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Investigations into the route of uptake and pharmacokinetics of intraperitoneally-administered monoclonal antibodies: I. Transdiaphragmatic blockade of the terminal lymphatics in the rat

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Summary

Recent studies on the intraperitoneal administration of radiolabeled monoclonal antibodies indicate that the diaphragm and, in particular, the lymphatics associated with the diaphragm are more involved in the transport of such high-molecular-mass moieties than was earlier suspected. The current study examines the role of the diaphragm in the i.p. transport of an IgG2a murine monoclonal antibody, 5G6.4, by observing the effect on the absorption of the antibody produced when the diaphragm has been scarred. Normal, sham-operated, and diaphragmatically scarred (abrasions made with 600-grade sandpaper) female Sprague Dawley rats (150–250 g) were administered intraperitoneal injections of125labeled 5G6.4 in a volume of 2.0 cm3. Approximately 5 µg antibody protein was administered in the individual 19-µCi injections per rat. Scarring was effective in partially blocking the amount of labeled antibody that crossed the diaphragm. Mean diaphragm levels (% injected dose/g) of125I-labeled 5G6.4 from the scarred group were 16.8% lower than values from the sham-operated rats and 37.2% lower than those from the control rats. The blockade was effective in slowing the appearance of the labeled antibody in the systemic circulation. The half-time to absorption was significantly prolonged in the scarred group; meant1/2 absorption values of 2.5 h for the control group, 5.3 h for the shamoperated group, and 9.6 h for the diaphragmatically blocked group were recorded. Scarring the diaphragm reduced the mean maximum blood concentration by 27.6% over the control group and 23.9% over the sham-operated group. The mean time to maximum blood concentration was lengthened by 93.0% over the control group and 35.3% over the sham-operated group due as a result of scarification. Presumably this impedence to absorption would increase the time that the radiolabeled antibody bathed the peritoneal space. The scarred group also had the largest “system mean residence time” (162.5 h) compared to the sham-operated (147.9 h) and control (118.7 h) groups. These values further verify the effect of surgery on the kinetics of the i.p. administered radiolabeled monoclonals. This work demonstrates that scarifying the diaphragm does alter the kinetics of the i.p. administered monoclonal antibodies and supports the concept that transdiaphragmatic lymphatic absorption is an important route of antibody clearance from the peritoneal cavity.

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Authors and Affiliations

  1. Division of Nuclear Medicine, University of Michigan Medical Center, 1500 East Medical Center Drive, 48 109-0028, Ann Arbor, MI, USA

    Jeffrey S. Barrett, Richard L. Wahl, Raya Brown & Susan J. Fisher

  2. Department of Internal Medicine and UpJohn Center for Clinical Pharmacology, University of Michigan Medical Center, Ann Arbor, Michigan, USA

    Jeffrey S. Barrett & John G. Wagner

Authors
  1. Jeffrey S. Barrett
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  2. Richard L. Wahl
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  3. John G. Wagner
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  4. Raya Brown
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  5. Susan J. Fisher
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H. Helfman Pharmacy Student Aid Fellow

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Barrett, J.S., Wahl, R.L., Wagner, J.G. et al. Investigations into the route of uptake and pharmacokinetics of intraperitoneally-administered monoclonal antibodies: I. Transdiaphragmatic blockade of the terminal lymphatics in the rat. Cancer Immunol Immunother 31, 365–372 (1990). https://doi.org/10.1007/BF01741408

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  • DOI: https://doi.org/10.1007/BF01741408

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