ARTYKUŁ PRZEGLĄDOWY
Różnice w pomiarach objętości płynowych ciała mierzone przy pomocy analizatorów bioimpedancji jedno- i wielo-częstotliwościowych u pacjentów z nadwagą/otyłością i niewydolnością nerek
Mariusz Kusztal 1 , Przemysław Dzierżek 1 , Tomasz Gołębiowski 1 , Wacław Weyde 2 , Marian Klinger 11. Department of Nephrology and Transplantation Medicine, Wroclaw Medical University, Wroclaw, Poland
2. Department of Nephrology and Transplantation Medicine, Wroclaw Medical University, Wroclaw, Poland; Faculty of Dentistry, Wroclaw Medical University, Wroclaw, Poland
Opublikowany: 2015-05-17
GICID: 01.3001.0009.6537
Dostępne wersje językowe: pl en
Wydanie: Postepy Hig Med Dosw 2015; 69 : 633-637
Abstrakt
Przypisy
- 1. Adams G., Gulliford M.C., Ukoumunne O.C., Eldridge S., Chinn S.,Campbell M.J.: Patterns of intra-cluster correlation from primarycare research to inform study design and analysis. J. Clin. Epidemiol.,2004; 57: 785-794
Google Scholar - 2. Diouf A., Gartner A., Dossou N.I., Sanon D.A., Bluck L., Wright A.,Wade S.: Validity of impedance-based predictions of total body wateras measured by 2H dilution in African HIV/AIDS outpatients. Br.J. Nutr., 2009; 101: 1369-1377
Google Scholar - 3. Donadio C., Consani C., Ardini M., Bernabini G., Caprio F., GrassiG., Lucchesi A., Nerucci B.: Estimate of body water compartmentsand of body composition in maintenance hemodialysis patients:comparison of single and multifrequency bioimpedance analysis. J.Ren. Nutr., 2005; 15: 332-344
Google Scholar - 4. Dou Y., Zhu F., Kotanko P.: Assessment of extracellular fluid volumeand fluid status in hemodialysis patients: current status andtechnical advances. Semin. Dial., 2012; 25: 377-387
Google Scholar - 5. Dumler F., Kilates C.: Use of bioelectrical impedance techniquesfor monitoring nutritional status in patients on maintenance dialysis.J. Ren. Nutr., 2000; 10: 116-124
Google Scholar - 6. Jaffrin M.Y., Morel H.: Body fluid volumes measurements byimpedance: a review of bioimpedance spectroscopy (BIS) and bioimpedanceanalysis (BIA) methods. Med. Eng. Phys., 2008; 30: 1257-1269
Google Scholar - 7. Ribitsch W., Stockinger J., Schneditz D.: Bioimpedance-basedvolume at clinical target weight is contracted in hemodialysis patientswith a high body mass index. Clin. Nephrol., 2012; 77: 376-382
Google Scholar - 8. Teruel-Briones J.L., Fernández-Lucas M., Ruiz-Roso G., SánchezRamírezH., Rivera-Gorrin M., Gomis-Couto A., Rodríguez-MendiolaN., Quereda C.: Analysis of concordance between the bioelectricalimpedance vector analysis and the bioelectrical impedance spectroscopyin haemodialysis patients. Nefrologia, 2012: 32: 389-395
Google Scholar - 9. van den Ham E.C., Kooman J.P., Christiaans M.H., Nieman F.H., VanKreel B.K., Heidendal G.A., Van Hooff J.P.: Body composition in renaltransplant patients: bioimpedance analysis compared to isotopedilution, dual energy X-ray absorptiometry, and anthropometry. J.Am. Soc. Nephrol., 1999; 10: 1067-1079
Google Scholar - 10. Wizemann V., Rode C., Wabel P.: Whole-body spectroscopy (BCM)in the assessment of normovolemia in hemodialysis patients. Contrib.Nephrol., 2008; 161: 115-118
Google Scholar - 11. Yamada Y., Masuo Y., Yokoyama K., Hashii Y., Ando S., OkayamaY., Morimoto T., Kimura M., Oda S.: Proximal electrode placementimproves the estimation of body composition in obese and leanelderly during segmental bioelectrical impedance analysis. Eur. J.Appl. Physiol., 2009; 107: 135-144
Google Scholar