Armed Forces
Athletes
Bodystat Validation Papers
Burns
Cancer
COPD
Diabetes
Dialysis/Nephrology
Drug Dosing
Eating Disorders
Elderly
General Body Composition
Heart Disease
HIV
Hydration Status/Fluid Retention
Malnutrition/Undernutrition/Nutrition
Obesity
Paediatrics
Phase Angle & Illness Marker
Wasting Disease
Athletes
Bodystat Validation Papers
Burns
Cancer
COPD
Diabetes
Dialysis/Nephrology
Drug Dosing
Eating Disorders
Elderly
General Body Composition
Heart Disease
HIV
Hydration Status/Fluid Retention
Malnutrition/Undernutrition/Nutrition
Obesity
Paediatrics
Phase Angle & Illness Marker
Wasting Disease
A copy of the Abstracts below may be requested directly from Bodystat Ltd by quoting the appropriate reference number.
The Abstracts marked with an * indicate that a Bodystat® device has been used in the study and that the detailed paper may be found under Research Digest or alternatively click on the links below for an option to view the paper or abstract.
ARMED FORCES AF1 Bioelectrical impedance in the Air Force Weight Management Program. (Breitenbach RA)
Mil Med 1990 Oct; 155(10): 509-10
ARMED FORCES AF1 Bioelectrical impedance in the Air Force Weight Management Program. (Breitenbach RA)
Mil Med 1990 Oct; 155(10): 509-10
AF2 Death from hyponatremia as a result of acute water intoxication in an Army basic trainee. (Garigan TP et al.)
Mil Medicine 1999 Mar; 164(3):234-8
ATHLETES ATH1* (VAL17) Effects of training and creatine supplement on muscle strength and body mass. (Francaux M et al.)
Eur J Appl Physiol (1999) 80: 165-168
ATH2 New bioimpedance model accurately predicts lower limb muscle volume: validation by magnetic resonance imaging. (Salinari S et al.)
ATH2 New bioimpedance model accurately predicts lower limb muscle volume: validation by magnetic resonance imaging. (Salinari S et al.)
Am J Physiol Endocrinol Metab 2002 Apr; 282(4): E960-6
ATH3* (VAL18) Effect of Exogenous Creatine Supplementation on Muscle PCr Metabolism. (Francaux M et al.)
ATH3* (VAL18) Effect of Exogenous Creatine Supplementation on Muscle PCr Metabolism. (Francaux M et al.)
Int J Sports Med 2000; 21: 139-145
BODYSTAT PRODUCT VALIDATION
(for detailed papers refer Research Digest or click the appropriate link below)
VAL1* Body composition at the bedside. (Ghosh S et al.)
Eur J Gastroenterol Hepatol 1997 Aug; 9(8): 783-8
VAL2* Comparative evaluation of body composition methods and predictions, and calculation of density and hydration fraction of fat-free mass, in obese women. (Fuller NJ et al.)
VAL2* Comparative evaluation of body composition methods and predictions, and calculation of density and hydration fraction of fat-free mass, in obese women. (Fuller NJ et al.)
Int J Obes Relat Metab Disord 1994 Jul; 18(7): 503-12
VAL3* Comparison of bio-impedance spectroscopy and multi-frequency bio-impedance analysis for the assessment of extracellular and total body water in surgical patients. (Hannan WJ et al.)
VAL3* Comparison of bio-impedance spectroscopy and multi-frequency bio-impedance analysis for the assessment of extracellular and total body water in surgical patients. (Hannan WJ et al.)
Clin Sci (Lond) 1995 Dec; 89(6): 651-8
VAL4* Nutrition index determined by a portable multifrequency bioelectrical impedance analysis machine. (Keller W et al.)
VAL4* Nutrition index determined by a portable multifrequency bioelectrical impedance analysis machine. (Keller W et al.)
GUT 1998; 42 (suppl 1)
VAL5* Fluid Hydration Status Assessment in Behavioral Medicine Research: Seven-Day Test-Retest Reliability. (Shanholtzer BA et al.)
VAL5* Fluid Hydration Status Assessment in Behavioral Medicine Research: Seven-Day Test-Retest Reliability. (Shanholtzer BA et al.)
Annals of Behavioral Medicine, 2002; 24, S133
VAL6* Hydration status and cardiovascular psychophysiology. (Patterson SM et al.)
VAL6* Hydration status and cardiovascular psychophysiology. (Patterson SM et al.)
Psychophysiology, 2002; 39, S64
VAL7* Relationship between hydration enhancement and blood pressure: More is better. (Patterson SM et al.)
VAL7* Relationship between hydration enhancement and blood pressure: More is better. (Patterson SM et al.)
Psychophysiology, 2002, 39, S65
VAL8* Gender and obesity interactions in Echocardiographic image quality. (Farman CA et al.)
VAL8* Gender and obesity interactions in Echocardiographic image quality. (Farman CA et al.)
British Society of Echocardiography
VAL9* Low fat, low glycemic index ad libitum diet induces weight loss preserves lean body mass in obese healthy subjects. Results of a 24 week study. (Bahadori B et al.)
VAL9* Low fat, low glycemic index ad libitum diet induces weight loss preserves lean body mass in obese healthy subjects. Results of a 24 week study. (Bahadori B et al.)
Presented at Nutrition Week, San Antonio, Texas, USA January 2003
VAL10* Calculation Of Lean Body Mass Using Bio-Impedance Analysis Could Be Used To Accurately Determine Heparin/Protamine Dosage For Obese Patients Undergoing Cardiac Surgery Using Cardiopulmonary Bypass. (Baker M et al)
VAL10* Calculation Of Lean Body Mass Using Bio-Impedance Analysis Could Be Used To Accurately Determine Heparin/Protamine Dosage For Obese Patients Undergoing Cardiac Surgery Using Cardiopulmonary Bypass. (Baker M et al)
Cardiothoracic Unit, Nottingham City Hospital Trust.
VAL11* Comparison of three methods for assessment of body fat content. (Maughan RJ)
VAL12* Use of a three-component model for evaluation of density and hydration of fat-free mass and validation of body composition predicted from the same whole-body bio-electrical impedance measurement, in lean and obese women. (Fuller NJ et al.)
VAL11* Comparison of three methods for assessment of body fat content. (Maughan RJ)
VAL12* Use of a three-component model for evaluation of density and hydration of fat-free mass and validation of body composition predicted from the same whole-body bio-electrical impedance measurement, in lean and obese women. (Fuller NJ et al.)
Abstracts of Communications 1993 (66A)
VAL13* Effects of positive end-expiratory pressure on transthoracic impedance-implications for defibrillation. (Deakin CD et al.)
VAL13* Effects of positive end-expiratory pressure on transthoracic impedance-implications for defibrillation. (Deakin CD et al.)
Resuscitation 37 (1998) 9-12
VAL14* Improve estimation of body composition in elderly subjects by use of age-specific prediction equations. (Reilly JJ et al.)
VAL14* Improve estimation of body composition in elderly subjects by use of age-specific prediction equations. (Reilly JJ et al.)
The European Group for Research into Physical Activity for the Elderly II International Conference Sept 1994.
VAL15* Body Water Is Reduced In Breastfed Jaundiced Babies. (Strehle E et al.)
VAL15* Body Water Is Reduced In Breastfed Jaundiced Babies. (Strehle E et al.)
World pediatrics, adolescents and family care (In Press) 2000
VAL16* The use of multiple frequency bioimpedance to assess fluid balance in critical illness. (Campbell IT et al.)
VAL16* The use of multiple frequency bioimpedance to assess fluid balance in critical illness. (Campbell IT et al.)
Proceedings of the Nutrition Society 53:62A
VAL17* Effects of training and creatine supplement on muscle strength and body mass. (Francaux M et al.)
VAL17* Effects of training and creatine supplement on muscle strength and body mass. (Francaux M et al.)
Eur J Appl Physiol (1999) 80: 165-168
VAL18* Effect of Exogenous Creatine Supplementation on Muscle PCr Metabolism. (Francaux M et al.)
VAL18* Effect of Exogenous Creatine Supplementation on Muscle PCr Metabolism. (Francaux M et al.)
Int J Sports Med 2000; 21: 139-145
VAL19* Pilot Study of the effect of a collagen hydrolysate supplement, Slendernight, on inch and weight loss.
VAL19* Pilot Study of the effect of a collagen hydrolysate supplement, Slendernight, on inch and weight loss.
Trial Dates: 1 June 2001 - 25 July 2001 (8 weeks)
VAL20* Bedside methods versus dual energy X-ray absorptiometry for body composition measurements in COPD. (Steiner MC et al.)
VAL20* Bedside methods versus dual energy X-ray absorptiometry for body composition measurements in COPD. (Steiner MC et al.)
Eur Respir J 2002 Apr; 19(4): 626-31
VAL21* Estimation de la composition corporelle en impédancemétrie multifréquence chez l'enfant. (Michel-Daubrosse C et al.)
VAL21* Estimation de la composition corporelle en impédancemétrie multifréquence chez l'enfant. (Michel-Daubrosse C et al.)
2003
VAL22* Large changes in body fat mass during the treatment of major burns injuries. (Sjöberg F et al.)
VAL22* Large changes in body fat mass during the treatment of major burns injuries. (Sjöberg F et al.)
Presented at the 10th European Burn Association
VAL23* History of anorexia nervosa inbulimic patients: its influence on body composition. (Vaz FJ et al.)
VAL23* History of anorexia nervosa inbulimic patients: its influence on body composition. (Vaz FJ et al.)
International Journal of Eating Disorders 2003; 34:148-155
VAL24* Bioelectrical impedance measurements at various frequencies to estimate human body compositions. (Khaled MA et al.)
VAL24* Bioelectrical impedance measurements at various frequencies to estimate human body compositions. (Khaled MA et al.)
Indian J Exp Biol 1997 Feb; 35(2): 159-61
VAL25* Use of bioelectrical impedance in hydration status assessment: reliability of a new tool in psychophysiology research. (Shanholtzer BA et al.)
VAL25* Use of bioelectrical impedance in hydration status assessment: reliability of a new tool in psychophysiology research. (Shanholtzer BA et al.)
Int. J Psychophysiol. 2003; 49(3): 217-26
VAL26* Non-volitional assessment of skeletal muscle strength in patients with chronic obstructive pulmonary disease. (Man WDC et al.)
VAL26* Non-volitional assessment of skeletal muscle strength in patients with chronic obstructive pulmonary disease. (Man WDC et al.)
Thorax 2003; 58: 665-669
VAL27* Anti-fibrinoloytic agents & lung water in cardiac surgical patients: interim results of a prospective randomised double blined placebo controlled trial. (Diprose P et al.)
VAL27* Anti-fibrinoloytic agents & lung water in cardiac surgical patients: interim results of a prospective randomised double blined placebo controlled trial. (Diprose P et al.)
Anesth Analg; 2003; 96, SCA1-141
VAL28* Comparation of the estimated phase angle for different bioimpedacia devices.
(M. Cecília F. Assunção et al.)
VAL28* Comparation of the estimated phase angle for different bioimpedacia devices.
(M. Cecília F. Assunção et al.)
Presentation June 2004 in Brazil by M. Cristina G. B. e Silva.
VAL29* Value of multifrequency bioelectrical impedance in assessing fluid disturbances in patients undergoing major abdominal surgery. (E. Itobi et al.)
VAL29* Value of multifrequency bioelectrical impedance in assessing fluid disturbances in patients undergoing major abdominal surgery. (E. Itobi et al.)
Presentation September 2004 at the ESPEN Congress in Lisbon.
VAL30* Effects of a Nutritional Intervention on Body Composition, Clinical Status, and Quality of Life in Patients with Heart Failure. (E. Colín Ramírez et al.)
VAL30* Effects of a Nutritional Intervention on Body Composition, Clinical Status, and Quality of Life in Patients with Heart Failure. (E. Colín Ramírez et al.)
Nutrition 2004; 20: 890-895. ©Elsevier Inc. 2004
VAL31* Body composition in Heart Failure patients with anemia. (E. Colín Ramírez et al.)
VAL31* Body composition in Heart Failure patients with anemia. (E. Colín Ramírez et al.)
European Journal of Heart Fialure. 2004: S98-379
VAL32* Body fat measurement in Indian men: comparison of three methods based on a two-compartment model. (D S Bhat et al.)
VAL32* Body fat measurement in Indian men: comparison of three methods based on a two-compartment model. (D S Bhat et al.)
International Journal of Obesity (2005) 0, 000-000
VAL33* Impact of a protein and energy dense nutritional supplement containing eicosapentaenoic acid on weight-losing patients with head and neck cancer. (Weed HG et al.)
VAL33* Impact of a protein and energy dense nutritional supplement containing eicosapentaenoic acid on weight-losing patients with head and neck cancer. (Weed HG et al.)
Presented at the 2005 American Society of Clinical Oncology Annual Meeting
VAL34* Estimate of Body Water Compartments and of Body Composition in Maintenace Hemodialysis Patients: Comparison of Single and Multifrequency Bioimpedance Analysis. (C Donadio et al.)
VAL34* Estimate of Body Water Compartments and of Body Composition in Maintenace Hemodialysis Patients: Comparison of Single and Multifrequency Bioimpedance Analysis. (C Donadio et al.)
Journal of Renal Nutrition, Vol 15, No 3 (July), 2005: pp 332-344
VAL35* Body composition, hidratation status and ultrafiltrate per session evaluated by bioelectrical impedance and dual X-ray absorptiometry in hemodyalisis. (A Ximena et al.)
VAL35* Body composition, hidratation status and ultrafiltrate per session evaluated by bioelectrical impedance and dual X-ray absorptiometry in hemodyalisis. (A Ximena et al.)
Poster presented at the American Society of Nephrology Congress (Renal Week) at Philadelphia, USA November 2005
VAL36* Body Fat Composition: A Predictive Factor for Obstructive Sleep Apnea. (O Ögretmenoglu et al.)
VAL36* Body Fat Composition: A Predictive Factor for Obstructive Sleep Apnea. (O Ögretmenoglu et al.)
Laryngoscope 115: 1493-1498, 2005
VAL37* Assessment of the Effects of the Changes at Dialysate Glucose and Sodium ontent on the Hemodynamia by Bioimpedance Analysis. (S Öztürk et al.)
VAL37* Assessment of the Effects of the Changes at Dialysate Glucose and Sodium ontent on the Hemodynamia by Bioimpedance Analysis. (S Öztürk et al.)
Presented at the 22nd National Congress of Nephrology, Hypertension, Dialysis and Transplantation in Antalya, Turkey on the 16th - 20th November 2005
VAL38* Electrical Bio-Impedance Devices: Are they all rated the same? (Barbosa e Silva et al.)
VAL38* Electrical Bio-Impedance Devices: Are they all rated the same? (Barbosa e Silva et al.)
Presented as an Abstract at the FELANPE Nutrition Congress in Montevideo, Uruguay on 7th November, 2005
VAL39* Impedance Ratio: new multi-frequency electrical Bio-impedance functional assessment parameter (Barbosa e Silva et al.)
VAL39* Impedance Ratio: new multi-frequency electrical Bio-impedance functional assessment parameter (Barbosa e Silva et al.)
Presented as an Abstract at the FELANPE Nutrition Congress in Montevideo, Uruguay on 7th November, 2005
VAL40* Randomized, multi-center trial of two hypo-energetic diets in obese subjects: high- versus low-fat content (M Petersen et al.)
VAL40* Randomized, multi-center trial of two hypo-energetic diets in obese subjects: high- versus low-fat content (M Petersen et al.)
International Journal of Obesity (2005) 1-9
BURNS
BURNS1* (VAL22) Large changes in body fat mass during the treatment of major burns injuries. (Sjöberg F et al.)
Presented at the 10th European Burn Association
CANCER
Cancer1 The predictive role of bioelectrical impedance analysis (BIA) in postoperative complications of cancer patients. (Fritz T et al.)
Eur J Surg Oncol 1990 Aug; 16(4): 326-31
Cancer2 Bioelectrical impedance analysis to assess changes in total body water in patients with cancer. (Simons JP et al.)
Cancer2 Bioelectrical impedance analysis to assess changes in total body water in patients with cancer. (Simons JP et al.)
Clin Nutr 1999 Feb; 18(1): 35-9
Cancer3* (VAL33) Impact of a protein and energy dense nutritional supplement containing eicosapentaenoic acid on weight-losing patients with head and neck cancer. (Weed HG et al.)
Cancer3* (VAL33) Impact of a protein and energy dense nutritional supplement containing eicosapentaenoic acid on weight-losing patients with head and neck cancer. (Weed HG et al.)
Presented at the 2005 American Society of Clinical Oncology Annual Meeting
COPD
COPD1* (VAL20) Bedside methods versus dual energy X-ray absorptiometry for body composition measurement in COPD. (Steiner MC et al.)
Eur Respir J 2002 Apr; 19(4): 626-31
COPD2 The relation of fat-free mass to maximum exercise performance in patients with chronic obstructive pulmonary disease. (Kobayashi A et al.)
COPD2 The relation of fat-free mass to maximum exercise performance in patients with chronic obstructive pulmonary disease. (Kobayashi A et al.)
Lung 2000; 178(2): 119-27
COPD3* (VAL26) Non-volitional assessment of skeletal muscle strength in patients with chronic obstructive pulmonary disease. (Man WDC et al.)
COPD3* (VAL26) Non-volitional assessment of skeletal muscle strength in patients with chronic obstructive pulmonary disease. (Man WDC et al.)
Thorax 2003; 58: 665-669
-
DIABETES
DIAB1 Serial body composition by bioimpedance analysis in a diabetic subject with rapid insulin-induced weight gain--a case report. (Lee IT et al.)
DIABETES
DIAB1 Serial body composition by bioimpedance analysis in a diabetic subject with rapid insulin-induced weight gain--a case report. (Lee IT et al.)
Kaohsiung J Med Sci 2002 Jan; 18(1): 45-8
DIALYSIS/NEPHROLOGY
DIAL1 Nutritional status in peritoneal dialysis: studies in body composition, lipoprotein metabolism and peritoneal function. (Johansson AC)
Scand J Urol Nephrol Suppl 2002; (209): 7-31
DIAL2 Longitudinal assessment of body composition in CAPD patients using bioelectric impedance analysis. A comparison with hemodialysis patients. (Briganti M et al.)
DIAL2 Longitudinal assessment of body composition in CAPD patients using bioelectric impedance analysis. A comparison with hemodialysis patients. (Briganti M et al.)
ASAIO J 1995 Jul-Sep; 41(3): M725-7
DIAL3 Creatinine clearance predicted from body cell mass is a good indicator of renal function. (Donadio C et al.)
DIAL3 Creatinine clearance predicted from body cell mass is a good indicator of renal function. (Donadio C et al.)
Kidney Int Suppl 1997 Dec; 63: S166-8
DIAL4 Creatinine clearance can be predicted from plasma creatinine and body composition analysis by means of electrical bioimpedance. (Donadio C et al.)
DIAL4 Creatinine clearance can be predicted from plasma creatinine and body composition analysis by means of electrical bioimpedance. (Donadio C et al.)
Ren Fail 1998 Mar; 20(2): 285-93
DIAL5 Use of bioelectrical impedance analysis measurements in the clinical management of patients undergoing dialysis. (Kushner RF et al.)
DIAL5 Use of bioelectrical impedance analysis measurements in the clinical management of patients undergoing dialysis. (Kushner RF et al.)
Am J Clin Nutr 1996 Sep; 64 (3 Suppl): 503S-509S
DIAL6 Blood pressure and body water distribution in chronic renal failure patients. (Alvarez-Lara MA et al.)
DIAL6 Blood pressure and body water distribution in chronic renal failure patients. (Alvarez-Lara MA et al.)
Nephrol Dial Transplant 2001; 16 Suppl 1:94-7
DIAL7 Prevalence of malnutrition assessed by bioimpedance analysis and anthropometry in children on peritoneal dialysis. (Edefonti A et al.)
DIAL7 Prevalence of malnutrition assessed by bioimpedance analysis and anthropometry in children on peritoneal dialysis. (Edefonti A et al.)
Perit Dial Int 2001 Mar-Apr; 21(2): 172-9
DIAL8 Nutritional status of patients with functioning graft assessed by clinical examination, anthropometry and bioimpedance. (Chrusciel B et al.)
DIAL8 Nutritional status of patients with functioning graft assessed by clinical examination, anthropometry and bioimpedance. (Chrusciel B et al.)
Przegl Lek 2001; 58(9): 828-32
DIAL9 Abnormalities of bioimpedance measures in overweight and obese hemodialyzed patients. (Guida B et al.)
DIAL9 Abnormalities of bioimpedance measures in overweight and obese hemodialyzed patients. (Guida B et al.)
Int J Obes Relat Metab Disord 2001 Feb; 25(2): 265-72
DIAL10 Use of bioelectrical impedance techniques for monitoring nutritional status in patients on maintenance dialysis. (Dumler F et al.)
DIAL10 Use of bioelectrical impedance techniques for monitoring nutritional status in patients on maintenance dialysis. (Dumler F et al.)
J Ren Nutr 2000 Jul; 10(3): 116-24
DIAL11 Impact of peritoneal dialysis modality and acidosis on nutritional status in peritoneal dialysis patients. (Dumler F et al.)
DIAL11 Impact of peritoneal dialysis modality and acidosis on nutritional status in peritoneal dialysis patients. (Dumler F et al.)
Adv Perit Dial 1998; 14: 205-8
DIAL12 Use of bioelectric impedance analysis and dual-energy X-ray absorptiometry for monitoring the nutritional status of dialysis patients. (Dumler F)
DIAL12 Use of bioelectric impedance analysis and dual-energy X-ray absorptiometry for monitoring the nutritional status of dialysis patients. (Dumler F)
ASAIO J 1997 May-Jun; 43(3): 256-60
DIAL13 Value of bioelectrical impedance analysis in the assessment of body water in children with nephrotic syndrome: initial results. (Drozdz D et al.)
DIAL13 Value of bioelectrical impedance analysis in the assessment of body water in children with nephrotic syndrome: initial results. (Drozdz D et al.)
Pol Merkuriusz Lek 2000 Apr; 8(46): 224-5
DIAL14 Multifrequency bioimpedance in assessment of dry weight in haemodialysis. (Katzarski K et al.)
DIAL14 Multifrequency bioimpedance in assessment of dry weight in haemodialysis. (Katzarski K et al.)
Nephrol Dial Transplant 1996; 11 Suppl 2: 20-3
DIAL15 Changes in the post-kidney transplantation body composition: different behavior between men and women. (Lopes I et al.)
DIAL15 Changes in the post-kidney transplantation body composition: different behavior between men and women. (Lopes I et al.)
Nutr Hosp 1998 Jan-Feb; 13(1): 28-32
DIAL16 Prevalence of malnutrition assessed by bioimpedance analysis and anthropometry in children on peritoneal dialysis. (Edefonti A et al.)
DIAL16 Prevalence of malnutrition assessed by bioimpedance analysis and anthropometry in children on peritoneal dialysis. (Edefonti A et al.)
Perit Dial Int 2001 Mar-Apr; 21(2): 172-9
DIAL17 Prediction of Glomerular Filtration Rate from Body Composition Analysis and Plasma Creatinine. (Donadio C et al.)
DIAL17 Prediction of Glomerular Filtration Rate from Body Composition Analysis and Plasma Creatinine. (Donadio C et al.)
Nephrology Dialysis Transplantation 2002; Vol 17 Supl. 1)
DIAL18 Predicting creatinine clearance and renal drug clearance in obese patients from estimated fat-free body mass. (Salazar DE et al.)
DIAL18 Predicting creatinine clearance and renal drug clearance in obese patients from estimated fat-free body mass. (Salazar DE et al.)
Am J Med 1988 Jun; 84(6): 1053-60
DIAL19 Heart failure and nutritional status in hemodialysis. (Trovato GM et al.)
DIAL19 Heart failure and nutritional status in hemodialysis. (Trovato GM et al.)
Recenti Prog Med 2001 Nov; 92(11): 655-9
DIAL20 Comparison of Five Body Composition Methods in Peritoneal Dialysis Patients. (Stall SH et al.)
DIAL20 Comparison of Five Body Composition Methods in Peritoneal Dialysis Patients. (Stall SH et al.)
Am J Clin Nutr 1996; 64: 125-30
DIAL21 Adjusting dry weight by extracellular volume and body composition in hemodialysis patients. (Chen YC et al.)
DIAL21 Adjusting dry weight by extracellular volume and body composition in hemodialysis patients. (Chen YC et al.)
Nephron 2002 Sep; 92(1): 91-6
DIAL22*
(VAL34) Estimate of Body Water Compartments and of Body Composition in Maintenace Hemodialysis Patients: Comparison of Single and Multifrequency Bioimpedance Analysis. (C Donadio et al.)
DIAL22*
(VAL34) Estimate of Body Water Compartments and of Body Composition in Maintenace Hemodialysis Patients: Comparison of Single and Multifrequency Bioimpedance Analysis. (C Donadio et al.)
Journal of Renal Nutrition, Vol 15, No 3 (July), 2005: pp 332-344
DIAL23*
(VAL35) Body composition, hidratation status and ultrafiltrate per session evaluated by bioelectrical impedance and dual X-ray absorptiometry in hemodyalisis. (A Ximena et al.)
DIAL23*
(VAL35) Body composition, hidratation status and ultrafiltrate per session evaluated by bioelectrical impedance and dual X-ray absorptiometry in hemodyalisis. (A Ximena et al.)
Poster presented at the American Society of Nephrology Congress (Renal Week) at Philadelphia, USA November 2005
DIAL24*
(VAL37) Assessment of the Effects of the Changes at Dialysate Glucose and Sodium Content on the Hemodynamia by Bioimpedance Analysis. (S Öztürk et al.)
DIAL24*
(VAL37) Assessment of the Effects of the Changes at Dialysate Glucose and Sodium Content on the Hemodynamia by Bioimpedance Analysis. (S Öztürk et al.)
Presented at the National Congress of Nephrology, Hypertension, Dialysis and Transplantation in Antalya, Turkey on the 16th - 20th November 2005
DRUG DOSING
DDOS1 Lean body mass as a predictor of drug dosage. Implications for drug therapy. (Morgan DJ et al.)
Clin Pharmacokinet 1994 Apr; 26(4): 292-307
DDOS2 Predicting creatinine clearance and renal drug clearance in obese patients from estimated fat-free body mass. (Salazar DE et al.)
DDOS2 Predicting creatinine clearance and renal drug clearance in obese patients from estimated fat-free body mass. (Salazar DE et al.)
Am J Med 1988 Jun; 84(6): 1053-60
DDOS3* (VAL10) Calculation Of Lean Body Mass Using Bio-Impedance Analysis Could Be Used To Accurately Determine Heparin/Protamine Dosage For Obese Patients Undergoing Cardiac Surgery Using Cardiopulmonary Bypass. (Baker M et al)
DDOS3* (VAL10) Calculation Of Lean Body Mass Using Bio-Impedance Analysis Could Be Used To Accurately Determine Heparin/Protamine Dosage For Obese Patients Undergoing Cardiac Surgery Using Cardiopulmonary Bypass. (Baker M et al)
Cardiothoracic Unit, Nottingham City Hospital Trust.
EATING DISORDERS
EATDIS1 Body composition: A motivational tool in anorexia nervosa. (Baker T)
EATDIS2 Effect of growth hormone therapy on feeding problems and food intake in children with growth disorders. (Blissett J et al.)
EATDIS1 Body composition: A motivational tool in anorexia nervosa. (Baker T)
EATDIS2 Effect of growth hormone therapy on feeding problems and food intake in children with growth disorders. (Blissett J et al.)
Acta Paediatr 2000 Jun; 89(6): 644-9
EATDIS3 Body composition in anorexia nervosa - changes with treatment, determinants and techniques. (Russell JD et al.)
EATDIS3 Body composition in anorexia nervosa - changes with treatment, determinants and techniques. (Russell JD et al.)
Asia Pacific J Clin Nutr (1995) 4: 113-115
EATDIS4 Effect of refeeding on the energy metabolism of adolescent girls who have anorexia nervosa. (Vaisman N et al.)
EATDIS4 Effect of refeeding on the energy metabolism of adolescent girls who have anorexia nervosa. (Vaisman N et al.)
Eur J Clin Nutr 1991 Nov; 45(11): 527-37
EATDIS5* (VAL1) Body composition at the bedside. (Ghosh S et al.)
EATDIS5* (VAL1) Body composition at the bedside. (Ghosh S et al.)
Eur J Gastroenterol Hepatol 1997 Aug; 9(8): 783-8
EATDIS6* (VAL23) History of anorexia nervosa inbulimic patients: its influence on body composition. (Vaz FJ et al.)
EATDIS6* (VAL23) History of anorexia nervosa inbulimic patients: its influence on body composition. (Vaz FJ et al.)
International Journal of Eating Disorders 2003; 34:148-155
ELDERLY
ELD1* (VAL14) Improve estimation of body composition in elderly subjects by use of age-specific prediction equations. (Reilly JJ et al.)
The European Group for Research into Physical Activity for the Elderly II International Conference Sept 1994.
ELD2* (VAL8) Gender and obesity interactions in Echocardiographic image quality. (Farman CA et al.)
ELD2* (VAL8) Gender and obesity interactions in Echocardiographic image quality. (Farman CA et al.)
British Society of Echocardiography
GENERAL BODY COMPOSITION
BIA1 Body composition: what's new? (Kyle UG et al.)
BIA1 Body composition: what's new? (Kyle UG et al.)
Curr Opin Clin Nutr Metab Care 2002 Jul; 5(4): 427-33
BIA2* (VAL1) Body composition at the bedside. (Ghosh S et al.)
BIA2* (VAL1) Body composition at the bedside. (Ghosh S et al.)
Eur J Gastroenterol Hepatol 1997 Aug; 9(8): 783-8
BIA3 Body water compartment measurements: a comparison of bioelectrical impedance analysis with tritium and sodium bromide dilution techniques. (Simpson JA et al.)
BIA3 Body water compartment measurements: a comparison of bioelectrical impedance analysis with tritium and sodium bromide dilution techniques. (Simpson JA et al.)
Clin Nutr 2001 Aug; 20(4): 339-43
BIA4 Applications of bioelectrical impedance analysis for body composition to epidemiologic studies. (Roubenoff R)
BIA4 Applications of bioelectrical impedance analysis for body composition to epidemiologic studies. (Roubenoff R)
Am J Clin Nutr 1996 Sep; 64(3 Suppl): 459S-462S
BIA5 Assessment of human body composition using dual-energy x-ray absorptiometry and bioelectrical impedance analysis. (Bolanowski M et al.)
BIA5 Assessment of human body composition using dual-energy x-ray absorptiometry and bioelectrical impedance analysis. (Bolanowski M et al.)
Med Sci Monit 2001 Sep-Oct; 7(5): 1029-33
BIA6* (VAL11) Comparison of three methods for assessment of body fat content. (Maughan RJ)
BIA7 Comparison of body composition analysis using whole body magnetic resonance imaging, bioimpedance and skinfold anthropometry in lean and obese healthy and Prader-Willi syndrome subjects. (Thomas EL et al.)
BIA8* (VAL13) Effects of positive end-expiratory pressure on transthoracic impedance-implications for defibrillation. (Deakin CD et al.)
BIA6* (VAL11) Comparison of three methods for assessment of body fat content. (Maughan RJ)
BIA7 Comparison of body composition analysis using whole body magnetic resonance imaging, bioimpedance and skinfold anthropometry in lean and obese healthy and Prader-Willi syndrome subjects. (Thomas EL et al.)
BIA8* (VAL13) Effects of positive end-expiratory pressure on transthoracic impedance-implications for defibrillation. (Deakin CD et al.)
Resuscitation 37 (1998) 9-12
BIA9* (VAL5) Fluid Hydration Status Assessment in Behavioral Medicine Research: Seven-Day Test-Retest Reliability. (Shanholtzer BA et al.)
BIA9* (VAL5) Fluid Hydration Status Assessment in Behavioral Medicine Research: Seven-Day Test-Retest Reliability. (Shanholtzer BA et al.)
Annals of Behavioural Medicine; 2002, 24, S133
BIA10* (VAL6) Hydration status and cardiovascular psychophysiology. (Patterson SM et al.)
BIA10* (VAL6) Hydration status and cardiovascular psychophysiology. (Patterson SM et al.)
Psychophysiologicy; 2002, 39, S64
BIA11* (VAL7) Relationship between hydration enhancement and blood pressure: More is better. (Patterson SM et al.)
BIA11* (VAL7) Relationship between hydration enhancement and blood pressure: More is better. (Patterson SM et al.)
Psychopysiology: 2002, 39, S65
BIA12* (VAL25) Use of bioelectrical impedance in hydration status assessment: reliability of a new tool in psychophysiology research. (Shanholtzer BA et al.)
BIA12* (VAL25) Use of bioelectrical impedance in hydration status assessment: reliability of a new tool in psychophysiology research. (Shanholtzer BA et al.)
Int. J Psychophysiol. 2003; 49(3): 217-26
BIA13* (VAL32) Body fat measurement in Indian men: comparison of three methods based on a two-compartment model. (D S Bhat et al.)
BIA13* (VAL32) Body fat measurement in Indian men: comparison of three methods based on a two-compartment model. (D S Bhat et al.)
International Journal of Obesity (2005) 0, 000-000
HEART DISEASE
HD1 Classical Risk Factors for Ischaemic Heart Disease (IHD) in Rheumatoid Arthritis (RA). (Erb N et al.)
HD2*
VAL30 Effects of a Nutritional Intervention on Body Composition, Clinical Status, and Quality of Life in Patients with Heart Failure. (E. Colín Ramírez et al.)
Nutrition 2004; 20: 890-895. ©Elsevier Inc. 2004
HD3*
VAL31 Body composition in Heart Failure patients with anemia. (E. Colín Ramírez et al.)
HD3*
VAL31 Body composition in Heart Failure patients with anemia. (E. Colín Ramírez et al.)
European Journal of Heart Fialure. 2004: S98-379
HIV
HIV1 Treatment of HIV-Associated Wasting with Recombinant Human Growth Hormone: Monitoring of Body Composition Changes by Bioelectrical Impedance Analysis (BIA). (Jager H et al.)
Eur J Med Res 2002 Mar 28; 7(3): 103-8
HYDRATION STATUS/FLUID RETENTION
HSFR1* (VAL3) Comparison of bio-impedance spectroscopy and multi-frequency bio-impedance analysis for the assessment of extracellular and total body water in surgical patients. (Hannan WJ et al.)
HSFR1* (VAL3) Comparison of bio-impedance spectroscopy and multi-frequency bio-impedance analysis for the assessment of extracellular and total body water in surgical patients. (Hannan WJ et al.)
Clin Sci (Lond) 1995 Dec; 89(6): 651-8
HSFR2 Estimation of total body and extracellular water in post-coronary artery bypass graft surgical patients using single and multiple frequency bioimpedance. (Patel RV et al.)
HSFR2 Estimation of total body and extracellular water in post-coronary artery bypass graft surgical patients using single and multiple frequency bioimpedance. (Patel RV et al.)
Crit Car Med. 1997 May; 25(5): 894-5
HSFR3 Segmental bioelectrical impedance analysis improves the prediction for extracellular water volume changes during abdominal surgery. (Tatara T et al.)
HSFR3 Segmental bioelectrical impedance analysis improves the prediction for extracellular water volume changes during abdominal surgery. (Tatara T et al.)
Crit Care Med 1998 Mar; 26(3): 470-6
HSFR4 A comparison of total body water analyses: bioelectric impedance analysis versus the tritiated water method. (Miller SF et al.)
HSFR4 A comparison of total body water analyses: bioelectric impedance analysis versus the tritiated water method. (Miller SF et al.)
J Burn Care Rehabil 1999 Sep-Oct; 20(5): 363-6
HSFR5 Segmental bioelectrical impedance analysis to assess perioperative fluid changes. (Bracco D et al.)
HSFR5 Segmental bioelectrical impedance analysis to assess perioperative fluid changes. (Bracco D et al.)
Crit Care Med 2000 Jul; 28(7): 2390-6
HSFR6 Bedside determination of fluid accumulation after cardiac surgery using segmental bioelectrical impedance. (Bracco D et al.)
HSFR6 Bedside determination of fluid accumulation after cardiac surgery using segmental bioelectrical impedance. (Bracco D et al.)
Crit Care Med 1998 Jun; 26(6): 1065-70
HSFR7 Bioelectric impedance detects fluid retention in patients undergoing cardiopulmonary bypass. (Gonzalez J et al.)
HSFR7 Bioelectric impedance detects fluid retention in patients undergoing cardiopulmonary bypass. (Gonzalez J et al.)
J Thorac Cardiovasc Surg 1995 Jul; 110(1): 111-8
HSFR8 Predictive value of tetrapolar body impedance measurements for hydration status in critically ill patients. (Roos AN et al.)
HSFR8 Predictive value of tetrapolar body impedance measurements for hydration status in critically ill patients. (Roos AN et al.)
Intensive Care Med 1995 Feb; 21(2): 125-31
HSFR9 Bioelectrical impedance analysis to assess changes in total body water in patients with cancer. (Simons JP et al.)
HSFR9 Bioelectrical impedance analysis to assess changes in total body water in patients with cancer. (Simons JP et al.)
Clin Nutr 1999 Feb; 18(1): 35-9
HSFR10 Bioelectrical impedance for monitoring the efficacy of lymphoedema treatment programmes. (Cornish BH et al.)
HSFR10 Bioelectrical impedance for monitoring the efficacy of lymphoedema treatment programmes. (Cornish BH et al.)
Breast Cancer Res Treat 1996; 38(2): 169-76
HSFR11 Bioimpedance measurement of body water correlates with measured volume balance in injured patients. (Rosemurgy AS et al.)
HSFR11 Bioimpedance measurement of body water correlates with measured volume balance in injured patients. (Rosemurgy AS et al.)
South Med J 1993 Jun; 86(6): 651-3
HSFR12* (VAL16) The use of multiple frequency bioimpedance to assess fluid balance in critical illness. (Campbell IT et al.)
HSFR12* (VAL16) The use of multiple frequency bioimpedance to assess fluid balance in critical illness. (Campbell IT et al.)
Proceedings of the Nutrition Society 53:62A
HSFR13 Electric impedance for evaluation of body fluid balance in cardiac surgical patients. (Perko MJ et al.)
HSFR13 Electric impedance for evaluation of body fluid balance in cardiac surgical patients. (Perko MJ et al.)
J Cardiothorac Vasc Anesth 2001 Feb; 15(1): 44-8
HSFR14* (VAL27) Anti-fibrinoloytic agents & lung water in cardiac surgical patients: interim results of a prospective randomised double blined placebo controlled trial. (Diprose P et al.)
HSFR14* (VAL27) Anti-fibrinoloytic agents & lung water in cardiac surgical patients: interim results of a prospective randomised double blined placebo controlled trial. (Diprose P et al.)
Anesth Analg; 2003; 96, SCA1-141
HSFR15* (VAL29) Value of multifrequency bioelectrical impedance in assessing fluid disturbances in patients undergoing major abdominal surgery. (E. Itobi et al.)
HSFR15* (VAL29) Value of multifrequency bioelectrical impedance in assessing fluid disturbances in patients undergoing major abdominal surgery. (E. Itobi et al.)
Presentation September 2004 at the ESPEN Congress in Lisbon.
MALNUTRITION/UNDERNUTRITION/NUTRITION
NUT1* (VAL1) Body composition at the bedside. (Ghosh S et al.)
Eur J Gastroenterol Hepatol 1997 Aug; 9(8): 783-8
NUT2 Nutritional status in peritoneal dialysis: studies in body composition, lipoprotein metabolism and peritoneal function. (Johansson AC)
NUT2 Nutritional status in peritoneal dialysis: studies in body composition, lipoprotein metabolism and peritoneal function. (Johansson AC)
Scand J Urol Nephrol Suppl 2002; (209): 7-31
NUT3* (VAL4) Nutrition index determined by a portable multifrequency bioelectrical impedance analysis machine. (Keller W et al.)
NUT3* (VAL4) Nutrition index determined by a portable multifrequency bioelectrical impedance analysis machine. (Keller W et al.)
GUT 1998; 42 (suppl 1)
NUT4* (VAL3) Comparison of bio-impedance spectroscopy and multi-frequency bio-impedance analysis for the assessment of extracellular and total body water in surgical patients. (Hannan WJ et al.)
NUT4* (VAL3) Comparison of bio-impedance spectroscopy and multi-frequency bio-impedance analysis for the assessment of extracellular and total body water in surgical patients. (Hannan WJ et al.)
Clin Sci (Lond) 1995 Dec; 89 (6): 651-8
NUT5 Nutritional status of patients with functioning graft assessed by clinical examination, anthropometry and bioimpedance. (Chrusciel B et al.)
NUT5 Nutritional status of patients with functioning graft assessed by clinical examination, anthropometry and bioimpedance. (Chrusciel B et al.)
Przegl Lek 2001; 58(9): 828-32
NUT6 Use of bioelectrical impedance analysis measurements in the clinical management of malnutrition. (Pencharz PB et al.)
NUT6 Use of bioelectrical impedance analysis measurements in the clinical management of malnutrition. (Pencharz PB et al.)
Am J Clin Nutr 1996 Sep; 64(3 Suppl): 485S-488S
NUT7 Dynamic assessment of fat-free mass during catabolism and recovery. (Kyle UG et al.)
NUT7 Dynamic assessment of fat-free mass during catabolism and recovery. (Kyle UG et al.)
Curr Opin Clin Nutr Metab Care 2000 Jul; 3(4): 317-22
NUT8 Validation of bioimpedance analysis as a measure of change in body cell mass as estimated by whole-body counting of potassium in adults. (Kotler DP et al.)
NUT8 Validation of bioimpedance analysis as a measure of change in body cell mass as estimated by whole-body counting of potassium in adults. (Kotler DP et al.)
JPEN J Parenter Enteral Nutr 1999 Nov-Dec; 23(6): 345-9
NUT9 Heart failure and nutritional status in hemodialysis. (Trovato GM et al.)
NUT9 Heart failure and nutritional status in hemodialysis. (Trovato GM et al.)
Recenti Prog Med 2001 Nov; 92(11): 655-9
NUT10 Comparison of Five Body Composition Methods in Peritoneal Dialysis Patients. (Stall SH et al.)
NUT10 Comparison of Five Body Composition Methods in Peritoneal Dialysis Patients. (Stall SH et al.)
Am J Clin Nutr 1996; 64: 125-30
NUT11* (VAL33) Impact of a protein and energy dense nutritional supplement containing eicosapentaenoic acid on weight-losing patients with head and neck cancer. (Weed HG et al.)
NUT11* (VAL33) Impact of a protein and energy dense nutritional supplement containing eicosapentaenoic acid on weight-losing patients with head and neck cancer. (Weed HG et al.)
Presented at the 2005 American Society of Clinical Oncology Annual Meeting
OBESITY
OB1 Changes in lean body mass in obese children during a weight reduction program: effect on short term and long term outcome. (Schwingshandl J et al.)
OB1 Changes in lean body mass in obese children during a weight reduction program: effect on short term and long term outcome. (Schwingshandl J et al.)
Int J Obes Relat Metab Disord 1995 Oct; 19(10): 752-5
OB2 Body composition assessment in patients following gastric bypass surgery for morbid obesity. (Sebastian JJ et al.)
OB3 Clinical detection of sarcopenic obesity by bioelectrical impedance analysis. (Heber D et al.)
OB2 Body composition assessment in patients following gastric bypass surgery for morbid obesity. (Sebastian JJ et al.)
OB3 Clinical detection of sarcopenic obesity by bioelectrical impedance analysis. (Heber D et al.)
Am J Clin Nutr 1996 Sep; 64(3 Suppl): 472S-477S
OB4 Predicting body fatness: the body mass index vs estimation by bioelectrical impedance. (Roubenoff R et al.)
OB4 Predicting body fatness: the body mass index vs estimation by bioelectrical impedance. (Roubenoff R et al.)
Am J Public Health 1995 May; 85(5): 726-8
OB5 Applications of bioelectrical impedance analysis for body composition to epidemiologic studies. (Roubenoff R)
OB5 Applications of bioelectrical impedance analysis for body composition to epidemiologic studies. (Roubenoff R)
Am J Clin Nutr 1996 Sep; 64(3 Suppl): 459S-462S
OB6 Assessment of human body composition using dual-energy x-ray absorptiometry and bioelectrical impedance analysis. (Bolanowski M et al.)
OB6 Assessment of human body composition using dual-energy x-ray absorptiometry and bioelectrical impedance analysis. (Bolanowski M et al.)
Med Sci Monit 2001 Sep-Oct; 7(5): 1029-33
OB7 The composition of weight loss in dieting obese females by electrical methods. (Saunders NH et al.)
OB7 The composition of weight loss in dieting obese females by electrical methods. (Saunders NH et al.)
Int J Obes Relat Metab Disord 1993 Jun; 17(6): 317-22
OB8 Validation of bioelectrical-impedance analysis as a measurement of change in body composition in obesity. (Kushner RF et al.)
OB8 Validation of bioelectrical-impedance analysis as a measurement of change in body composition in obesity. (Kushner RF et al.)
Am J Clin Nutr 1990 Aug; 52(2): 219-23
OB9* (VAL24) Bioelectrical impedance measurements at various frequencies to estimate human body compositions. (Khaled MA et al.)
OB9* (VAL24) Bioelectrical impedance measurements at various frequencies to estimate human body compositions. (Khaled MA et al.)
Indian J Exp Biol 1997 Feb; 35(2): 159-61
OB10 Body-composition changes with diet and exercise in obese women: a comparison of estimates from clinical methods and a 4-component model. (Evans EM et al.)
OB10 Body-composition changes with diet and exercise in obese women: a comparison of estimates from clinical methods and a 4-component model. (Evans EM et al.)
Am J Clin Nutr 1999 Jul; 70(1): 5-12
OB11 Body composition in 5-18-y-old obese children and adolescents before and after weight reduction as assessed by deuterium dilution and bioelectrical impedance Analysis. (Wabitsch M et al.)
OB11 Body composition in 5-18-y-old obese children and adolescents before and after weight reduction as assessed by deuterium dilution and bioelectrical impedance Analysis. (Wabitsch M et al.)
Am J Clin Nutr 1996 Jul; 64(1): 1-6
OB12 Changes in lean body mass in obese children during a weight reduction program: effect on short term and long term outcome. (Schwingshandl J et al.)
OB12 Changes in lean body mass in obese children during a weight reduction program: effect on short term and long term outcome. (Schwingshandl J et al.)
Int J Obes Relat Metab Disord 1995 Oct; 19(10): 752-5
OB13* (VAL2) Comparative evaluation of body composition methods and predictions, and calculation of density and hydration fraction of fat-free mass, in obese women. (Fuller NJ et al.)
OB13* (VAL2) Comparative evaluation of body composition methods and predictions, and calculation of density and hydration fraction of fat-free mass, in obese women. (Fuller NJ et al.)
Int. Journal of Obesity (1994) 18: 503-512
OB14* (VAL12) Use of a three-component model for evaluation of density and hydration of fat-free mass and validation of body composition predicted from the same whole-body bio-electrical impedance measurement, in lean and obese women. (Fuller NJ et al.)
OB14* (VAL12) Use of a three-component model for evaluation of density and hydration of fat-free mass and validation of body composition predicted from the same whole-body bio-electrical impedance measurement, in lean and obese women. (Fuller NJ et al.)
Abstracts of Communications 1993 (66A)
OB15* (VAL9) Low fat, low glycemic index ad libitum diet induces weight loss preserves lean body mass in obese healthy subjects. Results of a 24 week study. (Bahadori B et al.)
OB15* (VAL9) Low fat, low glycemic index ad libitum diet induces weight loss preserves lean body mass in obese healthy subjects. Results of a 24 week study. (Bahadori B et al.)
Presented at Nutrition Week, San Antonio, Texas, USA January 2003
OB16* (VAL19) Pilot Study of the effect of a collagen hydrolysate supplement, Slendernight, on inch and weight loss.
OB16* (VAL19) Pilot Study of the effect of a collagen hydrolysate supplement, Slendernight, on inch and weight loss.
Trial Dates: 1 June 2001 - 25 July 2001 (8 weeks)
OB17* (VAL8) Gender and obesity interactions in Echocardiographic Image Quality. (Farman CA et al.)
OB17* (VAL8) Gender and obesity interactions in Echocardiographic Image Quality. (Farman CA et al.)
British Society of Echocardiography
OB18*
(VAL36) Body Fat Composition: A Predictive Factor for Obstructive Sleep Apnea. (O Ögretmenoglu et al.)
OB18*
(VAL36) Body Fat Composition: A Predictive Factor for Obstructive Sleep Apnea. (O Ögretmenoglu et al.)
Laryngoscope 115: 1493-1498, 2005
OB19*
(VAL40) Randomized, multi-center trial of two hypo-energetic diets in obese subjects: high- versus low-fat content. (M Petersen et al.)
OB19*
(VAL40) Randomized, multi-center trial of two hypo-energetic diets in obese subjects: high- versus low-fat content. (M Petersen et al.)
International Journal of Obesity (2005) 1-9
PAEDIATRICS
PAED1* (VAL15) Body Water Is Reduced In Breastfed Jaundiced Babies. (Strehle E et al.)
World pediatrics, adolescents and family care (In Press) 2000
PAED2 Changes in lean body mass in obese children during a weight reduction program: effect on short term and long term outcome. (Schwingshandl J et al.)
PAED2 Changes in lean body mass in obese children during a weight reduction program: effect on short term and long term outcome. (Schwingshandl J et al.)
Int J Obes Relat Metab Disord 1995 Oct; 19(10): 752-5
PAED3 Assessment of total body water using bioelectrical impedance analysis in neonates receiving intensive care. (Tang W et al.)
PAED3 Assessment of total body water using bioelectrical impedance analysis in neonates receiving intensive care. (Tang W et al.)
Arch Dis Child 1997; 77: F123-F126
PAED4 Body composition in 5-18-y-old obese children and adolescents before and after weight reduction as assessed by deuterium dilution and bioelectrical impedance analysis. (Wabitsch M et al.)
PAED4 Body composition in 5-18-y-old obese children and adolescents before and after weight reduction as assessed by deuterium dilution and bioelectrical impedance analysis. (Wabitsch M et al.)
Am J Clin Nutr 1996 Jul; 64(1):1-6
PAED5 Application of bioimpedance analysis for estimating body composition in prepubertal children infected with human immunodeficiency virus type 1. (Arpadi SM et al.)
PAED5 Application of bioimpedance analysis for estimating body composition in prepubertal children infected with human immunodeficiency virus type 1. (Arpadi SM et al.)
J Pediatr 1996 Nov; 129(5): 755-7
PAED6 Bioelectrical impedance estimation of fat-free body mass in children and youth: a cross-validation study. (Houtkooper LB et al.)
PAED6 Bioelectrical impedance estimation of fat-free body mass in children and youth: a cross-validation study. (Houtkooper LB et al.)
J. Appl. Physiol. 1992, 72 (1): 366-373
PAED7* (VAL21) Estimation de la composition corporelle en impédancemétrie multifréquence chez l'enfant. (Michel-Daubrosse C et al.)
PAED7* (VAL21) Estimation de la composition corporelle en impédancemétrie multifréquence chez l'enfant. (Michel-Daubrosse C et al.)
2003
PHASE ANGLE & ILLNESS MARKER
PA1 Norms and correlates of bioimpedance phase angle in healthy human subjects, hospitalized patients and patients with liver cirrhosis. (Selberg 0 et al.)
2002
PA2* (VAL21) Estimation de la composition corporelle en impédancemétrie multifréquence chez l'enfant. (Michel-Daubrosse C et al.)
PA2* (VAL21) Estimation de la composition corporelle en impédancemétrie multifréquence chez l'enfant. (Michel-Daubrosse C et al.)
2003
PA3* (VAL28) Comparation of the estimated phase angle for different bioimpedacia devices. (M. Cecília F. Assunção et al.)
PA3* (VAL28) Comparation of the estimated phase angle for different bioimpedacia devices. (M. Cecília F. Assunção et al.)
Presentation June 2004 in Brazil by M. Cristina G. B. e Silva.
PA4* (VAL38) Electrical Bio-Impedance Devices: Are they all rated the same? (Barbosa e Silva et al.)
PA4* (VAL38) Electrical Bio-Impedance Devices: Are they all rated the same? (Barbosa e Silva et al.)
Presented as an Abstract at the FELANPE Nutrition Congress in Montevideo, Uruguay on 7th November, 2005.
PA5* (VAL39) Impedance Ratio: new multi-frequency electrical Bio-impedance functional assessment parameter. (Barbosa e Silva et al.)
PA5* (VAL39) Impedance Ratio: new multi-frequency electrical Bio-impedance functional assessment parameter. (Barbosa e Silva et al.)
Presented as an Abstract at the FELANPE Nutrition Congress in Montevideo, Uruguay on 7th November, 2005.
WASTING DISEASE
WDIS1 Body composition in patients with acquired immunodeficiency syndrome: a validation study of bioelectric impedance analysis. (Sluys TE et al.)
JPEN J Parenter Enteral Nutr 1993 Sep-Oct; 17(5): 404-6
WDIS2 Application of bioimpedance analysis for estimating body composition in prepubertal children infected with human immunodeficiency virus type 1. (Arpadi SM et al.)
WDIS2 Application of bioimpedance analysis for estimating body composition in prepubertal children infected with human immunodeficiency virus type 1. (Arpadi SM et al.)
J Pediatr 1996 Nov; 129(5): 755-7
WDIS3 Validation of bioimpedance analysis as a measure of change in body cell mass as estimated by whole-body counting of potassium in adults. (Kotler DP et al.)
WDIS3 Validation of bioimpedance analysis as a measure of change in body cell mass as estimated by whole-body counting of potassium in adults. (Kotler DP et al.)
JPEN J Parenter Enteral Nutr 1999 Nov-Dec; 23(6): 345-9
WDIS4 Incidence and Prognostic Value of Malnutrition and Wasting in Human Immunodeficiency Virus-Infected Outpatients. (Suttmann U et al.)
WDIS4 Incidence and Prognostic Value of Malnutrition and Wasting in Human Immunodeficiency Virus-Infected Outpatients. (Suttmann U et al.)
Journal of Acquired Immune Deficiency Syndromes and Human Retriviology 5: 239-246
WDIS5 Norms and correlates of bioimpedance phase angle in healthy human subjects, hospitalized patients and patients with liver cirrhosis. (Selberg 0 et al.)
WDIS5 Norms and correlates of bioimpedance phase angle in healthy human subjects, hospitalized patients and patients with liver cirrhosis. (Selberg 0 et al.)
2002
WDIS6* (VAL39) Impedance Ratio: new multi-frequency electrical Bio-impedance functional assessment parameter. (Barbosa e Silva et al.)
WDIS6* (VAL39) Impedance Ratio: new multi-frequency electrical Bio-impedance functional assessment parameter. (Barbosa e Silva et al.)
Presented as an Abstract at the FELANPE Nutrition Congress in Montevideo, Uruguay on 7th November, 2005.