P-31 MAGNETIC-RESONANCE SPECTROSCOPY ASSESSMENT OF SUBNORMAL OXIDATIVE-METABOLISM IN SKELETAL-MUSCLE OF RENAL-FAILURE PATIENTS

被引：57

作者：

MOORE, GE

BERTOCCI, LA

PAINTER, PL

机构：

[1] PRESBYTERIAN MED CTR, INST EXERCISE & ENVIRONM MED, DALLAS, TX 75231 USA

[2] UNIV TEXAS, SW MED CTR, DIV CARDIOPULM MED, DALLAS, TX 75235 USA

[3] UNIV TEXAS, SW MED CTR, DIV RADIOL, DALLAS, TX 75235 USA

来源：

JOURNAL OF CLINICAL INVESTIGATION | 1993年 / 91卷 / 02期

关键词：

EXERCISE INTOLERANCE; HEMODIALYSIS; TRANSPLANT; ERYTHROPOIETIN;

D O I：

10.1172/JCI116217

中图分类号：

R-3 [医学研究方法]; R3 [基础医学];

学科分类号：

1001 ;

摘要：

In hemodialysis patients, erythropoietin increases hemoglobin, but often the corresponding increase in peak oxygen uptake is low. The disproportionality may be caused by impaired energy metabolism. P-31-magnetic resonance spectroscopy was used to study muscle energy metabolism in 11 hemodialysis patients, 11 renal transplant recipients, and 9 controls. Measurements were obtained during rest, static hand-grip, and rhythmic handgrip; recoveries were followed to baseline. During static handgrip, there were no between-group differences in phosphocreatine (PCr), inorganic phosphate (P(i)), or PCr/(PCr + P(i)), although intracellular pH was higher in hemodialysis patients than transplant recipients. During rhythmic hand-grip, hemodialysis patients exhibited greater fatigue than transplant recipients or controls, and more reduction in PCr/(PCr + P(i)) than transplant recipients. Intracellular pH was higher in controls than either hemodialysis patients or transplant recipients. Recoveries from both exercises were similar in all groups, indicating that subnormal oxidative metabolism was not caused by inability to make ATP. The rhythmic data suggest transplantation normalizes PCr/(PCr + P(i)), but not pH. In hemodialysis patients, subnormal oxidative metabolism is apparently caused by limited exchange of metabolites between blood and muscle, rather than intrinsic oxidative defects in skeletal muscle.

引用

页码：420 / 424

页数：5

共 50 条

[41] P-31 MAGNETIC-RESONANCE SPECTROSCOPY TO STUDY NONINVASIVELY METABOLISM IN CUTANEOUS TISSUE
ZEMTSOV, A
PLASTIC AND RECONSTRUCTIVE SURGERY, 1993, 92 (07) : 1411 - 1412
[42] LYMPHOCYTE METABOLISM AND CYTOTOXIC ACTIVITY MONITORED WITH P-31 MAGNETIC-RESONANCE SPECTROSCOPY
NARAYAN, KS
FREEMAN, DM
MORESS, EA
INGRAM, M
ROSS, B
JOURNAL OF BIOLOGICAL RESPONSE MODIFIERS, 1990, 9 (02): : 241 - 246
[43] P-31 NUCLEAR MAGNETIC-RESONANCE STUDIES OF MUSCLE METABOLISM IN MALIGNANT HYPERPYREXIA
GALLOWAY, GJ
DENBOROUGH, MA
BRITISH JOURNAL OF ANAESTHESIA, 1984, 56 (06) : 663 - 664
[44] QUANTITATIVE-ANALYSIS BY P-31 MAGNETIC-RESONANCE SPECTROSCOPY OF ABNORMAL MITOCHONDRIAL OXIDATION IN SKELETAL-MUSCLE DURING RECOVERY FROM EXERCISE
KEMP, GJ
TAYLOR, DJ
THOMPSON, CH
HANDS, LJ
RAJAGOPALAN, B
STYLES, P
RADDA, GK
NMR IN BIOMEDICINE, 1993, 6 (05) : 302 - 310
[45] P-31 NUCLEAR MAGNETIC-RESONANCE SPECTROSCOPY OF STIMULATED MUSCLE DURING STARVATION
KORUDA, MJ
ARGOV, Z
MARIS, J
ROLANDELLI, RH
SETTLE, RG
JACOBS, DO
CHANCE, B
ROMBEAU, JL
SURGICAL FORUM, 1985, 36 : 61 - 63
[46] P-31 MAGNETIC-RESONANCE SPECTROSCOPY OF MESENTERIC ISCHEMIA
KASS, DA
BANVILLE, DL
GOODING, CA
JAMES, TL
MAGNETIC RESONANCE IN MEDICINE, 1987, 4 (01) : 83 - 87
[47] DETECTION OF ABNORMAL CALF MUSCLE METABOLISM IN PATIENTS WITH HEART-FAILURE USING P-31 NUCLEAR MAGNETIC-RESONANCE
MANCINI, DM
FERRARO, N
TUCHLER, M
CHANCE, B
WILSON, JR
AMERICAN JOURNAL OF CARDIOLOGY, 1988, 62 (17): : 1234 - 1240
[48] LOCALIZED P-31 MAGNETIC-RESONANCE SPECTROSCOPY OF INFLAMED RABBIT TMJ MUSCLE
ALDER, ME
WILLIAMS, RF
DOVE, SB
SALINAS, F
JOURNAL OF DENTAL RESEARCH, 1990, 69 : 273 - 273
[49] P-31 MAGNETIC-RESONANCE SPECTROSCOPY OF DUCHENNES MYOPATHY
WEIKL, A
GOHL, K
OPPELT, A
BACHMANN, K
ZEITSCHRIFT FUR KARDIOLOGIE, 1987, 76 : 31 - 31
[50] REGIONAL P-31 MAGNETIC-RESONANCE SPECTROSCOPY OF EXERCISING HUMAN MASSETER MUSCLE
LAM, EWN
HANNAM, AG
ARCHIVES OF ORAL BIOLOGY, 1992, 37 (01) : 49 - 56

← 1 2 3 4 5 →