedance analyser
for the
estimation of body fat content. Br-J-Sports-Med. 1993;
Mar, 27(1): 63-6
Mayfield S R, Uauy R, Waidelich D. Body composition of low-birth-weight
infants determined by using bioelectrical resistance and
reactance [see
comments] CM: Comment in: Am J Clin Nutr 1992 Dec,56(6):1067-8.
Am-J-Clin-Nutr. 1991; Aug, 54(2): 296-303
Mazariegos, M., C. Valdez, S. Kraaij, C. Vansetten, C. Liurink,
K. Breuer,
M. Haskell, I. Mendoza, N. W. Solomons, and P. Deurenberg. 1996.
A
comparison of body fat estimates using anthropometry and bioelectrical
impedance analysis with distinct prediction equations in elderly
persons in
the Republic of Guatemala. Nutrition 12: 168-175.
Mazariegos, M., C. Valdez, S. Kraaij, C. Vansetten, C. Luirink,
K. Breuer,
M. Haskell, I. Mendoza, N. W. Solomons, and P. Deurenberg. 1996.
Comparative body composition estimates for institutionalized
and
free-living elderly in metropolitan areas of the Republic of
Guatemala. Nutr
Res 16: 443-457.
Mazariegos, M.; Valdez, C.; Kraaij, S.; Vansetten, C.; A comparison
of
body fat estimates using anthropometry and
bioelectrical impedance
analysis with distinct prediction equations
in elderly persons in the
Republic of Guatemala. Nutrition; 12: 1996, 168-175.
Mazariegos M, Kral JG, Wang J, Waki M, Heymsfield SB, Pierson
RN Jr,
Thornton JC, Yasumura S. Body composition and surgical
treatment of
obesity. Effects of weight loss on fluid distribution.
Ann Surg 1992
Jul;216(1):69-73.
Mazariegos M, Kral JG, Wang J, Waki M, Heymsfield SB, Pierson
RN Jr,
Thornton JC, Yasumura S. Body composition and surgical
treatment of
obesity. Effects of weight loss on fluid distribution.
Ann Surg 1992
Jul;216(1):69-73.
Mazess R B. Do bioimpedance changes reflect weight, not composition?
[letter, comment] CM: Comment on: . Am J Clin Nutr 1990 . 1991;
Aug,52(2):: 219-23
Mazess R B. Bioelectrical impedance: does resistance contribute
to
composition measurement? . Clin Phys Physiol Meas. 1991;
11 (3) :
209-216
Mcadams, E. T., and J. Jossinet. 1995. Tissue impedance: A historical
overview. Physiological Measurement 16: A1-A13.
Mcadams E T, Jossinet J. The detection of the onset of
electrode-electrolyte interface impedance nonlinearity: A theoretical
study.
IEEE Transactions on Biomedical Engineering. 1994; 41,
N 5: 498-500
McCullough A J, Mullen K D, Kalhan S C. Measurements of total
body and
extracellular water in cirrhotic patients with and without
ascites.
Hepatology. 1991; Dec, 14(6): 1102-11
McDonald J J, Chanduvi B, Velarde G, Cama R, Diaz F, Carrillo
L, Torre
V,. Bioimpedance monitoring of rehydration in cholera. Lancet.
1993 ; Apr
24, 341(8852): 1049-51
MCDOUGALL, D. & SHIZGAL, H.M. (1986). Body composition
measurements from whole body resistance and reactance.
Surg Forum
XXXVI, 42-44.
McKee JE, Cameron N. Fluctuations in bioelectric impedance during
the
menstrual cycle [abstract]. Am J Phys Anthropol 1993;Suppl 16:143.
McNeill G, Fowler PA, Maughan RJ, McGaw BA, Fuller MF, Gvozdanovic
D, Gvozdanovic S. Body fat in lean and overweight women
estimated by
six methods. Br J Nutr 1991 Mar;65(2):95-103.
McNeill G, Fowler P A S Maughan R J, McGaw B A, Fuller M F,
Gvozdanovic D, Gvozdanovic S. Body fat in lean and overweight
women
estimated by six methods. Br-J-Nutr. 1991 ;
Mar, 65(2): 95-103
Medved R, Misigoj-Durakovic M, Matkovic BR. Relation between
the
anthropometric and the bioelectrical impedance method of assessing
body
fat percentage. Period Biol 1993;95(1):105-8.
Meguid M M, Lukaski H C, Tripp M D, Rosenburg J M, Parker F B
. Rapid
Bedside Method to Assess Changes in Postoperative Fluid Status
with
Bioelectrical Impedance Analysis. Surgery D September 1992 ;
112, N 3:
502-508
MEGUID, M.M., CAMPOS, A.C., LUKASKI, H.C., & KEILL, C. (1988).
A
new single cell in-vitro model to determine volume and sodium
concentration changes by bioelectrical impedance analysis.
Nutrition 4,
363-366.
Meijer JH, de Vries PM, Goovaerts HG, Oe PL, Donker AJ, Schneider
H.
Measurement of transcellular fluid shift during haemodialysis.
Part 1.
Method. Med Biol Eng Comput 1989 Mar;27(2):147-51.
Metherall, P., D. C. Barber, R. H. Smallwood, and B. H. Brown.
1996.
Three-dimensional electrical impedance tomography. Nature 380:
509-512.
Miggiano GA, Petitti T. [Bioelectric properties of lean
tissues in
hospitalized patients with stable weight]. Riv Ital Nutr
Parenter Enteral
1994;12(1):10-4. (Ita).
Miholic J, Meyer HJ, Balks J, Kotzerke J. [Effect of reconstruction
method
on nutritional status after gastrectomy. Comparison of Roux-Y
esophagojejunostomy and jejunum interposition]. Chirurg
1991
Apr;62(4):300-5. (Ger).
Miholic J, Meyer HJ, Muller MJ, Weimann A, Pichlmayr R.
Nutritional
consequences of total gastrectomy: the relationship between
mode of
reconstruction, postprandial symptoms, and body composition.
Surgery
1990 Sep;108(3):488-94.
Miholic J, Reilmann L, Meyer H J, Korber H, Dieckelmann A, Pichlmayr
R
. Estimation of Extracellular Space and Blood Volume Using Bioelectrical
Impedance Measurements. Clinical Investigator D July 1992 ;
70, N 7:
600-605
MILES, D.S. & STEVENS, A.G. (1985). Body composition measure
by
bioelectrical impedance and hydrostatic weighing. Med
Sci Sports Exerc
17, 272-273.
MIRANDA, E., LONBARD, V.P, TROXEL, R.K. & MENON, J. (1986).
Percentage body fat estimation via bioelectrical impedance,
hydrostatic
weighing and skinfold assessment. Med Sci Sports Exerc
18, S31.
Mitchell, I. M., P. S. W. Davies, J. C. S. Pollock, and M. P.
G. Jamieson.
1995. Total body water in children with congenital heart disease,
before
and after cardiac surgery. Journal of Thoracic and Cardiovascular
Surgery
110: 633-640.
Mitchell CO, Rose J, Familoni B, Winters S, Ling F. The
use of
multifrequency bioelectrical impedance analysis to estimate
fluid volume
changes as a function of the menstrual cycle. Basic Life
Sci
1993;60:189-91.
MITCHELL, C.O., BAUMGARTNER, R.N. & CHUMLEA, W.C.. (1989).
Estimation of body composition from segmental measures
of bioelectrical
impedance in the elderly. In Book of Abstracts, International
Symposium
on In Vivo Body Composition Studies, 1989. Anonymous
Toronto,
Canada.
Mitrakou A, Raptis G, Ganotakis E, Raptis SA. Fat weight
measured by
bioelectrical impedance is predictive of impaired glucose tolerance
[abstract]. Diabetologia 1990;33 Suppl:A199.
Mitsuyama N, Morimoto T, Kinouchi Y, Iritani T, Sumi T, Kimura
S, Monden
Y. [In vivo measurements of electrical bio-impedance of breast
tumors] .
Nippon-Geka-Gakkai-Zasshi. 1988 ; Feb, 89(2): 251-5
MLYNAREK, M., ZAROWITZ, B.J. & HORST, H.M. (1988). Impedance
assessment of postoperative changes in gentamicin volume
of distribution
and fluid status. Presented at the 23rd Annual American
society of
Hospital Pharmacists Midyear Clinical Meeting. (Abstract)
Moller, J., E. Frandsen, S. Fisker, J. O. L. Jorgensen, and J.
S.
Christiansen. 1996. Decreased plasma and extracellular volume
in growth
hormone deficient adults and the acute and prolonged effects
of GH
administration: A controlled experimental study. Clin Endocrinol
44:
533-539.
Moller, J., J. O. L. Jorgensen, E. Frandsen, T. Laursen, and
J. S.
Christiansen. 1995. Body fluids, circadian blood pressure and
plasma
renin during growth hormone administration: A placebo-controlled
study
with two growth hormone doses in healthy adults. Scand J Clin
Lab Invest
55: 663-669.
Moore RJ, Hall CB, Carlson EC, Lukaski HC, Klevay LM. Acute
renal
failure and fluid retention and kidney damage in copper-deficient
rats fed
a high-NaCl diet. J Lab Clin Med 1989 Apr;113(4):516-24.
Morgan P, Golden B, Bocage C, Golden M. Prediction of total
body water
and body composition from bioelectrical impedance measures in
Jamaican
infants during recovery from severe malnutrition [abstract].
FASEB J
1989;3(4):A1053.
Morgan D J, Bray K M. Lean Body Mass as a Predictor of Drug Dosage
-
Implications for Drug Therapy . Clinical Pharmacokinetics. 1994;
26, N 4:
292-307
Morgan P, Golden B, Bocage C, Golden M. Prediction of total
body water
and body composition from bioelectrical impedance measures in
Jamaican
infants during recovery from severe malnutrition [abstract].
FASEB J
1989;3(4):A1053.
MORIMOTO, T., KINOUCHI, Y., IRITANI, T., KIMURA, S., KONISHI,
Y.,
MITSUYAMA, N., KOWAKI, K. & MONDEN, Y. (1990). Measurement
of the
electrical bioimpedance of breast tumours. Eur Surg Res.
Morucci, J. P., M. Granie, M. Lei, M. Chabert, and P. M. Marsili.
1995. 3D
reconstruction in electrical impedance imaging using a direct
sensitivity
matrix approach. Physiological Measurement 16: A123-A128.
Morucci JP, Shi Y, Rigaud B. The modulation transfer function
in
impedance imaging. Clin Phys Physiol Meas 1992;13 Suppl
A:161-6.
Moskowitz MJ, Paulsen KD, Ryan TP, Pang D. Temperature
field
estimation using electrical impedance profiling methods. II.
Experimental
system description and phantom results. Int J Hyperthermia
1994
Mar-Apr;10(2):209-28.
Moskowitz M J, Paulsen K D, Ryan T P, Pang D. Temperature field
estimation using electrical impedance profiling methods .2.
Experimental
system description and phantom results. International Journal
of
Hyperthermia. 1994; 10, N 2: 229-245
Muller M J, Lautz H U, Plogmann B, Burger M, Korber J, Schmidt
F W
impact of cause, clinical staging and nutritional state. Hepatology.
1992 T
Energy expenditure and substrate oxidation in patients with
Cirrhosis: The;
15: 782 - 794
Muller M J, Pirlich M, Balks H J, Selberg O. Glucose intolerance
in liver
cirrhosis: Role of hepatic and non-hepatic influences
. European Journal
of Clinical Chemistry and Clinical Biochemistry . 1994;
32 , N 10 :
749-758
Muller, M. R., A. Salat, S. Pulaki, P. Stangl, E. Ergun, W.
Schreiner, U.
Losert, and E. Wolner. 1995. Influence of hematocrit and platelet
count on
impedance and reactivity of whole blood for electrical aggregometry.
Journal of Pharmacological and Toxicological Methods 34: 17-22.
Munday H S. Assessment of body composition in cats and dogs.
International Journal of Obesity. 1994; 18, N Suppl.
1: S14-S21
Muraoka Y, Komiya S. [Equation for estimating total body water
by
bioelectrical impedance measurements in Japanese subjects].
Ann-Physiol-Anthropol. 1991; Oct, 10(4): 203-10
Muscaritoli M, Gleason J R, Meguid M M, Lukaski H C.
Densitometry-Based Equations for Estimating Body Composition
in Fischer
Rats . Nutrition. 1993; 9, N 5: 439-445
Muthappa PB, Morkeberg JC, Wong WW, Schanler RJ, Sheng H-P.
Rapid
noninvasive measurements of body composition using bioelectrical
impedance in preterm infants [abstract]. Pediatr Res;27(4 Pt
2):287A.