Advanced search
Publication Cover
Scandinavian Journal of Infectious Diseases Volume 20, 1988 - Issue sup55
Submit an article Journal homepage
17
Views
6
CrossRef citations to date
0
Altmetric
Miscellany

Neurotoxicity of β-Lactam Antibiotics. Experimental Kinetic and Neurophysiological Studies

Silvia E. Schliamser Departments of Infectious Diseases and Pharmacology, University of Umeå, Umeå, Sweden
Pages 1-61 | Published online: 02 Jan 2015

References

  • Antoniadis, A., Muller, W. E. & Wollert, U. (1980). Benzodiazepine receptor interactions may be involved in the neurotoxicity of various penicillin derivatives. Annals of Neurology 8, 71–3
  • Aquilonius, S. M. & Winbladh, B. (1972). Cerebrospinal fluid clearance of choline and some other amines. Acta Physiologica Scandinavica 85, 78–90
  • Bakay, L. (1962). The cerebral uptake of tritiated tetracycline from blood and cerebrospinal fluid under normal conditions and in experimental pneumococcal meningitis. Journal of Neuropathology 21, 424–36
  • Barlow, C. F., Schoolar, J. C. & Roth, L.J. (1958). An autoradiographic demonstration of the relative vascularity of the central nervous system of the cat with iodine 131-labelled serum albumin. Journal of Neuropathology and Experimental Neurology 17, 191–8
  • Barlow, C. F., Domek, N. S. Goldberg, M. A. & Roth, L. J. (1961). Extracellular brain space measured by S35 sulfate. Archives of Neurology 5, 102–10
  • Barlow, C. F. (1964). Clinical aspects of the blood-brain barrier. Annual Review of Medicine 15, 187–202
  • Barrett, F. F., Eardley, W. A., Yow, M. D. & Leverett, H. A. (1966). Ampicillin in the treatment of acute supurative meningitis. Journal of Pediatrics 69, 343–53
  • Bauer, K. F. & Leonhardt, H. (1956). A contribution to the pathological physiology of the blood-brain barrier. Megaphen stabilises the blood-brain barrier. Journal of Comparative Neurology 106, 363–70
  • Bechtel, T. P., Slaughter, R. L. & Moore, T. D. (1980). Seizures associated with high cerebrospinal fluid concentrations of cefazolin. American Journal of Hospital Pharmacy 37, 271–3
  • Behnsen, G. (1926). Farbstoffversuche mit Trypanblau an der Schranke zwischen Blut und Zentralnervensystem der wachsenden Maus. Munchen Medizinesche Wochenschrieft 73, 1143–7
  • Behnsen, G. (1927). Ueber die Farbstoffspeicherung im Zentralnervensystem der weissen Maus in verschiedenen Alterszuständen. Zeitchrift fur Zellforschung und Mikroskopische Anatomie 73, 515–72
  • Bergan, T. (1978). Kinetics of tissue penetration. Scandinavian Journal of Infectious Diseases Suppl. 14, 36–46
  • Bertoni, J. M. & Cho, I. (1983). Severe myochlonus with moxalactam toxicity. Neurology 33 ( Suppl. 2), 197
  • Bjerner, B., Broman, T. & Swensson, Å. (1944). Tierexperimentelle Untersuchungen uber Schädigungen der Gefässe mit Permeabilitätsstörungen und Blutungen im Gehirn bei Insulin-, Cardiazol- und Electroschockbehandlung. Acta Psychiatrica et Neurologica 19, 431–52
  • Bloomer, H. A., Barton, L. J. & Maddock, R. K., Jr. (1967). Penicillin-induced encephalopathy in uremic patients. Journal of the American Medical Association 200, 121–3
  • Blum, P. & Matsen, J. M. (1971). Obvious seizures from carbenecillin. Minnesota Medicine 9, 697–9
  • Bolander, H. G. & Wahlström, G. (1984). Interaction between probenecid and two lipid soluble barbiturates in the rat. Neuropharmacology 23, 977–81
  • Bolander, H. G., Wahlström, G. & Norberg, L. (1984). Reevaluation of potency and pharmacokinetic properties of some lipid-soluble barbiturates with an EEG-threshold method. Acta Pharmacologica et Toxicologica 54, 33–40
  • Borkowski, W. J. & Forster, F. M. (1948). Convulsant effects of penicillin on the cerebral cortex. Journal of Neuropathology and Experimental Neurology 6, 201–5
  • Borman, J. B. & Eyal, Z. E. (1968). Neurotoxic effects of large doses of penicillin administered intravenously. Archives of Surgery 97, 662–5
  • Bradbury, M. W. (1979). In The concept of a blood-brain barrier. Wiley, J. & Sons Ltd. (Eds.) pp. 368.
  • Brodie, B. B., Kurz, H. & Schanker, L. S. (1960). The importance of dissociation constant and lipid solubility in influencing the passage of drugs into the cerebrospinal fluid. Journal of Pharmacology and Experimental Therapeutics 130, 20–5
  • Brotherton, T. J. & Kelber, R. L. (1984). Seizure-like activity associated with imipenem. Clinical Pharmacy 3, 536–40
  • Brown, K. N. & Percival, A. (1978). Penetration of antimicrobials into tissue culture cells and leucocytes. Scandinavian Journal of Infectious Diseases ( Suppl. 14), 251–60
  • Calandra, G. B., Brown, K. R., Grad, L. C., Ahonkhai, V. I., Wang, C. & Aziz, M. A. (1985). Review of adverse experiences and tolerability in the first 2,516 patients treated with imipenem/cilastatin. American Journal of Medicine 78 ( Suppl. 6 A), 73–8
  • Calandra, G. B., Wang, C., Aziz, M. & Brown, K. R. (1986). The safety profil of imipenem/cilastatin: Worldwide clinical experience based on 3,470 patients. Journal of Antimicrobial Chemotherapy 18 ( Suppl. E), 193–202
  • Calandra, G., Lydick, E., Carrigan, J., Weiss, L. & Guess, H. (1988). Factors predisposing to seizures in seriously ill infected patients receiving antibiotics: Experience with imipenem/cilastatin. American Journal of Medicine 84, 911–8
  • Cars, O. (1981). Tissue distribution of beta-lactam antibiotics. Experimental studies in rabbits. Scandinavian Journal of Infectious Diseases ( Suppl. 27), 1–48
  • Cohill, D. F., Pezzi, P. J., Greenberg, S. R. & Frobese, A. S. (1967). Central nervous system toxicity secondary to massive doses of penicillin “G” in the treatment of overwhelming infections. American Journal of Medical Sciences 254, 134–5
  • Craig, W. A. & Suh, B. (1978a). Theory and practical impact of binding of antimicrobials to serum proteins and tissue. Scandinavian Journal of Infectious Diseases Suppl. 14, 92–9
  • Craig, W.A. & Suh, B. (1978b). Changing in protein binding during disease.Scandinavian Journal of Infectious Diseases ( Suppl. 14), 239–44
  • Crone, C. (1965). The permeability of brain-capillaries to non-electrolytes. Acta Physiologica Scandinavica 64, 407–17
  • Currie, T. T., Hayward, N. J., Campbell, P. C., Westlake, G. & Williams, J. (1970). Epilepsy in dogs caused by large doses of penicillin and concurrent brain damage. British Journal of Experimental Pathology 51, 492–7
  • Currie, T. T., Hayward, N. J.; Westlake, G. & Williams, J. (1971). Epilepsy in cardiopulmonary bypass patients receiving large intravenous doses of penicillin. Journal of Thoracic and Cardiovascular Surgery 62, 1–6
  • Cutler, R. W. P., Deuel, R. K. & Barlow, C. F. (1967). Albumin exchange between plasma and cerebrospinal fluid. Archives of Neurology 17, 261–70
  • Cutler, R. W. P. & Young, J. (1979). The effect of penicillin on the release of γ-aminobutiric acid from cerebral cortex slices. Brain Research 170, 157–63
  • Dacey, R. G. & Sande, M. A. (1974). Effect of probenecid on cerebrospinal fluid concentration of penicillin and cephalosporin derivatives. Antimicrobial Agents and Chemotherapy 6, 437–41
  • Davson, H. & Smith, H. V. (1957). Discussion on the penetration of drugs into the cerebrospinal fluid. Proceedings of the Royal Society of Medicine 50, 963–6
  • Davson, H. (1967). Physiology of the cerebrospinal fluid, Churchill, London pp. 94.
  • Dewhurst, K. (1969). The use of probenecid for increasing penicillin concentrations in cerebrospinal fluid. Acta Neurologica Scandinavica 45, 253–6
  • DiChiro, G. (1964). Movement of the cerebrospinal fluid in human beings. Nature (London) 204, 290–91
  • Dixon, R. L., Owens, E. S. & Rall, D. P. (1969). Evidence of active transport of benzyl-14C-penicillin from cerebrospinal fluid to blood. Journal of Pharmaceutical Sciences 58, 1106–9
  • Dobell, A. R. C., Wyant, J. D., Seamans, K. B. & Gloor, P. (1966). Penicillin epilepsy. Studies on the blood-brain barrier during cardiopulmonary bypass. Journal of Thoracic and Cardiovascular Surgery 52, 469–75
  • Dobbing, J. (1964). Changing views of the blood-brain barrier. The London Hospital Gazette 67 ( Suppl. 4), II–XI
  • Dornbusch, K. (1978). Antibiotics in bone tissues. Methodological and practical aspects. Scandinavian Journal of Infectious Diseases, Suppl. 14, 177–85
  • Dromgoole, S. H. (1974). The binding capacity of albumin and renal disease. Journal of Pharmacology and Experimental Therapeutics 191, 318–323
  • Durnoff-Stanley, E., Dowling, H. & Sweet, L. K. (1946). The absorption and distribution of penicillin in the cerebrospinal fluid. Journal of Clinical Investigations 25, 87–93
  • Ehrlich, P. (1885). Das Sauerstoff-bedurfnis des Organismus. Eine farbeanalytische Studie. Hirschwald, Berlin
  • Esplin, B., Theoret, Y., Seward, E. & Capek, R. (1985). Epileptogenic action of penicillin derivatives: Structure-activity relationship. Neuropharmacology 24, 571–5
  • Fingl, E. & Woodbury, D. M. (1975). In The Pharmacological Basis of Therapeutics, eds. Goodman & Gilman. Macmillan publishing
  • Fenstermacher, J. D. & Patlak, C. S. (1975). The exchange of material between cerebrospinal fluid and brain. In Fluid Environment of the brain. Ed. Cserr, Fenstermacher & Fencl. Academic Press, pp. 201–14
  • Fisher, R. S. & Prince, D. A. (1977). Spike-wave rhytms in cat cortex induced by parenteral penicillin. Electroencephalography and Clinical Neurophysiology 42, 608–24
  • Fishman, R. A. (1964). Active transport and the blood-brain barrier to penicillin and related organic acids. Transactions of the American Neurological Association 89, 51–5
  • Fishman, R. A. (1964b). Carrier transport of glucose between blood and cerebrospinal fluid. American Journal of Physiology 206, 836–44
  • Fishman, R. A. (1966). Blood-brain and CSF barriers to penicillin and related organic acids. Archives of Neurology 15, 113–24
  • Fishman, R. A. & Raskin, N. H. (1967). Experimental uremic encephalopathy. Permeability and electrolyte metabolism of brain and other tissues. Archives of Neurology 17, 10–21
  • Fishman, R. A. (1970). Permeability changes in experimental uremic encephalopaty. Archives of Internal Medicine 126, 835–7
  • Forsgren, A. & Bellahsene, A. (1985). Antibiotic accumulation in human polymorphonuclear leucocytes and lymphocytes. Scandinavian Journal of Infectious Diseases, Suppl. 44, 16–23
  • Fossieck, B., Jr. & Parker, R. H. (1974). Neurotoxicity during intravenous infusion of penicillin. A review. Journal of Clinical Pharmacology 14, 504–12
  • Freeman, R. B., Sheff, M. F., Maher, J. F. & Schreiner, G. E. (1962). The blood-cerebrospinal fluid barrier in uremia. Annals of Internal Medicine 56, 233–40
  • Freygang, W. H. & Sokoloff, L. (1958). Quantitative measurement of regional circulation in the central nervous system by the use of radioactive inert gas. Advances in Biological and Medical Physics 6, 263–79
  • Geering, J. M. & Just, M. (1975). Die-blut-liquor verteilung von ampicillin bei kindern mit und ohne meningitis. Arzneimittel-Forschung 25, 1085–88
  • Gerald, M. C., Massey, J., & Spadaro, D. C. (1973). Comparative convulsant activity of various penicillins after intracerebral injection in mice. Journal of Pharmacy and Pharmacology 25, 104–108
  • Gloor, P. (1969). Epileptogenic action of penicillin. Annals of the New York Academy of Sciences 166, 350–60
  • Gloor, P., Quesney, L. F. & Zumstein, H. (1977). Pathophysiology of generalized penicillin epilepsy in the cat: The role of cortical and subcortical structures. Electroencephalography and Clinical Neurophysiology 43, 79–94
  • Goiten, K., Michel, J. & Sachs, T. (1975). Penetration of parenterally administered gentamicin into the cerebrospinal fluid in experimental animals. Chemotherapy 21, 181–8
  • Goldmann, E. E. (1909). Die aussere und innere Sekretion des gesunden und kranken Organismus im Lichte der “vitalen Färbung”. Beitraege zur Klinischen Chirurgie, 64, 192–265
  • Goldmann, E. E. (1913). Vitälfärbung am Zentral-nervensystem. Abhandlungen Preussische Akademie der Wissenschaften, Physikalisch-Mathematische, Klasse I, 1–60
  • Gotfredsen, W., Roholt, K. & Tybring, L. (1962). Fucidin. A new orally active antibiotic. Lancet 1, 928–31
  • Grenvik, Å. & Wigren, A. (1968). Penicillinets neurotoxicitet. Läkartidningen 65, 3407–11
  • Gutnik, M. J. & Prince, D. A. (1971). Penicillinase and the convulsant action of penicillin. Neurology (Minneapolis) 21, 759–64
  • Holm, S. E. & Kourtopoulos, H. (1985). Penetration of anttibiotics into brain tissue and brain abscess. An experimental study on steroid treated rats. Scandinavian Journal of Infectious Diseases ( Suppl. 44), 68–70
  • Hori, S., Shimada, J., Saito, A. & Miyahara, T. (1988). Effect of beta-lactamase inhibitors on gamma-aminobutyric acid receptor. 6th Mediterranean Congress of Chemotherapy, abstract 169
  • Jackson, I. J. (1949). Aseptic hemogenic meningitis. An experimental study of aseptic meningeal reactions due to blood and itd breakdown products. Archives of Neurology and Psychiatry 62, 572–89
  • Johnson, H. C. & Walker, A. E. (1945). Intraventricular penicillin. A note of warning. Journal of the American Medical Association 127, 217–9
  • Kaukinen, S., Eerola, M. & Ylitalo, P. (1980). Prolongation of thiopentone anaesthesia by probenecid. British Journal of Anaesthesia 52, 603–7
  • King, L. S. (1938). Some aspects on the hematoencephalic barrier. Research Publications - Association for Research in Nervous and Mental Disease 18, 150–77
  • Kourtopoulos, H., Holm, S. E. & Norrby, S. R. (1983a). The influence of steroids on the penetration of antibiotics into brain tissue and brain abscess. An experimental study in rats. Journal of Antimicrobial Chemotherapy 11, 245–9
  • Kourtopoulos, H., Holm, S. E. & Norrby, S. R. (1983b). The effects of irradiation and probenecid on cerebrospinal fluid transport of penicillin. Journal of Antimicrobial Chemotherapy 11, 251–55
  • Kramer, P. W., Grifith, R. S. & Kampbell, R. L. (1969). Antibiotic penetration of the brain. A comparative study. Journal of Neurosurgery 31, 295–302
  • Kunin, C. M. (1965). Effect of serum binding on the distribution of penicillins in the rabbit. Journal of Laboratory and Clinical Medicine 65, 406–15
  • Kurtzman, N. A., Rogers, P. W. & Harter, H. R. (1970). Neurotoxic reaction to penicillin and carbenecillin. Journal of the American Medical Association 214, 1320–1
  • Lajtha, A. (1962). The brain barrier system. In Neurochemistry, Springfield, III, Charles C. Thomas, pp. 399–430
  • Lavy, S. & Stein, H. (1970). Convulsions in septicemic patients treated by penicillin. Archives of Surgery 100, 225–8
  • Lending, M., Slobody, L. W. & Mestern, J. (1959). Effect of prolonged convulsions on the blood-cerebrospinal fluid barrier. American Journal of Physiology 197. 465–68
  • Lerner, P. I. (1974). Selection of antimicrobial agents in bacterial infections of the central nervous system. Advances in Neurology 6, 169–203
  • Lerner, P.I., Smith, H. & Weinstein, L. (1967). Penicillin neurotoxicity. Annals New York Academy of Sciences 145, 310–8
  • Lithander, A. & Lithander, B. (1962). The passage of penicillin into the cerebrospinal fluid after parenteral administration in staphylococcic meningitis. I. An experimental investigation on rabbits. Acta Pathologica et Microbiologica Scandinavica 56, 435–50
  • Lithander, A. (1964). The passage of penicillins into the cerebro-spinal fluid and brain in experimental meningitis. Experimental investigations on rabbits. Postgraduate Medical Journal Suppl. 40, 112–9
  • Lithander, A. (1966). Benzyl penicillin and ampicillin in the cerebrospinal fluid during experimental Haemophilus influenzae meningitis. Antimicrobial Agents and Chemotherapy-1965, 435–8
  • Lorenzo, A. V., Hammerstad, J. P. & Cutler, R. W. P. (1968). The effect of anaesthetic agents on the cerebrospinal fluid clearance of 35S-sulphate and 125I-iodide. Biochemical Pharmacology 17, 1279–83
  • Lorenzo, A. V., Shirahige, I., Liang, M. & Barlow, C. F. (1972). Temporary alteration of cerebrovascular permeability to plasma protein during drug-induced seizures. American Journal of Physiology 223, 268–77
  • Lorenzo, A. V. & Spector, R. (1976). The distribution of drugs in the central nervous system. Advances in Experimental Medicine and Biology 69, 447–61
  • Love, D. W. & Salter, F. S. (1972). Suspected neurotoxicity from intravenous penicillin: A patient case. American Journal of Hospital Pharmacy 29, 424–7
  • de Louvois, J., Gortvai, P. & Hurley, R. (1977). Antibiotic treatment of abscesses of the central nervous system. British Medical Journal ii, 981–4
  • Macdonald, R. L. & Barker, J. L. (1978). Specific antagonism of GABA-mediated postsynaptic inhibition in cultured mammalian spinal cord neurons; a common mode of convulsant action. Neurology 28, 325–30
  • Mandell, G. L. (1973). Interaction of intraleukocytic bacteria and antibiotics. Journal of Clinical Investigations 52, 1673–9
  • Marklund, S. (1979). A simple specific method for the determinations of the hemoglobin content of tissue homogenates. Clinica Chimica Acta 92, 229–34
  • Maynard, E. A., Schultz, R. L. & Pease, D. C. (1957). Electron microscopy of the vascular bed of rat cerebral cortex. American Journal of Anatomy 100, 409–22
  • Merck-Frost, Canada (1987). Primaxin product monography. Montreal Canada
  • Moellering, R. C. & Fisher, E. G. (1972). Relationship of intraventricular gentamicin levels to cure of meningitis. Report of a case of Proteus meningitis successfully treated with intraventricular gentamicin. Journal of Pediatrics 81, 534–7
  • Monaco, F., Sechi, G. P., Piredda, S., Frasetto, M., Zoroddu, G. F., Russo, A. & Mutani, R. (1983). The penetration of phenobarbital in generalized focal penicillin-induced epileptic brain of the cat. Epilepsia 24, 686–91
  • Moore, T. D., Bechtel, T. B. & Ayers, L. W. (1981). Effect of multidose on cerebrospinal fluid penetration of cefazolin. American Journal of Hospital Pharmacy 38, 1496–9
  • Muller, C. & Netland, A. (1980). The penetration of cefuroxime into the cerebrospinal fluid through inflamed and non-inflamed meninges. Journal of Antimicrobial Chemotherapy 6, 279–83
  • Neyman, C. A., Heilbrunn, G. & Youmans, G. P. (1945). Experiments in the treatment of dementia paralytica with penicillin. Journal of the American Medical Association 128, 433–4
  • Neff, N. H., Tozer, T. N. & Brodie, B. (1967). Application of steady-state kinetics to studies of the transfer of 5-hydroxyindoleacetic acid from brain to plasma. Journal of Pharmacology and Experimental Therapeutics 158, 214–8
  • New, P. S. & Wells, C. E. (1965). Cerebral toxicity associated with massive intravenous penicillin therapy. Neurology 15, 1053–8
  • Norberg, L. & Wahlström, G. (1986). Interactions between hexobarbital and thiopental in male rats evaluated with an anesthesia threshold. Acta Pharmacologica et Toxicologica 58, 96–104
  • Norrby, R. (1978). A review of the penetration of antibiotics into CSF and its clinical significance. Scandinavian Journal of Infectious Diseases 14, Suppl., 296–309
  • Norrby, R. (1979). Pharmacokinetic aspects of the treatment of infections in the central nervous system. Journal of Antimicrobial Chemotherapy 5, 630–2
  • Norrby, R., Johansson, Ö., Cronberg, S. (1982). Cefuroxim versus ampicillin and chloramphenicol for the treatment of bacterial meningitis. Lancet I, 295–9
  • Norrby, S. R. (1985). Imipenem/cilastatin: Rationale for a fixed combination. Reviews of Infectious Diseases 7 ( Suppl. 3), 447–51
  • Norrby, S. R. (1987). Side effects of cephalosporins. Drugs 34 ( Suppl. 2), 105–20
  • Oldendorf, W. H. (1975). The Nervous System, Vol. 1 (Tower, D. B., Ed.) Raven Press, New York, pp. 279–89
  • Oldstone, M. B. A. & Nelson, E. (1966). Central nervous system manifestations of penicillin toxicity in man. Neurology 16, 693–700
  • Pappenheimer, J. R., Heisey, S. R. & Jordan, E. F. (1961). Active transport of diodrast and phenolsulfonphtalein from cerebrospinal fluid to blood. American Journal of Physiology 200, 1–10
  • Park, S. Y. & Parker, R. H. (1986). Review of imipenem. Infection Control 7, 333–7
  • Philippe, L. & Goutorbe, F. (1948). Convulsions au cours d'un traitement par la pénicilline intra-rachidienne chez un nourrison. Archives Francaises de Pediatrie 5, 639–41
  • Pollay, M. (1974). Transport mechanisms in the choroid plexus. Federation Proceedings 33, 2064–9
  • Prockop, L. D. & Fishman, R. A. (1968). Experimental pneumococcal meningitis. Permeability changes influencing the concentration of sugars and macromolecules in cerebrospinal fluid. Archives of Neurology 19, 449–63
  • Quesney, L. F. & Gloor, P. (1978). Generalized penicillin epilepsy in the cat: Correlation between electrophysiological data and distribution of 14C-Penicillin in the brain. Epilepsia 19, 35–45
  • Raichle, M., Louis, S., Kutt, H. & McDowell, F. (1968). Neurotoxicity of intravenous penicillin G and its analogues in cats. Transactions of the American Neurological Association 93, 266–7
  • Rall, D. P., Stabenau, J. R. & Zubrod, C. G. (1959). Distribution of drugs between blood and cerebrospinal fluid: General methodology and effect of pH gradients. Journal of Pharmacology and Experimental Therapy 125, 185–93
  • Rall, D. P., Oppelt, W. W. & Patlak, C. S. (1962). Extracellular space of brain as determined by diffusion of inulin from the ventricular system. Life Sciences 2, 43–8
  • Rall, D. P. & Zubrod, C. G. (1962). Mechanisms of drug absorption and excretion. Passage of drugs into and out of the central nervous system. Annual Review of Pharmacology 2, 109–28
  • Rall, D. P. (1971). Drug entry into brain and cerebrospinal fluid. In Fundamentals of Drug Metabolism and Drug Disposition (LaDu, B. N., Mandel, H. G. & Way, E. L., Eds), pp. 67–87. Williams & Wilkins, Baltimore, MD
  • Reidenberg, M. M. (1974). Effect of disease states on plasma protein binding of drugs. Medical Clinics of North America 58, 1103–9
  • Rieselbach, R. E., DiChiro, G., Freireich, E. J. & Rall, D. P. (1962). Subarachnoidal distribution of drugs after lumbar injection. New England Journal of Medicine 267, 1273–8
  • Ruedy, J. (1965). The concentrations of penicillins in the cerebrospinal fluid and brain of rabbits with experimental meningitis. Canadian Journal of Physiology and Pharmacology 43, 763–72
  • Sabel, K.-G. & Brandberg, Å. (1975). Treatment of meningitis and septicemia in infancy with a sulphametoxazole/thrimetoprim combination. Acta Pediatrica Scandinavica 64, 25–32
  • Sampath, S. S. & Neff, N. H. (1973). The elimination of 5-hydroxyindolacetic acid from cerebrospinal fluid: Characteristics of the acid transport system of the choroid plexus. Journal of Pharmacology and Experimental Therapeutics 188, 410–4
  • Sande, M. A., Sheretz, R. J., Zak, O. & Strausbaugh, L. J. (1978). Cephalosporin antibiotics in therapy of experimental Streptococcus pneumoniae and Haemophilus influensae. The Journal of Infectious Diseases 137 ( Suppl.), 161–8
  • Schanker, L. S. (1966). Passage of drugs into and out to the central nervous system. Antimicrobial Agents and Chemotherapy-1965, 1044–50
  • Seamans, K. B., Gloor, P., Dobell, A. R. C. & Wyant, J. D. (1968). Penicillin-induced seizures during cardiopulmonary bypass. A clinical and electroencephalographic study. New England Journal of Medicine 278, 861–8
  • Simon, R. P.; Benowitz, N. L., Bronstein, J. B. & Jacob, P. (1982). Increased brain uptake of lidocaine during bicuculline-induced status epilepticus in rats. Neurology (NY) 32, 196–99
  • Solomkin, J. S., Fant, W. K., Rivera, J. O. & Alexander, J. W. (1985). Randomized trial of imipenem/cilastatin versus gentamicin and clindamycin in mixed flora infections. American Journal of Medicine 78 ( Suppl. 6 A), 85–91
  • Spatz, H. (1933). Die Bedeutung der vitalen Färbung fur die Lehre vom Stoffaustausch zwischen dem Zentralnervensystem und dem ubrigen Körper. Archiv fur Psychiatrie und Nervenkrankheyten 101, 267–358
  • Spector, R. & Lorenzo, A. V. (1974). Inhibition of penicillin transport from the cerebrospinal fluid after intracisternal inoculation of bacteria. Journal of Clinical Investigation 54, 316–25
  • Spector, R. & Snodgrass, S. R. (1976). The effect of uremia on penicillin flux between blood and cerebrospinal fluid. Journal of Laboratory and Clinical Medicine 87, 749–59
  • Tse, C. S. T., Hernandez Vera, F. & Desai, D. V. (1987). Seizure-like activity associated with imipenem-cilastatin. Drug Intelligence and Clinical Pharmacology 21, 659–60
  • Van Harreveld, A., Crowell, J. & Malhotra, S. K. (1965). A study of extracellular space in central nervous tissue by freeze substitution. Journal of Cell Biology 25, 117–37
  • Wahlström, G. (1966). Estimation of brain sensitivity to hexobarbitone (enhexymal NFN) in rats by an EEG threshold. Acta Pharmacologica et Toxicologica 24, 404–18
  • Walker, A. E. & Johnson, H. C. (1945). Convulsive factor in commercial penicillin. Archives of Surgery 50, 69–73
  • Walker, E. A., Johnson, H. C. & Kollros, J. J. (1945). Penicillin convulsions. The convulsive effect of penicillin applied to the cerebral cortex of monkey and man. Surgery, Gynecology and Obstetrics 81, 692–701
  • Walter, F. K. (1933). Die allgemeinen Grundlagen des Stoffaustausches zwischen dem Zentralnervensystem und dem ubrigen Korper. Archiv fur Psychiatrie und Nervenkrankheyten 101, 195–230
  • Walters, I. N., Teychenne, L. E., Claveria, L. E. & Calne, D. B. (1976). Penicillin transport from cerebrospinal fluid. Neurology 26, 1008–10
  • Weihrauch, T. R., Schmidt, W., Höffler, D. & Krieglstein, J. (1974). The neurotoxic effect of benzylpenicillin and ampicillin studied in the rabbit. Arzneimittel-Forschung (Drug Research) 24, 317–21
  • Weihrauch, T. R., Köhler, H., Höffler, D. & Krieglstein, J. (1975). Cerebral toxicity of penicillins in relation to their hydrophobic character. Naunyn-Schmiedeberg's Archives of Pharmacology 289, 55–64
  • Weinstein, L., Lerner, P. I. & Chew, W. H. (1964). Clinical and bacteriologic studies of the effect of ‘massive’ doses of penicillin G on infections caused by gram-negative bacilli. New England Journal of Medicine 271, 525–33
  • Wellman, W. E., Dodge, H. W., Heilman, F. R. & Petersen, M. C. (1954). Concentrations of antibiotics in the brain. Journal of Laboratory and Clinical Medicine 43, 275–9
  • Wood, J. H. (1980). Physiology, pharmacology and dynamics of cerebrospinal fluid. In: Wood, J. H. (eds) Neurobiology of cerebrospinal fluid. Plenum Press New York p. 2.
  • Wu, M.-J., Narsete, T. A., Hussey, J. L., Weinstein, A. B. & Wen, S.-F. (1978). Cephalotin neurotoxicity in ranal failure [letter]. Annals of Internal Medicine 89, 429
  • Wyant, J. D. & Dobell, A. R. C. (1967). Epileptogenic threshold of parenteral penicillin in dogs. Journal of Thoracic and Cardiovascular Surgery 54, 579–81
  • Yoshioka, H., Nambu, H., Fujita, M. & Uehara, H. (1975). Convulsion following intrathecal cephaloridine. Infection 3, 123
  • Yost, R. L., Lee, D. J. & O'Leavy, J. P. (1977). Convulsions associated with sodium cefazolin; a case report. American Surgeon 43, 417–20

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.