Effect of Intestinal Pacing on Small Bowel Transit and Nutrient Absorption in Healthy Volunteers

Background Intestinal pacing (IP) has been previously shown to delay gastric emptying and reduce food intake in animals. The aims of this study were to investigate the effect and mechanism of IP on nutrient absorption in healthy volunteers. Methods Twelve healthy volunteers (six men, six women) were...

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Published in	Obesity surgery Vol. 19; no. 2; pp. 196 - 201
Main Authors	Liu, Jinsong, Qiao, Xian, Hou, Xiaohua, Chen, J. D. Z.
Format	Journal Article
Language	English
Published	New York Springer New York 01.02.2009 Springer Nature B.V
Subjects	Diarrhea - diagnosis Diarrhea - etiology Dyspepsia - diagnosis Dyspepsia - etiology Electric Stimulation Feces - chemistry Female Gastrointestinal surgery Gastrointestinal Transit Humans Intestinal Absorption Intestine, Small - chemistry Intestine, Small - diagnostic imaging Intestine, Small - physiology Lipids - analysis Malabsorption Syndromes - complications Malabsorption Syndromes - physiopathology Male Medicine Medicine & Public Health Nutrients Obesity Radiography Reference Values Research Article Severity of Illness Index Small intestine Surgery Technetium Weight control Xylose - urine Young Adult Intestinal pacing Human Small bowel transit Nutrient absorption
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ISSN	0960-8923 1708-0428
DOI	10.1007/s11695-008-9533-8

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Abstract	Background Intestinal pacing (IP) has been previously shown to delay gastric emptying and reduce food intake in animals. The aims of this study were to investigate the effect and mechanism of IP on nutrient absorption in healthy volunteers. Methods Twelve healthy volunteers (six men, six women) were involved in a two-session (one session without IP and one with IP) study. At the beginning of each session, a nasal-duodenal feeding tube, with two ring electrodes (used for IP) on the tip of the tube, was incubated into the duodenum under endoscopy. After a complete recovery from the incubation, the duodenum was infused via the feeding tube with 150 ml 30% intralipid + 25 g D-xylose within 30 min, and the stool was collected for 24 h for the analysis of fecal lipid during which a controlled meal was taken. Then 100 ml 1mCi 99 Tc-labeled non-absorbable solution was infused within 3 min. The subject was asked to lie under a γ camera for at least 1 h for the measurement of small bowel transit. The movement of isotopes was monitored by γ camera at an interval of 10 s. The first appearance of isotopes in the cecum was considered as small intestinal transit time. The order of the two sessions was randomized and 1 week apart. In the IP session, intestinal pacing was performed via the pair of the ring electrodes for 2 h initiated at the beginning of infusion with a pacing frequency of 13 pulses/min, pulse width of 300 ms and amplitude of 5 mA. Results (1) IP significantly reduced lipid and D-xylose absorption. The fecal lipid was 6.6 ± 4.6 g without IP and almost doubled with IP (11.1 ± 6.5 g, P = 0.047). Similarly, the D-xylose in urine was 3.46 ± 2.22 g with IP, which was significantly lower than that without IP (6.63 ± 5.06 g, p = 0.049). (2) IP accelerated intestinal transit. The transit time was 39 ± 17 min in the control session and reduced to 28 ± 10 min in the IP session ( p < 0.03). (3) Diarrhea was reported in one subject without IP but in six subjects with IP ( p < 0.05). Conclusions The increased fecal lipid and induction of diarrhea with intestinal pacing suggest that intestinal pacing is capable of inducing malabsorption. This effect maybe contributed to the acceleration of intestinal transit.
AbstractList	Background Intestinal pacing (IP) has been previously shown to delay gastric emptying and reduce food intake in animals. The aims of this study were to investigate the effect and mechanism of IP on nutrient absorption in healthy volunteers. Methods Twelve healthy volunteers (six men, six women) were involved in a two-session (one session without IP and one with IP) study. At the beginning of each session, a nasal-duodenal feeding tube, with two ring electrodes (used for IP) on the tip of the tube, was incubated into the duodenum under endoscopy. After a complete recovery from the incubation, the duodenum was infused via the feeding tube with 150 ml 30% intralipid + 25 g D-xylose within 30 min, and the stool was collected for 24 h for the analysis of fecal lipid during which a controlled meal was taken. Then 100 ml 1mCi 99 Tc-labeled non-absorbable solution was infused within 3 min. The subject was asked to lie under a γ camera for at least 1 h for the measurement of small bowel transit. The movement of isotopes was monitored by γ camera at an interval of 10 s. The first appearance of isotopes in the cecum was considered as small intestinal transit time. The order of the two sessions was randomized and 1 week apart. In the IP session, intestinal pacing was performed via the pair of the ring electrodes for 2 h initiated at the beginning of infusion with a pacing frequency of 13 pulses/min, pulse width of 300 ms and amplitude of 5 mA. Results (1) IP significantly reduced lipid and D-xylose absorption. The fecal lipid was 6.6 ± 4.6 g without IP and almost doubled with IP (11.1 ± 6.5 g, P = 0.047). Similarly, the D-xylose in urine was 3.46 ± 2.22 g with IP, which was significantly lower than that without IP (6.63 ± 5.06 g, p = 0.049). (2) IP accelerated intestinal transit. The transit time was 39 ± 17 min in the control session and reduced to 28 ± 10 min in the IP session ( p < 0.03). (3) Diarrhea was reported in one subject without IP but in six subjects with IP ( p < 0.05). Conclusions The increased fecal lipid and induction of diarrhea with intestinal pacing suggest that intestinal pacing is capable of inducing malabsorption. This effect maybe contributed to the acceleration of intestinal transit. Intestinal pacing (IP) has been previously shown to delay gastric emptying and reduce food intake in animals. The aims of this study were to investigate the effect and mechanism of IP on nutrient absorption in healthy volunteers.BACKGROUNDIntestinal pacing (IP) has been previously shown to delay gastric emptying and reduce food intake in animals. The aims of this study were to investigate the effect and mechanism of IP on nutrient absorption in healthy volunteers.Twelve healthy volunteers (six men, six women) were involved in a two-session (one session without IP and one with IP) study. At the beginning of each session, a nasal-duodenal feeding tube, with two ring electrodes (used for IP) on the tip of the tube, was incubated into the duodenum under endoscopy. After a complete recovery from the incubation, the duodenum was infused via the feeding tube with 150 ml 30% intralipid + 25 g D-xylose within 30 min, and the stool was collected for 24 h for the analysis of fecal lipid during which a controlled meal was taken. Then 100 ml 1mCi(99)Tc-labeled non-absorbable solution was infused within 3 min. The subject was asked to lie under a gamma camera for at least 1 h for the measurement of small bowel transit. The movement of isotopes was monitored by gamma camera at an interval of 10 s. The first appearance of isotopes in the cecum was considered as small intestinal transit time. The order of the two sessions was randomized and 1 week apart. In the IP session, intestinal pacing was performed via the pair of the ring electrodes for 2 h initiated at the beginning of infusion with a pacing frequency of 13 pulses/min, pulse width of 300 ms and amplitude of 5 mA.METHODSTwelve healthy volunteers (six men, six women) were involved in a two-session (one session without IP and one with IP) study. At the beginning of each session, a nasal-duodenal feeding tube, with two ring electrodes (used for IP) on the tip of the tube, was incubated into the duodenum under endoscopy. After a complete recovery from the incubation, the duodenum was infused via the feeding tube with 150 ml 30% intralipid + 25 g D-xylose within 30 min, and the stool was collected for 24 h for the analysis of fecal lipid during which a controlled meal was taken. Then 100 ml 1mCi(99)Tc-labeled non-absorbable solution was infused within 3 min. The subject was asked to lie under a gamma camera for at least 1 h for the measurement of small bowel transit. The movement of isotopes was monitored by gamma camera at an interval of 10 s. The first appearance of isotopes in the cecum was considered as small intestinal transit time. The order of the two sessions was randomized and 1 week apart. In the IP session, intestinal pacing was performed via the pair of the ring electrodes for 2 h initiated at the beginning of infusion with a pacing frequency of 13 pulses/min, pulse width of 300 ms and amplitude of 5 mA.(1) IP significantly reduced lipid and D-xylose absorption. The fecal lipid was 6.6 +/- 4.6 g without IP and almost doubled with IP (11.1 +/- 6.5 g, P = 0.047). Similarly, the D-xylose in urine was 3.46 +/- 2.22 g with IP, which was significantly lower than that without IP (6.63 +/- 5.06 g, p = 0.049). (2) IP accelerated intestinal transit. The transit time was 39 +/- 17 min in the control session and reduced to 28 +/- 10 min in the IP session (p < 0.03). (3) Diarrhea was reported in one subject without IP but in six subjects with IP (p < 0.05).RESULTS(1) IP significantly reduced lipid and D-xylose absorption. The fecal lipid was 6.6 +/- 4.6 g without IP and almost doubled with IP (11.1 +/- 6.5 g, P = 0.047). Similarly, the D-xylose in urine was 3.46 +/- 2.22 g with IP, which was significantly lower than that without IP (6.63 +/- 5.06 g, p = 0.049). (2) IP accelerated intestinal transit. The transit time was 39 +/- 17 min in the control session and reduced to 28 +/- 10 min in the IP session (p < 0.03). (3) Diarrhea was reported in one subject without IP but in six subjects with IP (p < 0.05).The increased fecal lipid and induction of diarrhea with intestinal pacing suggest that intestinal pacing is capable of inducing malabsorption. This effect maybe contributed to the acceleration of intestinal transit.CONCLUSIONSThe increased fecal lipid and induction of diarrhea with intestinal pacing suggest that intestinal pacing is capable of inducing malabsorption. This effect maybe contributed to the acceleration of intestinal transit. Intestinal pacing (IP) has been previously shown to delay gastric emptying and reduce food intake in animals. The aims of this study were to investigate the effect and mechanism of IP on nutrient absorption in healthy volunteers. Twelve healthy volunteers (six men, six women) were involved in a two-session (one session without IP and one with IP) study. At the beginning of each session, a nasal-duodenal feeding tube, with two ring electrodes (used for IP) on the tip of the tube, was incubated into the duodenum under endoscopy. After a complete recovery from the incubation, the duodenum was infused via the feeding tube with 150 ml 30% intralipid + 25 g D-xylose within 30 min, and the stool was collected for 24 h for the analysis of fecal lipid during which a controlled meal was taken. Then 100 ml 1mCi99Tc-labeled non-absorbable solution was infused within 3 min. The subject was asked to lie under a γ camera for at least 1 h for the measurement of small bowel transit. The movement of isotopes was monitored by γ camera at an interval of 10 s. The first appearance of isotopes in the cecum was considered as small intestinal transit time. The order of the two sessions was randomized and 1 week apart. In the IP session, intestinal pacing was performed via the pair of the ring electrodes for 2 h initiated at the beginning of infusion with a pacing frequency of 13 pulses/min, pulse width of 300 ms and amplitude of 5 mA. (1) IP significantly reduced lipid and D-xylose absorption. The fecal lipid was 6.6±4.6 g without IP and almost doubled with IP (11.1±6.5 g, P=0.047). Similarly, the D-xylose in urine was 3.46±2.22 g with IP, which was significantly lower than that without IP (6.63±5.06 g, p=0.049). (2) IP accelerated intestinal transit. The transit time was 39±17 min in the control session and reduced to 28±10 min in the IP session (p<0.03). (3) Diarrhea was reported in one subject without IP but in six subjects with IP (p<0.05). The increased fecal lipid and induction of diarrhea with intestinal pacing suggest that intestinal pacing is capable of inducing malabsorption. This effect maybe contributed to the acceleration of intestinal transit. [PUBLICATION ABSTRACT] Intestinal pacing (IP) has been previously shown to delay gastric emptying and reduce food intake in animals. The aims of this study were to investigate the effect and mechanism of IP on nutrient absorption in healthy volunteers. Twelve healthy volunteers (six men, six women) were involved in a two-session (one session without IP and one with IP) study. At the beginning of each session, a nasal-duodenal feeding tube, with two ring electrodes (used for IP) on the tip of the tube, was incubated into the duodenum under endoscopy. After a complete recovery from the incubation, the duodenum was infused via the feeding tube with 150 ml 30% intralipid + 25 g D-xylose within 30 min, and the stool was collected for 24 h for the analysis of fecal lipid during which a controlled meal was taken. Then 100 ml 1mCi(99)Tc-labeled non-absorbable solution was infused within 3 min. The subject was asked to lie under a gamma camera for at least 1 h for the measurement of small bowel transit. The movement of isotopes was monitored by gamma camera at an interval of 10 s. The first appearance of isotopes in the cecum was considered as small intestinal transit time. The order of the two sessions was randomized and 1 week apart. In the IP session, intestinal pacing was performed via the pair of the ring electrodes for 2 h initiated at the beginning of infusion with a pacing frequency of 13 pulses/min, pulse width of 300 ms and amplitude of 5 mA. (1) IP significantly reduced lipid and D-xylose absorption. The fecal lipid was 6.6 +/- 4.6 g without IP and almost doubled with IP (11.1 +/- 6.5 g, P = 0.047). Similarly, the D-xylose in urine was 3.46 +/- 2.22 g with IP, which was significantly lower than that without IP (6.63 +/- 5.06 g, p = 0.049). (2) IP accelerated intestinal transit. The transit time was 39 +/- 17 min in the control session and reduced to 28 +/- 10 min in the IP session (p < 0.03). (3) Diarrhea was reported in one subject without IP but in six subjects with IP (p < 0.05). The increased fecal lipid and induction of diarrhea with intestinal pacing suggest that intestinal pacing is capable of inducing malabsorption. This effect maybe contributed to the acceleration of intestinal transit.
Author	Liu, Jinsong Chen, J. D. Z. Qiao, Xian Hou, Xiaohua
Author_xml	– sequence: 1 givenname: Jinsong surname: Liu fullname: Liu, Jinsong organization: Division of Gastroenterology, Union Hospital of Huazhong Scientific and Technology University – sequence: 2 givenname: Xian surname: Qiao fullname: Qiao, Xian organization: Division of Neurology, Union Hospital of Huazhong Scientific and Technology University – sequence: 3 givenname: Xiaohua surname: Hou fullname: Hou, Xiaohua organization: Division of Gastroenterology, Huazhong Science and Technology University – sequence: 4 givenname: J. D. Z. surname: Chen fullname: Chen, J. D. Z. email: Jianchen@utmb.edu organization: University of Texas Medical Branch, GI Research
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/18704608$$D View this record in MEDLINE/PubMed
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IanMElizabethAGaryAMichaelHEffects of small-intestinal fat and carbohydrate infusions on appetite and food intake in obese and nonobese menAm J Clin Nutr19996961210.1093/ajcn/69.1.6 CraigRMAtkinsonAJJrD-xylose testing: a reviewGastroenterology1988952232311:STN:280:DyaL1c3isF2hsg%3D%3D10.1016/0016-5085(88)90318-6 Professor Philip James, Chair of the London-based international obesity task force. Monte Carlo, March 17, 2003. Available at: www.itof.org/media. Accessed 1 Mar 2004. ChenJDZQianLWOuyangHChenJDGastric electrical stimulation with short pulses reduces vomiting but not dysrhythmias in dogsGastroenterology200312440140910.1053/gast.2003.50048 CherbutCAubeACBlottiereHMGalmicheJPEffects of short-chain fatty acids on gastrointestinal motilityScand J Gastroenterol Suppl199722258611:STN:280:DyaK2s3ptVyjsQ%3D%3D10.1080/00365521.1997.11720720 TomioUYuichiroHMassaakiOTakashiSOral absorption tests: Absorption site of each substrateNutrition199814171010.1016/S0899-9007(97)00386-9 WeberEEhrleinHJReserve capacities of the small intestine for absorption of energyAm J Physiol19982751R300R3071:CAS:528:DyaK1cXkvFaqt74%3D9688992 ShikoraSABessierMFisherBLTrigilloCMincureMGreensteinRLaparoscopic insertion of the implantable gastric stimulator (IGSTM): initial surgical experienceObes Surg200010Appendix 3-A10.1381/09608920060674003 CigainaVGastric pacing as therapy for morbid obesity: preliminary resultsObes Surg20021212S16S10.1007/BF03342141 ZhaoXTWangLJXuXHChenJDElectric stimulation of small intestine delays gastric emptying in the dog model [abstract]Neurogastroenterol Motil200214457 KellyKACodeCFDuodenal-gastric reflux and slowed gastric emptying by electrical pacing of the canine duodenal pacesetter potentialsGastroenterology1977724294331:STN:280:DyaE2s%2FptF2mtg%3D%3D832792 SunYChenJDZIntestinal electric stimulation decreases fat absorption in rats: therapeutic potential for obesityObes Res200412123512421:CAS:528:DC%2BD2cXot1Gms7c%3D10.1038/oby.2004.157 LinXMPetersLJHayesJChenJDEntrainment of segmental small intestinal slow waves with electrical stimulation in dogsDig Dis Sci2000456526561:STN:280:DC%2BD3c3itV2kuw%3D%3D10.1023/A:1005466904380 YinJYOuyangHChenJDZThe effects of duodenal electrical stimulation (DES) on food intake, gastric tone and gastric myoelectrical activity on dogs [abstract]Neurogastroenterol Motil200214456 HammerJHammerKKletterKLipids infused into the jejunum accelerate small intestinal transit but delay ileocolonic transit of solids and liquidsGut1998431111161:CAS:528:DyaK1cXltFGktLo%3D10.1136/gut.43.1.111 ZhaoXTWangLJDouglasLBChenJDDelayed liquid gastric emptying induced by electric stimulation of small intestine depends on nitric oxide pathway in conscious dogs[abstract]Gastroenterology2003124suppl 1W1474 Gastrointestinal surgery for severe obesityNational Institutes of Health Consensus Development Conference Draft StatementObes Surg19911157165 MiedemaBWKellyKAThe Roux stasis syndrome: Treatment by pacing and prevention by use of an “uncut” Roux limbArch Surg19921272953001:STN:280:DyaK387pvVWqug%3D%3D10.1001/archsurg.1992.01420030057011 ShiLXiaohuaHChenJDZTherapeutic potential of duodenal electrical stimulation for obesity: Acute effects on gastric emptying and water intakeAm J Gastroenterology200510079279610.1111/j.1572-0241.2005.40377.x Van de KamerJHHuininkHTBWeijersHARapid method for determination of fat in fecesJ Biol Chem1949177349355 CranleyBKellyKAGoVLWMcnicholsLAEnhancing the anti-dumping effect of Roux gastrojejunostomy with intestinal pacingAnn Surg19831985165241:STN:280:DyaL2c%2Fit1Oluw%3D%3D10.1097/00000658-198310000-00011 ChenJDLinHCElectrical pacing accelerates intestinal transit slowed by fat-induced ileal brakeDig Dis Sci2003482512561:CAS:528:DC%2BD3sXos1Ckt7g%3D10.1023/A:1021911023155 LayzellTCollinJRetrograde electrical pacing of the small intestine—A new treatment for the short bowel syndrome?Br J Surg1981687117131:STN:280:DyaL38%2FisVOgtg%3D%3D10.1002/bjs.1800681012 GlennRDCarolASAStephenGMDevelopment of a lavage solution associated with minimal water and electrolyte absorption or secretionGastroenterology198078991995 LinXMHayesJPetersLJChenJDZEntrainment of intestinal slow waves with electrical stimulation using intraluminal electrodesAnn Biomed Eng2000285825871:STN:280:DC%2BD3M%2FlvFWlsA%3D%3D10.1114/1.294 LW Qian (9533_CR26) 1999; 276 JH Kamer Van de (9533_CR11) 1949; 177 M Ian (9533_CR17) 1999; 69 XM Lin (9533_CR27) 2000; 45 XT Zhao (9533_CR7) 2002; 14 KA Kelly (9533_CR19) 1977; 72 U Tomio (9533_CR14) 1998; 14 V Cigaina (9533_CR4) 2002; 12 BW Miedema (9533_CR22) 1992; 127 9533_CR1 Gastrointestinal surgery for severe obesity (9533_CR3) 1991; 1 SA Shikora (9533_CR5) 2000; 10 T Layzell (9533_CR20) 1981; 68 XM Lin (9533_CR13) 2000; 28 JDZ Chen (9533_CR28) 2003; 124 XT Zhao (9533_CR29) 2003; 124 M Abo (9533_CR24) 2000; 45 Y Sun (9533_CR9) 2004; 12 C Cherbut (9533_CR30) 1997; 222 E Weber (9533_CR18) 1998; 275 9533_CR2 J Hammer (9533_CR16) 1998; 43 B Cranley (9533_CR21) 1983; 198 RM Craig (9533_CR12) 1988; 95 R Craig (9533_CR15) 1999; 29 SB Reister (9533_CR23) 1991; 101 L Shi (9533_CR6) 2005; 100 JY Yin (9533_CR8) 2002; 14 RD Glenn (9533_CR10) 1980; 78 JD Chen (9533_CR25) 2003; 48
References_xml	– reference: SunYChenJDZIntestinal electric stimulation decreases fat absorption in rats: therapeutic potential for obesityObes Res200412123512421:CAS:528:DC%2BD2cXot1Gms7c%3D10.1038/oby.2004.157 – reference: ShikoraSABessierMFisherBLTrigilloCMincureMGreensteinRLaparoscopic insertion of the implantable gastric stimulator (IGSTM): initial surgical experienceObes Surg200010Appendix 3-A10.1381/09608920060674003 – reference: QianLWLinXMChenJDZNormalization of atropine-induced postprandial dysrrhythmias with gastric pacingAm J Physiol1999276G387G3921:CAS:528:DyaK1MXht12nsrY%3D9950812 – reference: ShiLXiaohuaHChenJDZTherapeutic potential of duodenal electrical stimulation for obesity: Acute effects on gastric emptying and water intakeAm J Gastroenterology200510079279610.1111/j.1572-0241.2005.40377.x – reference: LayzellTCollinJRetrograde electrical pacing of the small intestine—A new treatment for the short bowel syndrome?Br J Surg1981687117131:STN:280:DyaL38%2FisVOgtg%3D%3D10.1002/bjs.1800681012 – reference: GlennRDCarolASAStephenGMDevelopment of a lavage solution associated with minimal water and electrolyte absorption or secretionGastroenterology198078991995 – reference: WeberEEhrleinHJReserve capacities of the small intestine for absorption of energyAm J Physiol19982751R300R3071:CAS:528:DyaK1cXkvFaqt74%3D9688992 – reference: CigainaVGastric pacing as therapy for morbid obesity: preliminary resultsObes Surg20021212S16S10.1007/BF03342141 – reference: MiedemaBWKellyKAThe Roux stasis syndrome: Treatment by pacing and prevention by use of an “uncut” Roux limbArch Surg19921272953001:STN:280:DyaK387pvVWqug%3D%3D10.1001/archsurg.1992.01420030057011 – reference: Van de KamerJHHuininkHTBWeijersHARapid method for determination of fat in fecesJ Biol Chem1949177349355 – reference: CraigREhrenpreisED-xylose testingLippincott Williams & Wilkins, INC19992921431501:STN:280:DyaK1MvgsF2rug%3D%3D – reference: LinXMPetersLJHayesJChenJDEntrainment of segmental small intestinal slow waves with electrical stimulation in dogsDig Dis Sci2000456526561:STN:280:DC%2BD3c3itV2kuw%3D%3D10.1023/A:1005466904380 – reference: LinXMHayesJPetersLJChenJDZEntrainment of intestinal slow waves with electrical stimulation using intraluminal electrodesAnn Biomed Eng2000285825871:STN:280:DC%2BD3M%2FlvFWlsA%3D%3D10.1114/1.294 – reference: AboMLiangJQianLWChenJDZDistention-induced myoelectrical dysrrhythmia and effect of intestinal pacing in dogDig Dis Sci2000451291351:STN:280:DC%2BD3c7lvVWksA%3D%3D10.1023/A:1005425814046 – reference: Gastrointestinal surgery for severe obesityNational Institutes of Health Consensus Development Conference Draft StatementObes Surg19911157165 – reference: CranleyBKellyKAGoVLWMcnicholsLAEnhancing the anti-dumping effect of Roux gastrojejunostomy with intestinal pacingAnn Surg19831985165241:STN:280:DyaL2c%2Fit1Oluw%3D%3D10.1097/00000658-198310000-00011 – reference: ZhaoXTWangLJDouglasLBChenJDDelayed liquid gastric emptying induced by electric stimulation of small intestine depends on nitric oxide pathway in conscious dogs[abstract]Gastroenterology2003124suppl 1W1474 – reference: World Health Report 2002. 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Snippet	Background Intestinal pacing (IP) has been previously shown to delay gastric emptying and reduce food intake in animals. The aims of this study were to... Intestinal pacing (IP) has been previously shown to delay gastric emptying and reduce food intake in animals. The aims of this study were to investigate the...
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SubjectTerms	Diarrhea - diagnosis Diarrhea - etiology Dyspepsia - diagnosis Dyspepsia - etiology Electric Stimulation Feces - chemistry Female Gastrointestinal surgery Gastrointestinal Transit Humans Intestinal Absorption Intestine, Small - chemistry Intestine, Small - diagnostic imaging Intestine, Small - physiology Lipids - analysis Malabsorption Syndromes - complications Malabsorption Syndromes - physiopathology Male Medicine Medicine & Public Health Nutrients Obesity Radiography Reference Values Research Article Severity of Illness Index Small intestine Surgery Technetium Weight control Xylose - urine Young Adult
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Title	Effect of Intestinal Pacing on Small Bowel Transit and Nutrient Absorption in Healthy Volunteers
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