OBJECTIVETo investigate the influence of recombinant human growth hormone (rhGH) on body fluid compartments and water-sodium retention in severe burn patients.

METHODSThirty adult patients with severe burn were divided into treatment (T) and control (C) groups by block randomized design. Patients in both groups were subcutaneously injected with same amount of rhGH (12 IU/d) or isotonic saline during 7 - 21 post burn day (PBD). The total body water (TBW), intracellular water (ICW), extracellular water (ECW) were measured by bioelectrical impedance analysis (BIA) on 7, 14, 21 PBD. The 24 h urinary output of Na+ was determined by ion selective electrode method (ISE).

RESULTSThere were no significant difference in levels of TBW, ICW, ECW and 24 h urinary output of Na+ between two groups on 7, 14, 21 PBD (P > 0.05). No difference in results was found between groups at different time points (P > 0.05). After the data were analyzed, the level of TBW (36 +/- 6 L), ICW (21 +/- 4 L) on 21 PBD were evidently lower than those on 7 PBD (38 +/- 6 L, 23 +/- 7 L, P < 0.01).

CONCLUSIONThe level of ICW and TBW in severe burn patients decreased along with the time. Proper dosage of rhGH has no significant effect on body fluid compartments and water-sodium retention.

Adolescent ; Adult ; Aged ; Body Fluid Compartments ; Body Water ; Burns ; metabolism ; physiopathology ; therapy ; Edema ; etiology ; Electric Impedance ; Extracellular Space ; Female ; Human Growth Hormone ; therapeutic use ; Humans ; Male ; Middle Aged ; Sodium ; metabolism ; Young Adult

BACKGROUND: It is necessary to measure total body water (TBW) in evaluation of the hemodialysis adequacy. Waston's equation has been used clinically. And it is important to measure adequate dry body weight to avoid fluid overloading after hemodialysis. But there was no objective method to measure dry body weight, it was estimated subjectively by clinicians (doctors and nurses). Multi-frequency bioelectrical impedance analysis (MFBIA) has emerged as a clinical tool of the measurement of total body water (TBW) and body fluid compartment (ICW, ECW). The purpose of this study is to investigate the correlation MFBIA-TBW and Watson equation, Then intracellular water (ICW)/extracellular water (ECW) ratio (I/E ratio) usefulness in the evaluation of dry body weight. METHODS: 20 HD patients treated 3 times/week and 21 sex and age adjusted normal control subjects were studied. We measuerd and compared MFBIA-TBW to Waston equation, estimate reproducibility MFBIA-TBW measurement. Then MFBIA-ECW, ICW and I/E ratio were measured and compared dialysis patients both pre- and post dialysis to control group. RESULTS: The correlation between Wastron-TBW and MFBIA-TBW for patients was 0.948 (p<0.001). The closeness of agreement between MFBIA-TBW and Waston-TBW is shown Bland-Altman plots. There was no difference in post-dialysis patient's ICW/ECW ratio compared to control group. CONCLUSION: MFBIA is useful tool for dialysis patients' TBW measurements. Also ICW/ECW ratio measurement by MFBIA may be used to estimate the adequate ultrafiltration.
Body Fluid Compartments ; Body Water* ; Body Weight ; Dialysis ; Electric Impedance* ; Humans ; Renal Dialysis* ; Ultrafiltration

BACKGROUND: Accurate volume measurement is important in the management of patients with congestive heart failure or renal insufficiency. A bioimpedance analyser can estimate total body water in litres and has been widely used in clinical practice due to its non-invasiveness and ease of results interpretation. To change impedance data to volumetric data, bioimpedance analysers use equations derived from data from healthy subjects, which may not apply to patients with other conditions. Bioelectrical impedance vector analysis (BIVA) was developed to overcome the dependence on those equations by constructing vector plots using raw impedance data. BIVA requires normal reference plots for the proper interpretation of individual vectors. The aim of this study was to construct normal reference vector plots of bioelectrical impedance for Koreans. METHODS: Bioelectrical impedance measurements were collected from apparently healthy subjects screened according to a comprehensive physical examination and medical history performed by trained physicians. Reference vector contours were plotted on the RXc graph using the probability density function of the bivariate normal distribution. We further compared them with those of other ethnic groups. RESULTS: A total of 242 healthy subjects aged 22 to 83 were recruited (137 men and 105 women) between December 2015 and November 2016. The centers of the tolerance ellipses were 306.3 Ω/m and 34.9 Ω/m for men and 425.6 Ω/m and 39.7 Ω/m for women. The ellipses were wider for women than for men. The confidence ellipses for Koreans were located between those for Americans and Spaniards without overlap for both genders. CONCLUSION: This study presented gender-specific normal reference BIVA plots and corresponding tolerance and confidence ellipses on the RXc graph, which is important for the interpretation of BIA-reported volume status in patients with congestive heart failure or renal insufficiency. There were noticeable differences in reference ellipses with regard to gender and ethnic groups.
Adult ; Blood Volume ; Body Fluid Compartments ; Body Water ; Electric Impedance ; Ethnic Groups ; Female ; Healthy Volunteers ; Heart Failure ; Humans ; Male ; Physical Examination ; Renal Insufficiency

Fluid shifts are commonplace in chronic hemodialysis patients during the intra- and interdialytic periods. In this study, we evaluated fluid shifts of body compartments using both bioimpedance spectroscopy and blood volume monitoring from the start to the end of hemodialysis. 24 stable hemodialysis patients were included on the study. Relative change of blood volume was progressively reduced from the start to the end of hemodialysis (1 hr, -7.22+/-3.23%; 2 hr, -9.78+/-4.69%; 3 hr, -12.88+/-5.65%; 4 hr, -15.41+/-6.54%, respectively). Mean % reduction of intracellular fluid was not significantly different to that of extracellular fluid at the end of hemodialysis (delta ICF, -6.58+/-5.34% vs. delta ECF, -7.07+/-5.12%). Mean % fluid reduction of arms, legs and trunk was -11.98+/-6.76%, -6.43+/-4.37% and -7.47+/-4.56%, respectively at the end of hemodialysis. There were 3 characteristic patterns in blood-volume change. Similar amounts of fluid were removed from the extracellular and intracellular compartments during hemodialysis, with the arms showing the greatest loss in terms of body segments. The pattern of blood volume change measured by blood volume monitoring may be useful for more accurate determination of dry-weight and for correcting volume status in hemodialysis patients.
Adult ; Aged ; Aged, 80 & over ; Algorithms ; *Blood Volume ; Body Fluid Compartments/*physiology ; *Electric Impedance ; Female ; Humans ; Kidney Failure, Chronic/blood/physiopathology/therapy ; Male ; Middle Aged ; Monitoring, Physiologic/*methods ; Renal Dialysis ; Reproducibility of Results ; Research Support, Non-U.S. Gov't ; Time Factors

In the present study, patients were traumatized with muscle-crushing injuries, or they were non-traumstized. The plasma concentration of potassium and sodium were measured before the induction of anesthesia and at selected intervals after the administration of succinylcholine(SCC) in some patients were inhaled the beta2-agonist, salbutamol (about 800 ug) via an endotracheal tube and in the others were not given it. There was no significant difference in the base lines of potassium and sodium between the traumatized and nontraumatized patients. Salbutamol diminished the rise of potassium(-0.30 to 0.09 mEq/L) but did not affect the plasma sodium level. There was no significant side-effect of this agent, but sinus tachycardia was the only thing noted. These results are consistent with the proposed mechanism that the decrease in serum potassium due to salbutamol is most likely a shift of potassium ions from the extracellular space to the intracellular space. Inhalation of salbutamol may be a useful method for the prevention of SCC induced hyperkalemia without any serious side-effect in patients with preexisting hyperkalemia properties who have gone through traums.
Albuterol* ; Anesthesia ; Extracellular Space ; Humans ; Hyperkalemia* ; Inhalation ; Intracellular Space ; Ions ; Plasma ; Potassium ; Sodium ; Succinylcholine* ; Tachycardia, Sinus

Barium carbonate is commonly used rodenticidally and industrially, but intoxication has been uncommonly reported. Muscle weakness and hypokalemia are the characteristic features of barium carbonate intoxication. Barium-induced hypokalemia is due to a rapid and large transfer of potassium from the extracellular space into the intracellular space resulting from blocking potassium channels by barium ions. We report 35 cases of barium carbonate intoxication which developed after accidental ingestion of barium poisoned noodle. All patients developed severe hypokalemic paralysis and some degree of vomiting and diarrhea. We managed these patients with aggressive potassium supplementation and all patients were discharged without any sequelae.
Barium* ; Carbon* ; Diarrhea ; Eating ; Extracellular Space ; Humans ; Hypokalemia* ; Intracellular Space ; Ions ; Muscle Weakness ; Paralysis ; Potassium ; Potassium Channels ; Vomiting

OBJECTIVETo study the effects of companion fungus on hyphal growth and polysaccharide content of Polyporus umbellata.

METHODThe mycelia and culture filtrate of companion fungus were added to the liquid culture system, and the biomass yield and polysaccharide of P. umbellatus were measured.

RESULTMycelia and appropriate unsterilized culture filtrate of companion fungus could enhance the biomass yield of P. umbellatus significantly, while sterilized culture filtrate of companion fungus could decrease the biomass yield of P. umbellatus significantly. Either mycelia or culture filtrate of companion fungus could increase the intracellular polysaccharide content of P. umbellatus significantly. At the same time, they also could decrease extracellular polysaccharide content of P. umbellatus evidently.

CONCLUSIONThe mycelia and culture filtrate of companion fungus could be used in further fermentation of P. umbellatus.

Biomass ; Extracellular Space ; metabolism ; Hyphae ; growth & development ; Intracellular Space ; metabolism ; Polyporus ; cytology ; growth & development ; metabolism ; Polysaccharides ; metabolism ; Symbiosis

Dialysis unphysiology was first discussed by Carl Kjellstrand in 1975 for the possible negative effects of the unphysiology of intermittent dialysis treatment. Current hemodialysis practices are still unphysiologic because they cannot keep blood chemistries within normal limits, both before and after dialysis. In addition, the discontinuous nature of hemodialysis causes saw-tooth volume fluctuations, and the extracellular fluid volume expansion during the interdialytic period may lead to hypertension and adverse cardiovascular consequences. Sodium, which is accumulated over the interdialytic period, may be divided into two fractions. The one is the fraction of osmotically active sodium which is mainly confined to the extracellular space, and the other is that of water-free (osmotically inactive) sodium which diffuses into the intracellular space. Both contribute to the pathogenesis of hypertension because the former may act to expand extracellular fluid volume and the latter may cause vasoconstriction in the long run by increasing cytosolic concentration of calcium in the vascular smooth muscle cells. Even in intensive hemodialysis, it may take several weeks to months for water-free sodium storage in the vascular smooth muscle cells to be relieved. This may be an explanation for the lag phenomenon, i.e., the delay of blood pressure decrease after normalization of extracellular fluid volume shown in the Tassin experience. Modest restriction of dietary sodium intake, the dialytic session length long enough to maintain a high ultrafiltration volume, and the reasonably low dialysate sodium concentration are required to avoid unphysiology of positive sodium balance in current hemodialysis practice.
Blood Pressure ; Calcium ; Cytosol ; Dialysis ; Extracellular Fluid ; Extracellular Space ; Hypertension ; Intracellular Space ; Muscle, Smooth, Vascular ; Renal Dialysis ; Sodium ; Sodium, Dietary ; Ultrafiltration ; Vasoconstriction

The electrical conductivity is a passive material property primarily determined by concentrations of charge carriers and their mobility. The macroscopic conductivity of a biological tissue at low frequency may exhibit anisotropy related with its structural directionality. When expressed as a tensor and properly quantified, the conductivity tensor can provide diagnostic information of numerous diseases. Imaging conductivity distributions inside the human body requires probing it by externally injecting conduction currents or inducing eddy currents. At low frequency, the Faraday induction is negligible and it has been necessary in most practical cases to inject currents through surface electrodes. Here we report a novel method to reconstruct conductivity tensor images using an MRI scanner without current injection. This electrodeless method of conductivity tensor imaging (CTI) utilizes B1 mapping to recover a high-frequency isotropic conductivity image which is influenced by contents in both extracellular and intracellular spaces. Multi-b diffusion weighted imaging is then utilized to extract the effects of the extracellular space and incorporate its directional structural property. Implementing the novel CTI method in a clinical MRI scanner, we reconstructed in vivo conductivity tensor images of canine brains. Depending on the details of the implementation, it may produce conductivity contrast images for conductivity weighted imaging (CWI). Clinical applications of CTI and CWI may include imaging of tumor, ischemia, inflammation, cirrhosis, and other diseases. CTI can provide patient-specific models for source imaging, transcranial dc stimulation, deep brain stimulation, and electroporation.
Animal Experimentation* ; Animals* ; Anisotropy ; Brain ; Deep Brain Stimulation ; Diffusion ; Electric Conductivity ; Electrodes ; Electroporation ; Extracellular Space ; Fibrosis ; Human Body ; Inflammation ; Intracellular Space ; Ischemia ; Magnetic Resonance Imaging* ; Methods

OBJECTIVETo investigate the vasodilative effect of paeonol in rat mesenteric artery and the mechanisms responsible for it.

METHODSRats were anaesthetized and sacrificed. The superior mesenteric artery was removed, dissected free of adherent tissue and cut into 2.0 mm long cylindrical segments. Isometric tension of artery rings was recorded by a myograph system in vitro. Concentration-relaxation curves of paeonol (17.8 μ mol/L to 3.16 mmol/L) were recorded on artery rings precontracted by potassium chloride (KCl) and concentration-contraction curves of KCl, 5-hydroxytryptamine (5-HT), noradrenaline (NA) or calcium chloride (CaCl2) were recorded in the presence of paeonol (10(-4.5), 10(-3.8), 10(-3.5) mol/L) respectively. And also, concentration-relaxation curves of paeonol were recorded in the presence of different potassium channel inhibitors and propranolol on rings precontracted with KCl respectively. To investigate the role of intracellular Ca(2+) release from Ca(2+) store, the contraction induced by NA (100 μ mol/L) and CaCl2 (2 mmol/L) in Ca(2+) free medium was observed in the presence of paeonol respectively.

RESULTSPaeonol relaxed artery rings precontracted by KCl in a concentration-dependent manner and the vasodilatation effect was not affected by endothelium denudation. Paeonol significant decreased the maximum contractions (Emax) induced by KCl, CaCl2, NA and 5-HT, as well as Emax induced by NA and CaCl2 in Ca(2+) -free medium, suggesting that paeonol dilated the artery via inhibiting the extracellular Ca(2+) influx mediated by voltage-dependent calcium channel, and receptor-mediated Ca(2+)-influx and release. Moreover, none of glibenclamide, tetraethylammonium, barium chlorded and propranolol affected the paeonol-induced vasodilatation, indicating that the vasodilatation was not contributed to ATP sensitive potassium channel, calcium-activated potassium channel, inwardly rectifying potassium channel, and β-adrenoceptor.

CONCLUSIONPaeonol induces non-endothelium dependent-vasodilatation in rat mesenteric artery via inhibiting voltage-dependent calcium channel-mediated extracellular Ca(2+) influx and receptor-mediated Ca(2+) influx and release.

Acetophenones ; pharmacology ; Adrenergic beta-Antagonists ; pharmacology ; Animals ; Calcium ; metabolism ; Calcium Chloride ; pharmacology ; Endothelium, Vascular ; drug effects ; physiology ; Extracellular Space ; drug effects ; metabolism ; Female ; In Vitro Techniques ; Intracellular Space ; drug effects ; metabolism ; Male ; Mesenteric Arteries ; drug effects ; physiology ; Norepinephrine ; pharmacology ; Potassium Channel Blockers ; pharmacology ; Potassium Chloride ; pharmacology ; Rats ; Rats, Sprague-Dawley ; Serotonin ; pharmacology ; Vasoconstriction ; drug effects ; Vasodilation ; drug effects