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Peter E Thelwall,
Fiona E Smith,
Mark C Leavitt,
David Canty,
Wei Hu,
Kieren G Hollingsworth,
Christian Thoma,
Michael I Trenell, Roy Taylor,
Joseph V Rutkowski,
Andrew M Blamire,
Anthony G Quinn
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ABSTRACT: BACKGROUND AND AIMS: Lysosomal Acid Lipase (LAL) Deficiency is a rare metabolic storage disease, caused by a marked reduction in activity of LAL, which leads to accumulation of cholesteryl esters (CE) and triglycerides (TG) in lysosomes in many tissues. We used (1)H magnetic resonance (MR) spectroscopy to characterize the abnormalities in hepatic lipid content and composition in patients with LAL Deficiency, and in ex vivo liver tissue from a LAL Deficiency rat model. Secondly, we used MR spectroscopy to monitor the effects of an enzyme replacement therapy (ERT), sebelipase alfa (a recombinant human lysosomal acid lipase), on hepatic TG and CE content in the preclinical model. METHODS: Human studies employed cohorts of LAL-deficient patients and NAFLD subjects. Rat experimental groups comprised ex vivo liver samples of wild type, NAFLD, LAL-deficient, and LAL-deficient rats receiving 4 weeks of sebelipase alfa treatment. Hepatic (1)H MR spectroscopy was performed using 3T (human) and 7T (preclinical) MRI scanners to quantify hepatic cholesterol and triglyceride content. RESULTS: CE accumulation was identified in LAL Deficiency in both human and preclinical studies. A significant decrease in hepatic CE was observed in LAL-deficient rats following treatment with sebelipase alfa. CONCLUSIONS: We demonstrate an entirely non-invasive method to identify and quantify the hepatic lipid signature associated with a rare genetic cause of fatty liver. The approach provides a more favorable alternative to repeated biopsy sampling for diagnosis and disease progression / treatment monitoring of patients with LAL deficiency and other disorders characterised by increased free cholesterol and/or cholesteryl esters.
Journal of Hepatology 04/2013; · 9.26 Impact Factor
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ABSTRACT: BACKGROUND AND AIMS: Non-alcoholic fatty liver disease (NAFLD) is associated with a twofold greater risk of developing cardiovascular disease than those without. Despite this, little is known about the effect of NAFLD upon cardiac function, limiting our ability to identify therapeutic strategies. This study aimed to address this by defining the effect of NAFLD on cardiac function, structure and metabolism. METHODS: Nineteen adults with NAFLD were age, sex and BMI-matched to healthy controls without liver or metabolic disease. Cardiac structure and function were assessed using high resolution cardiac MRI and tagging at 3.0T. High energy phosphate metabolism was assessed using (31)P-magnetic resonance spectroscopy to measure the PCr/ATP ratio. RESULTS: Adults with NAFLD had significantly thicker left ventricular walls at systole (14±3 vs. 12±2mm; p<0.01) and diastole (8±1 vs. 7±1mm; p<0.01) than those without fatty liver and showed decreased longitudinal shortening (14±3 vs. 17±3%; p<0.01). The eccentricity ratio was significantly higher in the NAFLD group (1.1±0.2 vs. 0.9±0.2g/ml; p<0.01) indicating concentric remodelling. Peak whole wall strain was higher in the NAFLD group (19±2 vs. 17±3%; p<0.01), as was peak endocardial strain (28±4 vs. 22±5%; p<0.01). Cardiac metabolism, measured by PCr/ATP ratio, was not altered in NAFLD (1.8±0.3 vs. 1.9±0.3; p=0.36). CONCLUSIONS: Significant changes in cardiac structure and function are evident in adults with NAFLD in the apparent absence of metabolic changes or overt cardiac disease. Clinicians should continue to explore therapies to improve cardiac function as a means to modify the excess risk of cardiovascular disease associated with NAFLD.
Journal of Hepatology 11/2012; · 9.26 Impact Factor
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ABSTRACT: The autoimmune liver disease primary biliary cirrhosis (PBC) is associated with life-altering fatigue in ∼50% of patients. Previous work suggests that fatigued PBC subjects have evidence of autonomic dysfunction and may be at a higher risk of sudden cardiac death. The manifestation of this risk is not clear. This pilot study investigated whether alterations in cardiac torsion and strain could be detected in fatigued or nonfatigued early-stage PBC patients. We performed cardiac tissue tagging and anatomical cine-imaging in 13 early-stage PBC patients (including 7 with significant fatigue) and 10 control subjects to calculate cardiac torsion and strain throughout systole and diastole. From the cardiac tagging, we calculated the torsion-to-shortening ratio (TSR), a measure of subepicardial torsion exerting mechanical advantage over subendocardial shortening. Autonomic function testing was performed to evaluate baroreceptor effective index on standing. TSR was markedly increased in the fatigued PBC patients (0.70 ± 0.13) compared with both controls (0.46 ± 0.11, P = 0.002) and nonfatigued PBC patients (0.44 ± 0.12, P = 0.003). Decreased baroreceptor effective index on standing strongly correlated with increased TSR within the whole PBC group (r = -0.71, P = 0.007). Fatigued PBC patients demonstrate a redistribution of myocardial strain characteristic of a reduced relative contribution to contraction from the subendocardium. This is analogous to the changes found in healthy aging for subjects ∼16 yr older than the fatigued PBC patients. Hence the hearts of fatigued PBC patients may be subject to processes of accelerated aging.
Journal of Applied Physiology 03/2012; 112(12):2043-8. · 3.75 Impact Factor
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ABSTRACT: Mitochondrial dysfunction has been implicated in the pathogenesis of type 2 diabetes. We hypothesized that any impairment in insulin-stimulated muscle ATP production could merely reflect the lower rates of muscle glucose uptake and glycogen synthesis, rather than cause it. If this is correct, muscle ATP turnover rates in type 2 diabetes could be increased if glycogen synthesis rates were normalized by the mass-action effect of hyperglycemia. Isoglycemic- and hyperglycemic-hyperinsulinemic clamps were performed on type 2 diabetic subjects and matched controls, with muscle ATP turnover and glycogen synthesis rates measured using (31)P- and (13)C-magnetic resonance spectroscopy, respectively. In diabetic subjects, hyperglycemia increased muscle glycogen synthesis rates to the level observed in controls at isoglycemia [from 19 ± 9 to 41 ± 12 μmol·l(-1)·min(-1) (P = 0.012) vs. 40 ± 7 μmol·l(-1)·min(-1) in controls]. This was accompanied by a modest increase in muscle ATP turnover rates (7.1 ± 0.5 vs. 8.6 ± 0.7 μmol·l(-1)·min(-1), P = 0.04). In controls, hyperglycemia brought about a 2.5-fold increase in glycogen synthesis rates (100 ± 24 vs. 40 ± 7 μmol·l(-1)·min(-1), P = 0.028) and a 23% increase in ATP turnover rates (8.1 ± 0.9 vs. 10.0 ± 0.9 μmol·l(-1)·min(-1), P = 0.025) from basal state. Muscle ATP turnover rates correlated positively with glycogen synthesis rates (r(s) = 0.46, P = 0.005). Changing the rate of muscle glucose metabolism in type 2 diabetic subjects alters demand for ATP synthesis at rest. In type 2 diabetes, skeletal muscle ATP turnover rates reflect the rate of glucose uptake and glycogen synthesis, rather than any primary mitochondrial defect.
AJP Endocrinology and Metabolism 09/2011; 301(6):E1155-62. · 4.75 Impact Factor
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ABSTRACT: Lifestyle interventions focusing on weight loss remain the cornerstone of non-alcoholic fatty liver disease (NAFLD) management. Despite this, the weight losses achieved in research trials are not easily replicated in the clinic and there is an urgent need for therapies independent of weight loss. Aerobic exercise is not well sustained and the effectiveness of the better tolerated resistance exercise upon liver lipid and mediators of liver lipid has not been assessed.
Sedentary adults with clinically defined NAFLD were assigned to 8 weeks of resistance exercise (n=11) or continued normal treatment (n=8).
8 weeks of resistance exercise elicited a 13% relative reduction in liver lipid (14.0 ± 9.1 vs. 12.2 ± 9.0; p<0.05). Lipid oxidation (submaximal RQ -0.020 ± 0.010 vs. -0.004 ± 0.003; p<0.05), glucose control (-12% vs. +12% change AUC; p<0.01) and homeostasis model assessment insulin resistance (5.9 ± 5.9 to 4.6 ± 4.6 vs. 4.7 ± 2.1 to 5.1 ± 2.5; p<0.05) were all improved. Resistance exercise had no effect on body weight, visceral adipose tissue volume, or whole body fat mass (p>0.05).
This is the first study to demonstrate that resistance exercise specifically improves NAFLD independent of any change in body weight. These data demonstrate that resistance exercise may provide benefit for the management for non-alcoholic fatty liver, and the long-term impact of this now requires evaluation.
Gut 06/2011; 60(9):1278-83. · 10.11 Impact Factor
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Diabetes care 04/2011; 34(4):e45. · 8.09 Impact Factor
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ABSTRACT: Suppression of lipolysis by acipimox is known to improve insulin-stimulated glucose disposal, and this is an important phenomenon. The mechanism has been assumed to be an enhancement of glucose storage as glycogen, but no direct measurement has tested this concept or its possible relationship to the reported impairment in insulin-stimulated muscle ATP production. Isoglycaemic-hyperinsulinaemic clamps with [13C]glucose infusion were performed on Type 2 diabetic subjects and matched controls with measurement of glycogen synthesis by 13C MRS (magnetic resonance spectroscopy) of muscle. 31P saturation transfer MRS was used to quantify muscle ATP turnover rates. Glucose disposal rates were restored to near normal in diabetic subjects after acipimox (6.2 ± 0.8 compared with 4.8 ± 0.6 mg·kgffm⁻¹·min⁻¹; P<0.01; control 6.6 ± 0.5 mg·kgffm⁻¹·min⁻¹; where ffm, is fat-free mass). The increment in muscle glycogen concentration was 2-fold higher in controls compared with the diabetic group, and acipimox administration to the diabetic group did not increase this (2.0 ± 0.8 compared with 1.9 ± 1.1 mmol/l; P<0.05; control, 4.0 ± 0.8 mmol/l). ATP turnover rates did not increase during insulin stimulation in any group, but a modest decrease in the diabetes group was prevented by lowering plasma NEFAs (non-esterified fatty acids; 8.4 ± 0.7 compared with 7.1 ± 0.5 μmol·g⁻¹·min⁻¹; P<0.05; controls 8.6 ± 0.8 μmol·g⁻¹·min⁻¹). Suppression of lipolysis increases whole-body glucose uptake with no increase in the rate of glucose storage as glycogen but with increase in whole-body glucose oxidation rate. ATP turnover rate in muscle exhibits no relationship to the acute metabolic effect of insulin.
Clinical Science 03/2011; 121(4):169-77. · 4.61 Impact Factor
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12/2010; , ISBN: 9780470650714
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ABSTRACT: To evaluate the effect of a prebreakfast high-protein snack upon postbreakfast hyperglycemia.
We studied 10 men and women with diet- and/or metformin-controlled type 2 diabetes. Metabolic changes after breakfast were compared between 2 days: breakfast taken only and soya-yogurt snack taken prior to breakfast.
There was a significant lower rise in plasma glucose on the snack day. The incremental area under the glucose curve was 450 ± 55 mmol · min/l on the snack day compared with 699 ± 99 mmol · min/l on the control day (P = 0.013). The concentration of plasma free fatty acids immediately before breakfast correlated with the increment in plasma glucose (r = 0.50, P = 0.013).
Consuming a high-protein prebreakfast snack results in almost 40% reduction of postprandial glucose increment. The second-meal effect can be applied simply and practically to improve postbreakfast hyperglycemia in people with type 2 diabetes.
Diabetes care 12/2010; 33(12):2552-4. · 8.09 Impact Factor
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ABSTRACT: Mitochondrial dysfunction has been proposed to underlie the insulin resistance of type 2 diabetes. However, the relative time course of insulin action in stimulating ATP turnover rate and glucose uptake in skeletal muscle has not been examined. These two parameters were measured in young healthy subjects using the (31)P MRS saturation transfer method in conjunction with the euglycaemic hyperinsulinaemic clamp technique respectively. Glucose infusion rate rose rapidly from 0 to 2.90 ± 0.11 mg/kg(ffm)/min during the first 10 min of insulin infusion and further to 6.17 ± 0.57 mg/kg(ffm)/min between 15 and 45 min. In contrast, baseline ATP turnover rate was 9.0 ± 0.4 µmol/g/min of muscle and did not change during the first 45 min of insulin infusion. Between 50 and 80 minutes ATP turnover rate increased by 8% and remained steady to 150 minutes (9.7 ± 0.5 µmol/g/min of muscle, p = 0.03 vs baseline). The in vivo time course of insulin stimulation of skeletal muscle ATP turnover rate is not consistent with a rate limiting effect upon the initiation of insulin-stimulated glycogen synthesis.
NMR in Biomedicine 10/2010; 23(8):952-7. · 3.21 Impact Factor
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ABSTRACT: Upon exercise, primary biliary cirrhosis (PBC) is associated with significant acidosis in peripheral muscle with recovery rate from acidosis strongly associating with fatigue. PBC patients describe particular problems with repeat exercise describing subsequent exercise episodes being limited by perceived effects of the first. We modelled this effect by exploring kinetics of pH recovery during 3 linked exercise episodes using magnetic resonance spectroscopy (MRS).
Muscle acid handling capacity was studied following 3 x 3 min exercise periods at 35% maximum voluntary capacity in matched fatigued PBC, non-fatigued PBC and healthy controls (n=8 per group).
Time to pH recovery following initial exercise was prolonged in PBC compared to controls (160 s [60-390] vs. 25 [0-180], p=0.005) with the longest recovery time seen in fatigued patients (median 210 s). All subjects shortened recovery time between exercise periods 1-2 (controls: mean -28%, non-fatigued PBC patients: -29% and fatigued PBC patients: -30%. Normals showed further recovery shortening between exercise periods 2-3 (-18%, p=ns vs. period 1-2 recovery) however this adaptive response was lost in non-fatigued PBC patients (+3%) and reversed in fatigued patients (+19%, p=0.01 vs. period 1-2).
PBC patients retain the physiological capacity to shorten pH recovery time following repeat exercise. Capacity to shorten recovery time after a 2nd exercise period is lost in low-fatigue PBC patients and replaced by recovery prolongation in fatigued patients. Improvement in post-exercise acid recovery through exercise therapy should be possible in PBC patients and could be a novel approach to peripheral fatigue treatment.
Journal of Hepatology 07/2010; 53(1):155-61. · 9.26 Impact Factor
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ABSTRACT: Cognitive impairment is recognised in the early stages of primary biliary cirrhosis (PBC).
To determine the mechanisms that underlie the cognitive dysfunction that can occur in early-stage PBC, with a particular focus on the role of autonomic dysfunction and altered cerebral autoregulation.
Early-stage PBC patients, and age- and sex-matched controls.
Brain magnetic resonance imaging to determine the relationship between structural brain abnormalities (T(2)) and cerebral vasculature responsiveness assessed using the Valsalva manoeuvre. Dynamic assessment of cerebral vascular flow using transcranial Doppler was also performed in PBC subjects to derive the pulsatility index (a marker of cerebral resistance) and the autoregulatory slope index [ASI; ratio between the cerebral blood flow velocity and blood pressure (BP)].
Cerebral resistance was increased (P=0.04), and cerebral autoregulation in response to the Valsalva was significantly impaired in the PBC group with markedly lower mean ASI values compared with the controls (7.8+/-7.0 vs -8.5+/-8.4; P=0.002). All controls had normal cerebral autoregulation compared with only 20% of the PBC group. Indicators of sympathetic failure (BP change between Valsalva phases III-IV and low-frequency heart rate variability) correlated with increasing globus pallidus (GP) T(2) values (P<0.05), beyond the effect of age.
This study demonstrates the presence of increased cerebral vascular resistance and abnormal cerebral autoregulation in PBC patients, and identifies a potentially important association between the degree of abnormality in structural changes in the GP. These findings suggest that organic brain injury in PBC is directly related to autonomic dysfunction.
Liver international: official journal of the International Association for the Study of the Liver 07/2010; 30(6):878-85. · 3.82 Impact Factor
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ABSTRACT: Cardiovascular system dysregulation in the form of autonomic dysfunction is common at all stages of the disease process in the autoimmune liver disease primary biliary cirrhosis (PBC) and associates with the symptom of fatigue. The mechanisms underpinning autonomic dysfunction in PBC are, however, at present unclear. In this study we set out to explore, for the first time, cardiac structure and function in PBC using impedance cardiography (ICG) and magnetic resonance methodologies. ICG was assessed beat to beat in response to orthostasis (by head-up tilt) in age and sex case-matched high-fatigue and low-fatigue PBC groups (assessed by Fatigue Impact Scale), normal control subjects (n = 15 each group) and a liver disease control cohort (primary sclerosing cholangitis). Cardiac structure and bioenergetics were examined in 15 of the PBC subjects and 8 of the normal control subjects by magnetic resonance spectroscopy and cine imaging. Capacity of the left ventricle to respond to orthostasis [left ventricular ejection time (LVET)] was impaired in PBC compared with matched normal control subjects (P = 0.05). This was a PBC-specific phenomenon unrelated to fatigue status. PBC patients exhibited significantly lower cardiac muscle phosphocreatine-to-ATP ratio (PCr/ATP ratio; measure of cardiac bioenergetic integrity) compared with control subjects (P < 0.01). PCr/ATP <1.6 (indicative of increased risk of death in cardiomyopathy) was present in 6/15 (40%) PBC patients (0/8 control subjects; P < 0.05). Cardiac structure and function were similar in all measures of left ventricular morphology between control subjects and PBC. The close relationship between PCr/ATP and LVET seen in normal subjects (r(2) = 0.6; P < 0.05) was lost in PBC patients, a finding compatible with myocardial dysfunction. Significant correlation was seen between fatigue severity in PBC and fall in cardiac output on orthostasis (r(2) = 0.25; P = 0.005). Our findings suggest the presence of altered myocardial function in PBC. Autonomic "dysfunction" may, rather than being an abnormal process, represent a compensatory mechanism to increase cardiac return to mitigate these effects.
AJP Gastrointestinal and Liver Physiology 05/2010; 298(5):G764-73. · 3.43 Impact Factor
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ABSTRACT: Impaired skeletal muscle metabolism is recognized in chronic fatigue syndrome (CFS). This study examined the relationship between skeletal and cardiac muscle function and symptoms on standing in CFS using magnetic resonance spectroscopy (MRS) and impedance cardiography.
Phosphocreatine (PCr)/adenosine triphosphate (ATP) ratio by cardiac MRS, PCr/ADP and proton efflux by muscle MRS were performed in 12 CFS (Fukuda) and 8 controls. Head up tilt (HUT) and cardiac contractility (left ventricular work index, LVWI) (n = 64 CFS and matched controls) were found. Fatigue impact was accessed by Fatigue Impact Scale and orthostatic symptoms by Orthostatic Grading Scale (OGS).
Cardiac PCr/ATP correlated with measures of muscle bioenergetic function (half-time PCr recovery [kappa = -0.71, P = 0.005] and half-time ADP recovery [kappa = -0.60, P = 0.02]) suggesting that the muscle and cardiac bioenergetic function correlate in CFS. Four of 12 (33.3%) CFS patients had PCr/ATP values consistent with significant cardiac impairment. Those with impaired cardiac energy metabolism had significantly reduced maximal and initial proton efflux rates (P < 0.05). Cardiac PCr/ATP ratio correlated with myocardial contractility (LVWI) in response to standing (P = 0.03). On HUT, LVWI on standing was significantly higher in CFS (P = 0.05) with symptoms on standing (OGS) occurring in 61/64 (95%) (vs. 25/64 [39%] controls; P < 0.0001). OGS scores were significantly higher in those with abnormal LVWI responses to standing (P = 0.04), with the LVWI on standing correlating with OGS scores (r(2) = 0.1; P = 0.03). HUT was positive in 19 (32%).
Skeletal muscle and cardiac bioenergetic abnormalities associate in CFS. Cardiac bioenergetic metabolism associates with increase in cardiac contractility on standing. Haemodynamic assessment in CFS is well tolerated and safe with a high diagnostic yield comparable with unexplained syncope.
European Journal of Clinical Investigation 05/2010; 40(7):608-15. · 3.02 Impact Factor
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ABSTRACT: Abstract Background Obesity remains a major public health problem, associated with a cluster of metabolic abnormalities. However, individuals exist who are very obese but have normal metabolic parameters. The aim of this study was to determine to what extent differences in metabolic health in very obese women are explained by differences in body fat distribution, insulin resistance and level of physical activity. Methods This was a cross-sectional pilot study of 39 obese women (age: 28-64 yrs, BMI: 31-67 kg/m2) recruited from community settings. Women were defined as 'metabolically normal' on the basis of blood glucose, lipids and blood pressure. Magnetic Resonance Imaging was used to determine body fat distribution. Detailed lifestyle and metabolic profiles of participants were obtained. Results Women with a healthy metabolic profile had lower intra-abdominal fat volume (geometric mean 4.78 l [95% CIs 3.99-5.73] vs 6.96 l [5.82-8.32]) and less insulin resistance (HOMA 3.41 [2.62-4.44] vs 6.67 [5.02-8.86]) than those with an abnormality. The groups did not differ in abdominal subcutaneous fat volume (19.6 l [16.9-22.7] vs 20.6 [17.6-23.9]). A higher proportion of those with a healthy compared to a less healthy metabolic profile met current physical activity guidelines (70% [95% CIs 55.8-84.2] vs 25% [11.6-38.4]). Intra-abdominal fat, insulin resistance and physical activity make independent contributions to metabolic status in very obese women, but explain only around a third of the variance. Conclusion A sub-group of women exists who are metabolically normal despite being very obese. Differences in fat distribution, insulin resistance, and physical activity level are associated with metabolic differences in these women, but account only partially for these differences. Future work should focus on strategies to identify those obese individuals most at risk of the negative metabolic consequences of obesity and on identifying other factors that contribute to metabolic status in obese individuals.
BMC Public Health. 01/2010;
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ABSTRACT: Obesity remains a major public health problem, associated with a cluster of metabolic abnormalities. However, individuals exist who are very obese but have normal metabolic parameters. The aim of this study was to determine to what extent differences in metabolic health in very obese women are explained by differences in body fat distribution, insulin resistance and level of physical activity.
This was a cross-sectional pilot study of 39 obese women (age: 28-64 yrs, BMI: 31-67 kg/m2) recruited from community settings. Women were defined as 'metabolically normal' on the basis of blood glucose, lipids and blood pressure. Magnetic Resonance Imaging was used to determine body fat distribution. Detailed lifestyle and metabolic profiles of participants were obtained.
Women with a healthy metabolic profile had lower intra-abdominal fat volume (geometric mean 4.78 l [95% CIs 3.99-5.73] vs 6.96 l [5.82-8.32]) and less insulin resistance (HOMA 3.41 [2.62-4.44] vs 6.67 [5.02-8.86]) than those with an abnormality. The groups did not differ in abdominal subcutaneous fat volume (19.6 l [16.9-22.7] vs 20.6 [17.6-23.9]). A higher proportion of those with a healthy compared to a less healthy metabolic profile met current physical activity guidelines (70% [95% CIs 55.8-84.2] vs 25% [11.6-38.4]). Intra-abdominal fat, insulin resistance and physical activity make independent contributions to metabolic status in very obese women, but explain only around a third of the variance.
A sub-group of women exists who are metabolically normal despite being very obese. Differences in fat distribution, insulin resistance, and physical activity level are associated with metabolic differences in these women, but account only partially for these differences. Future work should focus on strategies to identify those obese individuals most at risk of the negative metabolic consequences of obesity and on identifying other factors that contribute to metabolic status in obese individuals.
BMC Public Health 01/2010; 10:723. · 2.00 Impact Factor
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ABSTRACT: To determine whether the magnetization transfer ratio (MTR) of the globus pallidus (GP) in patients with primary biliary cirrhosis (PBC) correlates with age, disease stage, and fatigue, using T(1) and T(2) mapping to determine whether the mechanism of change is consistent with manganese deposition in the GP as suggested by previous reports.
In all, 30 early-stage PBC patients, four end-stage PBC patients, and 14 female controls were recruited to age-matched groups. MTR, T(1) and T(2) measurements were performed. A bilateral region of interest (ROI)-based analysis was used to calculate GP MTR, T(1), and T(2) values. These were correlated with age, disease status, and fatigue.
MTR measurements showed a significant, negative correlation with age for controls and early-stage PBC patients, a positive correlation with T(2), and no correlation with T(1). Only GP T(2) is significantly lower in early-stage PBC patients than controls, while end-stage patients demonstrated a simultaneous reduction in T(1) and MTR, consistent with GP manganese deposition.
MTR measurements correlate with age in both early-stage patient and control groups, but are not associated with manganese deposition or fatigue severity: only the end-stage disease group shows changes in MTR, T(1), T(2) that are consistent with manganese deposition.
Journal of Magnetic Resonance Imaging 05/2009; 29(4):780-4. · 2.70 Impact Factor
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ABSTRACT: In health, the rise in glucose after lunch is less if breakfast is eaten. We evaluated the second-meal effect in type 2 diabetes.
Metabolic changes after lunch in eight obese type 2 diabetic subjects were compared on 3 days: breakfast eaten, no breakfast, and no breakfast but intravenous arginine 1 h before lunch.
Despite comparable insulin levels, the rise in plasma glucose after lunch was considerably less if breakfast had been eaten (0.68 +/- 1.49 vs. 12.32 +/- 1.73 vs. 7.88 +/- 1.03 mmol x h(-1) x l(-1); P < 0.0001). Arginine administration almost halved the lunch rise in plasma glucose (12.32 +/- 1.73 vs. 7.88 +/- 1.03 mmol x h(-1) x l(-1)). The plasma free fatty acid concentration at lunchtime directly related to plasma glucose rise after lunch (r = 0.67, P = 0.0005).
The second-meal effect is preserved in type 2 diabetes. Premeal administration of a nonglucose insulin secretagogue results in halving the postprandial glucose rise and has therapeutic potential.
Diabetes care 04/2009; 32(7):1199-201. · 8.09 Impact Factor
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ABSTRACT: Primary biliary cirrhosis (PBC) is characterized in 95% of patients by autoantibody responses directed against the mitochondrial antigen pyruvate dehydrogenase complex (PDC). Although anti-PDC inhibits PDC function in vitro, mitochondrial function in vivo in PBC has not been examined.
(31)P magnetic resonance spectroscopy was performed in PBC patients (n = 15) and fatigued (chronic fatigue syndrome/myalgic encephalomyelitis, n = 8), cholestatic (primary sclerosing cholangitis [PSC], n = 4), and normal (n = 8) controls to define mitochondrial function and pH regulation in peripheral muscle during exercise at 25% and 35% of maximum voluntary contraction.
Normal, chronic fatigue syndrome/myalgic encephalomyelitis, and PSC subjects all showed close correlation between kinetics of adenosine diphosphate (ADP) and phosphocreatine (PCr) recovery after low-impact exercise, reflecting the normal tight regulation of PCr "response" by mitochondria to ADP "drive." This relationship was lost in PBC patients, indicating mitochondrial dysfunction (normal r(2) = 0.78, P < .005; PBC r(2) = 0.007, P = ns). Ratio between PCr and ADP recovery half-times (constant in controls, indicating normal mitochondrial responsivity) was significantly elevated in PBC patients (but not PSC) and was associated with anti-PDC levels. At higher levels of exercise PBC (but not PSC) patients showed excess muscle acidosis, with pH correlating with elevation of PCr/ADP recovery ratio, indicating a link to mitochondrial dysfunction. PBC patients alone also showed significant prolongation of muscle pH recovery time after exercise (unrelated to mitochondrial function), which correlated with clinical fatigue.
PBC patients exhibit a variable degree of muscle mitochondrial dysfunction that manifests as excess acidosis after exercise. The extent to which patients can recover rapidly from acidosis appears to determine whether they are clinically fatigued.
Clinical gastroenterology and hepatology: the official clinical practice journal of the American Gastroenterological Association 09/2008; 6(9):1041-8. · 5.64 Impact Factor
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ABSTRACT: Hepatic triglyceride is closely associated with hepatic insulin resistance and is known to be decreased by thiazolididinediones. We studied the effect of pioglitazone on hepatic triglyceride content and the consequent effect on postprandial endogenous glucose production (EGP) in type 2 diabetes.
Ten subjects with type 2 diabetes on sulfonylurea therapy were treated with pioglitazone (30 mg daily) for 16 weeks. EGP was measured using a dynamic isotopic methodology after a standard liquid test meal both before and after pioglitazone treatment. Liver and muscle triglyceride levels were measured by (1)H magnetic resonance spectroscopy, and intra-abdominal fat content was measured by magnetic resonance imaging.
Pioglitazone treatment reduced mean plasma fasting glucose and mean peak postprandial glucose levels. Fasting EGP decreased after pioglitazone treatment (16.6 +/- 1.0 vs. 12.2 +/- 0.7 micromol . kg(-1) . min(-1), P = 0.005). Between 80 and 260 min postprandially, EGP was twofold lower on pioglitazone (2.58 +/- 0.25 vs. 1.26 +/- 0.30 micromol . kg(-1) . min(-1), P < 0.001). Hepatic triglyceride content decreased by approximately 50% (P = 0.03), and muscle (anterior tibialis) triglyceride content decreased by approximately 55% (P = 0.02). Hepatic triglyceride content was directly correlated with fasting EGP (r = 0.64, P = 0.01) and inversely correlated to percentage suppression of EGP (time 150 min, r = -0.63, P = 0.02). Muscle triglyceride, subcutaneous fat, and visceral fat content were not related to EGP. CONCLUSIONS Reduction in hepatic triglyceride by pioglitazone is very closely related to improvement in fasting and postprandial EGP in type 2 diabetes.
Diabetes 07/2008; 57(9):2288-95. · 8.29 Impact Factor
