Tobacco smoking and associated factors in human immunodeficiency virus-infected adults attending human immunodeficiency virus clinics in the Western Cape province, South Africa.

BACKGROUND: In human immunodeficiency virus (HIV)-infected individuals, smoking increases both HIV-related and non-related negative health outcomes. OBJECTIVES: To determine the prevalence and associations of smoking in HIV-infected adults receiving antiretroviral therapy at public healthcare facilities in the Western Cape province, South Africa. METHODS: Participants comprised 827 HIV-infected patients, who were > 18 years old and randomly selected from 17 HIV healthcare facilities. Self-reported smoking was defined as smoking tobacco daily or occasionally. Serum cotinine levels confirmed smoking status. RESULTS: Participants included 653 women and 174 men. The overall mean (standard deviation [SD]) age was 38.9 (9.0) years, 41.1 (8.9) years in men and 37.7 (8.9) years in women (p ˂ 0.001). The median diagnosed duration of HIV infection was 5 years. Smoking prevalence was 22% overall, and 26% in men and 21% in women (p = 0.022). The prevalence of former smoking was 14%. About a quarter of participants (185/751; 24.6%) had serum cotinine levels > 100 mg/mL with similar prevalence of high levels across smoking status (current smokers: 27.2%, former smokers: 29.6% and never smokers: 22.7%, p = 0.564) and did not vary by age, gender, cluster of differentiation 4 count or known duration of HIV. There was no agreement between self-reports and cotinine levels at ranking smoking exposure. CONCLUSIONS: Prevalence of current tobacco smoking in HIV-infected patients on care is within the range of that in the general population. This highlights the potential missed opportunity or challenges of co-addressing smoking cessation in individuals already in regular contact with the health system.

Prevalence, detection, treatment, and control of hypertension in human immunodeficiency virus (HIV)-infected patients attending HIV clinics in the Western Cape Province, South Africa.

Representative data on the prevalence of hypertension, a major non-infectious comorbidity in human immunodeficiency virus (HIV)-infected people, is lacking. We assessed the prevalence, awareness, treatment, and control, as well as determinants of hypertension in HIV-infected adults in South Africa.A cross-sectional survey was conducted between March 2014 and February 2015 in a random sample of 827 adults (77.7% women), receiving care for HIV infection at 17 randomly selected public health facilities across the Western Cape Province, South Africa.Participants' mean age was 38.4 years overall, 41.1 years in men and 37.7 years in women (P < .001). The median diagnosed duration of HIV infection, similar in men and women, was 5 years, while the median CD4 count was 381 cell/mm. Age-standardized prevalence, awareness, treatment, and control of hypertension was 38.6% (95% CI: 34.3-42.9), 46.3% (37.7-54.9), 76.4% (61.1-91.7), and 81.1% (62.9-99.3) in the overall sample; 40.0% (30.0-50.0), 36.3% (17.6-55.0), 84.8% (38.3-131.3), and 87.0% (38.2-135.8) in men; and 37.7% (32.9-42.5), 48.9% (38.9-58.9), 75.8% (59.1-92.5), and 81.3% (61.1-101.5) in women. Age and education were weakly associated with prevalent hypertension, while CD4 count and diagnosed duration of HIV infection were unrelated to prevalent hypertension.Similar to reports in the general population in this and other countries in the region, hypertension is frequent in young South Africans receiving care for HIV infection, with similar diagnostic and treatment gaps. Integrating HIV and non-communicable disease (NCD) prevention and care will, at least in part, reduce missed opportunities for implementing NCD prevention in HIV-infected people in care.

The effect of grand maternal nicotine exposure during gestation and lactation on lung integrity of the F2 generation.

BACKGROUND: Maternal nicotine exposure during gestation and lactation adversely affects lung development in the offspring. It has been suggested that the "program" that control long-term maintenance of the structural integrity of the lung may be compromised. The aim of the study was to establish whether the effect of grand-maternal nicotine exposure during gestation and lactation can be transferred to the F2 generation. METHODS: After mating, rats were randomly divided into two groups (F0). One group received nicotine (1 mg/kg body weight/day). The controls receive saline. Body weight (BW), lung volume (Lv), linear intercept (Lm), alveolar wall thickness (Tsept), senescent and proliferating cell numbers were used to evaluate changes in the lung structure of the offspring (F1). The F1 generation was divided into four groups, namely, (1) control (F1 males mated with F1 females, (2) NmCf (F1 nicotine exposed male mated with F1 control female), (3) NfCm (F1 nicotine exposed female mated with F1 control male), and (4) NmNf (F1 male exposed to nicotine mated with F1 female also exposed to nicotine). The F1 nicotine exposed males and females were exposed to nicotine via the placenta and mother's milk (F0 generation) only. The F2 progeny was never exposed to nicotine. DISCUSSION: Grand-maternal nicotine (F0) resulted in parenchymal deterioration and emphysema in the F2 progeny due to increased numbers of premature senescent cells together with a slower cell proliferation. The transfer of premature aging characteristics from the F1 progeny to the F2 progeny is via the male and female germ cell line. CONCLUSION: Grand-maternal nicotine exposure induces structural changes in the lungs of the F2 generation that resembled premature aging.

Tobacco smoking: patterns, health consequences for adults, and the long-term health of the offspring.

Tobacco use started several centuries ago and increased markedly after the invention of the cigarette making machine. Once people start smoking they find it difficult to quit the habit. This is due to the addictive effect of nicotine in tobacco smoke. Various epidemiologic and laboratory studies clearly showed that smoking is associated with various diseases such as heart diseases, asthma and emphysema and the associated increase in morbidity and mortality of smokers. Several studies implicate nicotine as the causative factor in tobacco smoke. Apart from nicotine, various carcinogens also occur in tobacco smoke resulting in an increase in the incidence of cancer in smokers. While the smoking habit is decreasing in developed countries, tobacco use increases in the developing countries. Smoking prevalence is also highest in poor communities and amongst those with low education levels. It is important to note that, although ther is a decline in the number of smokers in the developed countries, there is a three to four decades lag between the peak in smoking prevalence and the subsequent peak in smoking related mortality. It has been shown that maternal smoking induces respiratory diseases in the offspring. There is also evidence that parental smoking may program the offspring to develop certain diseases later in life. Various studies showed that maternal nicotine exposure during pregnancy and lactation via tobacco smoke of nicotine replacement therapy (NRT), program the offspring to develop compromised lung structure later in life with the consequent compromised lung function. This implies that NRT is not an option to assist pregnant or lactating smokers to quit the habit. Even paternal smoking may have an adverse effect on the health of the offspring since it has been shown that 2nd and 3rd hand smoking have adverse health consequences for those exposed to it.