Priority of blood flow to splanchnic organs in humans during pre‐ and post‐meal exercise

Eriksen, Morten; Waaler, B. A.

doi:10.1111/j.1748-1716.1994.tb09700.x

Cited by 33 publications

(46 citation statements)

References 21 publications

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“…In contrast to our hypothesis, Qamar & Read (1987) noted a 43 % reduction in the superior mesenteric artery (SMA) blood flow after treadmill exercise. However, Eriksen & Waaler (1994) reported a maintained SMA flow after fasting and postprandial short-duration (4 min) cycling, corroborating observations during submaximal exercise in the dog (Herrick et al 1940;Van Citters & Franklin, 1969;Vatner, 1975). To evaluate these contradictory results, we assessed splanchnic blood flow (SBF) during fasting and postprandial exercise in healthy volunteers by both Indocyanine Green dye-elimination (dye-elimination) and duplex ultrasound techniques, which permitted separation of the hepato-splenic from the mesenteric circulations.…”

supporting

confidence: 76%

“…The coeliac artery response to exercise has not been investigated previously, while the conclusions from studies on the mesenteric circulation during exercise are conflicting. Qamar & Read (1987) noted a reduction in mesenteric blood flow, while Eriksen & Waaler (1994) observed no change in blood flow during postprandial cycling, with an increase in flow during fasting exercise. Both studies were based on duplex ultrasound, but they presented neither the diameter nor the blood velocity of the artery, which hinders interpretation of the results.…”

Section: Discussionmentioning

confidence: 95%

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Mesenteric, coeliac and splanchnic blood flow in humans during exercise

Perko

Nielsen

Skak

et al. 1998

The Journal of Physiology

140

109

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In humans subjected to intense exercise, the splanchnic blood flow is reduced to about 40% (Kjòr et al. 1993) or even as low as 20% of the resting value (Rowell, 1973). Such a substantial reduction in blood flow is not associated with symptoms of abdominal hypoperfusion, which contrasts with patients suffering abdominal angina in whom the splanchnic blood flow is reduced to only 84% of rest (0·98 vs. 1·17 l min¢ in a control group; Buchardt Hansen et al. 1977). Therefore, we hypothesized that the exercise-induced reduction in splanchnic blood flow primarily follows a decrease in the hepato-splenic flow, while the mesenteric circulation remains relatively stable. In contrast to our hypothesis, Qamar & Read (1987) noted a 43 % reduction in the superior mesenteric artery (SMA) blood flow after treadmill exercise. However, Eriksen & Waaler (1994) reported a maintained SMA flow after fasting and postprandial short-duration (4 min) cycling, corroborating observations during submaximal exercise in the dog (Herrick et al. 1940;Van Citters & Franklin, 1969;Vatner, 1975). To evaluate these contradictory results, we assessed splanchnic blood flow (SBF) during fasting and postprandial exercise in healthy volunteers by both Indocyanine Green dye-elimination (dye-elimination) and duplex ultrasound techniques, which permitted separation of the hepato-splenic from the mesenteric circulations. METHODSNineteen healthy non-medicated and non-smoking volunteers aged 28 years (range, 24-35 years), 1·82 m (1·73-1·91 m) tall and weighing 81 kg (57-85 kg) participated in the study after informed consent and approval by the Ethics Committee for Medical Research in Copenhagen (Reg. no. KA 91192). The first ten subjects underwent fasting duplex ultrasound examination of the SMA and 1. Exercise reduces splanchnic blood flow, but the mesenteric contribution to this response is uncertain. 2. In nineteen humans, superior mesenteric and coeliac artery flows were determined by duplex ultrasonography during fasting and postprandial submaximal cycling and compared with the splanchnic blood flow as assessed by the Indocyanine Green dye-elimination technique. 3. Cycling increased arterial pressure, heart rate and cardiac output, while it reduced total vascular resistance. These responses were not altered in the postprandial state. During fasting, cycling increased mesenteric, coeliac and splanchnic resistances by 76, 165 and 126%, respectively, and it reduced corresponding blood flows by 32, 50 and 43% (by 0·18 ± 0·04, 0·42 ± 0·03 and 0·60 ± 0·04 l min¢). Postprandially, mesenteric and splanchnic vascular resistances decreased, thereby elevating regional blood flow, while the coeliac circulation was not influenced. Postprandial cycling did not influence the mesenteric resistance significantly, but its blood flow decreased by 22% (0·46 ± 0·28 l min¢). Coeliac and splanchnic resistance increased by 150 and 63%, respectively, and the corresponding regional blood flow decreased by 51 and 31% (0·49 ± 0·07 and 0·96 ± 0·28 l min¢). Splanchnic blood flow va...

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supporting

confidence: 76%

Section: Discussionmentioning

confidence: 95%

Mesenteric, coeliac and splanchnic blood flow in humans during exercise

Perko

Nielsen

Skak

et al. 1998

The Journal of Physiology

140

109

View full text Add to dashboard Cite

show abstract

“…33 Furthermore, an effect of this kind would have delayed peak TAG concentrations during the walking trials Ð something we did not observe. There could be decreased hepatic VLDL-TAG secretion during the walking trials but plasma concentrations of NEFA and insulin, both important in¯uences on this, 34 did not differ between trials.…”

Section: Discussionmentioning

confidence: 71%

Different patterns of brisk walking are equally effective in decreasing postprandial lipaemia

2000

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OBJECTIVE: To compare the effects of different patterns of brisk walking on day-long plasma triacylglycerol concentrations in sedentary adults. DESIGN: A three-trial, repeated measures design in which subjects were studied in the fasted state and throughout a day during which they consumed three standardized, mixed meals. On different occasions, subjects undertook no exercise (control), walked briskly for 10 min before each meal (short walks) or walked briskly for 30 min before breakfast (long walk). SUBJECTS: Seven postmenopausal sedentary women and three sedentary men aged between 34 and 66 y, with body mass index between 24 and 35 kgam 2 . MEASUREMENTS: Plasma concentrations of triacylglycerol, non-esteri®ed fatty acids, glucose and insulin, metabolic rate and whole-body substrate oxidation in the fasted state and at hourly intervals for 3 h after each meal. RESULTS: Postprandial plasma triacylglycerol concentrations were lower (P 0.009) during the walking trials than during the control trial (average values: control 2.08 AE 0.28 mmolal; short walks 1.83 AE 0.22 mmolal; long walk 1.84 AE 0.22 mmolal (mean AE s.e.) but did not differ between the two patterns of walking. The difference between control and walking trials increased as successive meals were consumed (interaction of trialÂmeal P 0.03). Plasma triacylglycerol concentration increased during the 3 h after breakfast, changed little after lunch and decreased after the evening meal (interaction of mealÂtime P 0.001). When both walking trials were treated as one condition, walking increased postprandial fat oxidation (average values: control, 0.066 AE 0.009 gamin; walking 0.074 AE 0.008 gamin; P`0.01). CONCLUSIONS: Thirty minutes of brisk walking, undertaken in one session or accumulated throughout a day, reduces postprandial plasma triacylglycerol concentrations and increases fat oxidation.

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“…3, 4). Correspondingly, neither gastric emptying nor postprandial splanchnic blood flowing is influenced by moderate exercise (Fordtran and Saltin 1967;Eriksen and Waaler 1994).…”

Section: Discussionmentioning

confidence: 96%

The effect of exercise on postprandial lipidemia in type 2 diabetic patients

2007

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To elucidate if postprandial exercise can reduce the exaggerated lipidemia seen in type 2 diabetic patients after a high-fat meal. Two mornings eight type 2 diabetic patients (males) (58 +/- 1.2 years, BMI 28.0 +/- 0.9 kg m(-2)) and seven non-diabetic controls ate a high-fat breakfast (680 kcal m(-2), 84% fat). On one morning, 90 min later subjects cycled 60 min at 57% VO(2max). Biopsies from quadriceps muscle and abdominal subcutaneous adipose tissue were sampled after exercise or equivalent period of rest and arterialized blood for 615 min. Postprandial increases in serum total-triglyceride (TG) (incremental AUC: 1,702 +/- 576 vs. 341 +/- 117 mmol l(-1) 600 min), chylomicron-TG (incremental AUC: 1,331 +/- 495 vs. 184 +/- 55 mmol l(-1) 600 min) and VLDL-TG as well as in insulin (incremental AUC: 33,946 +/- 7,414 vs. 13,670 +/- 3,250 pmol l(-1) 600 min), C-peptide and glucose were higher in diabetic patients than in non-diabetic controls (P < 0.05). In diabetic patients these variables were reduced (P < 0.05) by exercise (total-TG incremental AUC being 1,110 +/- 444, chylomicron-TG incremental AUC 1,043 +/- 474 mmol l(-1) 600 min and insulin incremental AUC 18,668 +/- 4,412 pmol l(-1) 600 min). Lipoprotein lipase activity in muscle (11.0 +/- 2.0 vs. 24.1 +/- 3.4 mU g per wet weight, P < 0.05) and post-heparin plasma at 615 min were lower in diabetic patients than in non-diabetic controls, but did not differ in adipose tissue and did not change with exercise. In diabetic patients, 210 min after exercise oxygen uptake (P < 0.05) and fat oxidation (P < 0.1) were still higher than on non-exercise days. In type 2 diabetic patients, after a high-fat meal exercise reduces the plasma concentrations of triglyceride contained in both chylomicrons and VLDL as well as insulin secretion. This suggests protection against progression of atherosclerosis and diabetes.

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Priority of blood flow to splanchnic organs in humans during pre‐ and post‐meal exercise

Cited by 33 publications

References 21 publications

Mesenteric, coeliac and splanchnic blood flow in humans during exercise

Mesenteric, coeliac and splanchnic blood flow in humans during exercise

Different patterns of brisk walking are equally effective in decreasing postprandial lipaemia

The effect of exercise on postprandial lipidemia in type 2 diabetic patients

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