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Extensive Absorption of 2′,3′-Dideoxyinosine by Intratracheal Administration in Rats (1995)

Gao, Xiang ; Wientjes, M. Guillaume ; Au, Jessie L.-S.

Springer

Pharmaceutical research 12 (1995), S. 1901-1906

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ISSN: 1573-904X

Keywords: drug therapy ; AIDS ; intratracheal intubation ; biological availability ; animal studies ; 2′,3′-dideoxyinosine

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. To evaluate the intratracheal route of administration as an alternative to oral administration for 2′,3′-dideoxyinosine (ddI). Methods. A ddI dose (40 mg/kg/300 µl or 6.5 mg/kg/50 µl) was instilled into the trachea in female Fisher rats and an intravenous tracer dose (9 µg/kg) of 3H-ddI was administered concomitantly to determine the drug clearance. Plasma concentrations were analyzed for the rate and extent of absorption. Results. ddI was rapidly absorbed from the lungs, with a bioavailability of 63% at 40 mg/kg and 101% at 6.5 mg/kg. By comparison, our previous data showed an oral bioavailability of about 15% (Pharm Res., 9:822, 1992). The distribution of a dye solution instilled intratracheally showed that a fraction of the 300 µL dose spilled over to the gastrointestinal tract, where the entire 50 µL dose was retained in the lungs. The different distribution of the two doses/volumes likely contributed to the different bioavailability, with a fraction of the higher dose/volume degraded in the gastrointestinal tract after the spillover. Absorption of ddI from the airspace of the lung was biexponential, suggesting two absorption processes. Conclusions. These data indicate significantly higher and less variable bioavailability of ddI by the intratracheal route of delivery compared to the oral route. Furthermore, the complete bioavailability at the lower dose/volume indicates no significant pulmonary first pass elimination for ddI.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1016283604540

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Physiologically Based Pharmacokinetic Models of 2′,3′-Dideoxyinosine (1997)

Kang, Hyo-Jeong K. ; Wientjes, M. Guillaume ; Au, Jessie L.-S.

Springer

Pharmaceutical research 14 (1997), S. 337-344

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ISSN: 1573-904X

Keywords: ddI ; physiologic pharmacokinetic model ; tissue concentration ; pentamidine ; rat ; human

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. The goal of this study was to develop physiologically based pharmacokinetic (PBPK) models for 2′,3′-dideoxyinosine (ddI) in rats when the drug was administered alone (ddI model) and with pentamidine (ddI + pentamidine model), and to use these models to evaluate the effect of our previously reported pentamidine-ddI interaction on tissue ddI exposure in humans. Methods. The PBPK models consisted of pharmacologically relevant tissues (blood, brain, gut, spleen, pancreas, liver, kidney, lymph nodes, muscle) and used the assumptions of perfusion-rate limited tissue distribution and linear tissue binding of ddI. The required physiologic model parameters were obtained from the literature, whereas the pharmacokinetic parameters and the tissue-to-plasma partition coefficients were calculated using plasma and tissue data. Results. The ddI model in rats yielded model-predicted concentration-time profiles that were in close agreement with the experimentally determined profiles after an intravenous ddI dose (5% deviation in plasma and 20% deviation in tissues). The ddI + pentamidine model incorporated the pentamidine-induced increases of ddI partition in pancreas and muscle. The two PBPK models were scaled-up to humans using human physiologic and pharmacokinetic parameters. A comparison of the model-predicted plasma concentration-time profiles with the observed profiles in AIDS patients who often received ddI with pentamidine showed that the ddI model underestimated the terminal half-life (t1/2,β) by 39% whereas the ddI + pentamidine model yielded identical t1/2,β and area-under-the-curve as the observed values (〈1% deviation). Simulations of ddI concentration-time profiles in human tissues using the two models showed that pancreas and lymph nodes received about 2- to 30-fold higher ddI concentration than spleen and brain, and that coadministration of pentamidine increased the AUC of ddl in the pancreas by 20%. Conclusions. Data of the present study indicate that the plasma ddI concentration-time profile in patients were better described by the ddI + pentamidine model than by the ddI model, suggesting that the pentamidine-induced changes in tissue distribution of ddI observed in rats may also occur in humans.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1012002206007

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Pharmacokinetic Interaction Between Intravenous 2′,3′-Dideoxyinosine and Pentamidine in Rats (1996)

Yeh, Teng-Kuang ; Kang, Hyo-Jeong K. ; Wientjes, M. Guillaume ; [et al.]

Springer

Pharmaceutical research 13 (1996), S. 628-632

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ISSN: 1573-904X

Keywords: 2′,3′-dideoxyinosine ; pentamidine ; pharmacokinetic interaction

Source: Springer Online Journal Archives 1860-2000

Topics: Chemistry and Pharmacology

Notes: Abstract Purpose. This study examined the pharmacokinetic interaction between 2',3'-dideoxyinosine (ddl) and pentamidine. Background, ddl and pentamidine are often coadministered to patients with acquired immunodeficiency syndrome, and are both associated with pancreatic toxicity. Information on potential interaction would be useful to assess the need for dose modification and the basis of the higher incidence of pancreatic toxicity associated with coadministration of the two drugs. Methods. ddl (200 mg/kg) and pentamidine (10 mg/kg) were administered by continuous infusion to rats over 3 hr, either alone or concomitantly. Drug analysis was by high pressure liquid chromatography with UV or fluorescence detection, or by radioimmunoassay. Results. Pentamidine coadministration significantly increased the apparent volume of distribution at steady state of ddl from 1.4 to 3.4 l/kg (p = 0.004), and increased the mean residence time from 36.3 to 50.0 min (p = 0.015). Pentamidine enhanced the distribution of ddl from plasma into pancreas (p = 0.001) and muscle (p = 0.026). ddl distribution into spleen and liver was also increased, with differences approaching statistical significance (p = 0.08 and 0.06, respectively). In contrast, ddl coadministration did not affect the total body clearance but increased the urinary excretion and the renal clearance of pentamidine by about 5-fold (p = 0.0003). Conclusions. These data indicate that pentamidine increased the distribution of ddl into pancreas and muscle, whereas ddl increased the renal elimination of pentamidine.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1023/A:1016018726327

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