Preclinical electrogastrography in experimental pigs

Surface electrogastrography as a non-invasive means of recording myoelectric activity of the stomach or slow waves from skin leads located above the stomach. A feature of the development of the basic methods for obtaining eggs from experimental pigs.

Рубрика Медицина
Вид статья
Язык английский
Дата добавления 29.03.2020
Размер файла 342,8 K

Отправить свою хорошую работу в базу знаний просто. Используйте форму, расположенную ниже

Студенты, аспиранты, молодые ученые, использующие базу знаний в своей учебе и работе, будут вам очень благодарны.

Размещено на http://www.allbest.ru/

Institute of Experimental Biopharmaceutics, Joint Research Centre of Czech Academy of Sciences and PRO.MED.CS Praha as, Hradec Kralove, Czech Republic

Preclinical electrogastrography in experimental pigs

Jaroslav Kvмtina

Surface electrogastrography (EGG) is a non-invasive means of recording gastric myoelectrical activity or slow waves from cutaneous leads placed over the stomach. Neuromuscular activities of the stomach generate electrical phenomena termed “gastric slow waves”. The gastric myoelectrical activity is made up of two types of electrical signals termed slow waves or electrical control activity and superimposed spikes also called electrical response activity. The gastric pacemaker is located at the greater curvature of stomach adjacent to the junction between the fundus and the body (Chen & McCallum, 1994; Parkman et al., 2003; Chang, 2005).

Assessment of motor function of the stomach

Normal gastrointestinal motor function is a complex series of events that requires coordination of the sympathetic and parasympathetic nervous systems, neurons within the stomach and intestine, as well as the smooth muscle cells of the gut. Several tools are available to evaluate motor function and related disorders, like EGG, gastric emptying tests (gastric scintigraphy, breath tests using 13C-octanoic acid, 13C-acetate or spirulina, a plant based protein), gastroduodenal manometry, electronic barostat and planimetry of the gastric antrum by abdominal ultrasonography or magnetic resonance. Simultaneous measurement of intra-luminal pH and pressure by a special capsule is a new method of investigation (Camileri et al., 1998; 2010). The capsule, when swallowed, can simultaneously measure phasic pressure amplitudes and pH as it traverses different segments of the gastrointestinal tract. The characteristic change in pH between the stomach and the small intestine provides an indication of the gastric emptying time for a non-digestible solid >1 cm long (Camilleri, 2010).

Fasted and postprandial recording running spectrum percent activity and changes in the aplitude (power analysis) are the major measures for the evaluation of EGG. According to the American Motility Society (Parkman et al., 2003), normal EGG frequency (2.0-4.0 cycles per minute) should comprise ?70% of recording time in humans. The possible relationship between EGG and gastric emptying also remains controversial (Mintchev et al., 1993; Bortolotti, 1998; Sanmiguel et al., 1998; Sha et al., 2009). The major parameters of EGG and gastric emptying measures (e.g. half-life of elimination in 13C-octanoic acid breath test) mutually correlate in healthy humans (Bureљ et al., 2007). There could probably be a difference between healthy status and disease (i.e. diabetes mellitus, systemic sclerosis, functional dyspepsia, eating disorders, gastrectomy etc.) (Chen & McCallum, 1994; Diamanti et al., 2003; Bureљ et al., 2007; 2008; Camileri et al., 2010).

In humans, pathological changes at EGG, i.e. alterations in frequency (bradygastria, tachygastria, or mixed, dysrhytmias) and reduction in the amplitude of the postprandial electrical signal are seen in patients with idiopathic and diabetic gastroparesis, functional dyspepsia, anorexia nervosa, nausea of pregnancy, vector/ motor sickness, Helicobacter pylori infection, status after gastric surgery. Dysrhythmias have also been described in patients with functional dyspepsia, with or without evidence of gastric stasis (Chen & McCallum, 1994; 2006; Bureљ et al., 1998; 2008; Sanmiguel et al., 1998; Ogawa et al., 2004). In healthy people, dominant frequency varies during the day (maximum frequency at midday and minimum frequency during the night) (Lindberg et al., 1996). Age, sex (including menstrual cycle in women) and body-mass index might influence EGG in humans (Real Martнnez et al., 2001; Tojl et al., 2007). However, even more physiological and/or social events can influence EGG in humans, like meals and volume challenge, ethanol intake, listening to enjoyable music etc. (Levanon et al., 1998; Lin et al., 2007; Kobak & Bor, 2007).

Importance of preclinical studies

In humans, several drugs were tested to inf luence myoelec-trical activity of the stomach, like prokinetics (cisapride, tegaserod, domperidon), muscarinic M3 receptor agonists (cevimeline), hyoscine butylbromide, fentanyl and others (Chiba et al., 2007; Walldйn et al., 2008; Americo et al., 2009). Interestingly, probiotics and prebiotics might influence EGG in humans too. Probiotic Lactobacillus reuteri stimulated gastric emptying and improved maturation of the EGG activity mimicking the effect of breast milk in preterm infants (Indrio et al., 2009).

The precise role of EGG in the clinical evaluation of patients or monitoring of therapeutic response to medications, and how this test adds to the information obtained from a gastric emptying test, remain the subject of ongoing research.

The pig, as a representative of the omnivore, is relatively close to man in a number of metabolic and physiological indicators (Kvмtina et al., 1999; Nobilis et al., 2003; Anzenbacherovб et al., 2003). It is not uncommon that prediction focusing on the transfer of knowledge towards human drug therapy is based on precisely this experimental species (Kvмtina et al., 2009). Regarding body mass index, in the case of use of small adult pigs in a body weight range of 30-40 kg, the proportions of passive (fat) and active (muscle) masses are comparable to an adult man. Conversion of doses of studied xenobiotics and even manner and form of their administration becomes relatively comparable (Kvмtina et al., 2008b). Contrary to clinical observations, experimental design allows for standardisation of the experiment set and identification and definition of the test conditions.

Electrogastrography in experimental pigs

The small adult pig can be used in various preclinical experiments as a representative of the omnivore due to its relatively very similar gastrointestinal functions in comparison to man (Kararli, 1995). However, there are some distinct differences in the anatomy and physiology of the stomach between humans and pigs (Bureљ et al., 2009; Kopбиovб et al., 2010; Kvмtina et al., 2008a). The porcine stomach is pouch-shaped and the gastric cardia is close to the pylorus. A special transverse pyloric fold (torus pyloricus) serves as a “gate-keeper” (Kopбиovб et al., 2010). Gastric emptying of pigs is much slower, put through small separated amounts. There are significant remnants of food in the porcine stomach even after 36-48 hours of fasting (Kopбиovб et al., 2010; Tachecн et al., 2009).

To the best of our knowledge, there are no previous reports on EGG in pigs in the available literature. Our group recently set up and worked out the methods for EGG in experimental pigs (Varayil et al., 2009). All EGG recordings were carried out under general anaesthesia (introduction: intramuscular administration of keta-min and azaperone, repeated doses of thiopental when appropriate).

In our setting, all animals were lying in a right lateral position during the EGG recording. The epigastric area was shaved before application of electrodes to decrease impedance in signal conduction through the skin. Electrode placement always began with placing the first electrode roughly within 5 cm of the xyphoid process in the centre and then subsequently placing the other 2 roughly at a distance of 15 cm from the central electrode in left and right hypochondrium respectively (Figure 1). After connecting the device the recording was started and the animals were closely monitored for any flinging movement. A single EGG recording always lasted 30 minutes. All possible artefacts (especially motion ones) must be removed before the final evaluation. We used a running spectral analysis (based on Fourier transform) for the evaluation of the experimental EGG. Results are expressed as running spectrum percent activity. All low, medium and high frequencies of gastric slow waves were found in particular animals (Figures 2-7). The normal dominant frequency that we found in pigs in this project (3.3 ± 0.5 cycles per minute) is fully comparable with those in adult humans (Varayil et al., 2009). Thus our original assumption was proven - the young adult pig is a suitable model for experimental EGG.

Volume challenge

The water load test is a standardised test to induce gastric distension and to evoke gastric motility responses without the complex hormonal response of a caloric test meal. EGG with water load test has been validated as being reliable and reproducible in humans (Koch et al., 2000; Chen et al., 2006).

In our recent EGG study in experimental pigs, we decided on volume challenge of 360 mL water that is comparable with 500 mL usually used in adult humans. The mean dominant frequency after volume challenge was significantly higher compared with the basic measurement (Varayil et al., 2009). Several studies performed previously in humans have shown that volume overload after drinking water generally affects both dominant frequency (to tachygastria) and dominant power (characterised by an increase in amplitude) which has been attributed to factors such a s 1) ga s t r ic d isten sion 2) ga st ric d i splacement 3) slow wave changes and/or 4) neurohumoral mechanisms (Chen et al., 2006; Friesen et al., 2007; Jones et al., 2003; Lin et al., 2000).

Itopride

Itopride is a dopamine D2 antagonist with acetylcholin-esterase inhibitory activity that has prokinetic effects and probably effects on gastric accommodation and hypersen-sitivity (Longstreth, 2010).

We used itopride as a model prokinetic drug in experimental pigs. EGG recording was carried out immediately after intragastric administration of 100 mg itopride (i.e. ~3 mg/kg; corresponding to the maximum single dose for man). There was no obvious change in dominant frequency during subsequent EGG recording (Varayil et al., 2009). However, it is possible that the dose was not big enough and/or there was not the required time to make it possible for itopride to exert its prokinetic effect. Itopride has linear kinetics. In humans, maximum plasmatic concentration (t-max) of itopride is reached at about 45 minutes after oral administration (half-time of elimination is 6 hours). Gastric emptying and start of intestinal absorption of itopride might be delayed under general anaesthesia (Schurizek, 1991; Umenai et al., 2009). Iwanaga et al. (1996) studied the gastroprokinetic effect of itopride in conscious dogs. At a dose of 3 mg/kg, itopride did not affect gastrointestinal motility. With itopride 10 mg/kg the contractile force of the gastric antrum was increased (doubled) within 5 minutes after intra-duodenal administration of itopride (Iwanaga et al., 1996).

Erythromycin

Macrolides are a group of closely related antibiotics characterised by a 14-, 15- or 16-membered lactone ring. Macrolides have been found to have pharmacodynamic properties beyond their antimicrobial mode of action, like anti-inflammatory, immunomodulatory and gastrointestinal prokinetic effects (Hawkyard & Koerner, 2007). Erythromycin is the most potent prokinetic drug available nowadays. Erythromycin has been shown to initiate gastric interdigestive migrating motor complexes, which are the motor events responsible for gastric emptying of indigestible solids. Erythromycin induces high amplitude gastric propulsive contractions that literally dump solid residue, including non-digestible materials, out of the stomach (Prather et al., 1993; Keshavarzian, 1993; Curry et al., 2001). Erythromycin also stimulates fundic contractility, or at least inhibits the accommodation response of the proximal stomach after food ingestion (Bruley des Va r a n n e s et al., 1995; Fraser & Mittal, 1994; Curry et al., 2001; Camilleri, 2010). Erythromycin seems to have a different mechanism of action in the stomach compared to the duodenum (Mathis & Malbert, 1995).

Erythromycin is used especially in the treatment of diabetic gastroparesis in humans (Camilleri, 2010). A systematic review identified 35 clinical trials involving eryth-romycin for gastroparesis of which five fulfilled inclusion criteria for the review (Maganti, 2003). All studies were small (?13 subjects), of short duration (?4 weeks) and had methodological weaknesses. Nevertheless, improvement was reported in 26 of 60 patients (43%) (Maganti et al., 2003). Van der Voort et al. (2003) investigated functional dyspepsia, irritable bowel syndrome and healthy controls. Disturbed gastric emptying correlated with a lack of postprandial increase in the EGG amplitude. Prokinetic erythromycin improved both gastric emptying and gastric electrical activity (Van der Voort et al., 2003).

In our latest project, we used EGG to test the effect of erythromycin on gastric myoelectrical activity in experimental pigs. Intragastric administration of a therapeutic dose of erythromycin (1600 mg) substantially increased the gastric myoelectrical activity. There was a significant prokinetic effect of erythromycin (compared to baseline recording): a statistically significant increase in dominant frequency at recordings starting 90 minutes with maximum 330 minutes after erythromycin administration. In a human study in healthy volunteers, low dose i.v. eryth-romycin also achieved an increase in percent tachygastria (DiBaise et al., 2001). electrogastrography stomach skin pig

Tasks and perspectives for future

Further improvements in methods of EGG in experimental pigs are needed. Optimal placement of leads must be searched for before each recording (different for drug testing and volume challenge). Power analysis must become an inherent part of each evaluation. It will be also useful to verify and validate if the ratio of antral motor index is benef icia l i n exper iment a l pig s . T h i s i ndex i s c a lc u late d a s the number of waves the sum of amplitudes (Faure et al., 2000). And last but not least, standard protocol of EGG in experimental pigs must be completed.

Not only several drugs, but also different probiotic bacteria are to be tested by means of EGG in the near future. Experimental EGG is an optimal non-invasive method to investigate the motor effect of particular drugs.

Conclusions

EGG in experimental pigs is feasible. The mean dominant frequency in pigs is comparable with that found in humans. Experimental EGG is an important basis for further preclinical projects in pharmacology and toxicology.

Acknowledgement

The study was supported by research grant GAИR 305/08/0535, Czech Republic and by research project MZO 00179906 from the Ministry of Health of the Czech Republic.

Conflicts of interests: The authors disclose no conflicts.

References

1. Amйrico MF, Miranda JR, Corб LA, Romeiro FG. (2009). Electrical and mechanical ef ects of hyoscine butylbromide on the human stomach: a non-invasive approach. Physiol Meas 30(4): 363-370.

2. Anzenbacherovб E, Anzenbacher P, Svoboda Z, Ulrichovб J, Kvмtina J, Zou-lovб J, Perlнk F, Martнnkovб J. (2003). Minipig as a model for drug metabolism in man: comparison of in vitro and in vivo metabolism of propafenone. Biomed Papers 147 : 15 5 -15 9 .

3. Bortolotti M. (1998). Electrogastrography: a seductive promise, only partially kept. Am J Gastroenterol 93: 1791-1794.

4. Bruley des Varannes S, Parys V, Ropert A, Chayvialle JA, Rozй C, Galmiche JP. (1995). Erythromycin enhances fasting and postprandial proximal gastric tone in humans. Gastroenterology 109(1): 32-39.

5. Bureљ J, Kabelбc K, Kopбcovб M, Vorнsek V, Sirokэ M, Palicka V, Rejchrt S. (2008). Electrogastrography in patients with Roux-en-Y reconstruction after previous Billroth gastrectomy. Hepatogastroenterology 55(85): 1492-1496.

6. Bureљ J, Kopбcovб M, Kvetina J, Osterreicher J, Sinkorovб Z, Svoboda Z, Ta-checн I, Filip S, Spelda S, Kunes M, Rejchrt S. (2009). Dif erent solutions used for submucosal injection inf uenced early healing of gastric endoscopic mucosal resection in a preclinical study in experimental pigs. Surg Endosc 23(9): 2094-2101.

7. Bureљ J, Kopбиovб M, Voшнљek V, Bukaи J, Neumann D, Ћivnэ P, Paliиka V, Re-jchrt S. (2007). Correlation of electrogastrography and gastric emptying rate estimated by 13 C-octanoic acid breath test in healthy volunteers. Folia Gastroenterol Hepatol 5(1): 5-11.

8. Bureљ J, Rejchrt S, Љirokэ M, Kopбиovб M, Ћivnэ P, Paliиka V. (1998). Electrogas-trography in anorexia nervosa. Digestion 59(Suppl 3): 247.

9. Camilleri M, Hasler WL, Parkman HP, Quigley EM, Sof er E. (1998). Measurement of gastrointestinal motility in the GI laboratory. Gastroenterology 115 : 747-762.

10. Chang FY. (2005). Electrogastrography: basic knowledge, recording, processing and its clinical applications. J Gastroenterol Hepatol 20(4): 502-516.

11. Chen C-L, Hu C-T, Lin H-H, Yi C-H. (2006). Clinical utility of electrogastrogra-phy and the water load test in patients with upper gastrointestinal symptoms. J Smooth Muscle Res 42(5): 149-157

12. Chen JZ, McCallum RW (eds). (1994). Electrogastrography. Principles and Applications. NewYork: Raven Press.

13. Chiba T, Kudara N, Sato M, Inomata M, Orii S, Suzuki K. (2007). Ef ect of mus-carinic M3 receptor agonist on gastric motility. J Gastroenterol Hepatol 22(11): 2039 -20 41.

14. Curry JI, Lander TD, Stringer MD. (2001). Review article: erythromycin as a prokinetic agent in infants and children. Aliment Pharmacol Ther 15(5): 595-603.

15. Diamanti A, Bracci F, Gambarara M, Ciofetta GC, Sabbi T, Ponticelli A, Mon-tecchi F, Marinucci S, Bianco G, Castro M. (2003). Gastric electric activity assessed by electrogastrography and gastric emptying scintigraphy in adolescents with eating disorders. J Pediatr Gastroenterol Nutr 37(1): 35 - 41.

16. DiBaise JK, Park FL, Lyden E, Brand RE, Brand RM. (2001). Ef ects of low doses of erythromycin on the 13C Spirulina platensis gastric emptying breath test and electrogram: a controlled study in healthy volunteers. Am J Gastro-enterol 96(7): 2041-2050.

17. Faure C, Wolf V P. Navarro J. (2000). Ef ect of meals and intravenous erythro-mycin on manometric and electrogastrographic measurements of gastric motor and electrical activity. Dig Dis Sci 45(3): 525-528.

18. Fraser RJ, Mittal RK. (1994). Erythromycin: the mechanism of its prokinetic action in the treatment of gastroparesis. Gastroenterology 107(6): 1904-1905

19. Friesen CA, Lin Z, Schurman JV, Andre L, Mc Callum RW. (2007). Autonomic nervous system response to a solid meal and water loading in healthy children: its relation to gastric myoelectrical activity. Neurogastroenterol Motil 19: 376-382.

20. Hawkyard CV, Koerner RJ. (2007). The use of erythromycin as a gastrointestinal prokinetic agent in adult critical care: benef ts versus risks. J Antimicrob Chemother 59: 347-358.

21. Indrio F, Riezzo G, Raimondi F, Bisceglia M, Cavallo L, Francavilla R. (2009). Effects of probiotic and prebiotic on gastrointestinal motility in newborns. J Physiol Pharmacol 60(Suppl 6): 27-31.

22. Iwanaga Y, Miyashita N, Saito T, Morikawa K, Itoh Z. (1996). Gastroprokinetic ef ect of a new benzamide derivate itopride and its action mechanism in conscious dogs. Jpn J Pharmacol 71: 129-137.

23. Jones MP, Hof man S, Shah D, Patel K, Ebert CC. (2003). The water load test: observations from healthy controls and patients with functional dyspepsia. Am J Physiol Gastrointest Liver Physiol 284: G896-G904.

24. Kararli TT. (1995). Comparison of the gastrointestinal anatomy, physiology and biochemistry of humans and commonly used laboratory animals. Bio-pharm Drug Dispos 16: 351-380.

25. Keshavarzian A, Isaac RM. (1993). Erythromycin accelerates gastric emptying of indigestible solids and transpyloric migration of the tip of an enteral feeding tube in fasting and fed states. Am J Gastroenterol 88: 193 -197.

26. Kobak AC, Bor S. (2007). The acute ef ect of oral ethanol intake on gastric myo-electrical activity in healthy volunteers. Turk J Gastroenterol 18(4): 221-224.

27. Koch KL, Hong SP, Xu L. (2000). Reproducibility of gastric myoelectrical activity and the water load test in patients with dysmotility-like dyspepsia symptoms and in control subjects. J Clin Gastroenterol 31( 2 ) : 12 5 -12 9 .

28. Kopбиovб M, Tachecн I, Kvмtina J, Bures J, Kunes M, Spelda S, Tycovб V, Svo-boda Z, Rejchrt S. (2010). Wireless video capsule enteroscopy in preclinical studies: Methodical design of its applicability in experimental pigs. Dig Dis Sci 55(3): 626-630.

29. Kvмtina J, Bureљ J, Svoboda Z, Kuneљ M, Kopбиovб M, Nobilis M, Љpelda S. (2008). Experimental pig: the relationship between intestinal desintegra-tion of tablets drug formulations scanned with microcamera and bioavail-ability of active component in system circulation. Physiol Res 57: 3P.

30. Kvмtina J, Kunes M, Bures J, Kopacova M, Tachecн I, Spelda S, Herout V, Rejchrt S. (2008). The use of wireless capsule enteroscopy in a preclinical study: a novel diagnostic tool for indomethacin-induced gastrointestinal injury in experimental pigs. Neuroendocrinol Lett 29(5): 763-769.

31. Kvмtina J, Kuneљ M, Herout V, Novotnэ L, Bureљ J, Kopбиovб M, Tachecн I. (2009). The dynamics of gastrointestinal lesions induced by indomethacin: the interspecies comparison (laboratory rat, experimental pig). Tox i colo g y Letters 164: 189S.

32. Kvмtina J, Svoboda Z, Nobilis M, Pastera J, Anzenbacher P. (1999). Experimental Goettingen minipig and beagle dog as two species used in bioequiva-lence studies for clinical pharmacology (5-aminosalicylic acid and atenolol as model drugs). Gen Physiol Biophys 18: 80-85.

33. Levanon D, Zhang M, Orr WC, Chen JDZ. (1998). Ef ects of meal volume and composition on gastric myoelectrical activity. Am J Physiol 274: G430-G434.

34. Lin HH, Chang WK, Chu HC, Huang TY, Chao YC, Hsieh TY. (2007). Ef ect of music on gastric myoelectrical activity in healthy humans. Int J Clin Pract 61(7): 1126-1130.

35. Lin Z, Chen JD, Schirmer BD, McCallum RW. (2000). Postprandial response of gastric slow waves: correlation of serosal recordings with electrogastro-gram. Dig Dis Sci 45: 645-651.

36. Lindberg G, Iwarzon M, Hammarlund B. (1996). 24-hour ambulatory electro-gastrography in healthy volunteers. Scand J Gastroenterol 31(7): 658-664.

37. Maganti K, Onyemere K, Jones MP. (2003). Oral er ythromycin and symptomatic relief of gastroparesis: a systematic review. Am J Gastroenterol 98: 259-263.

38. Mathis C, Malbert CH. (1995). Gastric but not duodenal motor ef ects of oral erythromycin are dose related. Neurogastroenterol 7(1): 47-54.

39. Mintchev M P, Kingma YJ, Bowes KL. (1993). Accuracy of cutaneous recording of gastric electrical activity. Gastroenterology 104: 1273-1280.

40. Nobilis M, Kopeckэ J, Kvмtina J, Svoboda Z, Pour M, Kuneљ J, Holиapek M, Kolбшovб L. (2003). Comparative biotransformation and disposition studies of nabumetone in human and minipigs using high performormance liquid chromatography with ultraviolet and mass-spectrometric detection. J Pharm Biomed Anal 32: 641-656.

41. Ogawa A, Mizuta I, Fukunaga T, Takeuchi N, Honaga E, Sugita Y, Mikami A, In-oue Y, Takeda M. (2004). Electrogastrography abnormality in eating disorders. Psychiatry Clin Neurosci 58(3): 300-310.

42. Parkman HP, Hasler WL, Barnett JL, Eaker EY, American Motility Society Clinical GI Motility Testing Task Force. (2003). Electrogastrography: a document prepared by the gastric section of the American Motility Society Clinical GI Motility Testing Task Force. Neurogastroenterol Motil 15: 89-102.

43. Prather CM, Camilleri M, Thomforde GM, Forstrom LA, Zinsmeister AR. (1993). Gastric axial forces in experimentally-delayed and accelerated gastric emptying. Am J Physiol 264: G928-G934.

44. Real Martнnez Y, Ruiz de Leуn San Juan A, Dнaz-Rubio M. (2001). Normal values and inf uence of anthropometric and demographic factors on ambulatory cutaneous electrogastrography in healthy volunteers. Rev Esp Enferm Dig 93: 29-38.

45. Sanmiguel CP, Mintchev M P, Bowes KL. (1998). Electrogastrography: a nonin-vasive technique to evaluate gastric electrical activity. Can J Gastroenterol 12: 423-430.

46. Schurizek BA. (1991). The ef ect of general anaesthesia on antroduodenal motility, gastric pH and gastric emptying in man. Dan Med Bull 38(4): 347- 365.

47. Sha W, Pasricha PJ, Chen JD. (2009). Correlations among electrogastrogram, gastric dysmotility, and duodenal dysmotility in patients with functional dyspepsia. J Clin Gastroenterol 43(8): 716-722.

48. Tachecн I, Kvмtina J, Bureљ J, Osterreicher J, Kuneљ M, Pejchal J, Rejchrt S, Spelda S, Kopбиovб M. (2009). Wireless capsule endoscopy in enteropathy induced by nonsteroidal anti-inf ammatory drugs in pigs. Dig Dis Sci Dec. 16. PMID: 20013311 [Epub ahead of print].

49. Tolj N, Luetic K, Schwarz D, Biliж A, Jurciж D, Gabriж M. (2007). The impact of age, sex, body mass index and menstrual cycle phase on gastric myoelec-trical activity characteristics in a healthy Croatian population. Coll Antropol 31: 955-962.

50. Umenai T, Arai N, Chihara E. (2009). Ef ect of the preliminary hydration on gastric emptying time for water in healthy volunteers. Acta Anaesthesiol Scand 53(2): 223-226.

51. van der Voort IR, Osmanoglou E, Seybold M, Heymann-Monnikes I, Tebbe J, Wiedenmann B, Klapp BF, Monnikes H 2003. Electrogastrography as a diagnostic tool for delayed gastric emptying in functional dyspepsia and irritable bowel syndrome. Neurogastroenterol Motil 15: 467-473.

52. Walldйn J, Lindberg G, Sandin M, Thцrn SE, Wattwil M. (2008). Ef ects of fen-tanyl on gastric myoelectrical activity: a possible association with poly-morf sms of the mu-opioid receptor gene? Acta Anaesthesiol Scand 52(5): 708-715.

Abstract

Surface electrogastrography (EGG) is a non-invasive means of recording gastric myoelectric activity or slow waves from cutaneous leads placed over the stomach. This paper provides a comprehensive review of preclinical EGG. Our group recently set up and worked out the methods for EGG in experimental pigs. We gained our initial experience in the use of EGG in assessment of porcine gastric myoelectric activity after volume challenge and after intragastric administration of itopride and erythromycin. The mean dominant frequency in pigs is comparable with that found in humans. EGG in experimental pigs is feasible. Experimental EGG is an important basis for further preclinical projects in pharmacology and toxicology

KEY WORDS: electrogastrography; preclinical studies; experimental pig This paper is dedicated to the memory of Prof. Helena Raskova, MD., DSc.

Размещено на Allbest.ru

...

Подобные документы

  • Learning about peptic ulcers, a hole in the gut lining of the stomach, duodenum or esophagus. Symptoms of a peptic ulcer. Modified classification of gastroduodenal ulcers. Macroscopic and microscopic appearance. Differential diagnosis and treatment.

    презентация [1,2 M], добавлен 22.04.2014

  • The development of modern medicine. The creation of internal organs, implants. The use of modern orthopaedics mechanical devices. The replacement of lost parts of the human body by means of surgical operations. Bridge denture. The use of prostheses.

    презентация [5,0 M], добавлен 31.05.2016

  • Gastroesophageal reflux disease. Factors contributing to its the development. Esophageal symptoms of GERD. Aim of treatment. Change the life style. A basic medical treatment for GERD includes the use of prokinetic drugs with antisecretory agents.

    презентация [390,7 K], добавлен 27.03.2016

  • The major pathogens and symptoms of cholera - an acute intestinal anthroponotic infection caused by bacteria of the species Vibrio cholerae. Methods of diagnosis and clinical features of disease. Traditional methods of treatment and prevention of disease.

    презентация [1,0 M], добавлен 22.09.2014

  • The structure of the human lung: diaphragmatic, rib, interlobar and medial surface; front, rear and bottom edges; tip and base. Gaseous exchange in the alveoli and bronhyoly. Lung volumes and capacities. Peak flow and causes of narrowing of the airways.

    презентация [441,9 K], добавлен 21.05.2014

  • Different classification schemes for dementias. His reasons. Risk Factors for Dementia. Dementia is diagnosed by using many methods such as patient's medical and family history, physical exam, neurological evaluations, cognitive and neuropsychological.

    презентация [775,8 K], добавлен 10.06.2013

  • Anatomy of the liver. Botkin’s disease is a viral disease that destroys the liver and bile ducts. Causes and treatment of the disease. Vaccinations and personal hygiene are the main means of prevention. Signs and symptoms of the Botkin’s disease.

    презентация [3,5 M], добавлен 22.04.2013

  • Tachycardia is a heart rate that exceeds the normal range. Symptoms and treatment methods of tachycardia. An electrocardiogram (ECG) is used to classify the type of tachycardia. It's important to get a prompt, accurate diagnosis and appropriate care.

    презентация [596,2 K], добавлен 20.11.2014

  • The characteristic features of the two forms of eating disorders: anorexia nervosa and bulimia. Description body dysmorphic disorder syndrome as a teenager painful experiences of his "physical disability." Methods of treatment and prevention of disease.

    курсовая работа [17,9 K], добавлен 31.03.2013

  • Areas with significant numbers of malaria cases: Africa, the Middle East, India, Southeast Asia, South America, Central America and parts of the Caribbean. Etiology, symptoms and diagnosis of the disease, methods of treatment and antimalarial immunity.

    презентация [286,9 K], добавлен 02.10.2012

  • Methods of making Herbal Oils. Pain Herbs For Natural Relief. Salicin, Olive, Almond Oil, Lavender oil, Castor Oil, Jojoba oil, Safflower oil, Grapeseed oil, Hemp seed oil. Healing herbal oils. Herbal teas, tinctures, extracts and topical pain relievers.

    презентация [800,0 K], добавлен 06.03.2013

  • Structure of a clinical term. The suffixes and prefixes. The final combining forms partaining to diagnostic methods, therapy, pathology, surgical interventions. Pharmaceutical term structure. The forms of medicines. Chemical, botanical terminology.

    методичка [458,1 K], добавлен 29.03.2012

  • Coma - a life-threatening condition characterized by loss of consciousness, the lack of response to stimuli. Its classification, mechanism of development and symptoms. Types of supratentorial and subtentorial brain displacement. Diagnosis of the disease.

    презентация [1,4 M], добавлен 24.03.2015

  • A brief sketch of the life and professional development of Botkin as the Russian scientist, a gifted doctor. Botkin's value in world medicine, assessment of its scientific achievements. Analysis and themes of famous doctor, the direction of its research.

    презентация [1,7 M], добавлен 10.12.2014

  • Introduction to the functionality of the most important internal organs. The main causes of supraventricular and ventricular tachycardia. Features of the structure and basic functions of the human heart. The study of the three phases of the heart.

    презентация [3,8 M], добавлен 12.05.2013

  • Body Water Compartments. The main general physico-chemical laws. Disorders of water and electrolyte balance. Methods bodies of water in the body, and clinical manifestations. Planning and implementation of treatment fluid and electrolyte disorders.

    презентация [1,1 M], добавлен 11.09.2014

  • The concept and the main causes of atherosclerosis, primary symptom. The mechanisms of atherosclerosis, main causes The symptoms and consequences, prevention. Atherosclerosis treatments. Basic approaches to diagnosis and treatment of this disease.

    презентация [813,1 K], добавлен 21.11.2013

  • Churg-Strauss syndrome, microscopic polyangiitis as one of the basic types of the small vessel vasculitis. Specific features of differential diagnosis of pulmonary-renal syndrome. Characteristics of the anti-neutrophil cytoplasmic autoantibodies.

    презентация [8,2 M], добавлен 18.10.2017

  • Teratology is the science of the etiology, pathogenesis, clinical and morphological characteristics, prevention and treatment of congenital malformations. History and the stages of its formation and development. Etiology of congenital malformations.

    презентация [873,8 K], добавлен 23.09.2014

  • The main features of uterine fibroids. The development of a tumor from the "embryonic growth site" and a microscopic nodule without signs of cellular differentiation to a macroscopic nodule. Study of surgical and conservative treatment of leiomyoma.

    презентация [1,4 M], добавлен 31.10.2021

Работы в архивах красиво оформлены согласно требованиям ВУЗов и содержат рисунки, диаграммы, формулы и т.д.
PPT, PPTX и PDF-файлы представлены только в архивах.
Рекомендуем скачать работу.