Efeitos da suplementação de creatina sobre a função renal de praticantes de treinamento de força: um estudo randomizado, duplo-cego, controlado por placebo / Effects of creatine supplementation on renal function of practitioners of strength training: a randomized, double-blind, placebo controlled study

Santos Netto, Rebeca Lugaresi Anadon Refusta dos

08 August 2013

Os efeitos da suplementação de creatina sobre a função renal são debatidos intensamente na literatura científica. Os poucos trabalhos sobre o tema envolvendo humanos têm sido severamente criticados por apresentarem ausência de randomização, dosagens não uniformes de creatina, baixo poder estatístico e, sobretudo, ausência de marcadores padrão-ouro de função renal. Além disso, embora tenhamos mostrado recentemente que a suplementação de creatina não prejudica a função renal em sujeitos submetidos a treinamento aeróbio, a natureza desse tipo de atividade, bem como o habitual consumo de proteína dessa amostra, não permite que generalizemos nossos achados à população que mais utiliza creatina: praticantes de treinamento de força sob dietas ricas em proteína. Desta forma, foi conduzido um ensaio randomizado, duplo-cego, controlado por placebo, com o objetivo de investigar os efeitos da suplementação de creatina e sua possível interação com o alto consumo de proteínas sobre a função renal, em praticantes de treinamento de força. Os sujeitos foram divididos aleatoriamente em 2 grupos: a) suplementação de creatina (20g/dia durante cinco dias e 5g/dia até o término do estudo) e b) placebo (dextrose). No período basal e após 12 e 24 semanas, os sujeitos tiveram acompanhamento do consumo alimentar, e foram analisados o clearance de 51Cr-EDTA, creatinina sérica, sódio e potássio séricos e urinários e microalbuminúria. Não foram encontradas diferenças significativas nas variáveis analisadas após 12 e 24 semanas. Demonstrando assim, a ausência de alteração da função renal decorrente da suplementação de creatina, em praticantes de treinamento de força recreacionais com consumo proteico >=1,2g/kg peso/dia / The effects of creatine supplementation on renal function are discussed extensively in the literature. Few studies on the topic involving humans have been severely criticized because of the absence of randomization, non-uniform doses of creatine, low statistical power and, above all, the absence of a gold standard markers of renal function. Furthermore, although we have recently shown that creatine supplementation does not impair renal function in subjects undergoing aerobic training, the nature of this type of activity, as well as the usual protein intake in this sample does not allow generalization of our findings to the population who consume creatine: practitioners of strength training with a high protein intake. Thus, we conducted a randomized, double-blind, placebo-controlled study, in order to investigate the effects of creatine supplementation and its possible interaction with high protein intake on renal function in practicioners of strength training. The subjects were randomly assigned to 2 groups: a) creatine supplementation (20g/day during five days and 5g/day until the end of the study) and b) placebo (dextrose). At baseline and after 12 and 24 weeks, food intake, 51Cr-EDTA clearance, serum creatinine, sodium and potassium serum and urinary microalbuminuria was assessed. No significant differences were observed throughout the trial. Demonstrating that creatine supplementation on practitioners of strength training with high protein intake does not harm renal function

51Cr-EDTA clearance

Clearance de 51Cr-EDTA

Efeitos adversos

Glomerular filtration rate

Ritmo de filtração glomerular

Side eff

Efeitos da suplementação de creatina sobre a função renal de praticantes de treinamento de força: um estudo randomizado, duplo-cego, controlado por placebo / Effects of creatine supplementation on renal function of practitioners of strength training: a randomized, double-blind, placebo controlled study

Rebeca Lugaresi Anadon Refusta dos Santos Netto

08 August 2013

Os efeitos da suplementação de creatina sobre a função renal são debatidos intensamente na literatura científica. Os poucos trabalhos sobre o tema envolvendo humanos têm sido severamente criticados por apresentarem ausência de randomização, dosagens não uniformes de creatina, baixo poder estatístico e, sobretudo, ausência de marcadores padrão-ouro de função renal. Além disso, embora tenhamos mostrado recentemente que a suplementação de creatina não prejudica a função renal em sujeitos submetidos a treinamento aeróbio, a natureza desse tipo de atividade, bem como o habitual consumo de proteína dessa amostra, não permite que generalizemos nossos achados à população que mais utiliza creatina: praticantes de treinamento de força sob dietas ricas em proteína. Desta forma, foi conduzido um ensaio randomizado, duplo-cego, controlado por placebo, com o objetivo de investigar os efeitos da suplementação de creatina e sua possível interação com o alto consumo de proteínas sobre a função renal, em praticantes de treinamento de força. Os sujeitos foram divididos aleatoriamente em 2 grupos: a) suplementação de creatina (20g/dia durante cinco dias e 5g/dia até o término do estudo) e b) placebo (dextrose). No período basal e após 12 e 24 semanas, os sujeitos tiveram acompanhamento do consumo alimentar, e foram analisados o clearance de 51Cr-EDTA, creatinina sérica, sódio e potássio séricos e urinários e microalbuminúria. Não foram encontradas diferenças significativas nas variáveis analisadas após 12 e 24 semanas. Demonstrando assim, a ausência de alteração da função renal decorrente da suplementação de creatina, em praticantes de treinamento de força recreacionais com consumo proteico >=1,2g/kg peso/dia / The effects of creatine supplementation on renal function are discussed extensively in the literature. Few studies on the topic involving humans have been severely criticized because of the absence of randomization, non-uniform doses of creatine, low statistical power and, above all, the absence of a gold standard markers of renal function. Furthermore, although we have recently shown that creatine supplementation does not impair renal function in subjects undergoing aerobic training, the nature of this type of activity, as well as the usual protein intake in this sample does not allow generalization of our findings to the population who consume creatine: practitioners of strength training with a high protein intake. Thus, we conducted a randomized, double-blind, placebo-controlled study, in order to investigate the effects of creatine supplementation and its possible interaction with high protein intake on renal function in practicioners of strength training. The subjects were randomly assigned to 2 groups: a) creatine supplementation (20g/day during five days and 5g/day until the end of the study) and b) placebo (dextrose). At baseline and after 12 and 24 weeks, food intake, 51Cr-EDTA clearance, serum creatinine, sodium and potassium serum and urinary microalbuminuria was assessed. No significant differences were observed throughout the trial. Demonstrating that creatine supplementation on practitioners of strength training with high protein intake does not harm renal function

Clearance de 51Cr-EDTA

Efeitos adversos

Ritmo de filtração glomerular

51Cr-EDTA clearance

Glomerular filtration rate

Side eff

Regulation of Duodenal Mucosal Barrier Function and Motility : The Impact of Melatonin

Sommansson, Anna

January 2013

The duodenal mucosa is regularly exposed to acid, digestive enzymes and ingested noxious agents. It is thus critical to maintain a protective barrier to prevent the development of mucosal injury and inflammation, which are often observed in situations when barrier function is impaired. The rate of mucosal bicarbonate secretion, the regulation of epithelial paracellular permeability and motility are each key components of duodenal barrier function. The hormone melatonin is present in high levels in the gastrointestinal tract and it has been hypothesized that melatonin exerts protective properties. This thesis aims to investigate the impact of exogenous melatonin on the regulation of duodenal barrier function and motility in anesthetized rats in vivo. In addition, duodenal tissue was examined histologically and the expression levels of tight junction proteins and melatonin receptors were assessed with qRT-PCR. It was found that melatonin stimulated mucosal bicarbonate secretion and decreased basal paracellular permeability. Exposing the duodenal mucosa to the well-characterized barrier breaker ethanol increased mucosal bicarbonate secretion, paracellular permeability and motility. Omission of luminal Clˉ abolished, while pretreatment with a nicotinic receptor antagonist reduced, the ethanol-induced bicarbonate secretion suggesting that the secretory response to ethanol is meditated via Clˉ/HCO3ˉexchangers and enteric neural pathways. Melatonin reduced the ethanol-induced increases in paracellular permeability and motility either when injected intravenously or when administered in drinking water for two weeks. The actions of melatonin were abolished by the melatonin receptor antagonist luzindole and by nicotinic acetylcholine receptor inhibition. Two weeks oral administration of melatonin up-regulated the expression levels of melatonin receptors, down-regulated the expression of ZO-3 while the expression of ZO-1, ZO-2, claudin 2-4, occludin and myosin light chain kinase were unaffected. Superficial epithelial changes in a few villi were seen in response to ethanol exposure, an effect that was histologically unchanged by melatonin pretreatment. In conclusion, the results suggest that melatonin plays an important role in the neurohumoral regulation of gastrointestinal mucosal barrier function and motility via receptor- and enteric neural-dependent pathways in vivo in rats. Melatonin might be a candidate for treatment of barrier dysfunction in humans.

51Cr-EDTA

bicarbonate secretion

duodenum

enteric nervous system

enterochromaffin cell

ethanol

hexamethonium

in vivo

mecamylamine

motility

mucosal permeability

parecoxib

rat

Role of Melatonin, Neuropeptide S and Short Chain Fatty Acids in Regulation of Duodenal Mucosal Barrier Function and Motility

Wan Saudi, Wan Salman

January 2015

The duodenal epithelium is regularly exposed to HCl, digestive enzymes, bacteria and toxins, and sometimes also to ethanol and drugs. The imbalance of aggressive factors in the intestinal lumen and mucosal barrier function increases the risk of tissue injury and inflammation. The key components of the duodenal barrier function include mucosal permeability, bicarbonate transport and the secretion or absorption of fluids. This thesis aims to elucidate the role of melatonin, neuropeptide S (NPS) and short chain fatty acids (SCFAs) in the regulation of intestinal mucosal barrier function and motility in the anesthetized rat in vivo and in tissues of human origin in vitro. Melatonin was found to reduce ethanol-induced increases in paracellular permeability and motility by a neural pathway within the enteric nervous system involving nicotinic receptors. In response to luminal exposure of ethanol, signs of mild mucosal edema and beginning of desquamation were observed in a few villi only, an effect that was not influenced by melatonin. Melatonin did not modify increases in paracellular permeability in response to luminal acid. NPS decreased basal and ethanol-induced increases in duodenal motility as well as bethanechol stimulated colonic motility in a dose-dependent manner. Furthermore, NPS was shown to inhibit basal duodenal bicarbonate secretion, stimulate mucosal fluid absorption and increase mucosal paracellular permeability. In response to luminal exposure of acid, NPS increased bicarbonate secretion and mucosal paracellular permeability. All effects induced by the administration of NPS were dependent on nitrergic pathways. In rats, administration of NPS increased the tissue protein levels of the inflammatory biomarkers IL-1β and CXCL1. Immunohistochemistry showed that NPS was localized at myenteric nerve cell bodies and fibers, while NPSR1 and nNOS were only confined to the myenteric nerve cell bodies. Perfusing the duodenal segment with the SCFAs acetate or propionate reduced the duodenal mucosal paracellular permeability, decreased transepithelial net fluid secretion and increased bicarbonate secretion. An i.v. infusion of SCFAs reduces mucosal paracellular permeability without any effects on mucosal net fluid flux. However, it significantly decreased bicarbonate secretion. Luminal SCFAs changed the duodenal motility pattern from fasting to feeding motility while i.v. SCFAs was without effect on motility. The systemic administration of glucagon-like peptide-2 (GLP-2) induced increases in mucosal bicarbonate secretion and fluid absorption. An i.v. GLP-2 infusion during a luminal perfusion of SCFAs significantly reduced the duodenal motility. In conclusion, the results in the present thesis show that melatonin, NPS and SCFAs influence the neurohumoral regulation of intestinal mucosal barrier function and motility. Aberrant signaling in response to melatonin, NPS and to luminal fatty acids might be involved in the symptom or the onset of disease related to intestinal dysfunction in humans. / <p>Research funders and strategic development areas:</p><p>- Bengt Ihre Foundation (grant SLS-177521)</p><p>- Socialstyrelsen(grant SLS-176671)</p><p>- Erik, Karin, and Gösta Selanders Foundation</p><p>- Emil and Ragna Börjesson Foundation</p><p>- Uppsala University </p><p>- Ministry of Education of Malaysia</p><p>- Universiti Malaysia Sabah, Malaysia</p>

51Cr-EDTA

rat

in vivo

duodenum

enteric nervous system

paralytic ileus

parecoxib

bicarbonate secretion

motility

ethanol

HCl

melatonin

neuropeptide S

short chain fatty acids

chemosensing

Barrier function of the Follicle-Associated Epithelium in Stress and Crohn's disease

Keita, Åsa

January 2007

Crohns sjukdom är en kronisk inflammatorisk tarmsjukdom av okänd orsak. Det tidigaste tecknet på Crohns sjukdom är mikroskopiska sår i det s.k. follikelassocierade epitelet (FAE) som täcker ansamlingar av immunceller i tarmen. FAE är specialiserat för att fånga innehåll från tarmen och transportera det till underliggande immunvävnad. Denna funktion är viktig för att inducera skyddande immunsvar, men den utgör också en ingångsväg för sjukdomsalstrande bakterier. Crohns sjukdom är associerat med ett kraftigt ökat immunsvar mot bakterier, och sjukdomsförloppet kan ändras av stress. Det övergripande syftet med avhandlingen var att studera effekterna av stress på FAE samt att undersöka rollen av FAE vid utvecklingen av tarminflammation, särskilt vid Crohns sjukdom. Inledningsvis studerades effekterna av psykologisk stress på FAE. Stressade råttor uppvisade ökad genomsläpplighet av bakterier efter stress, och passagen var högre i FAE än i vanligt epitel. Efterföljande experiment visade att stressförändringarna i slemhinnan regleras via kortikotropinfrisättande hormon och mastceller. Vidare visade det sig att vasoaktiv intestinal peptid kunde efterlikna stressens effekter på genomsläppligheten, och att detta kunde förhindras genom att blockera mastcellerna. Studier av tunntarmsslemhinna från patienter med icke-inflammatorisk tarmsjukdom och friska kontroller visade en högre passage av bakterier i FAE än i vanligt epitel. Hos patienter med Crohns sjukdom var bakteriepassagen genom FAE betydligt ökad jämfört med kontroller. Resultaten från detta avhandlingsarbete visar att stress kan förändra upptaget av bakterier från tarmen via FAE, med mekanismer som innefattar kortikotropinfrisättande hormon och mastceller. Detta har gett nya kunskaper kring regleringen av slemhinnebarriären. Vidare presenterar denna avhandling nya insikter i sjukdomsuppkomsten vid Crohns sjukdom genom att påvisa en tidigare okänd defekt i barriärfunktionen i FAE. / The earliest observable signs of Crohn’s disease are microscopic erosions in the follicle-associated epithelium (FAE) covering the Peyer’s patches. The FAE, which contains M cells, is specialised in sampling of luminal content and delivery to underlying immune cells. This sampling is crucial for induction of protective immune responses, but it also provides a route of entry for microorganisms into the mucosa. Crohn’s disease is associated with an increased immune response to bacteria, and the disease course can be altered by stress. The overall aim of this thesis was to study the effects of stress on the FAE and elucidate the role of FAE in the development of intestinal inflammation, specifically Crohn’s disease. Initially, rats were submitted to acute and chronic water avoidance stress to study the effects of psychological stress on the FAE. Stressed rats showed enhanced antigen and bacterial passage, and the passage was higher in FAE than in regular villus epithelium (VE). Further, stress gave rise to ultrastructural changes. Subsequent experiments revealed the stress-induced increase in permeability to be regulated by corticotropin-releasing hormone and mast cells. Furthermore, vasoactive intestinal peptide (VIP) mimicked the stress effects on permeability, and the VIP effects were inhibited by a mast cell stabiliser. Human studies of ileal mucosa from patients with non-inflammatory disease and healthy controls showed a higher antigen and bacterial passage in FAE than in VE. In patients with Crohn’s disease, the bacterial passage across the FAE was significantly increased compared to non-inflammatory and inflammatory controls (ulcerative colitis). Furthermore, there was an enhanced uptake of bacteria into dendritic cells, and augmented TNF-α release in Crohn’s disease mucosa. Taken together this thesis shows that stress can modulate the uptake of luminal antigens and bacteria via the FAE, through mechanisms involving CRH and mast cells. It further shows that human ileal FAE is functionally distinct from VE, and that Crohn’s disease patients exhibit enhanced FAE permeability compared to inflammatory and non-inflammatory controls. This thesis presents novel insights into regulation of the FAE barrier, as well as into the pathophysiology of Crohn’s disease by demonstrating a previously unrecognised defect of the FAE barrier function in ileal Crohn’s disease.

Corticotropin-releasing hormone

Crohn’s disease

51Cr- EDTA

Escherichia coli

follicle-associated epithelium

horseradish peroxidase

human

ileum

inflammatory bowel disease

intestinal mucosa

mast cell

M cell

permeability

Peyer’s patches

rat

Ussing chamber

vasoactive intestinal peptide

villus epithelium

Surgery

Kirurgi

Prevention of Postoperative Duodenal Ileus by COX-2 Inhibition Improves Duodenal Function in Anaesthetised Rats

Sedin, John

January 2013

Abdominal surgery inhibits gastrointestinal motility, a phenomenon referred to as postoperative ileus. Since the postoperative ileus disturbs duodenal physiology it is important to minimize the side effects of this condition. Recent experiments in our laboratory show that treatment of anaesthetised rats with parecoxib, a selective cyclooxygenase-2 inhibitor, prevents duodenal postoperative ileus, increases duodenal mucosal bicarbonate secretion and improves other functions as well. One aim of the thesis was to investigate whether removal of luminal chloride affect the parecoxib- and the vasoactive intestinal peptide (VIP)-induced stimulation of duodenal mucosal bicarbonate secretion. The proximal duodenum of anaesthetised Dark Agouti rats was perfused with isotonic solutions containing zero or low Cl- and the effect on luminal alkalinisation determined. The basal as well as the parecoxib-induced increase in alkalinisation, but not that stimulated by VIP, were markedly reduced in the absence of luminal Cl-. One important function of the duodenum is to adjust luminal osmolality towards that in the blood. It is believed that the adjustment of osmolality in the duodenum is achieved by osmosis and diffusion of electrolytes along their concentration gradients and that these processes occur predominately paracellularly. Another aim of the thesis was to examine whether prevention of postoperative ileus affects the duodenal response to luminal hypertonicity. The proximal duodenum of anaesthetised Dark Agouti and Sprague-Dawley rats were perfused with hypertonic solutions of different composition and osmolality and the effects on duodenal motility, alkaline secretion, transepithelial fluid flux, mucosal permeability and the adjustment of luminal osmolality were determined in absence and presence of parecoxib. It is concluded that COX-2 inhibition increases duodenal mucosal bicarbonate secretion by stimulating apical Cl-/HCO3- exchange in duodenocytes. Furthermore, pretreatment of anaesthetised rats with parecoxib improves a number of duodenal functions in both rat strains that contribute to improve the ability to adjust luminal osmolality. The choice of rat strain is another important feature to consider when interpreting the results because the DA strain was more responsive to luminal hypertonicity than the SD strain. Finally, several evidences are provided to suggest that the adjustment of luminal osmolality in the rat duodenum is a regulated process.

duodenum

motility

enteric nervous system

luminal alkalinisation

CFTR

VIP

luminal Cl-

fluid secretion

solute absorption

mucosal permeability

51Cr-EDTA

luminal osmolality

luminal hypertonicity

glucose

mannitol

orange juice

parecoxib

hexamethonium

mecamylamine

Physiology

Fysiologi