New York University School of Medicine

Maternal Prenatal Smoking and Hearing Loss Among Adolescents.

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ABSTRACT

Importance  Although smoking and secondhand smoke exposure are associated with sensorineural hearing loss (SNHL) in children and adults, the possible association between prenatal smoke exposure and hearing loss has not been investigated despite the fact that more than 12% of US children experience such prenatal exposure each year.

Objective  To investigate whether exposure to prenatal tobacco smoke is independently associated with SNHL in adolescents.

Design  Cross-sectional data were examined for 964 adolescents aged 12 to 15 years from the National Health and Nutrition Examination Survey 2005-2006.

Participants  Participants underwent standardized audiometric testing, and serum cotinine levels and self-reports were used to identify adolescents exposed to secondhand smoke or active smokers.

Main Outcomes and Measures  Prenatal exposure was defined as an affirmative parental response to, “Did [Sample Person’s Name] biological mother smoke at any time while she was pregnant with [him/her]?” Sensorineural hearing loss was defined as an average pure-tone hearing level more than 15 dB for 0.5, 1, and 2 kHz (low frequency) and 3, 4, 6, and 8 kHz (high frequency).

Results  Parental responses affirmed prenatal smoke exposure in 16.2% of 964 adolescents. Prenatal smoke exposure was associated with elevated pure-tone hearing thresholds at 2 and 6 kHz (P < .05), a higher rate of unilateral low-frequency SNHL (17.6% vs 7.1%; P < .05) in bivariate analyses, and a 2.6-fold increased odds of having unilateral low-frequency SNHL in multivariate analyses (95% CI, 1.1-6.4) after controlling for multiple hearing-related covariates.

Conclusions and Relevance  Prenatal smoke exposure is independently associated with higher pure-tone hearing thresholds and an almost 3-fold increase in the odds of unilateral low-frequency hearing loss among adolescents. These novel findings suggest that in utero exposure to tobacco smoke may be injurious to the auditory system.

Source: JAMA

Beta Blockers of No Use in Stable CAD Patients.

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New registry data indicate that beta blockers do not appear to be of any benefit in three distinct groups of stable outpatients: those with coronary artery disease (CAD) but no history of MI; those with a remote history of MI (one year or more); and those with coronary risk factors only [1].

Lead author Dr Sripal Bangalore (New York University School of Medicine, NY) told heartwire that the evidence for beta-blocker use has mainly been based on old post-MI trials that antedate modern reperfusion or medical therapy and heart-failure trials. People have extrapolated from these trials and assumed that the drugs are also beneficial in those with CAD and even those with just risk factors for CAD, he says, but it is not known if this is justified. Bangalore and colleagues decided to investigate further; they report their findings in the Journal of the American Medical Association, published online October 2, 2012.

Whether they used beta blockers or not in each of these three distinct patient cohorts, we did not see an association with reduced CV events, even in the prior-MI group.

“What we found was pretty interesting. Whether they used beta blockers or not in each of these three distinct patient cohorts, we did not see an association with reduced CV events, even in the prior-MI group. And for some of the outcomes, being on a beta blocker was associated with worse outcomes; for example, there was an increased risk of the primary composite end point–CV death, nonfatal MI, or nonfatal stroke–in patients with just risk factors but no CAD,” he notes.

He says that the answer to how long a patient should continue to take a beta blocker after an acute MI is not really known: “As of now, we don’t have enough data to answer this. If a patient after a year [following MI] can no longer tolerate beta blockers for any reason, and they don’t have heart failure, the data would suggest there is no harm in stopping. If they do have heart failure, however, I would be more inclined to push them a bit further and say, ‘This is a great medication; it saves lives.’ ”

To this end, he stresses that “it is important to understand what this study is not about. It’s definitely not about patients who come in after an acute MI or those who have HF–we know there is plenty of data to suggest that beta blockers are beneficial in HF–and also it’s not about patients who are on a beta blocker for any other reason, be that for arrhythmias or migraine prophylaxis.”

REACH Registry: Data in Almost 45,000 Patients Show Mostly No Benefit

Bangalore and colleagues analyzed data from the Reduction of Atherothrombosis for Continued Health (REACH) registry of 44 708 participants, 14 043 (31%) of whom had prior MI, 12 012 (27%) had documented CAD but without MI, and 18 653 (42%) had CAD risk factors only.

The primary study outcome was a composite of CV death, nonfatal MI, or nonfatal stroke. The secondary outcome was the primary outcome plus hospitalization for atherothrombotic events or a revascularization procedure; and there were a number of tertiary outcomes. Overall median follow-up was 44 months.

Researchers found that event rates were not significantly different in patients with vs those without beta-blocker use for any of the outcomes tested, even in the prior-MI cohort (16.9% vs 18.6%; hazard ratio [HR] 0.90, p=0.14).

In the CAD-without-MI group alone, rates of the primary end point were not significantly different among those with vs those without beta-blocker use (12.9% vs 13.6%; HR 0.92, p=0.31). And for the secondary end point in this patient group, outcomes were actually worse among those who used beta blockers compared with those who didn’t (OR 1.14, p=0.01); this was also the case for the tertiary outcome of hospitalization (OR 1.17, p=0.01).

The same applied to the cohort with risk factors alone, in which rates of the primary end point were higher among those who used beta blockers than those who didn’t (14.2% vs 12.1%; HR 1.18, p=0.02), as were rates of the secondary outcome (22.0% vs 20.2%; OR 1.12, p=0.04), but not the tertiary outcomes of MI and stroke.

Randomized Clinical Trials Needed to Define Subgroups of CAD Patients Who Will Benefit

Bangalore says there is somewhat of a disconnect between what current guidelines recommend–which is broadly in line with what he and his colleagues found–and what doctors on the ground are actually doing.

The most recent American Heart Association guidance on secondary prevention, for example, gave beta blockers only a class IIa recommendation for longer-term therapy and a class IIb recommendation for patients with coronary or other vascular disease, note he and his colleagues. And the latest European Society of Cardiology guidelines recommend long-term beta-blocker therapy only in patients with reduced left ventricular systolic dysfunction (class I), he says.

The message is we do need randomized trials in this era of modern medical and reperfusion therapy, even in patients with prior MI, to actually define who is best for beta-blocker therapy and to identify the optimal duration of treatment.

“Though the guidelines are kind of aligned with what we are showing, in practice that’s not true. It’s common to see beta blockers being prescribed because of the perception that they are perhaps beneficial. But we should be extra careful in making those extrapolations,” he told heartwire .

“There are a lot of patients who have had even a remote MI and who are still on beta blockers. And they are prescribed even for people who have had PCI and CABG but who have not had an MI,” he notes. And he adds that this drug class is still widely used for high blood pressure despite the fact that it has been downgraded by many hypertension societies to a fourth-line agent for the treatment of this condition.

“The message is we do need randomized trials in this era of modern medical and reperfusion therapy, even in patients with prior MI, to actually define who is best for beta-blocker therapy and to identify the optimal duration of treatment,” he concludes.

Source: Mescape.com

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Diabetes: Is It Now a Surgical Disease?

Hi. I’m Dr. Henry Black. I’m Clinical Professor of Internal Medicine at the New York University School of Medicine, a member of the Center for the Prevention of Cardiovascular Disease at that institution, and former President of the American Society of Hypertension. If I had said 10 years ago that diabetes was going to become a surgical disease, I think I would have been laughed off the stage; yet, increasing evidence shows that this may not be a completely far-out idea. Two very small but important studies were recently published in the New England Journal of Medicine, one from the Cleveland Clinic[1] and one from Italy.[2] Both of them looked at people with high body mass index (BMI). BMIs were somewhat lower in the Cleveland Clinic study, with an average of about 34; in the Italian study, the average BMI was 45 and the average weight was about 300 lb. The investigators compared intensive medical therapy given by experts with surgical approaches. The Cleveland study looked at sleeve gastrectomies and bypass, and the Italian study compared intensive medical therapy (including exercise, which wasn’t specifically done in the Cleveland Clinic study) with ileojejunostomy and bypass.

The results were strikingly similar. These were small studies; there were about 20 patients per group in the Italian study and about 50 per group in the Cleveland Clinic study. They both showed dramatic reductions in weight that were generally seen within 3 months. Patients were followed for 1 year in Cleveland and 2 years in the Italian study, and a significant improvement in all the metabolic parameters that we follow in diabetics — including lipids, hemoglobin A1c, and even blood pressure — happened before the weight loss was completely achieved. Patients with jejunostomy and bypass were able to be taken off diabetic medicines and, in some cases, lipid-lowering therapy, something that was never seen in patients who received only medical therapy.

This implies that we have to start thinking about using one of these techniques sooner until we can find a way to deliver behavioral therapy that people will follow. There is no question that some things in this study are not necessarily generalizable. The Cleveland Clinic study had a single surgeon and the Italian study had teams that were well trained. We don’t know whether this is going to translate into every surgeon in every community, but it is an important thing to bear in mind. We also have to do some assessment of outcomes.

These were very small studies. Reoperations were necessary in both studies, but there were no fatalities. BMIs went to under 30 in the Italian study and were similar in the Cleveland Clinic study. It’s time for those of us who see obese patients with diabetes to start talking about this as something that is getting close to being proven. An old Swedish study[3] showed outcome improvement with what was more complicated surgery than we are doing now. Also, how are we going to better deliver behavioral therapy? This is something the public needs to know and needs to know now. Thank you.

References

  1. Schauer PR, Kashyap SR, Wolski K, et al. Bariatric surgery versus intensive medical therapy in obese patients with diabetes. N Engl J Med. 2012;366:1567-1576. Abstract
  2. Mingrone G, Panunzi S, De Gaetano A, et al. Bariatric surgery versus conventional medical therapy for type 2 diabetes. N Engl J Med. 2012;366:1577-1585. Abstract
  3. Sjostrom L, Lindroos AK, Peltonen M, et al; Swedish Obese Subjects Study Scientific Group. Lifestyle, diabetes, and cardiovascular risk factors 10 years after bariatric surgery. N Engl J Med. 2004;351:2683-2693. Abstract

Source: Medscape.com