SUMMARY Gastric emptying of solid meals labelled with 129Cs was studied in patients for up to one year after vagotomy and antrectomy or after proximal gastric vagotomy. Significant delay was found one month after vagotomy and antrectomy but this had returned to normal by six months. No delay was found after proximal gastric vagotomy.The effect of posture on gastric emptying was also studied in the same subjects. No significant differences were found between gastric emptying in the supine or sitting positions after solid meals.The technique of monitoring clearance from the stomach of a meal containing a radioactive tracer has been widely used in recent years in patients with a variety of gastric disorders (Jones, Clark, Kocak, Cox, and Glass, 1970;Tinker, Kocak, Jones, Glass, and Cox, 1970; Colmer, Owen, and Shields, 1973; and van Dam, 1974). Early workers used external counters but the use of computerized gamma-camera systems is becoing more common (Cowley, Vernon, Jones, Glass, and Cox, 1972; Hancock, BowenJones, Dixon, Dymock, and Cowley, 1974).The recent study of van Dam (1974) indicates that the range of emptying rates is large in a group of normal subjects but that individuals appear to have characteristic and repeatable values. However, the effects on gastric emptying rates of a number of important variables remain to be fully resolved and there is no standard technique for the acquisition and presentation of data. This paper presents the results of a comparative study of the effects of truncal vagotomy and antrectomy and of proximal gastric vagotomy (Amdrup and Jensen, 1970;Johnston and Wilkinson, 1970) on gastric emptying. Emptying patterns have been investigated by comparison of measurements performed during the period from one month to one year following operation.Among the factors which may affect the results of such measurements are the character of the meal, the posture of the subject, the length of time of the observations, and the mode of presentation of the
Background: Urine cultures are the most common microbiological tests in the outpatient setting and heavily influence treatment of suspected urinary tract infections (UTIs). Antibiotics for UTI are usually prescribed on an empiric basis in primary care before the urine culture results are available. However, culture results may be needed to confirm a UTI diagnosis and to verify that the correct antibiotic was prescribed. Although urine cultures are considered as the gold standard for diagnosis of UTI, cultures can easily become contaminated during collection. We determined the prevalence, predictors, and antibiotic use associated with contaminated urine cultures in 2 adult safety net primary care clinics. Methods: We conducted a retrospective chart review of visits with provider-suspected UTI in which a urine culture was ordered (November 2018–March 2020). Patient demographics, culture results, and prescription orders were captured for each visit. Culture results were defined as no culture growth, contaminated (ie, mixed flora, non-uropathogens, or ≥3 bacteria isolated on culture), low-count positive (growth between 100 and 100,000 CFU/mL), and high-count positive (>100,000 CFU/mL). A multivariable multinomial logistic regression model was used to identify factors associated with contaminated culture results. Results: There were 1,265 visits with urine cultures: 264 (20.9%) had no growth, 694 (54.9%) were contaminated, 159 (12.6%) were low counts, and 148 (11.7%) were high counts. Encounter-level factors are presented in Table 1. Female gender (adjusted odds ratio [aOR], 15.8; 95% confidence interval [CI], 10.21–23.46; P < .001), pregnancy (aOR, 13.98; 95% CI, 7.93–4.67; P < .001), and obesity (aOR, 1.9; 95% CI 1.31–2.77; P < .001) were independently associated with contaminated cultures. Of 264 patients whose urine cultures showed no growth, 36 (14%) were prescribed an antibiotic. Of 694 patients with contaminated cultures, 153 (22%) were prescribed an antibiotic (Figure 1). Conclusions: More than half of urine cultures were contaminated, and 1 in 5 patients were treated with antibiotics. Reduction of contamination should improve patient care by providing a more accurate record of the organism in the urine (if any) and its susceptibilities, which are relevant to managing future episodes of UTI in that patient. Optimizing urine collection represents a diagnostic stewardship opportunity in primary care.Funding: This study was supported by the National Institute of Allergy and Infectious Diseases of the National Institutes of Health (grant no. UM1AI104681). The content is solely the responsibility of the authors and does not necessarily represent the official views of the National Institutes of Health.Disclosures: None
Background: Outpatients with uncomplicated urinary tract infections (UTIs) are often treated empirically without culture, whereas urine cultures are typically collected from patients with complicated UTI. Susceptibilities for fosfomycin (a first-line agent) are not routinely performed or reported in the antibiogram. Understanding the prevalence of antibiotic resistance for UTI is critical for empiric treatment and antibiotic stewardship in primary care. Methods: We developed a UTI-focused antibiogram from a prospective sample of outpatients (women and men) with UTIs from 2 public family medicine clinics in an urban area with a diverse, international population (November 2018 to present). During the study period, providers ordered a urine culture for any adult patient presenting with UTI symptoms, including uncomplicated and complicated infections. We estimated the prevalence of resistance to UTI-relevant antibiotics in the overall study population and compared it between patients born in the United States and other countries. Results: We collected 678 urine cultures from 644 unique patients (79% female). Of these cultures, 158 (23.3%) had no growth, 330 (48.7%) grew mixed urogenital flora, and 190 (28.0%) were positive (>10,000 CFU/mL). Patients with positive cultures were mostly female (88.2%), and their mean age was 46.6 ± 14.8 years. Among patients with positive cultures, 42.7% were born in the United States and 57.3% were born Mexico or Central America. Escherichia coli was the most commonly isolated organism (Fig. 1). Susceptibility results for E. coli and all gram-negative organisms combined are presented in Fig. 2. Susceptibility of uropathogens to TMP-SMX was significantly higher in patients born in the United States compared to patients from Mexico or Central America (82% vs 61%; P = .03). Susceptibility to ciprofloxacin was similar in patients born in the United States and other countries (79% vs 72%; P = .50). Of 77 E. coli isolates, 11 (14%) were positive for extended-spectrum β-lactamase production, including 8 isolates from patients whose country of origin was Mexico or a Central American country. Conclusions: More than 20% of outpatients presenting with UTI symptoms had a negative urine culture. Among outpatients with uncomplicated and complicated UTI, uropathogens had a high prevalence of resistance to ciprofloxacin and TMP-SMX, but susceptibility to fosfomycin (restricted in our system) was 100%. Resistance rates for TMP-SMX were higher in patients from Mexico and Central America. Our findings question whether TMP-SMX should remain a first-line agent in US primary-care settings.Funding: This project was supported by the National Institute of Allergy and Infectious Diseases of the National Institutes of Health under Award Number UM1AI104681.Disclosures: None
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