Clinicopathological features of nonsteroidal antiinflammatory drug-induced small intestinal strictures

Metronidazole reduces intestinal inflammation and blood loss in non-steroidal anti-inflammatory drug induced enteropathy

This study assessed the effect of metronidazole on the gastroduodenal mucosa, intestinal permeability, blood loss, and inflammation in patients on non-steroidal anti-inflammatory drugs (NSAIDs). Thirteen patients were studied before and after 2-12 weeks' treatment with metronidazole 800 mg/day, while maintaining an unchanged NSAID intake. Intestinal inflammation, as assessed by the faecal excretion of indium-111 labelled neutrophils, and blood loss, assessed with chromium-51 labelled red cells, were significantly reduced after treatment (mean (SD) 111In excretion 4.7 (4.7)% v 1.5 (1.3)% (N < 1.0%), p < 0.001, 51Cr red cells loss 2.6 (1.6) ml/day v 0.9 (0.5) ml/day (N < 1.0 ml/day), p < 0.01). Intestinal permeability assessed as the 5 hour urinary excretion ratio of 51CrEDTA/L-rhamnose did not change significantly (0.133 (0.046) v 0.154 (0.064), p > 0.1) and there were no significant changes in the endoscopic or microscopic appearances of the gastroduodenal mucosa. These results suggest that the neutrophil is the main damaging effector cell in NSAID induced enteropathy. The main neutrophil chemo-attractant in this enteropathy may be a metronidazole sensitive microbe.

Gallstones during octreotide therapy

Gallbladder stones (GBS) are found in up to 50% of patients receiving octreotide, but the reported prevalence of cholecystolithiasis in patients treated with octreotide is variable and little is known about gallstone incidence, composition, pathogenetic mechanisms, dissolvability, and primary prevention. Octreotide treatment apart, in industrialised societies most GBS are mixed in composition, cholesterol-rich (arbitrarily greater than 70% cholesterol by weight), radiolucent (70%), and, given a patent cystic duct (70%), dissolvable in bile rendered unsaturated in cholesterol by oral ursodeoxycholic (UDCA) +/- chenodeoxycholic (CDCA) acid treatment. They form when (1) GB bile becomes supersaturated with cholesterol (as the molar ratio of cholesterol to phospholipids in biliary vesicles approaches 1:1, the vesicles become unstable); (2) there is an imbalance between pro- and anti-nucleating factors, which favors cholesterol crystal precipitation; and (3) there is stasis within the GB as a result of altered motor function and/or excess mucus that traps the crystals. These changes may be associated with altered (4) biliary bile acid composition (more DCA and less CDCA than normal), and/or (5) phospholipid fatty acid composition (arachidonyl-rich lecithin acting as a substrate for mucosal prostaglandin synthesis which, in turn, may influence both gallbladder motility, and mucus glycoprotein synthesis and secretion). During octreotide treatment, meal-stimulated cholecystokinin (CCK) release is impaired leading to GB hypomotility, but little is known about the effects of octreotide on biliary cholesterol saturation, crystal nucleation time, mucus glycoprotein concentration, bile acid or phospholipid fatty acid composition. Most, but not all, reports suggest that the prevalence of GBS in octreotide-treated patients is considerably greater than that in age-, sex-, and weight-matched controls, but proof (by pre-treatment and on-treatment ultrasound) that the GBS were absent before, but developed during, therapy is not always available. Furthermore, there are few data on analysis of GBS composition in patients developing stones during treatment, although initial reports suggest that octreotide-associated GBS are also radiolucent, cholesterol-rich, and dissolve with oral bile acid treatment. Maximum GBS attenuation values, measured in Hounsfield Units (HU) by localized computerized tomography scanning of the GB, predict stone composition and dissolvability: GBS with scores of less than 100 HU are cholesterol-rich and dissolve well with oral bile acid treatment. However, preliminary results in 11 acromegalic patients treated with 200 to 600 micrograms octreotide/d for 29 to 68 months show that the HU scores range from 23 to 490 (mean +/- SEM, 116 +/- 41), suggesting that at least four of these 11 patients have non-cholesterol stones.(ABSTRACT TRUNCATED AT 400 WORDS)

Glucose and citrate reduce the permeability changes caused by indomethacin in humans

Nonsteroidal anti-inflammatory drug (NSAID)-induced increased intestinal permeability appears to be a prerequisite for NSAID enteropathy. It has been suggested that early metabolic events leading to the permeability changes may involve inhibition of glycolysis and the tricarboxylic acid cycle, in which case the coadministration of glucose and citrate (the substrates for these metabolic pathways) with indomethacin may afford some protection. The present study, using a combined intestinal absorption-permeability test including 3-O-methyl-D-glucose, D-xylose, L-rhamnose, and [51Cr]ethylene-diaminetetraacetic acid (EDTA) as test probes and the differential urine excretion ratio of [51Cr]-EDTA/L-rhamnose, showed that indomethacin (50 + 75 mg) increased intestinal permeability. A formulation of indomethacin containing 15 mg glucose and 15 mg citrate to each milligram of indomethacin did not increase intestinal permeability significantly above baseline values. When given alone with indomethacin, neither glucose nor citrate (45 mg to each milligram of indomethacin) had any protective effects. Pharmokinetic studies showed that the effects of glucose and citrate cannot be explained on the basis of altered drug absorption. These results suggest a new approach to reducing the small intestinal side effects of NSAIDs.

Management of gastroduodenopathy associated with use of nonsteroidal anti-inflammatory drugs

Adverse events associated with the use of nonsteroidal anti-inflammatory drugs (NSAIDs) are reported more frequently to the Food and Drug Administration than are those associated with any other group of drugs. The absolute risk for serious gastrointestinal events--in particular, ulcer bleeding, perforation, and death--is controversial; some investigators believe that an epidemic of NSAID-related complications is being experienced, whereas others suggest that the risks are being overemphasized. The management of patients who take NSAIDs regularly also remains controversial. Key unresolved issues include how best to identify those patients at particularly high risk for the development of ulcer complications and whether such patients should receive prophylactic therapy in an attempt to prevent such problems. In this review, we critically evaluate the currently available literature and present a management algorithm for the treatment and prevention of NSAID-associated gastroduodenopathy.

Short-term effects of antirheumatic drugs

Antirheumatic drugs fall into four categories: non-steroidal anti-inflammatory drugs (NSAIDs), slow-acting antirheumatic drugs (SAARDs), corticosteroids, and cytotoxic drugs. NSAIDs are useful in controlling the symptoms and signs of inflammation. They work within a few days but patients' response varies widely and is unpredictable. Hence there is a wide choice of agent. Anxiety about the side-effects of NSAIDs, particularly on the stomach and kidney, is growing and their use is likely to decline, especially in the elderly. SAARDs are being used increasingly early in the disease. It is realized that there is only a small window of opportunity (2 years) in which to get the disease into remission before irreversible damage is done to the joints. Thus, there is a growing tendency to use combinations of SAARDs together with steroids early in the disease. The most appropriate treatment for established RA (of more than 2 years duration) is less easy to discern. It is important to define realistic treatment goals on an individual basis and to tailor the medication accordingly. Cytotoxic drugs are still reserved for severe aggressive joint disease or for systemic manifestations. Once we are able to predict outcome more accurately, the stage will be set for a trial of combination chemotherapy in severe early RA.

The effect of polyacrylic acid polymers on small-intestinal function and permeability changes caused by indomethacin

Non-steroidal anti-inflammatory drug (NSAID)-induced increased small-intestinal permeability appears to be a prerequisite for the development of NSAID enteropathy, which is a cause of much morbidity in patients with rheumatoid arthritis. We assessed, with a combined absorption-permeability test, the effects of Carbopol (a polyacrylic acid polymer capable of increasing mucus strength and viscosity) on intestinal function and whether it protected against indomethacin-induced increased intestinal permeability. Using a test solution of 3-0-methyl-D-glucose, D-xylose, L-rhamnose, and 51Cr-labelled ethylenediaminetetraacetic acid with 5-h urine collections for marker analyses, we tested 16 subjects, as base line, after 20 ml Carbopol 4 times daily for 4 days, after indomethacin alone (75 + 75 mg), and after coadministration of Carbopol and indomethacin. Carbopol had no significant effect on the permeation or absorption of the test substances. Indomethacin increased intestinal permeability significantly, and this was unaffected when Carbopol was coadministered with indomethacin, showing that Carbopol does not limit the immediate damage of NSAIDs on the small intestine.

Nonsteroidal antiinflammatory drug-induced colonic strictures: a case report

Adverse effects of nonsteroidal antiinflammatory drugs can occur throughout the whole gastrointestinal tract. Recently, several cases of "diaphragmlike" thin ileal strictures have been reported. These strictures seem to result from nonsteroidal antiinflammatory drug-induced inflammatory changes and apparently represent a newly recognized nosological entity. The case of a 61-year-old man who gradually developed similar inflammatory changes in the ascending colon during prolonged intake of a slow-release form of diclofenac is presented, and the literature on nonsteroidal antiinflammatory drug-induced intestinal strictures is briefly reviewed.

Importance of local versus systemic effects of non-steroidal anti-inflammatory drugs in increasing small intestinal permeability in man

Increased small intestinal permeability caused by non-steroidal anti-inflammatory drugs (NSAIDs) is probably a prerequisite for NSAID enteropathy, a source of morbidity in patients with rheumatoid arthritis. This increased small intestinal permeability may be a summation of a local effect during drug absorption, a systemic effect after absorption, and a local effect of the drug excreted in bile, but the relative contribution made by these factors is unknown. We assessed the effect of indomethacin and nabumetone on intestinal permeability. The principal active metabolite of nabumetone, 6-methoxy-2-naphthylacetic acid, is not subject to appreciable enterohepatic recirculation. Twelve volunteers were studied before and after one week's ingestion of indomethacin (150 mg/day) and nabumetone (1 g/day) with a combined absorption/permeability test. Neither drug had a significant effect on the permeation of 3-0-methyl-D-glucose, D-xylose, and L-rhamnose. Indomethacin increased the permeation of radioactive 51chromium ethylenediaminetetra-acetic acid (51Cr EDTA) significantly from baseline (mean (SEM) 0.63 (0.09)% v 1.20 (0.14)%, p less than 0.01) but nabumetone did not (0.70 (0.10)% p greater than 0.1). These results were supported by the 51Cr EDTA/L-rhamnose urine excretion ratios, which reflect changes in intestinal permeability. They suggest that NSAIDs increase intestinal permeability during absorption or after biliary excretion and that the systemic effect is of minor importance.

51Cr-ethylenediaminetetraacetic acid absorption test. Effects of naproxen, a non-steroidal, antiinflammatory drug

Eighty volunteers were studied to determine the effects of 750 or 1000 mg naproxen daily for a week on intestinal permeability, by means of the 51Cr-ethylenediaminetetraacetic acid (EDTA) absorption test. With 750 mg naproxen (n = 42) the median urinary excretion increased from 2.44% to 3.51% (p less than 0.01), and with 1000 mg (n = 38) from 2.26% to 3.39% (p less than 0.01). When the individual pretreatment absorption was included in the analysis, a statistically significant difference was found between the two doses (19% and 68% median increase as a percentage of base line, respectively (p = 0.04)). Similar results were found in 27 subjects who were given both doses of naproxen. Intraduodenal instillation of the test dose in 18 subjects showed that gastric absorption was negligible, and no correlation was found with upper endoscopy findings, changes in orocoecal transit time, or reported symptoms.

Treatment of non-steroidal anti-inflammatory drug induced enteropathy

Non-steroidal anti-inflammatory drug induced small intestinal inflammation may have an adverse effect on the joints of patients with rheumatoid arthritis. We therefore assessed small intestinal and joint inflammation in patients with rheumatoid arthritis before and after three to nine months' treatment with sulphasalazine (n = 40) and other second line drugs (n = 20), while keeping the dosage of non-steroidal anti-inflammatory drug at the same level. Sulphasalazine significantly decreased the mean (SD) faecal excretion of 111indium labelled leucocytes from 2.39 (2.22)% to 1.33 (1.13)% (normal less than 1%, p less than 0.01) and improved the joint inflammation as assessed by a variety of parameters. There was no significant correlation between the effects of sulphasalazine treatment on the intestine and the joints. Treatment with other second line drugs had no significant effect on the faecal excretion of 111indium (1.58 (1.04)% and 1.86 (1.51)%, respectively) but improved joint inflammation significantly. The lack of correlation between the intestinal and joint inflammation and their response to treatment suggests that the two are not causally related.

"Diaphragm-like" strictures of the small bowel in patients treated with non-steroidal anti-inflammatory drugs

The radiological findings are described in four patients who developed strictures of the small bowel, and who had received non-steroidal, anti-inflammatory drugs (NSAIDs) for 1.5-15 years. Clinical presentation was that of subacute small bowel obstruction. Small bowel barium studies showed multiple discrete strictures. Some strictures were indistinguishable from those of regional enteritis. Others however were narrow "diaphragm-like" septae encroaching on and markedly narrowing the ileal lumen, and shown histologically to be due to submucosal fibrosis. It is suggested that these strictures are likely to be consequent on NSAIDs administration and that radiologists and surgeons need to be aware of these "diaphragms" which can be very difficult to detect on barium examination, either small bowel follow-through or enteroclysis, and at laparotomy.

Treatment of peptic ulcer disease in the arthritic patient

Dyspepsia associated with arthritis and non-steroidal anti-inflammatory drugs (NSAIDs) is a common clinical problem. Up to 80% of deaths attributable to peptic ulceration may be associated with NSAID usage. The problem is foremost in the elderly population, in which there has been an increase both in the incidence of peptic ulcers and in the use of NSAIDs. Although the development of duodenal ulceration is not clearly associated with NSAIDs, it is accepted that these drugs increase the risk of gastric ulceration and the occurrence of peptic ulcer complications. Asymptomatic peptic ulceration is common, and patients taking NSAIDs are often asymptomatic prior to presentation with life-threatening complications. The key principle in management of this problem is prevention through careful selection of patients for NSAID use, adequate treatment of peptic ulceration and maintenance of remission. A variety of effective drugs are available for the treatment of peptic ulcers, including H2-receptor antagonists, pirenzepine, sucralfate and colloidal bismuth subcitrate. However, it is recognised that peptic ulceration is a chronic disease with a relapsing-remitting course, often with asymptomatic ulcer episodes. The knowledge that current ulcer-healing strategies do not significantly alter this natural history has lead to increasing efforts to prevent relapse with effective 'maintenance' therapy.

Prostaglandins in the gut and their relationship to non-steroidal anti-inflammatory drugs

Prostaglandins are long-chain, saturated, oxygenated fatty acids. Relatively large quantities of prostaglandins have been found in gut mucosa, suggesting that these substances play an important role in gastrointestinal physiology. Non-steroidal anti-inflammatory drugs (NSAIDs) cause damage to the gastric, intestinal, and colonic mucosa in experimental animals and in humans. Prostaglandins protect the gastric mucosa against injury induced by NSAIDs, and this property has been labelled cytoprotection. The mechanisms of cytoprotection have been extensively evaluated and are probably multifactorial, including effects on the gastric mucosal barrier, gastric blood flow, mucus, bicarbonate, and fluid section, ionic transport, cyclic AMP, and surface-active phospholipids. Prostaglandins may also prevent NSAID-induced injury in the small intestine and colon. The mechanisms responsible for prostaglandin protection in the lower gut against injurious agents are unknown. Further studies of the role of prostaglandins in the gut and their relationship to the effects of NSAIDs are needed. The results of these investigations may lead to a better understanding of the importance of prostaglandins in the physiology of the gastrointestinal tract, and may provide information regarding actions of NSAIDs on the functional integrity of the gastric, intestinal, and colonic mucosa.

Misoprostol reduces indomethacin-induced changes in human small intestinal permeability

This study examined whether indomethacin-induced increases in small intestinal permeability in man are prevented by concomitant administration of a prostaglandin analog (misoprostol). Twelve male volunteers were tested as baseline, following misoprostol alone (200 micrograms, at -16, -12, -8.5, -4, -1.5, and +4 hr); following indomethacin alone (75 mg, at -8; 50 mg, -1 hr); and following coadministration of misoprostol and indomethacin as specified above. A 100-ml test solution containing 3-O-methyl glucose (0.2 g), D-xylose (0.5 g), L-rhamnose (1.0 g), and [51Cr]EDTA (100 microCi) was ingested at 8 AM, and a 5-hr collection made for marker analysis to assess active and passive carrier-mediated transport and trans- and intercellular permeation, respectively. Indomethacin increased the permeation of [51Cr]EDTA selectively, and this increase was significantly reduced by the coadministration of misoprostol. These changes were mirrored by changes in [51Cr]EDTA-L-rhamnose urine excretion ratios, which indicates that paracellular permeability was specifically altered. This study supports the suggestion that NSAIDs alter intestinal permeability by a mechanism involving reduced prostaglandin synthesis and indicates that coadministration of misoprostol with NSAIDs may reduce the frequency and severity of NSAID-induced small intestinal inflammation.

The changing gastrointestinal side effect profile of non-steroidal anti-inflammatory drugs. A new approach for the prevention of a new problem

The most serious side effects of non-steroidal anti-inflammatory drugs (NSAIDs) involve gastroduodenal perforations and massive haemorrhage. It is becoming increasingly clear, however, that it is the small intestine that bears the main brunt of NSAID-related gastrointestinal toxicity. Hence 70% of patients receiving NSAIDs in the long term have evidence of small-intestinal inflammation, and the same patients lose blood and protein as a consequence. Many patients have asymptomatic ileal dysfunction and occasionally may develop unique small-intestinal strictures necesitating surgery. The pathogenesis of the intestinal inflammation is beginning to emerge. There are data to support that an imbalance between prostaglandins and leukotrienes is important in disrupting small-intestinal integrity during drug absorption. Furthermore, a simple mixture of glucose and citrate with indomethacin appears to minimize the damage. Whether this overcomes a metabolic block caused by NSAIDs and replenishes ATP levels or acts by scavenging oxygen free radicals is unknown, but our further understanding of the mechanism may revolutionize our approach to prevention of the gastrointestinal toxicity of NSAIDs.

Non-steroidal anti-inflammatory drug-induced disease in the distal ileum and large bowel

Non-steroid, anti-inflammatory drug (NSAID)-induced lesions in the gut are common, but so far most focus has been placed on the gastroduodenal mucosa. However, an increasing number of reports describe deleterious effects on the distal gut as well. Findings range from asymptomatic mucosal inflammation to stricture and obstruction, perforations, and major hemorrhages. Induction and exacerbation of inflammatory bowel disease has also been noted for most of the commercially available NSAIDs. Although final proof of a causal relationship is lacking, the indices present strongly suggest such a connection. The mechanism is largely unknown, although inhibition of cyclooxygenase with subsequent depletion of endogenous prostanoid synthesis has been suggested as a mediator. If surgery can be avoided, stopping the NSAID therapy is often sufficient to obtain lasting remission. The main point is knowledge of this facet of NSAID use, so that the pertinent drug history is obtained. Determination of the distal gut effects should probably also be included in the evaluation of present and future NSAIDs.