The Combyn™ ECG: Adding haemodynamic and fluid leads for the ECG. Part II: Prediction of total body water (TBW), extracellular fluid (ECF), ECF overload, fat mass (FM) and “dry” appendicular muscle mass (AppMM)
•Measurement of body compartments comparable in precision to whole body DXA in health and disease during the routine ECG.•Determination of ECF excess and “dry weight” in CHF and CRF during the routine ECG.•Determination of “dry” appendicular muscle mass corrected for ECF overload during the routine...
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| Published in | Medical engineering & physics Vol. 44; pp. 44 - 52 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Elsevier Ltd
01.06.2017
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1350-4533 1873-4030 1873-4030 |
| DOI | 10.1016/j.medengphy.2017.03.002 |
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| Abstract | •Measurement of body compartments comparable in precision to whole body DXA in health and disease during the routine ECG.•Determination of ECF excess and “dry weight” in CHF and CRF during the routine ECG.•Determination of “dry” appendicular muscle mass corrected for ECF overload during the routine ECG – not being measurable by whole body DXA.
Simultaneous with a 12 channel ECG, body composition was analysed by segmental multi-frequency impedance analysis in 101 healthy subjects and in 118 patients with chronic heart failure (CHF, n= 40), chronic renal failure with haemodialysis (HD, n= 20), and miscellaneous internal diseases (n= 58). Whole body DXA and sodium bromide dilution were used as reference methods for total body water (TBW), extracellular fluid (ECF), appendicular muscle mass (AppMM) and fat mass (FM). Empirical prediction equations were developed in a randomized evaluation sample and then evaluated in unknowns. TBW, ECF, AppMM and FM could be predicted with regression coefficients of 0.96, 0.90, 0.95 and 0.93, respectively, all with p< 0.001. Only segmental impedances and height, but not age, sex, weight and BMI contributed to the prediction of water compartments. About half the patients with CHF and half of those on HD showed increased ECF/ICF ratio in relation to % FM at the legs but not at the thorax. The predicted AppMM was additionally corrected for increased ECF to determine “dry AppMM”, which is markedly lower than the misleading reference DXA.
This methodology shows promise as a combination of routine ECG with measurement of body composition, assessment of sarcopenia and detection of overhydration. |
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| AbstractList | Simultaneous with a 12 channel ECG, body composition was analysed by segmental multi-frequency impedance analysis in 101 healthy subjects and in 118 patients with chronic heart failure (CHF, n= 40), chronic renal failure with haemodialysis (HD, n= 20), and miscellaneous internal diseases (n= 58). Whole body DXA and sodium bromide dilution were used as reference methods for total body water (TBW), extracellular fluid (ECF), appendicular muscle mass (AppMM) and fat mass (FM). Empirical prediction equations were developed in a randomized evaluation sample and then evaluated in unknowns. TBW, ECF, AppMM and FM could be predicted with regression coefficients of 0.96, 0.90, 0.95 and 0.93, respectively, all with p< 0.001. Only segmental impedances and height, but not age, sex, weight and BMI contributed to the prediction of water compartments. About half the patients with CHF and half of those on HD showed increased ECF/ICF ratio in relation to % FM at the legs but not at the thorax. The predicted AppMM was additionally corrected for increased ECF to determine "dry AppMM", which is markedly lower than the misleading reference DXA. This methodology shows promise as a combination of routine ECG with measurement of body composition, assessment of sarcopenia and detection of overhydration. Highlights • Measurement of body compartments comparable in precision to whole body DXA in health and disease during the routine ECG. • Determination of ECF excess and “dry weight” in CHF and CRF during the routine ECG. • Determination of “dry” appendicular muscle mass corrected for ECF overload during the routine ECG – not being measurable by whole body DXA. •Measurement of body compartments comparable in precision to whole body DXA in health and disease during the routine ECG.•Determination of ECF excess and “dry weight” in CHF and CRF during the routine ECG.•Determination of “dry” appendicular muscle mass corrected for ECF overload during the routine ECG – not being measurable by whole body DXA. Simultaneous with a 12 channel ECG, body composition was analysed by segmental multi-frequency impedance analysis in 101 healthy subjects and in 118 patients with chronic heart failure (CHF, n= 40), chronic renal failure with haemodialysis (HD, n= 20), and miscellaneous internal diseases (n= 58). Whole body DXA and sodium bromide dilution were used as reference methods for total body water (TBW), extracellular fluid (ECF), appendicular muscle mass (AppMM) and fat mass (FM). Empirical prediction equations were developed in a randomized evaluation sample and then evaluated in unknowns. TBW, ECF, AppMM and FM could be predicted with regression coefficients of 0.96, 0.90, 0.95 and 0.93, respectively, all with p< 0.001. Only segmental impedances and height, but not age, sex, weight and BMI contributed to the prediction of water compartments. About half the patients with CHF and half of those on HD showed increased ECF/ICF ratio in relation to % FM at the legs but not at the thorax. The predicted AppMM was additionally corrected for increased ECF to determine “dry AppMM”, which is markedly lower than the misleading reference DXA. This methodology shows promise as a combination of routine ECG with measurement of body composition, assessment of sarcopenia and detection of overhydration. Simultaneous with a 12 channel ECG, body composition was analysed by segmental multi-frequency impedance analysis in 101 healthy subjects and in 118 patients with chronic heart failure (CHF, n= 40), chronic renal failure with haemodialysis (HD, n= 20), and miscellaneous internal diseases (n= 58). Whole body DXA and sodium bromide dilution were used as reference methods for total body water (TBW), extracellular fluid (ECF), appendicular muscle mass (AppMM) and fat mass (FM). Empirical prediction equations were developed in a randomized evaluation sample and then evaluated in unknowns. TBW, ECF, AppMM and FM could be predicted with regression coefficients of 0.96, 0.90, 0.95 and 0.93, respectively, all with p< 0.001. Only segmental impedances and height, but not age, sex, weight and BMI contributed to the prediction of water compartments. About half the patients with CHF and half of those on HD showed increased ECF/ICF ratio in relation to % FM at the legs but not at the thorax. The predicted AppMM was additionally corrected for increased ECF to determine "dry AppMM", which is markedly lower than the misleading reference DXA. This methodology shows promise as a combination of routine ECG with measurement of body composition, assessment of sarcopenia and detection of overhydration.Simultaneous with a 12 channel ECG, body composition was analysed by segmental multi-frequency impedance analysis in 101 healthy subjects and in 118 patients with chronic heart failure (CHF, n= 40), chronic renal failure with haemodialysis (HD, n= 20), and miscellaneous internal diseases (n= 58). Whole body DXA and sodium bromide dilution were used as reference methods for total body water (TBW), extracellular fluid (ECF), appendicular muscle mass (AppMM) and fat mass (FM). Empirical prediction equations were developed in a randomized evaluation sample and then evaluated in unknowns. TBW, ECF, AppMM and FM could be predicted with regression coefficients of 0.96, 0.90, 0.95 and 0.93, respectively, all with p< 0.001. Only segmental impedances and height, but not age, sex, weight and BMI contributed to the prediction of water compartments. About half the patients with CHF and half of those on HD showed increased ECF/ICF ratio in relation to % FM at the legs but not at the thorax. The predicted AppMM was additionally corrected for increased ECF to determine "dry AppMM", which is markedly lower than the misleading reference DXA. This methodology shows promise as a combination of routine ECG with measurement of body composition, assessment of sarcopenia and detection of overhydration. |
| Author | Pichler, Georg P. Steinbichl, Johannes Leis, Albrecht Skrabal, Falko Hanserl, Anna-Katharina Loibner, Herbert Penatzer, Mathias |
| Author_xml | – sequence: 1 givenname: Falko surname: Skrabal fullname: Skrabal, Falko email: falko.skrabal@medunigraz.at organization: Institute of Cardiovascular and Metabolic Medicine, Mariatrosterstr 67, A 8043 Graz, Austria – sequence: 2 givenname: Georg P. surname: Pichler fullname: Pichler, Georg P. organization: Institute of Cardiovascular and Metabolic Medicine, Mariatrosterstr 67, A 8043 Graz, Austria – sequence: 3 givenname: Mathias surname: Penatzer fullname: Penatzer, Mathias organization: Institute of Cardiovascular and Metabolic Medicine, Mariatrosterstr 67, A 8043 Graz, Austria – sequence: 4 givenname: Johannes surname: Steinbichl fullname: Steinbichl, Johannes organization: Institute of Cardiovascular and Metabolic Medicine, Mariatrosterstr 67, A 8043 Graz, Austria – sequence: 5 givenname: Anna-Katharina orcidid: 0000-0003-4417-8532 surname: Hanserl fullname: Hanserl, Anna-Katharina organization: Institute of Cardiovascular and Metabolic Medicine, Mariatrosterstr 67, A 8043 Graz, Austria – sequence: 6 givenname: Albrecht surname: Leis fullname: Leis, Albrecht organization: RESOURCES - Institute of Water, Energy and Sustainability, Department of Isotope Hydrology and Environmental Analytics, Joanneum Research, Elisabethstraße 16/11, A 8010 Graz, Austria – sequence: 7 givenname: Herbert surname: Loibner fullname: Loibner, Herbert organization: Department of Internal Medicine, Krankenhaus Barmherzige Brüder, Marschallgasse 12, A 8020, Graz, Austria |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/28373014$$D View this record in MEDLINE/PubMed |
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| Keywords | CHF NYHA Hydration BNP FM ECG TBW AppMM ECF Sodium bromide DXA ICF Dry weight CRF LBM AT1 blocker HD ACE inhibitors Whole body DXA BMI lean body mass chronic renal failure fat mass brain natriuretic peptide angiotensin-converting-enzyme inhibitor dual energy X-ray absorptiometry chronic heart failure intracellular fluid electrocardiogram appendicular muscle mass angiotensin-II-receptor-subtype-1 blocker body mass index extracellular fluid haemodialysis New York Heart Association classification total body water |
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| Snippet | •Measurement of body compartments comparable in precision to whole body DXA in health and disease during the routine ECG.•Determination of ECF excess and “dry... Highlights • Measurement of body compartments comparable in precision to whole body DXA in health and disease during the routine ECG. • Determination of ECF... Simultaneous with a 12 channel ECG, body composition was analysed by segmental multi-frequency impedance analysis in 101 healthy subjects and in 118 patients... |
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| SubjectTerms | Adolescent Adult Aged Aged, 80 and over Body Composition Body Water - metabolism Case-Control Studies Dry weight Electric Impedance Electrocardiography Extracellular Fluid - metabolism Female Heart Failure - metabolism Heart Failure - pathology Heart Failure - physiopathology Hemodynamics Humans Hydration Male Middle Aged Muscles - anatomy & histology Organ Size Radiology Signal Processing, Computer-Assisted Sodium bromide Whole body DXA Young Adult |
| Title | The Combyn™ ECG: Adding haemodynamic and fluid leads for the ECG. Part II: Prediction of total body water (TBW), extracellular fluid (ECF), ECF overload, fat mass (FM) and “dry” appendicular muscle mass (AppMM) |
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