Nutritional status was investigated in 10 patients who had previously undergone total gastrectomy without evidence of malignancy. The ability of these patients to ingest and absorb adequate amounts of nutrients was examined. Metabolic balance studies were also performed to discover how effectively these patients could accumulate and use the absorbed nutrients. In the controlled hospital situation, the amount of food ingested was greater than the amount required for maintenance of Ideal Body Weight. Although mild malabsorption of fat and nitrogen was documented, weight gain and positive nitrogen balance occurred. In direct contrast, food intake significantly decreased when the patients returned to their home environment. While severe malabsorption may contribute to malnutrition in the individual patient, the most common mechanism responsible for postoperative malnutrition was inadequate intake. In the occasional patient with severe malabsorption, the universal demonstration of jejunal anaerobic bacterial overgrowth offers important therapeutic implications. The relative importance of pancreatico-biliary insufficiency in promoting malabsorption remains to be determined. Construction of a Hunt-Lawrence jejunal pouch was not found to favorably affect caloric intake, weight gain, degree of malabsorption, or dumping symptoms. Although some degree of malnutrition does result from total gastric resection, in most cases it is mild and potentially correctable. Avoidance of indicated total gastrectomy due to fears of progressive postoperative malnutrition is unwarranted.
Metoclopramide tablets were compared with placebo in the treatment of gastrointestinal symptoms in 40 patients with diabetic gastroparesis. Results of a 3-wk double-blind study indicate that metoclopramide at a dosage of one 10-mg tablet four times daily reduced nausea, vomiting, fullness, and early satiety and improved meal tolerance better than placebo. Statistically significant differences were noted for nausea and postprandial fullness. Mean gastric emptying assessed by radionuclide scintigraphy was significantly improved in the metoclopramide-treated group when compared with their baseline result. Metoclopramide is an effective agent for improving the upper gastrointestinal motor function in diabetic patients with gastroparesis.
A total of 20 patients with inflammatory bowel disease (IBD) (Crohn's disease, ulcerative colitis) were evaluated with regard to the role of infectious agents and host response. Patients were selected based upon oral manifestations of their disease, 10 with periodontal disease and 10 without. Microbiologic studies of the periodontal flora of IBD-affected patients revealed a unique microflora composed predominantly of small, motile, gram-negative rods, which were most consistent with the genus Wolinella. Further studies of the host response of these patients revealed a serum-mediated defect in neutrophil chemotaxis in all 10 patients with periodontal disease. Neutrophil phagocytosis was normal. In vitro studies of neutrophil function in response to Wolinella extracts and culture supernatants revealed inhibition of neutrophil chemotaxis in a dose-response fashion. The organism was chemokinetic for neutrophils but not chemotactic. The data suggest that unusual microorganisms colonizing the oral cavity of IBD patients potentially play a role in the pathogenesis of the disease as infectious agents or modifiers of the host response or both.
This case describes a 40-year-old man with abdominal pain, nausea, and vomiting, who was found to have a cystic lesion in the tail of the pancreas. Distal pancreatectomy and splenectomy revealed a primary epidermoid cyst of the spleen lying in the substance of the tail of the pancreas. This represents the only report of a splenic cyst in an ectopic spleen that could be found in a search of the world literature.
To obtain information on the prevalence and clinical and laboratory correlates of osteopenia in patients with chronic liver disease, we measured bone densities and 30 selected laboratory variables in 133 subjects (70 men, 63 women) with liver disease. Thirty-two had alcoholic liver disease, 18 had primary biliary cirrhosis, 16 had primary sclerosing cholangitis, 48 had other forms of cirrhosis (cryptogenic, posthepatic) and 19 had chronic hepatitis or fibrosis without cirrhosis. Bone densities of the lumbar spine and three sites of the proximal femur (neck, Ward's triangle, greater trochanter) were estimated by dual-photon absorptiometry. Bone densities at all sites were significantly correlated to one another (r = 0.4 to 0.9; 95% confidence intervals = 0.24-0.54 to 0.81-0.90; p less than 0.0001 for all). Compared with an age- and gender-matched reference group, patients with liver disease had highly significant decreases in bone densities (greater than 2 standard deviations below control values; p less than 0.0008 at all sites). Decreases were particularly marked (24% to 42%) at Ward's triangle, the site of the femoral neck particularly prone to fracture. The prevalence of decreased bone densities ranged from 10% to 56%, depending on the site studied and the nature of the liver disease. Among 30 laboratory variables studied, there were significant (p less than 0.05) correlations with bone densities at more than one site for urinary creatinine (r = 0.21, 0.25), urinary calcium (r = -0.18, -0.23), serum total alkaline phosphatase (r = -0.18, -0.27) and the liver-1 isozyme of serum alkaline phosphatase (r = -0.19, -0.26).(ABSTRACT TRUNCATED AT 250 WORDS)
Intestinal mucosal cells, originating in the crypts, migrate up the villi of the small intestine and slough off into the lumen (1, 2). Studies of the kinetics of these events have revealed a differential rate of cellular renewal between the intestinal mucosal cells of germfree animals and those of conventional animals (3, 4). The time for migration of the mucosal cells from the crypt to villus tip is twice as long in the germfree animal (3, 4). The absence of intestinal bacterial flora in the germfree animal may account for this difference in dynamic morphology.Recent advances in intestinal and fecal culturing techniques have provided information about the intestinal bacterial flora under normal and experimental conditions (5-7). The changing patterns of intestinal microorganisms have been followed both in newborn animals (8-11) and after contamination in germfree animals (12).The present study was designed to follow the changes in intestinal cellular renewal and microbial flora as a function of time in going from a germfree system to a conventional one. Experiments involving both gerrafree and conventional animals have utilized conventionalized (formerly germfree) animals as the control subjects; however, the possibility of altering cellular kinetics of the intestinal epithelium and the span necessary for the alteration have not previously been investigated. Materials and MethodsAnimals.--35 male and 35 female CFW mice (Carworth Farms, New City, N. Y.) born and reared under standard germfree conditions were randomly divided into two groups,
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