Retrograde Aspiration Research Articles

Susceptibility of two different PCA pumps to inaccurate delivery associated with pole position at low flow-rates in a pediatric setting - an experimental study.

Vertical displacement of infusion pumps used in patient-controlled analgesia can cause irregularities in drug delivery and is especially crucial at low flow rates, which are commonly used in pediatrics. There is only scarce data available regarding the extent of these inaccuracies. The current in vitro study therefore aimed at a comparison of the performance of two commonly used PCA pumps at different pole positions due to vertical displacement. The Syramed® µSP6000 Chroma syringe infusion pump featuring a stepper motor drive was compared to the CADD®-Solis pump utilizing a linear peristaltic pump system at two different flow rates (0.3ml/h and 1ml/h) and three different levels of height (0, + 50 and - 50cm). Flow patterns and delivered volumes were measured after every change in position and infusion boluses, retrograde aspiration volumes and zero-drug delivery time were calculated. The Syramed® pump was more susceptible to vertical displacement than the CADD®-Solis pump and showed overall greater inaccuracies in the delivered volumes as well as higher infusion boluses, retrograde aspiration volumes and zero-drug delivery time at both flow rates. The observed differences between the pumps might be explained by the higher compliance of this syringe pump and the diverse working mechanisms. Overall, the CADD®-Solis pump might be considered a preferable option for patient-controlled analgesia in children. It is nonetheless essential for medical staff to be aware of the effects of vertical displacement of PCA pumps and to minimize these displacements as much as possible.

Laparoscopic Toupet fundoplication: a safe and effective anti-reflux option in lung transplant recipients.

Fundoplication is known to improve allograft outcomes in lung transplant recipients by reducing retrograde aspiration secondary to gastroesophageal reflux disease, a modifiable risk factor for chronic allograft dysfunction. Laparoscopic Nissen fundoplication has historically been the anti-reflux procedure of choice, but the procedure is associated with discernable rates of postoperative dysphagia and gas-bloat syndrome. Laparoscopic Toupet fundoplication, an alternate anti-reflux surgery with lower rates of foregut complications in the general population, is the procedure of choice on our institution's lung transplant protocol. In this work, we evaluated the efficacy and safety of laparoscopic Toupet fundoplication in our lung transplant recipients. A prospective case series of 44 lung transplant recipients who underwent laparoscopic Toupet fundoplication by a single surgeon between September 2018 and November 2020 was performed. Preoperative and postoperative results from 24-h pH, esophageal manometry, gastric emptying, and pulmonary function studies were collected alongside severity of gastroesophageal reflux disease and other gastrointestinal symptoms. Median DeMeester score decreased from 25.9 to 5.4 after fundoplication (p < 0.0001), while percentage of time pH < 4 decreased from 7 to 1.1% (p < 0.0001). The severity of heartburn and regurgitation were also reduced (p < 0.0001 and p = 0.0029 respectively). Overall, pulmonary function, esophageal motility, gastric emptying, severity of bloating, and dysphagia were not significantly different post-fundoplication than pre-fundoplication. Patients with decreasing rates of FEV1 pre-fundoplication saw improvement in their rate of change of FEV1 post-fundoplication (p = 0.011). Median follow-up was 32.2months post-fundoplication. Laparoscopic Toupet fundoplication provides objective pathologic acid reflux control and symptomatic gastroesophageal reflux improvement in lung transplant recipients while preserving lung function and foregut motility. Thus, laparoscopic Toupet fundoplication is a safe and effective antireflux surgery alternative in lung transplant recipients.

A New Surgical Method for the Treatment of Acute Floating Iliofemoral Deep Vein Thrombosis in Orthopedic Patients

Introduction. The incidence rate of vein thrombosis stands at 180 cases per 100 thousand per year and reaches 200 cases per 100 thousand in older age population. This study aims to assess the efficacy and safety of the proposed method of retrograde vacuum aspiration performed under the conditions of increased intra-abdominal pressure in patients with iliofemoral deep vein thrombosis. Materials and methods . The analysis of surgical treatment of acute floating iliofemoral deep vein thrombosis in 52 orthopedic surgery patients following hip and knee arthroplasty. Acute floating iliofemoral deep vein thrombosis was identified in the postoperative period where the length of the floating part exceeded 4 cm. Patients received emergency treatment in the form of either the surgical prophylaxis of pulmonary embolism (study group n = 18) or a vena cava filter implantation in the infrarenal segment of the vein (control group n = 34). Results and discussion . Patency of the iliofemoral segment was completely restored after the surgery in all the 18 patients in the study group. In the control group, however,, all the 34 patients (px2 < 0.001) retained thrombotic masses in the iliofemoral segment even at the time of discharge from hospital . The length of hospital stay was also different between the comparison groups, amounting to 7 ± 0.74 days for the study group and the patients without thromboembolic complications, and to 21 ± 1.5 days (pm u — 0.0124) for the control. Conclusions 1. The new surgical method proposed for the treatment of acute floating iliofemoral deep vein thrombosis makes it possible to highly effectively restore the full patency of the vein in the shortest possible timeframe. This method is safe and more cost-effective than the classic surgical approach to the treatment of this pathology. 2. Further research into the efficacy and safety of the method proposed is needed as well as a longer term follow up on a larger number of patients.

Sa1454 Correlation of the Threshold Volume to Trigger Reflexive Pharyngeal Swallow With the Hypopharyngeal Safe Volume in Awake State Can Predict Aspiration During Sleep

BACKGROUND: Cough and swallowing are important protective mechanisms that maintain the integrity of the aero-digestive tract across the age spectrum. Premature neonates commonly experience swallowing and breathing problems. Consequently, anterograde or retrograde aspiration is a frequent concern in neonates with chronic lung disease such as bronchopulmonary dysplasia (BPD). AIMS: Our aims were to define the cough-initiating and subsequent post-tussive mechanisms that restore aero-digestive normalcy (defined as return of respiratory rhythm to baseline along with esophageal quiescence) in human premature infants suffering from BPD. METHODS: Ten premature neonates (born at 25.5 ± 0.6 wks gestation, studied at 42.2 ± 1.2 wks post-menstrual age), diagnosed with BPD underwent concurrent pharyngo-esophageal manometry, respiratory inductance plethysmography (using Respitrace) and nasal air flow (using thermistor) methods to determine the relationships between esophageal motility and respiratory phases using a specially designed manometric catheter with upper and lower esophageal sphincter (UES and LES) sleeves and 5 recording pressure ports from pharynx, proximal-, middle-, and distalesophagus, and stomach. Cough was recognized as forceful exhalation preceded by deep inhalation on the respiratory waveforms along with audible cough marked during the study. The dynamic characteristics were analyzed preceding and following cough events defined by manometry and Respitrace. RESULTS: 1) Cough initiating mechanisms during 59 cough episodes are shown (Table). 2) Post-tussive mechanisms that restored aero-digestive normalcy were primary peristalsis in 81.4% (48/59), secondary peristalsis in 15.3 % (9/59), and not recognizable in 3.4 % (2/59). CONCLUSIONS: 1) In premature neonates with BPD, non-propagating swallows and UES contractile reflexes are the dominant reasons for the origin of the cough reflex, indicating the majority of cough events have upper aero-digestive origins. 2) Primary peristalsis is the most important clearance mechanism for post-tussive restoration of respiratory normalcy and pharyngo-esophageal quiescence. 3) These phenomena underscore the importance of postnatal development of esophagus-airway reciprocal communications mediated by Glossopharyngeal and Vagal nerves in human premature neonates with BPD. *Supported by PPG-PO1 DK 068051 Mechanisms triggering cough in neonates.

Sa1453 Mechanisms of Origin and Resolution of Cough Reflex in Human Neonates

BACKGROUND: Cough and swallowing are important protective mechanisms that maintain the integrity of the aero-digestive tract across the age spectrum. Premature neonates commonly experience swallowing and breathing problems. Consequently, anterograde or retrograde aspiration is a frequent concern in neonates with chronic lung disease such as bronchopulmonary dysplasia (BPD). AIMS: Our aims were to define the cough-initiating and subsequent post-tussive mechanisms that restore aero-digestive normalcy (defined as return of respiratory rhythm to baseline along with esophageal quiescence) in human premature infants suffering from BPD. METHODS: Ten premature neonates (born at 25.5 ± 0.6 wks gestation, studied at 42.2 ± 1.2 wks post-menstrual age), diagnosed with BPD underwent concurrent pharyngo-esophageal manometry, respiratory inductance plethysmography (using Respitrace) and nasal air flow (using thermistor) methods to determine the relationships between esophageal motility and respiratory phases using a specially designed manometric catheter with upper and lower esophageal sphincter (UES and LES) sleeves and 5 recording pressure ports from pharynx, proximal-, middle-, and distalesophagus, and stomach. Cough was recognized as forceful exhalation preceded by deep inhalation on the respiratory waveforms along with audible cough marked during the study. The dynamic characteristics were analyzed preceding and following cough events defined by manometry and Respitrace. RESULTS: 1) Cough initiating mechanisms during 59 cough episodes are shown (Table). 2) Post-tussive mechanisms that restored aero-digestive normalcy were primary peristalsis in 81.4% (48/59), secondary peristalsis in 15.3 % (9/59), and not recognizable in 3.4 % (2/59). CONCLUSIONS: 1) In premature neonates with BPD, non-propagating swallows and UES contractile reflexes are the dominant reasons for the origin of the cough reflex, indicating the majority of cough events have upper aero-digestive origins. 2) Primary peristalsis is the most important clearance mechanism for post-tussive restoration of respiratory normalcy and pharyngo-esophageal quiescence. 3) These phenomena underscore the importance of postnatal development of esophagus-airway reciprocal communications mediated by Glossopharyngeal and Vagal nerves in human premature neonates with BPD. *Supported by PPG-PO1 DK 068051 Mechanisms triggering cough in neonates.

Unexpected Nasal Changes in Rats Related to Reflux after Gavage Dosing

In a three-week oral gavage toxicity study in rats, a high incidence of respiratory symptoms and high mortality was noted in compound-dosed rats only. Because of audible respiration, an effect in the upper respiratory tract was suspected and the nasal cavity was included for examination. Histology revealed extensive necrosis and purulent inflammation within the nasal passages, indicative of direct irritation. Since posterior nasal regions were most affected, with food material present within the inflammatory exudates, reflux and retrograde aspiration of irritant material (possibly stomach contents with test formulation) into the nasal cavity were suspected. Lowering the dose volume and fasting the rats prior to gavage dosing substantially reduced the respiratory effects and mortality. The current article focuses on the histological changes in the nasal cavity indicative of gavage-related reflux and provides guidance on differentiation between technical gavage error and gavage-related reflux.

Impact of gavage dosing procedure and gastric content on adverse respiratory effects and mortality in rat toxicity studies

Unscheduled mortality preceded by adverse respiratory clinical signs in rats dosed by oral gavage may not only be caused by technical gavage error or systemic toxicity but may also be caused by gastro-esophageal reflux and subsequent aspiration of high concentrations of drug formulation. In a 3 week oral gavage rat toxicity study for an early drug development compound, preterminal deaths (approximately 20% of animals) at high doses (≥1000 mg kg(-1) ) and concentrations (≥60 mg ml(-1) ) were preceded by recurrent dyspnea, rales or excessive salivation, without evidence of accidental intrapulmonary gavage error. Histological evaluation revealed extensive necrosis and inflammatory changes in the upper respiratory tract, especially in the nasal turbinates and/or nasopharynx. The presence of food particles in inflammatory exudates suggested a retrograde aspiration of stomach content with test formulation via the nasopharyngeal duct into the posterior region of the nose. In contrast, no mortality or adverse respiratory effects were observed in rats following 2 week intravenous administration at comparable exposures or oral gavage administration at lower concentrations (≤20 mg ml(-1) ). In a pharmacology study, the compound caused a dose-dependent increase in gastric content (partly due to inhibition of gastric emptying), providing a pharmacological basis for the suspected gavage-mediated gastroesophageal reflux. Reducing the dose volume and dosing fasted animals substantially reduced or eliminated the respiratory effects and mortality at the high test article concentrations, demonstrating that the adverse effects are related to the gavage method.

Physiology and Pathophysiology of Glottic Reflexes and Pulmonary Aspiration: From Neonates to Adults

Pulmonary aspiration is the consequence of abnormal entry of fluid, particulate material, or endogenous secretions into the airway. The two main types of aspiration scenarios include anterograde aspiration, which occurs during swallowing, and retrograde aspiration, which can occur during gastroesophageal reflux (GER) events. The important structures that protect against aspiration include the aerodigestive apparatus: pharynx, upper esophageal sphincter, esophageal body, glottis and vocal cords, and airway. In this article we review the neuroanatomy, physiology, and pathophysiology pertinent to glottic reflexes and airway aspiration across the age spectrum from neonates to adults. We also discuss recent advances in our understanding of glottal reflexes and the relationship of these reflexes to developmental anatomy and physiology, the pathophysiology of aspiration, and aerodigestive interactions.

Flujometría por difusión termal para la medida del flujo sanguíneo cerebral regional en la cirugía de los aneurismas cerebrales

the thermal diffusion flowmetry (TDF) is a technique that allows the measurement of the regional cerebral blood flow (rCBF) through an implanted microprobe in a cerebral region of interest. The monitoring is continuous, real-time and quantitative (ml/100g/min). The purpose of our clinical work has been to show the technical details and preliminary results by using this monitoring technique during the microsurgical management of cerebral aneurysms and along the postoperative period. The aim of the monitoring of the rCBF is to identify and evaluate ischemic events related with the temporary artery clipping or malposition of the final clip. a total of five patients have been monitored (4 woman and one man with an average age of 50.8 years). Two patients harboured one aneurysm in the middle cerebral artery, other two patients had two aneurysms each one on the internal carotid artery in the exit of the posterior communicating and anterior choroidal artery and the fifth harboured a paraclinoid internal carotid artery aneurysm. All patients were operated on using standard microsurgical techniques through a pterional approach. Surgery was done under neurophysiological monitoring and direct microdoppler fluometry assesment. Just before craniotomy the TDF microprobe was inserted 2.5 cm deep into the white matter through a small burr-hole placed on the coronal line and 2 cm away the midline to measure in the anterior cereral artery vascular sector and 6cm away of the midline to measure in the middle cerebral artery territory. Patients were under continuous monitoring during surgery and along the postoperative period in the recovery unit. A total of 14 temporary artery clippings (between 2-4) with an average total clipping time of 7.2 minutes (ranging 1.6 to 16) and 16 definitive clip replacements (ranging 2 to 8) were done at surgery. Patient with paraclinoid aneurysm was operated on using the retrograde aspiration technique and the internal carotid artery was kept closed 45 mimutes. keeping Some illustrative cases and demonstrative records are presented. the use of TDF allows a quantitative real-time measurement of the rCBF in the areas of interest monitored during the microsurgical management of the cerebral aneurysms which leads to detect ischemic events helpping to avoid ischemic sequelae. The detection of ischemic events in real time would make possible the use of therapeutic measures ealier and more efficienty.

Esophago-Glottal Closure Reflex in Human Infants: A Novel Reflex Elicited With Concurrent Manometry and Ultrasonography

Our aims were to identify and characterize the glottal response to esophageal mechanostimulation in human infants. We tested the hypotheses that glottal response is related to the type of esophageal peristaltic response, stimulus volume, and respiratory phase. Ten infants (2.8 kg, SD 0.5) were studied at 39.2 wk (SD 2.4). Esophageal manometry concurrent with ultrasonography of the glottis (USG) was performed. The sensory-motor characteristics of mechanostimulation-induced esophago-glottal closure reflex (EGCR, adduction of glottal folds upon esophageal provocation) were identified. Mid-esophageal infusions of air (N = 41) were given and the temporal relationships of glottal response with deglutition, secondary peristalsis (SP), and the respiratory phase were analyzed using multinomial logistic regression models. The frequency occurrence of EGCR (83%) was compared (P < 0.001) with deglutition (44%), SP (34%), and no esophageal responses (22%). The odds ratios (OR, 95% CI) for the coexistence of EGCR with SP (0.4, 0.06-2.2), deglutition (1.9, 0.1-26), and no response (1.9, 0.4-9.0) were similar. The response time for esophageal reflexes was 3.8 (SD 1.8) s, and for EGCR was 0.4 (SD 0.3) s (P < 0.001). Volume-response relationship was noted (1 mL vs 2 mL, P < 0.05). EGCR was noted in both respiratory phases; however, EGCR response time was faster during expiration (P < 0.05). The occurrence of EGCR is independent of the peristaltic reflexes or the respiratory phase of infusion. The independent existence of EGCR suggests a hypervigilant state of the glottis to prevent retrograde aspiration during GER events.

Always flush the sampling port before flushing the arterial cannula in pediatric patients.

Blood sampling from arterial lines is a frequent event in anesthesia and critical care. To avoid clot formation, both the stopcock outlet and the cannula must be flushed after sampling. We investigated in a bench experiment whether fluid flow through the cannula is affected by the sequence of flushing procedures. Continuity of fluid delivery from a vascular cannula was gravimetrically determined using two different flushing techniques with either a syringe pump flush system or a bag flush system. The procedures comprised first flushing the stopcock towards the cannula and then towards the stopcock sampling outlet or the reverse order. Experiments were repeated in triplicate and two sets for each flushing system at hydrostatic pressures of 37 mm Hg and 74 mm Hg. The main finding of the study was that flushing the stopcock towards the outlet after flushing the cannula resulted in considerable retrograde aspiration volumes and zero flow times, in particular in combination with syringe pump flush systems. At a hydrostatic pressure of 74 mm Hg, the observed zero flow time at the cannula tip amounted to (mean+/-SD) 0.1+/-0.01 min with the bag flush system and 7.7+/-0.5 min with the syringe pump flush system. The related retrograde aspiration volumes were 2.2+/-0.7 microl with the bag system and 30.0+/-2.0 microl with the syringe pump system. No backflow was recorded when the stopcock was first flushed to ambient pressure and then afterwards towards the cannula. Opening a flush system to ambient pressure affects the continuity of fluid delivery, particularly when using syringe pump flush systems. After blood sampling, the stopcock outlet should be flushed first followed by cannula flushing.

膵外分泌機能の加齢による変化-内視鏡的純粋膵液採取法による検討-

膵外分泌機能の加齢による変化-内視鏡的純粋膵液採取法による検討-

Reflex Mediated Airway Protective Mechanisms Against Retrograde Aspiration

Reflex Mediated Airway Protective Mechanisms Against Retrograde Aspiration

Detection of Aspiration: Scintigraphic Techniques

Dynamic scintigraphy of a milk/technetium-99m sulphur colloid mixture or other radionuclidelabeled meal is a simple technique for demonstrating gastroesophageal reflux and/or aspiration. Since gastroesophageal reflux occurs intermittently and often is not associated with aspiration, the ability to monitor patients for long periods of time is a distinct advantage of the radionuclide technique. The technique is noninvasive, and no maneuvers are employed in an attempt to reduce reflux and/or aspiration. Therefore, the radionuclide method should be viewed as being physiologic. In pediatric populations, radionuclide studies performed in patients undergoing evaluation for pulmonary aspiration occurring both during swallowing (antegrade) or at the time of gastroesophageal reflux (retrograde) are well documented. Results, however, vary greatly from one institution to another, and the clinical utility of the examination in some pediatric populations has been questioned. Although favorable, only more preliminary results on both antegrade and retrograde aspiration in adult populations have been reported.

Introduction

Gastroesophageal reflux disease (GERD) is the most common malady of the esophagus. Complications of reflux disease involving structures proximally contiguous to the esophagus are now becoming a recognized clinical problem. For example, it is estimated that 4–10% of chronic nonspecific laryngeal diseases seen in otolaryngology clinics are associated with reflux disease. More striking perhaps is the association of gastroesophageal reflux with asthma and chronic cough. In addition to these specific disorders, a large number of other extra-esophageal conditions have been attributed to gastroesophageal reflux. Although the cause-and-effect relationship between reflux disease and the majority of these disorders has not been clearly established, clinical reports and (more recently) therapeutic trials and pH monitoring studies have brought this association into a clearer focus. The devastating consequences of retrograde aspiration of gastric contents into the lungs and its associated complications—such as pneumonia, pulmonary fibrosis, and abscess formation—have been recognized since the end of the last century.

Airway protective mechanisms: current concepts.

There are at least eight mechanisms identified that result either in volume clearance of the pharynx and esophagus (secondary peristalsis and pharyngeal swallow) or prevent entry of the gastric content into the esophagus and pharynx (LES and UES), accentuate these barriers (esophago-UES and pharyngo-UES contractile reflexes), or induce closure of the vocal cords and introitus to the trachea (esophagoglottal and pharyngoglottal reflexes). The sum effect of various combinations of these mechanisms is suggested to help prevent retrograde aspiration. In other words, airway protective mechanisms against retrograde aspiration are multifactorial and involve delicate interaction between upper GI and upper airway tracts. Although the existence of these mechanisms in normal volunteers has been documented, their function in patients with retrograde aspiration and supraesophageal complications of gastroesophageal reflux disease currently awaits investigation.

Circulating human megakaryocytes in cardiac diseases.

Both bone marrow and circulating megakaryocytes may produce platelets. Changes in number and properties of the circulating megakaryocytes in cardiac diseases may provide information about thrombopoiesis in these disease states. Circulating megakaryocytes were obtained by retrograde aspiration through wedged pulmonary artery catheters from patients without cardiac abnormalities, patients with cardiac diseases and patients with disorders known to affect the megakaryocyte-platelet axis or marrow-blood barrier. Their number, ploidy distribution and expression of the beta 1-integrin adhesion antigens were estimated. We found evidence for an increased number of circulating megakaryocytes during acute myocardial infarction and in patients with triple vessel disease. A significantly higher proportion of circulating megakaryocytes obtained within 60 h after acute myocardial infarction, expressed CDw49b (alpha-chain of VLA2), CDw49e (alpha-chain of VLA5), and CDw49f (alpha-chain of VLA6) compared to megakaryocytes of patients without cardiac diseases. In myocardial infarction the increase in number of circulating megakaryocytes together with the higher proportion that expressed the beta 1-integrin adhesion antigens favour the hypothesis that these megakaryocytes are acutely released from the bone marrow. This could reflect either a selective response to an increased demand for circulating platelets or be the result of an a selective mechanism resulting from damage to the marrow-blood barrier following the acute infarction or thrombolytic therapy administered.

Combined endovascular and neurosurgical approach for paraclinoid internal carotid artery aneurysms.

The authors review the surgical management of nine complex paraclinoid aneurysms treated with the endovascular balloon catheter technique. With the patient under general anesthesia, the balloon catheter was guided into the feeding artery of the aneurysm by the Seldinger technique. After the aneurysm was exposed, the balloon was inflated temporarily to prevent premature rupture and to facilitate the dissection of the aneurysm. For the larger paraclinoid aneurysm, the double-lumen catheter was introduced into the cervical internal carotid artery (ICA). After temporarily trapping the aneurysm by balloon occlusion of the cervical ICA and clipping the intracranial ICA distal to the aneurysm, retrograde aspiration was performed to collapse the aneurysm. The complete collapse of the large aneurysm by this technique allows an easier dissection of the aneurysm and a safer application of suitable clips. Such a retrograde suction decompression method was used in six large aneurysms. Intraoperative digital subtraction angiography was performed in all cases after the aneurysmal clipping; in three aneurysms, repositioning the clip was required. Only one case of embolic complication was related to the vessel catheterization in this series, which was discovered during the operation. An embolectomy was performed immediately, and there were no postoperative sequelae. We conclude that the combined endovascular and neurosurgical approach, particularly for the large ICA aneurysms, which are difficult to control proximally, can be a useful method of treatment. To prevent complications related to thrombus formation, further refinement in the balloon catheter itself is still needed.

Exocrine pancreatic function test by endoscopic retrograde aspiration of pure pancreatic juice.

The validity of endoscopic retrograde aspiration of pure pancreatic juice (PPJ) as an exocrine pancreatic function test was evaluated in terms of coefficients of variation in control subjects, reproducibility on repeated examinations, and sensitivity for detecting patients with chronic pancreatitis (CP). PPJ was obtained from, nine control subjects, four patients with suspected CP and 13 with CP. PPJ was collected from within the pancreatic duct by endoscopic retrograde catheterization of the papilla at 2-min intervals for 20 minutes after a bolus intravenous injection of secretin (1U/kg) and then for further 20 minutes after a bolus intravenous injection of CCK-PZ (1U/kg). It was recognized that endoscopic aspiration of PPJ was at least as useful and reliable as the traditional pancreozymin secretin test. Useful parameters included 10-min secretory volume and 10-min bicarbonate output after secretin stimulation, and 10-min enzyme output after CCK-PZ stimulation (lipase output showed higher sensitivity than amylase output). Maximal bicarbonate concentration showed poorer reproducibility and sensitivity despite better coefficients of variation. Lower limits in controls (mean-1.5SD) were 22.5ml for 10-min secretory volume, 2.7mEq for 10-min bicarbonate output, 24.5 x 10(3)U for 10-min amylase output and 3.4 x 10(3)IU for 10-min lipase output.