Effects of ceftriaxone on faecal flora: analysis by micromorphometry | Epidemiology & Infection | Cambridge Core (original) (raw)

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In order to elucidate the effect of ceftriaxone therapy on the morphology of gut microflora, 11 human volunteers were treated with ceftriaxone, 1 g daily, given intramuscularly in one dose. Treatment continued for 5 days. Faecal microflora was analysed by digital image processing before, during and after the treatment period.

We derived simple numerical parameters which describe the morphologic composition of the flora. They were significantly influenced by the antibiotic, and returned to their baseline values more than 7 days after treatment was stopped. The procedure holds promise for clinical application.

References

1.van der Waaij, D, Berghuis-de Vries, JM, Lekkerkerk-van der Wees, JEC. Colonization resistance of the digestive tract in conventional and antibiotic-treated mice. J Hyg 1971; 69: 405.CrossRef Google Scholar PubMed

2.Meijer-Severs, GJ, Joshi, JH. The effect of new broad-spectrum antibiotics on fecal flora of cancer patients. J Antimicrob Chemother 1989; 24: 605–13.CrossRef Google Scholar PubMed

3.Louie, Th J, Chubb, H, Bow, EJ, Conly, JM, Harding, GKM, Rayner, E, James, M.Preservation of colonization resistance parameters during empiric therapy with aztreonam in the febrile neutropenic patient. Rev Infect Dis 1985, 7 Suppl: 4: S747–S761.CrossRef Google Scholar

4.Manson, WL, Welling, GW, Heidt, PJ. The influence of cephradine on the anaerobic flora of the colon. Antonie van Leeuwenhoek 1981; 47: 477–9.CrossRef Google Scholar

5.Ambrose, NS, Johnson, M, Burdon, DW, Keighley, MRB. The influence of single dose intravenous antibiotics on faecal flora and emergence of Clostridium difficile. J Antimicrob Chemother 1985; 15: 319–26.CrossRef Google Scholar PubMed

6.Nord, CE, Bergen, T, Thorsteinsson, SB. Impact of ticarcillin/clavulanate on the intestinal microflora. J Antimicrob Chemother 1989; 24 Suppl B: 221–6.CrossRef Google Scholar PubMed

7.Brumfitt, W, Franklin, I, Grady, D, Hamilton-Miller, JMT. Effect of amoxicillin-clavulanate and cephradine on the fecal flora of healthy volunteers not exposed to an hospital environment. Antimicrob Chemother 1986; 30: 335–7.CrossRef Google Scholar PubMed

8.Benno, Y, Shiragami, N, Uchida, K, Yoshida, T, Mitsuoka, T.Effect of moxalactam on human fecal microflora. Antimicrob Ag Chemother 1986, 29, 175–8.CrossRef Google Scholar PubMed

9.Meijer-Severs, GJ, van Santen, E.Short-chain fatty acid and organic acid concentrations in feces of 10 10 human volunteers and their correlation with anaerobic cultural counts over a 15-month period. Scand J Gastroenterol 1989; 24: 1278–80.CrossRef Google Scholar

10.Welling, GW, Stege, GJJ, Meijer-Severs, GJ. β-Aspartylpeptidase activity, a microflora associated characteristic (MAC); its presence in different strains of anaerobic bacteria. Microb Ecol Hlth Dis 1988; 1: 45–9.Google Scholar

11.Höverstad, T, Carlstedt-Djuke, B, Lingaas, E, Norin, E, Saxerholt, H, Steinbakk, M, Midtvedt, T.Influence of oral intake of seven different antibiotics on faecal short-chain fatty acid excretion in healthy subjects. Scand J Gastroenterol, 1986; 21: 997–1003.CrossRef Google Scholar PubMed

12.Gonzalez, RC, Wintz, P.Digital image processing. Reading, Massachusetts: Addison- Wesley, 1977.Google Scholar

13.Serra, J.Image analysis and mathematical morphology. London: Academic Press, 1982.Google Scholar

14.Meijer, BC, Kootstra, GJ, Wilkinson, MHF. A theoretical and practical investigation into the characterization of bacterial species by image analysis. Binary 1990, 2: 21–31.Google Scholar

15.Singh, A, Pyle, BH, McFeters, GA. Rapid enumeration of viable bacteria by image analysis. J Microbiol Meth 1989; 10: 91–101.CrossRef Google Scholar PubMed

16.Goldstein, E, Donovan, RM, Kim, Y.Applications of microscopic image analysis in infectious diseases. Rev Infect Dis 1988; 10: 92–102.CrossRef Google Scholar PubMed

17.Sjollema, J, Busscher, HJ, Weerkamp, AJ. Realtime enumeration of adhering microorganisms in a parallel plate flow cell using automated image analysis. J of Microbiol Meth 1989; 9: 73–8.CrossRef Google Scholar

18.Cruickshank, R, Duguid, P, Marmion, BP, Swain, RHA. Staining methods. In: Cruickshank, R, Duguid, P., Marmion, BP, Swain, RHA, eds, Medical microbiology, 12th ed.Edinburgh: Churchill Livingstone, 1975; 33–4.Google Scholar

19.Kittler, J, Illingworth, J, Föglein, J.Threshold selection based on a simple image statistic. Computer vision, graphics, and image processing, 1985; 30: 125–47.CrossRef Google Scholar

20.Lehmann, EL. Nonparametrics: Statistics based on ranks. San Francisco: Holden-Day, 1975.Google Scholar