DE3602370A1 - Use of analgesics by inhalation - Google Patents

Abstract

Use of analgesics (including peptides) in the form of inhalation for treating pain.

Description

The invention relates to the use of analgesics, as well as a Medicament containing analgesic and a method of use of morphine derivatives for pain treatment.

Dahlström and co-workers have found that the intravenous Morphine requirement in patients on morphine infusion treatment postoperative mean 2.6 mg / h (Dahlström et al., Clinical Pharmacokinetics 7, 1982, 266-279), which is minimal effective analgesic morphine concentration of 16 ng / ml. After intravenous morphine bolus in children (0.1 mg / kg body weight) became a minimal analgesic effective Morphine concentration of 65 ng / ml found (Dahlström et al., Clin. Pharmacol. Ther. 26, 1979, 354-365).

In patients with renal insufficiency, the morphine concentration can be reduced however, with normal morphine dosing, reach toxic areas (Shelly et al., Br. Med. J. 289, 1984, 1071-1072). There is between the morphine concentration and the restricted Kidney function correlated (Ball et al., Lancet I, 1985, 784-786; McQuay et al., Lancet II, 1984, 284-285; Aitkenhead et al., Br. J. Anesth. 56, 1984, 813-819) since the elimination of Morphine bound to an intact kidney function via the kidney (Sear et al., Anesth. Analg. 65, 1985, 1065-1070).

Most of the free, absorbed morphine is in the liver is converted into the biologically inactive morphine-3-glucuronide (Boerner et al., Drug Metab. Rev. 4, 1975, 39-73; Schulz et al., J. Pharmacol. Exp. Ther. 183, 1972, 404-410). The morphine-6 derivatives, on the other hand, are much more potent and analgesic have a longer half-life than morphine (Mori et al., Life Sci. 11, 1972, 525-533) and a much higher affinity  on brain matter as morphine (Yoshimura et al., Chem. Pharm. Bull. 24, 1976, 901-906). The half-life of free morphine is in the Means given as 1.5 to 3.8 hours (Dahlström et al., Clinical Pharmacokinetics 7, 1982, 266-279; Berkowitz, Clinical Pharmacokinetics 1, 1976, 219-230; Murphy et al., Anesthesiology 54).

It has now surprisingly been found that through Inhalation of morphine in large thoracic patients Surgery can achieve excellent analgesia. The doses of morphine required for analgesia were included metabolically healthy and kidney insufficient patients among those required for parenteral administration. Furthermore the morphine concentration remained free and metabolized Morphine immunity below the detection limit (like confirm intra-individual controls) or also showed Kidney failure with elevated baseline levels is minimal Climbs. Has examined more than 30 patients a dose of 0.8 mg morphine as a bolus over 2 hours plus 0.8 mg morphine per hour for insufflation with 5 liters of O2 per minute in intubated or mask ventilated patients proven effective (a lower dose was not analgesic sufficient; doubling the dose produced no significant Advantages). Observation period: 12 hours. Blood pressure, Pulse and breathing gases all remained clinically normal, nausea, Vomiting and urinary retention did not occur in any of the patients on.  

6 patients clinically tolerated inhalation of 100 mg dolantin per 12 hours (initial bolus 10 mg) excellent and were after major thoracic surgery pain free.

6 patients tolerated 3 mg inhalation clinically Somatostatin, its analgesic effect in human medicine was found (Chrubasik, Lancet II, 1984, 1208-1209) per 12 hours (Initial bolus 250 µg) and were after large abdominal Interventions painless.

Experiments with buprenorphine (0.15 mg as an initial bolus over 2 hours plus 0.3 mg 12 hours), Tramal (30 mg as initial bolus over 2 hours and 70 mg per 12 hours), fentanyl (0.05 mg as an initial bolus plus 0.25 mg per 12 h) and AL-fentanyl (0.5 mg per 2 hours and 0.4 mg per 12 hours) successfully carried out.

It follows that other analgesics with these Methods can be applied effectively.

Let the pharmacokinetic test results conclude that morphine in pulmonary Absorption is metabolized into a 6-derivative that a much stronger analgesic potency and one higher affinity for the brain substance as well as a longer one Half-life possesses as morphine. This or maybe another metabolic product is either not recorded radioimmunologically or it arises in lowest, most effective amounts.

Below is INHALATION FROM MORPHINE TO POSTOPERATIVE PAIN TREATMENT described in more detail:

8 metabolically healthy patients aged 56 to 86 years, who had to undergo thoracic surgery for inhalation through a mask 0.8 mg morphine (at 5 L 02 / min) with simultaneous infusion of 0.8 mg morphine per hour into the Inhaler reservoir. At different times blood was taken arterially for radioimmunological determination the free as well as the free plus metabolized morphine Serum immunity. In addition, blood pressure, pulse and breathing gases registered.

The serum morphine concentration of the free and metabolized Morphine immunity was below the detection limit.

Blood pressure pulse and breathing gases remained in the appropriate age Area.

A 10 minute blood draw in the first 2 hours from one Patients showed no increase in morphine levels.

In 7 renal failure patients (ages 41-82 years) the same amount of morphine after thoracic surgery over the tube insufflated (no loss due to leakage). It was found at 3 of 4 patients with barely increased starting morphine concentration a minimal increase in serum concentration, also in one of 3 patients with elevated baseline values. The clinical parameters remained inconspicuous.

Serum kinetics after 10 mg morphine i. v. in 3 of these patients behaved as expected.

A patient with insufficient kidney received the morphine dose the mask. There was also a minimal increase in Morphine concentration.  

The patients were under the morphine inhalation treatment sedated, euphoric and very cooperative. A hint for There was no respiratory depression. Nausea, vomiting and There was no urinary retention. The analgesia was excellent.

Conclusion:

• 1) Inhalation of morphine is suitable for postoperative Enamel treatment after thoracic surgery
• 2) The doses of morphine required for analgesia are wide among those required for parenteral treatment
• 3) It is believed that morphine is involved in pulmonary absorption Metabolized in morphine-6-glucuronide, which is a multiple stronger analgesic potency (Yoshimura) and a higher one Affinity for the brain substance and a longer half-life (Shimoura) as morphine.
• 4) Inhalation of morphine can help with kidney failure Patients

Claims (6)

1. Use of analgesics (including peptides) in Form of inhalation for pain treatment 2. Use of analgesics for the production of Inhalation solutions for pain treatment 3. Use of the analgesic potent that arises pulmonally Morphine derivative for pain treatment 4. Use of inhalation of analgesics renal insufficiency 5. Medicament containing an analgesic, characterized in that that it's the analgesic for inhalation suitable form contains. 6. Procedure for the use of pulmonary metabolized morphine derivatives for pain treatment.