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- Red Wine (Vitis vinifera, Vitaceae)
- Diabetes
- Blood Pressure
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Date:
11-13-2015 | HC# 101551-532
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Re: Moderate Red Wine Consumption May Lower Mean 24-Hour Blood Pressure and Pulse Pressure in Patients with Type 2 Diabetes with Rapid Ethanol Metabolism Genotype
Gepner
Y, Henkin Y, Schwarzfuchs D, et al. Differential effect of initiating moderate
red wine consumption on 24-h blood pressure by alcohol dehydrogenase genotypes:
Randomized trial in type 2 diabetes. Am J
Hypertens. August 1, 2015; [epub ahead of print]. doi: 10.1093/ajh/hpv126.
One-quarter
of adults in the world's industrialized countries have hypertension (elevated
blood pressure). Observational studies show that heavy alcohol intake (definition
not provided) is associated with hypertension. However, the effect of moderate
alcohol intake on hypertension is inconclusive but it may reduce cardiovascular
risk in patients with type 2 diabetes. Ethanol is metabolized by hepatic class
1 alcohol dehydrogenase (ADH1B). A genetic variant of ADH1B called rs1229984
has an increased reaction rate. The purpose of this randomized study was to
evaluate the effect of 6 months of moderate red wine (Vitis vinifera, Vitaceae]) consumption on blood pressure dynamics
in patients with type 2 diabetes who had previously abstained from alcohol.
This
is a sub-analysis of the CaArdiovaSCulAr Diabetes & Ethanol (CASCADE)
study. The CASCADE sub-study was conducted at the Nuclear Research Center Negev,
Dimona, Israel, and Ben-Gurion University-Soroka Medical Center, Beersheba,
Israel. The CASCADE study included 224 patients with type 2 diabetes who
received either mineral water, white wine, or dry red wine 150 mL/dinner for 2
years. This sub-study (n = 54; mean age, 57 years) included only the patients from
the Nuclear Research Center Negev who received mineral water (Mey-Eden; provided
by Eden Springs Ltd; Golan Heights, Israel) or dry red wine (provided by Golan
Heights Winery; Golan Heights, Israel) for 6 months. The wine and water were
provided to the patients by the study administrators. The red wine contained
14.2% alcohol by volume and 270.1 mg gallic acid equivalents total phenols.
Patients
included in the CASCADE study were 40-75 years old, diagnosed with type 2
diabetes according to the American Diabetes Association criteria, abstained
from alcohol (≤ 1 drink/week), were nonsmokers, were clinically stable, and
would drink wine if assigned. Excluded patients had hemoglobin A1c < 6.4% or
> 10%; had > 2 daily injections of insulin or used an insulin pump; had fasting
serum triglycerides ≥ 400 mg/dL; had serum creatinine > 2 mg/dL; had liver
dysfunction (defined as ≥ 3-fold increase in serum alanine aminotransferase
and/or aspartate aminotransferase); had severe diabetic complications; had autonomic
neuropathy manifesting as postural hypotension or hypoglycemia unawareness; used
medications that might interact with moderate alcohol consumption; had active
cancer or chemotherapy treatment in the past 3 years; had major illness that
may cause hospitalization; had a high potential for addictive behavior or a
family history of addiction or alcohol abuse; were women with first-degree
relatives with breast cancer; or were pregnant or lactating women.
Ambulatory
blood pressure was measured at baseline and 6 months. Diastolic and systolic
blood pressures were measured, starting the morning the patient was fitted with
the blood pressure cuff, and every 30 minutes during the day and every 60
minutes at night for 24 hours. All patients were told to eat a Mediterranean
diet with unrestricted calories. The recommended diet was high in vegetables
and low in red meat, and contained no more than 35% of calories from fat (mainly
olive [Olea europaea, Oleaceae] oil
and nuts). Blood was drawn for genotyping of the homozygous ADH1B*1 and ADH1B*2
variants and heterozygotes.
At
6 months, 92% of the patients remained in the study. Compliance in the wine
group was 76.0% and compliance in the water group was 80.9%. A total of 61% of
patients at baseline had hypertension, and 35% were taking antihypertensive
therapy. The majority (85%) of patients were men. At 6 months, both groups had
a mean weight loss of 1.3 kg (2.9 lbs). The changes in weight did not correlate
with blood pressure changes. The average 24-hour blood pressure was not
significantly different from baseline or between groups at 6 months. However,
there was a transient decrease in blood pressure in the wine group at midnight
(mean systolic blood pressure decreased 10.6 mmHg and diastolic blood pressure
decreased 7.7 mmHg) and 7-9 am (the morning after consuming the wine, mean
systolic blood pressure decreased 6.2 mmHg). In contrast, the water group had
increased blood pressure at midnight (systolic blood pressure increased 2.3
mmHg and diastolic blood pressure increased 0.7 mmHg) and in the morning
(systolic blood pressure increased 5.6 mmHg), which, for systolic blood pressure,
was significantly greater than the wine group at midnight (P = 0.03) and in the
morning (P = 0.014). Accordingly, the wine group also had a significant
decrease in pulse pressure in the morning (P = 0.032). Users of
antihypertensive medications had a greater decrease in hypertension at those 2
times compared with non-users (statistical significance not reported). Patients
who were homozygous for the fast ethanol metabolism gene (ADH1B*2) had a significant
decrease in mean 24-hour systolic blood pressure and pulse pressure compared
with non-fast metabolizers (systolic blood pressure, P = 0.002, decrease of 8
mmHg vs. increase of 3.7 mmHg, respectively; pulse pressure, P = 0.032,
decrease of 3.8 mmHg vs. increase of 1.2 mmHg, respectively).
The
authors conclude that daily moderate red wine consumption did not affect 24-hour
blood pressure in this study setting of patients with type 2 diabetes. However,
there is a potential of a transient decrease at certain time intervals. Also,
fast ethanol metabolizers, but not slow metabolizers, had a significant
decrease in average 24-hour blood pressure. A limitation of this study is that
it consisted mostly of men. Another limitation was the size of the subgroup
analyses, e.g., there was a small population for the genetic variant analysis,
which had n = 12 in the slow-metabolizer group and n = 9 in the fast-metabolizer
group; also, the number of patients who were taking antihypertensive
medications was only 35% of the total population. Because of these limitations,
the authors acknowledge that the study can be used only to generate hypotheses
rather than generate firm conclusions. The clinical importance of the
wine-associated transient decrease in blood pressure at midnight and in the
morning is unknown. No conflicts of interest were reported.
—Heather S. Oliff,
PhD
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