SEARCH

SEARCH BY CITATION

References

  • Banks BE, Brown C, Burgess GM, Burnstock G, Claret M, Cocks TM & Jenkinson DH (1979). Apamin blocks certain neurotransmitter-induced increases in potassium permeability. Nature 282, 415417.
  • Beckett EA, Horiguchi K, Khoyi M, Sanders KM & Ward SM (2002). Loss of enteric motor neurotransmission in the gastric fundus of Sl/Sl(d) mice. J Physiol 543, 871887.
  • Bortolotti M, (2002). The ‘electrical way’ to cure gastroparesis. Am J Gastroenterol 97, 18741883.
  • Burns AJ, Lomax AE, Torihashi S, Sanders KM & Ward SM (1996). Interstitial cells of Cajal mediate inhibitory neurotransmission in the stomach. Proc Natl Acad Sci U S A 93, 1200812013.
  • Daniel EE, Posey-Daniel V (1984). Neuromuscular structures in opossum esophagus: role of interstitial cells of Cajal. Am J Physiol 246, G305315.
  • Dickens EJ, Edwards FR & Hirst GD (2001). Selective knockout of intramuscular interstitial cells reveals their role in the generation of slow waves in mouse stomach. J Physiol 531, 827833.
  • Dickens EJ, Hirst GD & Tomita T (1999). Identification of rhythmically active cells in guinea-pig stomach. J Physiol 514, 515531.
  • Edwards FR, Hirst GD & Suzuki H (1999). Unitary nature of regenerative potentials recorded from circular smooth muscle of guinea-pig antrum. J Physiol 519, 235250.
  • Epperson A, Hatton WJ, Callaghan B, Doherty P, Walker RL, Sanders KM, Ward SM & Horowitz B (2000). Molecular markers expressed in cultured and freshly isolated interstitial cells of Cajal. Am J Physiol Cell Physiol 279, C529539.
  • Hirst GD, Beckett EA, Sanders KM & Ward SM (2002a). Regional variation in contribution of myenteric and intramuscular interstitial cells of Cajal to generation of slow waves in mouse gastric antrum. J Physiol 540, 10031012.
  • Hirst GD, Bramich NJ, Teramoto N, Suzuki H & Edwards FR (2002b). Regenerative component of slow waves in the guinea-pig gastric antrum involves a delayed increase in [Ca2+]i and Cl channels. J Physiol 540, 907919.
  • Hirst GD, Dickens EJ & Edwards FR (2002c). Pacemaker shift in the gastric antrum of guinea-pigs produced by excitatory vagal stimulation involves intramuscular interstitial cells. J Physiol 541, 917928.
  • Horiguchi K, Semple GS, Sanders KM & Ward SM (2001). Distribution of pacemaker function through the tunica muscularis of the canine gastric antrum. J Physiol 537, 237250.
  • Horowitz B, Ward SM & Sanders KM (1999). Cellular and molecular basis for electrical rhythmicity in gastrointestinal muscles. Annu Rev Physiol 61, 1943.
  • Kelly KA, & La Force RC (1972). Pacing the canine stomach with electric stimulation. Am J Physiol 222, 588594.
  • Kim TW, Beckett EA, Hanna R, Koh SD, Ordog T, Ward SM & Sanders KM (2002). Regulation of pacemaker frequency in the murine gastric antrum. J Physiol 538, 145157.
  • Koh SD, Dick GM & Sanders KM (1997). Small-conductance Ca(2+)-dependent K+ channels activated by ATP in murine colonic smooth muscle. Am J Physiol 273, C20102021.
  • Ladabaum U, & Hasler WL (1999). Novel approaches to the treatment of nausea and vomiting. Dig Dis 17, 125132.
  • Lee HK, & Sanders KM (1993). Comparison of ionic currents from interstitial cells and smooth muscle cells of canine colon. J Physiol 460, 135152.
  • Lin ZY, McCallum RW, Schirmer BD & Chen JD (1998). Effects of pacing parameters on entrainment of gastric slow waves in patients with gastroparesis. Am J Physiol 274, G186191.
  • McCallum RW, (1987). Gastric emptying disorders. Tests and treatments. Postgrad Med 81, 6776.
  • McCallum RW, Chen JD, Lin Z, Schirmer BD, Williams RD & Ross RA (1998). Gastric pacing improves emptying and symptoms in patients with gastroparesis. Gastroenterology 114, 456461.
  • Mahaut-Smith MP, Hussain JF & Mason MJ (1999). Depolarization-evoked Ca2+ release in a non-excitable cell, the rat megakaryocyte. J Physiol 515, 385390.
  • Miedema BW, Sarr MG & Kelly KA (1992). Pacing the human stomach. Surgery 111, 143150.
  • Nose K, Suzuki H & Kannan H (2000). Voltage dependency of the frequency of slow waves in antrum smooth muscle of the guinea-pig stomach. Jpn J Physiol 50, 625633.
  • Ordog T, Baldo M, Danko R & Sanders KM (2002). Plasticity of electrical pacemaking by interstitial cells of Cajal and gastric dysrhythmias in W/W mutant mice. Gastroenterology 123, 20282040.
  • Ordog T, Takayama I, Cheung WK, Ward SM & Sanders KM (2000). Remodeling of networks of interstitial cells of Cajal in a murine model of diabetic gastroparesis. Diabetes 49, 17311739.
  • Ordog T, Ward SM & Sanders KM (1999). Interstitial cells of cajal generate electrical slow waves in the murine stomach. J Physiol 518, 257269.
  • Ozaki H, Stevens RJ, Blondfield DP, Publicover NG & Sanders KM (1991). Simultaneous measurement of membrane potential, cytosolic Ca2+, and tension in intact smooth muscles. Am J Physiol 260, C917925.
  • Roman C, Gonella J, Niel JP, Condamin M & Miolan JP (1975). Effets de la stimulation vagale et de l'adrenaline sur la musculeuse lisse du bas oesophage du chat. INSERM 50, 415422.
  • Rumessen JJ, Mikkelsen HB, Qvortrup K & Thuneberg L (1993). Ultrastructure of interstitial cells of Cajal in circular muscle of human small intestine. Gastroenterology 104, 343350.
  • Sanders KM, Ordog T, Koh SD, Torihashi S & Ward SM (1999). Development and plasticity of interstitial cells of Cajal. Neurogastroenterol Motil 11, 311338.
  • Sarna SK, & Daniel EE (1973). Electrical stimulation of gastric electrical control activity. Am J Physiol 225, 125131.
  • Suzuki H, & Hirst GD (1999). Regenerative potentials evoked in circular smooth muscle of the antral region of guinea-pig stomach. J Physiol 517, 563573.
  • Suzuki H, Ward SM, Bayguinov YR, Edwards FR & Hirst GD (2003). Involvement of intramuscular interstitial cells in nitrergic inhibition in the mouse gastric antrum. J Physiol 546, 751763.
  • Tomita T, (1981). Electrical activity (spikes and slow waves) in gastrointestinal smooth muscle. In Smooth Muscle: An Assessment of Current Knowledge, ed. BulbringE, BradingAF, JonesAW & TomitaT, pp. 127156. University of Texas Press, Austin , Texas , USA .
  • Torihashi S, Kobayashi S, Gerthoffer WT & Sanders KM (1993). Interstitial cells in deep muscular plexus of canine small intestine may be specialized smooth muscle cells. Am J Physiol 265, G638645.
  • Vanderwinden JM, Liu H, De Laet MH & Vanderhaeghen JJ (1996a). Study of the interstitial cells of Cajal in infantile hypertrophic pyloric stenosis. Gastroenterology 111, 279288.
  • Vanderwinden JM, Rumessen JJ, Liu H, Descamps D, De Laet MH & Vanderhaeghen JJ (1996b). Interstitial cells of Cajal in human colon and in Hirschsprung's disease. Gastroenterology 111, 901910.
  • Van Helden DF, Imtiaz MS, Nurgaliyeva K, von der Weid PY & Dosen PJ (2000). Role of calcium stores and membrane voltage in the generation of slow wave action potentials in guinea-pig gastric pylorus. J Physiol 524, 245265.
  • Vogalis F, & Goyal RK (1997). Activation of small conductance Ca(2+)-dependent K+ channels by purinergic agonists in smooth muscle cells of the mouse ileum. J Physiol 502, 497508.
  • Wang XY, Sanders KM & Ward SM (1999). Intimate relationship between interstitial cells of Cajal and enteric nerves in the guinea-pig small intestine. Cell Tissue Res 295, 247256.
  • Ward SM, Beckett EA, Wang X, Baker F, Khoyi M & Sanders KM (2000a). Interstitial cells of Cajal mediate cholinergic neurotransmission from enteric motor neurons. J Neurosci 20, 13931403.
  • Ward SM, Ordog T, Koh SD, Baker SA, Jun JY, Amberg G, Monaghan K & Sanders KM (2000b). Pacemaking in interstitial cells of Cajal depends upon calcium handling by endoplasmic reticulum and mitochondria. J Physiol 525, 355361.
  • Ward SM, & Sanders KM (2001). Interstitial cells of Cajal: primary targets of enteric motor innervation. Anat Rec 262, 125135.