Metabolic Syndrome Prevalence in Students Attending West Virginia University

Metabolic Syndrome (MetS) contributes to the development of cardiovascular disease (CVD) and type II diabetes mellitus (T2DM). Few studies have investigated the MetS risk of young adults (18–24 years old). This study aims to determine the prevalence of MetS in Appalachian and non-Appalachian students attending West Virginia University. The prevalence of MetS in this population was 15%. There was no difference in MetS prevalence between male students and female students (18.8% males and 11.1% females, p-value = 0.30), or between Appalachian students and non-Appalachian students (17.7% Appalachian and 10.0% non-Appalachian, p-value = 0.33). Identification of MetS early in life is needed in order to reduce the onset of chronic disease. Therefore, implementing a screening process to identify at-risk young adults will help tailor more effective behavioral interventions.

Few studies have investigated the MetS risk of young adults [1,7]. However, CHD is the second leading cause of death in this age group [1], suggesting the need to detect for early warning signs of this disease. Thus, screening for MetS in this population can be beneficial in identifying those at higher risk from CHD development.
The prevalence of obesity has reached epidemic proportions within the Appalachian region [8,9], which extends from Northeastern Mississippi to Southern New York [10], with its epicenter lying entirely within the state of West Virginia (WV) [11]. The Appalachian region is characterized by unhealthy eating behaviors and inactivity, which leads to the increased incidence of chronic disease among this population [10]. Ely et al. recently reported the increased risk of chronic disease, related to excessive weight gain and poor health behaviors, is not realistically perceived by Appalachian residents [12]. Inadequate transportation [8], poverty [13,14], lack of access to medical care [8,13] and lack of insurance are additional factors directly impacting the health disparities of individuals in this region [13]. In 2009, Appalachians were 40% more likely to have diabetes than non-Appalachians [8]. In 2011, the prevalence of diagnosed diabetes was 9.8% within the Appalachian region and 7.8% in the rest of the nation [15].
In Ohio and WV, 25.6% of normal-weight adults display two or more of the following cardio-metabolic abnormalities: High blood pressure, elevated TG, decreased HDL, elevated FBG, and insulin resistance (IR) [9]. An estimated 50% of adults and adolescents residing in WV are obese by Body Mass Index (BMI) classification: Normal weight (18.5-24.9 kg/m 2 ), overweight (25.0-29.9 kg/m 2 ), and obese (≥30 kg/m 2 ) [8]. WV has reported the highest age-adjusted incidence of diabetes as well as the highest diabetes-related deaths in the nation [8].
As many as 30% to 35% of college students are reported to be overweight or obese [7,16,17] and obesity rates have increased most rapidly among individuals 18-29 years old with some college education [7,[16][17][18]. First year college students gain weight up to 11 times faster than adults [1]. This increase in weight increases the likelihood of developing MetS risk criteria [1,7]. Increased weight and obesity, particularly abdominal obesity, is directly related to the development of MetS and cardiovascular risk [5,19]. Screening for abnormal lipid values is recommended starting at 20 years old [1]. Therefore, colleges and universities serve as important settings for the surveillance, prevention, and intervention of hyperlipidemia, MetS, and CHD [20]. Targeting young adults that choose to attend post-secondary institutions could aid in the prevention of CVD, CHD, and T2DM since many young people develop a clearer sense of self and establish life-long behavior patterns during college [21].
In the same studies, 5.7% [16], 7.4% [1], and 14.3% [17] of college students had two components of MetS. In the Southern US, 43% of students presented with at least one component of MetS [7]. When the sample was limited to students who were overweight or obese, the rate of at least one component of MetS rose to 82% [7]. Fernandes et al. found that 3.7% of college students presented with three or more MetS risk components [1]. The latest study, conducted by Morrell et al., reported 77.2% of males and 53.8% of females exhibited at least one component of MetS [22]. MetS was present in 9.9% of males and 3.0% females [22]. Not only do overweight [1,17,22] and obese [1,22] students present with MetS [1] and more MetS risk factors [17,22] than normal weight students, but obese students exhibit significantly more MetS criteria than overweight students [22]. Overall, male students were more likely to exhibit MetS risk criteria than female students [16] and the most prevalent MetS risk component was low HDL [16,17,22], then FBG, and TG in decreasing order [16,17].
Due to the overall poorer health and higher risk factors in the Appalachian region discussed previously, young adults in these regions are an important, yet overlooked, demographic to study their MetS risk. This study aims to determine the prevalence of MetS in Appalachian and non-Appalachian students attending West Virginia University.

Method
The measures for this cross-sectional study were collected in January and February 2011. Subjects were recruited from West Virginia University. The Institutional Review Board (IRB) at West Virginia University approved the study protocol in advance of commencement.

Subjects
Subjects (n = 93) were recruited via posted advertisements, in-class announcements, and recruitment E-mails sent by instructors and campus administrators. Students were eligible if they were 18-24 years old; had a BMI >18.5 kg/m 2 ; were a first, second, or third year undergraduate; had regular access to the Internet; were free from life-threatening illnesses or other health conditions; were not pregnant; had no diet-and/or activity-related medical restrictions that prevented accurate physical assessments; they were not currently enrolled in a nutrition course; and they were not majoring in nutrition, exercise science, or health-promotion.

Measures
Demographics (e.g., ethnicity), health-related practices (e.g., cigarette and medication use), and Appalachian identity (from self-reported home address) were collected via questionnaire. All clinical, anthropometric, and biochemical measurements were performed by trained staff. Measurements were collected in the fasted state (>8 h) after participants had changed into light clothing and voided. All female participants were screened for pregnancy.
Systolic and diastolic pressures were measured in triplicate (with 2 min rest intervals) in the left arm midpoint between the shoulder and elbow via an automated cuff (HEM-907XL, Omron; Lake Forest, IL, USA) after subjects were rested in a seated position for five minutes. Height was measured by a wall-mounted, digital stadiometer (Heightronic 235, Quick Medical; Issaquah, WA, USA) with subjects looking straight ahead and maintaining four points of contact (heels, buttocks, shoulder blades, and back of the head) with the wall. Weight was measured by a digital scale (300A, Tanita; Arlington Heights, IL, USA) which also calculated body mass index (BMI) from height input. Waist circumference (WC) was measured in duplicate at the top of the iliac crest to the nearest 0.1 cm using a non-stretchable tape measure with tensometer (Gulick, Creative Health Products; Plymouth, MI, USA). Neck circumference (NC) was measured in duplicate at the point below the larynx to the nearest 0.1 cm with the tape measure used for waist circumference.
Biochemical measures were obtained via finger-stick using a desktop LDX Cholestech Analyzer (LDX, Cholestech; San Diego, CA, USA) following manufacturer's instructions. Analyses for high-density lipoprotein cholesterol (HDL), triglycerides (TG), fasting blood glucose (FBG), C-Reactive Protein (CRP), and low-density lipoprotein cholesterol (LDL) were conducted via direct enzymatic methods by the analyzer. The Cholestech LDX analyzer has been validated for precision and accuracy against traditional laboratory techniques and offers logistical convenience for large-scale health assessments [23]. Hemoglobin A1C (HbA1C) was measured using DCA Vantage. Hemoglobin (Hgb) and hematocrit (Hct) weer measured using HemoPoint A2 (Boerne, TX, USA).
Student t-tests were performed to identify differences in anthropometric and biochemical measures between males and females and Appalachians and non-Appalachians. Chi-square tests were used to identify associations between prevalence rates of individual components and MetS, and the following subject characteristics: Male, female, Appalachian, and non-Appalachian. The Mantel-Haenszel test was used to assess the ordinal trend between males and females as well as Appalachians and non-Appalachians. Statistical significance was defined as a p-value < 0.05. Statistical analyses were performed using SAS 9.3 statistical software (SAS Institute Inc., Cary, NC, USA).
Twenty-eight percent of students presented with zero components of MetS; 33.1% with one component; and 23.7% with two components ( Table 6). The prevalence of MetS in this population was 15%. Specifically, 10.8% presented with three components, 3.2% with four components, and 1.1% with all five components of MetS (Table 6). There was no significant difference between male and female students in MetS prevalence (p-value = 0.30) or between Appalachian students and non-Appalachian students (p-value = 0.33) ( Table 6). There were no significant associations between the number of MetS components by sex (p = 0.28) or by Appalachian identity (p = 0.78) ( Table 6).

Discussion
The prevalence of MetS students at West Virginia University (15.1%) is much higher than what has been reported in previous studies (0.6% to 10%) of MetS prevalence in college students [1,7,16,17,22]. Previous studies have reported the prevalence of MetS in young adults to be 0.6% [17] and 1.3% [16] in the Midwest region, 3.7% [1] in the Northeast region and up to 10% in the Southeast region. Additionally, in the Northeast 7% [1]; and in the Midwest 14% [17] and 6% [16] of students had two MetS risk factors, while 24% had two MetS risk factors in the Appalachian region. Showing that Appalachia has a markedly higher incidence of MetS [1,7,16,17,22] and MetS risk factors [1,16,17] than other regions of the US.
In a direct comparison of West Virginia University students to students from two Northeast universities (NEU1 and NEU2), the prevalence of MetS was significantly greater at WVU than both NEU1 (p-value < 0.05) and NEU2 (p-value < 0.05) [24]. The surprising lack of a significant difference between Appalachian and non-Appalachian student identity and the higher prevalence of MetS in WVU students suggests that an unidentified factor may be mediating the relationship with higher incidence of MetS in this population. One possible factor is BMI. Upon examining correlations between BMI and MetS components significant relationships were found. Specifically, BMI was significantly correlated with students presenting with at-risk WC (R 2 = 0.86, p < 0.05), low HDL (R 2 = −0.43, p < 0.05), elevated BP (R 2 = 0.29, p < 0.05) and increased TG (R 2 = 0.22, p < 0.05). No correlation was found between BMI and impaired FBG measures.
There are several limitations to this study. First, this was a small sample size of students. While this area of study is important, having a larger sample size would have increased the impact of these results. Overall, there was a generally low prevalence of MetS in this sample. Future work would include a larger sample size to have more impactful results.
These data identify the need for university administrators throughout the nation to implement health initiatives to measure BMI and screen for MetS components in students to prevent the development of chronic disease. Data from such screenings for college students will provide researchers, public health officials, and administrators with information to use to design, tailor, and implement effective interventions to prevent chronic disease progression across various university settings.