[beachguy_inthongs]

Cannabis Research - lungs, bronchial effects, carbon monoxide

Authors
Biglan A, Gallison C, Ary D, Thompson R
Title
Expired air carbon monoxide and saliva thiocyanate: relationships to self-reports of marijuana and cigarette smoking.
Source
Addictive Behaviors
Date
1985
Issue
10(2)
Pages
137-44
Abstract
This study examined the relationship between self-reports of marijuana and cigarette smoking, and the physiological measures of expired air carbon monoxide (CO) and saliva thiocyanate (SCN) in a sample of 1,130 seventh, ninth, tenth, eleventh, and twelfth graders. Subjects who reported marijuana smoking were likely to also report cigarette smoking. The correlation between self-reported marijuana smoking and SCN was negligible. The correlation between CO and self-reported marijuana smoking was statistically significant, but when the variance due to cigarette smoking was removed, this relationship also became negligible. The existence of a sizeable number of marijuana smokers in this sample of adolescents did not alter the correlation between CO and self-reports of cigarette smoking. However, in adult samples, where marijuana and cigarette smoking are less highly correlated, marijuana smoking could affect the relationship between CO and self-reported cigarette smoking. Carbon monoxide predicted self-reported cigarette smoking better than did saliva thiocyanate. There was an interaction between grade and the CO/cigarette smoking correlation. The correlations were generally higher in upper grades.

Authors
Hecht E, Vogt TM
Title
Marijuana smoking: effect on expired air carbon monoxide levels.
Source
International Journal of the Addictions
Date
1985 Feb
Issue
20(2)
Pages
353-61
Abstract
A group of regular marijuana smokers was given expired air carbon monoxide (CO) tests before and after smoking low-dose, high-dose, and placebo marijuana cigarettes. Expired air CO doubled following smoking. There were no significant differences in CO levels in the different dose categories. Studies of the effects of marijuana on the body should attempt to separate effects of the drug from the effects that are secondary to the method of intake.

Authors
Gong H Jr, Tashkin DP, Simmons MS, Calvarese B, Shapiro BJ
Title
Acute and subacute bronchial effects of oral cannabinoids.
Source
Clinical Pharmacology & Therapeutics
Date
1984 Jan
Issue
35(1)
Pages
26-32
Abstract
The bronchodilating activity of oral cannabinoids was evaluated in three double-blind experiments that involved the study of dose-response and interactive relationships and the potential development of tolerance. Data indicated that delta 8-tetrahydrocannabinol (delta 8-THC), cannabinol (CBN), and cannabidiol (CBD) in maximal doses of 75 mg, 1200 mg, and 1200 mg, respectively, did not induce significant dose-related physiologic effects in experienced marijuana smokers. delta 8-THC (75 mg) was, however, associated with bronchodilation, tachycardia, and peak highs less than that after delta 9-tetrahydrocannabinol (delta 9-THC). The combinations of CBN and CBD with low-dose delta 9-THC (5 mg) did not induce significant bronchodilation but did exert interactive effects on heart rate and "high." A 20-day study of daily delta 9-THC (20 mg), CBN (600 mg), and CBD (1200 mg) did not indicate tolerance or reverse tolerance to any drug. We conclude that delta 9-THC and, to a lesser extent, delta 8-THC, have acute bronchodilator activity but that CBN, CBD, and their combinations do not provide effective bronchodilation. The daily use of delta 9-THC was not associated with clinical tolerance.

Authors
Hernandez MJ, Martinez F, Blair HT, Miller WC
Title
Airway response to inhaled histamine in asymptomatic long-term marijuana smokers.
Source
Journal of Allergy & Clinical Immunology
Date
1981 Feb
Issue
67(2)
Pages
153-5
Abstract
Bronchial challenge with histamine was used to assess bronchial reactivity in asymptomatic individuals who were long-term social smokers of marijuana. Their reactivity was compared to that of nonsmokers and asthmatics. Spirometry results were normal in the marijuana users. There was no significant difference in bronchial reactivity between marijuana smokers and nonsmoking controls, whereas the asthmatics demonstrated the expected hyperreactivity. These observations suggest that customary social use of marijuana may not produce abnormalities in airway function detectable by spirometry or bronchoprovocation.

Authors
Slikker W Jr, Paule MG, Ali SF, Scallet AC, Bailey JR
Title
Chronic marijuana smoke exposure in the rhesus monkey. I. Plasma cannabinoid and blood carboxyhemoglobin concentrations and clinical chemistry parameters.
Source
Fundamental & Applied Toxicology
Date
1991 Aug
Issue
17(2)
Pages
321-34
Abstract
This report is the first in a series about a large multidisciplinary study designed to determine whether chronic marijuana (MJ) smoke exposure results in residual behavioral and/or neuropathological alterations in the rhesus monkey. Prior to the initiation of a year of chronic MJ smoke exposure, 64 periadolescent male rhesus monkeys were trained for 1 year to perform five operant behavioral tasks and then divided, according to their performance in these tasks, into four exposure groups (n = 15-16/group): (1) a high dose (HI) group, exposed 7 days/week to the smoke of one standard MJ cigarette; (2) a low dose (LO) group, exposed on weekend days only to the smoke of a standard MJ cigarette; (3) an extracted MJ cigarette (EX) group, exposed 7 days/week to the smoke of one ethanol-extracted MJ cigarette; and (4) a sham group (SH), exposed 7 days/week to sham exposure conditions. Daily exposures for 1 year were accomplished using a mask that covered the subjects' nose and mouth. Average body weights (initially 3.7 +/- 0.5 kg, mean +/- SD) and rates of weight gain (approximately 0.1 kg/month) were the same for all groups throughout the entire experiment. During the first week of exposure, plasma concentrations of delta-9-tetrahydrocannabinol and 11-nor-9-carboxy-THC in the HI group were 59 +/- 7 (mean +/- SE) and 5.5 +/- 1.5 ng/ml, respectively, 45 min after MJ smoke administration and did not change significantly at similar times after exposure throughout the remainder of the year. Whole blood carboxyhemoglobin levels increased to approximately 13% 1 min after exposure to smoke in either the MJ or the EX groups. Comparison of blood chemistry and hematology values before, during, and after exposure indicated no differences for most parameters. During exposure, lymphocytes, alkaline phosphatase and gamma-glutamyl transferase were depressed in the HI group compared to in the SH group. During exposure, aspartate aminotransferase was elevated for both the HI and EX groups, suggesting a general effect of smoke exposure. Because these effects were transient and remained within the range of reported normal values, these data indicate that long-term, experimental exposure to MJ smoke is feasible and does not compromise the general health of the rhesus monkey.