Influence of the stimulation of carotid body chemoreceptors on the gastric mucosal blood flow in artificially ventilated and spontaneously breathing rats.

The cardiovascular effects of the stimulation of arterial chemoreceptors are different in spontaneously breathing and artificially ventilated animals. Respiratory failure and long term sojourn at high altitude coincide frequently with the occurrence of gastric ulceration. In both these situations a profound stimulation of arterial chemoreceptors is present. The purpose of the paper was to investigate the reflex effect of stimulation carotid chemoreceptors on gastric mucosal blood flow in the rat. Arterial chemoreceptors were stimulated by two methods (I) substitution gas mixture of 10% oxygen in nitrogen for room air and (II) direct injection of acid saline ( 0.05 ml, pH = 6.8) into the distal part of left common carotid artery. In artificially ventilated rats stimulation of arterial chemoreceptors caused significant increase in gastric mucosal vascular resistance, accompanied by marked decline in blood flow. This effect was mediated by adrenergic mechanism. On the contrary to artificially ventilated rats, decline of gastric mucosal vascular resistance with concomitant increase in blood flow was found in spontaneously breathing animals. This effect was not abolished either by phentolamine or atropine. As vasodilatatory effect of arterial chemoreceptors stimulation was abolished by bilateral vagotomy, we postulate that non adrenergic and non cholinergic vagal fibers mediate observed vascular changes in gastric mucosa in spontaneously breathing rats. We hypothesize that in artificially ventilated patients with respiratory failure stimulation of arterial chemoreceptors by hypoxemia and or acidosis may contribute to the development of gastric mucosal lesions.     

Endogenous prostaglandins: its role in gastric mucosal blood flow and ethanol ulceration in rats

The involvement of endogenous prostaglandins (PGs) in modulating gastric mucosal blood flow (GMBF) is still unclear. The present study was designed to demonstrate the role of this autacoid in the basal GMBF and the restoration of blood flow after restriction of blood supply to the stomach. The ex-vivo gastric chamber was prepared and the GMBF was measured by a laser Doppler technique. 20% ethanol incubation for 10 min in the chamber increased the basal GMBF and lessened the reduction of blood flow induced by absolute ethanol. It also decreased lesion formation caused by ethanol. Indomethacin 5 mg/kg, given s.c 60 min before experimentation had the opposite effects. Ligation of the gastric artery for 20 min which reduced the GMBF by 60%, worsened ethanol ulceration. There was a marked rebound of the GMBF after the ligation was released. Indomethacin totally abolished the blood flow rebound and aggravated ethanol ulceration. However, 20% ethanol incubation significantly potentiated such a rebound in blood flow and reduced lesion formation. Indomethacin pretreatment reversed these actions, whereas misoprostol administration produced the similar effects as 20% ethanol. It is concluded that GMBF plays an important role in ethanol ulceration and both basal and rebound GMBF is probably modulated by endogenous PGs.     

Differential role of the paraventricular nucleus of the hypothalamus in modulating the sympathoexcitatory component of peripheral and central chemoreflexes

In the present study we investigated the involvement of the hypothalamic paraventricular nucleus (PVN) in the modulation of sympathoexcitatory reflex activated by peripheral and central chemoreceptors. We measured mean arterial blood pressure (MAP), heart rate (HR), renal sympathetic nerve activity (RSNA), and phrenic nerve activity (PNA) before and after blocking neurotransmission within the PVN by bilateral microinjection of 2% lidocaine (100 nl) during specific stimulation of peripheral chemoreceptors by potassium cyanide (KCN, 75 microg/kg iv, bolus dose) or stimulation of central chemoreceptors with hypercapnia (10% CO(2)). Typically stimulation of peripheral chemoreceptors evoked a reflex response characterized by an increase in MAP, RSNA, and PNA and a decrease in HR. Bilateral microinjection of 2% lidocaine into the PVN had no effect on basal sympathetic and cardiorespiratory variables; however, the RSNA and PNA responses evoked by peripheral chemoreceptor stimulation were attenuated (P < 0.05). Bilateral microinjection of bicuculline (50 pmol/50 nl, n = 5) into the PVN augmented the RSNA and PNA response to peripheral chemoreceptor stimulation (P < 0.05). Conversely, the GABA agonist muscimol (0.2 nmol/50 nl, n = 5) injected into the PVN attenuated these reflex responses (P < 0.05). Blocking neurotransmission within the PVN had no effect on the hypercapnia-induced central chemoreflex responses in carotid body denervated animals. These results suggest a selective role of the PVN in processing the sympathoexcitatory and ventilatory component of the peripheral, but not central, chemoreflex.     

Somatostatin-induced gastric protection against ethanol: involvement of nitric oxide and effects on gastric mucosal blood flow

BACKGROUND--AIMS:The mechanisms of somatostatin-mediated gastroprotection are not fully understood. Aims of this study were to determine in the rat the role of nitric oxide (NO) in somatostatin-induced effects on gastric mucosal protection and blood flow (GMBF) in the absence and in the presence of intraluminal ethanol. METHODS: Ethanol (70% v/v)-induced gastric mucosal injury after orogastric dosing was quantitated at 30 min and GMBF determined in an ex vivo gastric chamber preparation. RESULTS: Somatostatin (4 microg/kg; i.p.) protection against ethanol-induced ulceration was prevented by the NO inhibitor L-NNA and restored by L-arginine, but not D-arginine. Somatostatin (1-8 microg/kg; i.p.) did not effect basal GMBF. The gastroprotective dose of somatostatin (4 microg/kg; i.p.) prevented the decrease in GMBF caused by ethanol. L-NNA reversed this vascular effect of somatostatin. CONCLUSION: Somatostatin-induced gastroprotection and restoration of GMBF during ethanol exposure involve mechanisms which are dependent on NO generation.     

失血性休克大鼠模型的改进及胃黏膜血流量的测定

目的探讨失血性休克大鼠模型的建立及胃黏膜血流量的测定。方法16只健康雄性SD大鼠随机分为两组：对照组（n=8）、失血性休克组（n=8）。失血性休克组使用颈动脉失血-颈静脉失血回输的方式制备失血性休克大鼠模型。维持平均动脉压40mmHg 1h后复苏,复苏后2h动物模型制作成功。使用激光多普勒血流仪测定大鼠胃黏膜血流量;采用光镜及透射电镜观察胃黏膜损伤情况。结果失血性休克组胃黏膜血流量较对照组明显降低,差异非常显著（P〈0．01）,胃黏膜细胞坏死、脱落、溶解,局部溃疡形成。结论失血性休克大鼠胃黏膜血流量明显降低,存在广泛的胃黏膜损伤。     

Adenosine: a novel ulcer modulator in stomachs.

Adenosine has been demonstrated for its actions on gastric secretion and stress-induced gastric ulceration in animals. We examined the pharmacological actions of adenosine on ethanol-evoked gastric lesions and gastric mucosal blood flow (GMBF) in rats, because both of them are closely related. Adenosine pretreatment, in dose of 7.5 mg/kg increased GMBF and protected against ethanol-evoked gastric lesion formation. However, this antiulcer action was followed by an aggravation of gastric lesions and reduction in GMBF. We further investigated whether these actions could act through the adenosine A1 or A2 receptors, therefore L-phenylisopropyladenosine (L-PIA) or N-ethylcarboxamidoadenosine (NECA), the adenosine A1 or A2 receptor agonists, respectively, were used. The drugs given in doses of 10 or 50 micrograms/kg for L-PIA and 1 or 5 micrograms/kg for NECA, dose-dependently inhibited GMBF and potentiated ethanol-induced gastric damage. When the two drugs were given together to animals, they did not further aggravate the severity of ulceration and reduction of GMBF. These findings indicate that the antiulcer action of adenosine is not mediated via the adenosine A1 and A2 receptors but if acts through different adenosine receptor subtypes. It was because the lesion worsening effects of adenosine at the second stage of the biphasic responses were similar to the actions of L-PIA and NECA, the ulcer potentiating effect is probably acting through adenosine A1 and A2 receptors in anaesthetised rats.     

Effect of alpha and beta adrenoreceptor antagonists on glucagon-induced inhibition of gastric acid secretion in cats

The aim of the present study was to examine the effect of alpha and beta adrenoceptor blockade on gastric acid secretion, mucosal blood flow (GMBF) and catecholamine content of the gastric mucosa during glucagon-induced inhibition of gastric acid secretion. The secretory response to continuous infusion of pentagastrin (6 micrograms/kg/h) was reduced by regitine (0.5 mg/kg/h) and propranolol (25 micrograms/kg/h). Glucagon (25 ng/kg/h) further slightly decreased HCl secretion. GMBF was also significantly inhibited by regitine and propranolol. Administration of glucagon continued decreasing of the GMBF. By determining the change in the ratio of blood flow to secretory rate, this reduction in mucosal blood flow was found to be secondary to a fall in secretion. In these studies a concomitant increase in noradrenaline content of the gastric mucosa was observed: after regitine by 50%, after propranolol--by 32.5%, after these blockers given simultaneously--by 75%. The level of noradrenaline was higher after subsequent administration of glucagon. Our results indicate that more than one component is responsible for the inhibitory effect of glucagon on pentagastrin-stimulated gastric acid secretion.     

Baroreceptor control of pressure-flow relationships during hypoxemia

In the absence of peripheral chemoreceptors, the effects of graded hypoxemia on the carotid sinus control of central and regional hemodynamics were studied in anesthetized mongrel dogs. Baroreceptor stimulation was effected by carotid sinus isolation and perfusion under controlled pressure. Blood flows were measured in the aorta and the celiac, mesenteric, left renal, and right iliac arteries. Carotid sinus reflex set-point pressures were well maintained until hypoxemia was severe. Carotid sinus reflex set-point gain was maximal during mild hypoxemia. Reflex operating point regional flows were unaffected by hypoxemia. A factorial analysis of overall reflex increases in mean aortic pressure, flow, and power during reduced baroreceptor stimulation showed potentiation by increasing hypoxemia. Corresponding effects of baroreceptor stimulation and hypoxemia on aortic resistance and heart rate were additive. Celiac, renal, and iliac blood flows increased during both hypoxemia and reduced baroreceptor stimulation. Only in the celiac bed were blood flow changes independent of concomitant changes in cardiac output. Thus, at maximum sympathetic stimulation (low carotid sinus pressure) during hypoxemia, the cardiovascular system maintained both central and regional blood flows at high systemic blood pressures independent of the peripheral chemoreceptors.     

Effects of L-glutamic acid on acid secretion and mucosal blood flow in the rat stomach

The effect of intravenous administration of L-glutamic acid (L-Glu) on gastric acid secretion and gastric mucosal blood flow (GMBF) in anesthetized rats were investigated. Infusion with synthetic L-Glu alone had no effect on spontaneous acid secretion. However, L-Glu reduced histamine- (2 mg/kg/hr) or oxotremorine- (1 microg/kg/hr) stimulated acid secretion, whereas L-Glu had no effect on acid secretion induced by pentagastrin (8 microg/kg/hr). Furthermore, this inhibitory effect of L-Glu on histamine- or oxotremorine-stimulated acid secretion was blocked by 6,7-dinitroquinoxaline-2,3-dione (DNQX), a non-NMDA receptor antagonist. The effect of L-Glu on gastric mucosal microcirculation in the anesthetized rats was evaluated by using Laser Doppler Flowmetry (LDF). The results showed that L-Glu did not significantly reduce both mucosal and serosal blood flow in stomach. No significant modulatory effect on histamine- or oxotremorine-stimulated increase in GMBF was noted after infusion with L-Glu. It is concluded that L-glutamic acid is capable of the modulating of gastric acid secretion via ionotropic non-NMDA receptors, but do not affect on GMBF. However, L-glutamic acid showed no effect on acid secretion by itself.     

Homeostasis of the gastric mucosa and blood circulation. 2. Role of ischemia in disruption of the gastric mucosa

To date there is a lot of data of literature indicating that microcirculatory disorders play the main role in the development of gastric mucosal damages induced by stress, ethanol, nonsteroidal antiinflammatory drugs and tobacco smoke. Under stress gastric mucosal blood flow disorders may be caused by the actication of sympathetic nervous system. Ulcer healing is accompanied by the angiogenesis and by the increase of blood flow in the ulcer border and tissues surrounding the ulcer. Therefore now the main studies are concentrated on the search of defence-enhancing agent rather than drugs for antisecretory therapy. Therapeutic strategy suggests the use of some potential vasodilators such as NO donors, prostaglandin analogues, oxygen radical scavengers, endothelin, leukotrienes, platelet-activating factor antagonists and/or their synthesis inhibitors. At present, the therapeutic possibilities seem to be restricted and nothing indicates that stimulation of the defensive factor only, is more effective in the treatment of peptic ulcer than inhibition of aggressive factors. However we suggest that blood flow correction may be very important for the treatment of refractory ulcers or for prophylaxis of stress ulceration and peptic ulcer recurrence.     

Endogenous opiates and stress ulceration

Parenteral administration of the opiate antagonist, naltrexone, had a cytoprotective effect against stress-induced ulceration. This effect appears to be due to blockade of peripheral rather than central endogenous opiates and is not related to the central inhibitory effect of opiates on gastric acid secretion. Opiates have complex effects on gastric mucosal blood flow which may explain their role in stress ulceration.     

Interaction between vagal and chemoreceptors afferents in ventilatory response to transient hypercapnia (anaesthetized rabbit).

In rabbits anaesthetized with ethyl-carbamate, stimulation of chemoreceptors afferents was allowed by transient hypercapnia, before and after vagal blockade by DC current. In these relatively fast breathing animals, the transient hypercapnia produced light changes of inspiratory tidal volume (VI), inspiratory (TI) and expiratory durations (TE). Despite the identity of transient hypercapnia, it ensued that: (1) the higher the spontaneous VI and the lower the respiratory frequency (fR), the greater their respective changes (deltaVI and deltafR) during the ventilatory response; (2) after vagal blockade, greater changes in VI, TI, TE and mean inspiratory flow rate (VI/TI) occurred than in control state, while the relation between deltafR and fR was more significant than in control state. Respective roles played by vagal and chemoreceptors afferents in the ventilatory response to transient hypercapnia are discussed.     

Gastric microcirculatory change and development of acute gastric mucosal lesions (stress ulcer)

Concerning the pathogenesis of acute gastric mucosal lesions, gastric microcirculatory change has drawn attention as an important factor. In view of this fact, gastric mucosal blood flow and microvascular structure were investigated in normal and in burn stressed rats. Moreover, alterations in acid and pepsin activities in by morphological and biochemical procedures in order to evaluate the relationship between defensive and aggressive factors of the gastric mucosa. Gastric mucosal blood flow decreased significantly in early period after induction of stress (p less than 0.01). The incidence of ulceration showed a correlative relation with the decrease of mucosal blood flow. Reduction of blood flow in burn was due to opening of arteriovenular shunt and it appeared that this was responsible for mucosal ischemia and congestion. Following the decrease of blood flow, acid output was lower in stress than that in control. Finally, the results of these studies demonstrated the importance of defensive factors. The reduction of mucosal blood flow resulted in the sequence of events that led to formation of acute gastric mucosal lesion.     

Body temperature dependency in baclofen-induced gastric acid secretion in rats relation to capsaicin-sensitive afferent neurons

Body temperature dependency in gastric functional responses to baclofen, a GABA(B) agonist, such as acid secretion, mucosal blood flow (GMBF) and motor activity, was examined in urethane-anesthetized rats under normal (37+/-1 degrees C) and hypothermic (31+/-1 degrees C) conditions. A rat stomach was mounted in an ex-vivo chamber, perfused with saline, and the acid secretion was measured using a pH-stat method, simultaneously with GMBF by a laser Doppler flowmeter. Gastric motility was measured using a miniature balloon as intraluminal pressure recordings. Intravenous administration of baclofen significantly increased acid secretion at the doses > 0.3 mg/kg under hypothermic conditions, yet it caused a significant stimulation only at doses > 10 mg/kg under normothermic conditions. The increases in gastric motility and GMBF were similarly induced by baclofen, irrespective of whether the animals were subjected to normothermic or hypothermic conditions. These functional responses to baclofen under hypothermic conditions were totally attenuated by either bilateral vagotomy or atropine (3 mg/kg, s.c.). Baclofen at a lower dose (1 mg/kg i.v.) significantly increased the acid secretion even under normothermic conditions when the animals were subjected to chemical deafferenation of capsaicin-sensitive neurons or pretreatment with intracisternal injection of CGRP8-37 (30 ng/rat). These results suggest that 1) gastric effects of baclofen are dependent on body temperature in stimulating acid secretion but not GMBF or motor activity, 2) the acid stimulatory action of baclofen is enhanced under hypothermic conditions, and 3) the suppression of baclofen-induced acid response under normothermic conditions may be related to capsaicin-sensitive afferent neuronal activity, probably mediated by central release     

Receptor-activating peptides for PAR-1 and PAR-2 relax rat gastric artery via multiple mechanisms

Receptor-activating peptides for protease-activated receptors (PARs) 1 or 2 enhance gastric mucosal blood flow (GMBF) and protect against gastric mucosal injury in rats. We thus examined and characterized the effects of PAR-1 and PAR-2 agonists on the isometric tension in isolated rat gastric artery. The agonists for PAR-2 or PAR-1 produced vasodilation in the endothelium-intact arterial rings, which was abolished by removal of the endothelium. The mechanisms underlying the PAR-2- and PAR-1-mediated relaxation involved NO, endothelium-derived hyperpolarizing factor (EDHF) and prostanoids, to distinct extent, as evaluated by use of inhibitors of NO synthase, cyclo-oxygenase and Ca2+-activated K+ channels. The EDHF-dependent relaxation responses were significantly attenuated by gap junction inhibitors. These findings demonstrate that endothelial PAR-1 and PAR-2, upon activation, dilate the gastric artery via NO and prostanoid formation and also EDHF mechanisms including gap junctions, which would enhance GMBF.     

Role of gastric microcirculation in the gastroprotection by glucocorticoids released during water-restraint stress in rats

Our previous investigations demonstrated that glucocorticoids released in response to stress protect gastric mucosa against stress-induced ulceration. This study was designed to determine whether gastric microcirculation is involved in the mechanism of gastroprotective glucocorticoid action. For this we evaluated the effects of deficiency of glucocorticoid production during 3 hr water-restraint stress and corticosterone replacement on the stress-induced gastric erosions, gastric microcirculation and arterial pressure in rats. The stress was produced in awake rats and gastric microcirculation and arterial pressure were evaluated in animals anesthetized in 3 hr after the onset of water-restraint stress. An in vivo microscopy technique for the direct visualization of gastric microcirculation was employed. The gastric submucosal and the superficial mucosal microvessels were monitored on television screen through a microscope and the pictures were stored by microfilming for the analysis of red blood cell velocity and vessel diameter. Gastric microcirculation was estimated on the base of both the volume blood flow velocity in submucosal microvessels and the diameter of superficial mucosal venous microvessels. Gastric erosions were quantitated by measuring the area of damage. Plasma corticosterone levels were also measured after 3 hr stress by fluorometry. Water-restraint stress induced an increase in corticosterone level, an appearance of gastric erosions, a decrease in volume blood flow velocity of submucosal microvessels, a dilatation of superficial mucosal microvessels, a decrease in arterial pressure. The deficiency of glucocorticoid production during water-restraint stress promoted the stress-induced gastric ulceration, a dilatation of mucosal microvessels, a decrease of blood flow velocity in submucosal microvessels and of arterial pressure. Corticosterone replacement eliminated the effects of deficiency of glucocorticoid production on all of the parameters under study. Thus, the stress-induced corticosterone rise decreased gastric ulceration, restricted both the reduction of blood flow velocity in submucosal microvessels and a dilatation of superficial mucosal venous microvessels during water-restraint stress. These data suggest that the gastroprotective action of glucocorticoids during stress may be provided by the maintenance of gastric blood flow.     

The effect of neurotensin and secretin on gastric acid secretion and mucosal blood flow in man

Neurotensin stimulates pancreatic secretion directly and by potentiating the effect of secretin. Neurotensin also inhibits gastric secretion. Secretin inhibits gastric secretion as well, but whether it also interacts with neurotensin is not known. Secretin is known to inhibit gastric mucosal blood flow (GMBF). The effect of neurotensin on GMBF is not known. Acid secretion (triple lumen perfused orogastric tube) and GMBF ([14C]aminopyrine clearance) were therefore measured in 6 subjects during neurotensin, secretin and neurotensin plus secretin infusions. Neurotensin plus secretin reduced acid secretion by a median 130 (range 34-394) mumol/min which was significantly greater than either neurotensin at 36 (7-67) mumol/min or secretin 54 (20-347) mumol/min alone (P less than 0.05). This effect appeared independent of GMBF. Neurotensin plus secretin reduced GMBF by 14 (12-27) ml/min but not significantly more than neurotensin at 11 (3-20) ml/min or secretin 18 (2-27) ml/min alone. Further, there was no correlation between changes in acid output and GMBF during infusion of the peptides. We conclude that the inhibitory effects of neurotensin and secretin on gastric secretion are at least additive and together they may function as an 'enterogastrone'.     

表皮生长因子和降钙素基因相关肽在高频电磁场 治疗急性胃损伤中作用研究

目的：探讨高频电磁场（high-frequency electromagnetic fields,HEMFs）曝露治疗急性胃损伤的作用机制。方法：选用健康SD大鼠,以Indomethacin灌胃法复制胃粘膜急性损伤模型,观察40．68MHz HEMFs（波长为7．3m）曝露（微热量,30—50mA,15min,1／d）治疗1或6次后,大鼠胃粘膜损伤程度（胃损伤指数和病理损伤积分）、胃粘膜血流量、血浆表皮生长因子（epidermal growth factor,EGF）和降钙素基因相关肽（calcitonin gene—related peptide,CGRP）水平。结果：HEMFs曝露1次后,胃粘膜血流量较对照组明显升高（P〈0．05）,大鼠胃粘膜损伤程度、血浆EGF和CGRP水平较对照组均无显著性差异（P均〉0．05）;HEMFs曝露6次后,胃粘膜损伤程度较对照组明显改善（P均〈0．05）,胃粘膜血流量显著升高（P〈0．05）,血浆EGF和CGRP水平较对照组无显著性差异（P均〉0.05）。结论：HEMFs曝露治疗大鼠胃粘膜急性损伤可能与其增加胃粘膜血流量有关,与血EGF和CGRP无关。     

Effect of monochloramine on recovery of gastric mucosal integrity and blood flow response in rat stomachs--relations to capsaicin-sensitive sensory neurons.

Gastric mucosal blood flow (GMBF) response and the recovery of gastric mucosal integrity were investigated in anesthetized rat stomachs after damage by monochloramine (NH2Cl), in comparison with 20 mM taurocholate Na (TC). A rat stomach was mounted in an ex-vivo chamber, and the mucosa was exposed to 50 mM HCl during a test period. Mucosal application of 20 mM TC for 10 min caused a marked reduction of transmucosal potential difference (PD), but the PD recovered rapidly without development of gross lesions 90 min later. In contrast, the exposure of the mucosa to NH2Cl (5 to approximately 20 mM) produced a concentration-dependent decrease in gastric PD, and the values remained lowered even 90 min after removal of the agent, resulting in severe hemorrhagic damage in the stomach. TC caused a considerable H+ back-diffusion, followed by an increase in the GMBF. In the mucosa damaged by NH2Cl, such GMBF responses were not observed, except for the temporal increase during the exposure, although similar degrees of H+ back-diffusion were observed following NH2Cl treatment. In addition, the prior exposure of the mucosa to NH2Cl significantly attenuated gastric hyperemic response induced by capsaicin but not by misoprostol (a PGE1 derivative) or NOR-3 (a NO donor). Chemical ablation of capsaicin-sensitive sensory neurons had no effect on the PD reduction caused by TC but totally attenuated the GMBF response, resulting in hemorrhagic damage in the stomach. These results suggest that NH2Cl delayed the recovery of the mucosal integrity in the stomach after damage, and this effect may be attributable, at least partly, to the impairment of gastric hyperemic response associated with H+ back-diffusion, probably due to dysfunction of capsaicin-sensitive sensory neurons.     

The role of prostaglandins in the regulation of gastric mucosal blood flow

It has been postulated that endogenous gastric prostaglandin activity contributes to the maintenance of non-stimulated gastric mucosal blood flow. Prostacyclin and PGE₂ increase mucosal blood flow in the non-stimulated canine stomach. Inhibition of prostaglandin synthesis by aspirin or indomethacin causes a reduction of 30% to 50% in non-stimulated gastric mucosal blood flow in dog and rat. These observations are consistent with the hypothesis that endogenous prostaglandin activity within the gastric mucosa contributes to the maintenance of its blood flow.Also it has been postulated that endogenous prostaglandins may, in part, mediate the vasodilation associated with stimulated gastric acid secretion. Exogenous prostacyclin and PGE₂ inhibit stimulated acid secretion while increasing mucosal blood flow. Indomethacin and aspirin-inhibited endogenous prostaglandin synthesis has been reported to increase stimulated acid secretion and reduce mucosal blood flow in anesthetized rat and dog. In gastric secretory fluid, prostaglandins have been detected during gastrin stimulation by some investigators and a dose response relationship between rate of secretion and fluid prostaglandin output has been observed. These observations are consistent with the hypothesis that endogenous prostaglandins may, in part, contribute to the regulation of mucosal blood flow during stimulated acid secretion. Further studies, directly measuring specific endogenous prostaglandins and their metabolic products within the gastric mucosa during stimulated and inhibited acid secretion will be necessary to prove or disprove this hypothesis.