Association of traditional risk factors with coronary artery disease in nonagenarians: the primary role of hypertension.

BACKGROUND: Previous studies have shown different relationships between traditional cardiovascular risk factors for coronary artery disease (CAD) in very elderly people. Although new associations with CAD have been reported, there is also evidence of the possibility of new therapeutic strategies for the treatment or prevention of CAD.
DESIGN: This article retrospectively examines the possible association of traditional cardiovascular risk factors with CAD in very elderly people aged >90 years. This study represents the hypothesis that the elderly aged >90 years have a different cardiovascular profile with respect to CAD than patients <90 years old.
METHODS: Data on all patients aged >90 years who received a cardiac catheterization were collected from hospital charts from the Department of Internal Medicine, Saarland University Medical Center, Germany, within the study period of 2004-2013. The cardiovascular risk profiles were compared in patients aged >90 years with and without CAD after cardiac catheterization.
RESULTS: One hundred and six out of 67,976 (0.2%, mean age 91.6±1.8 years, 40 female [37.7%]; 95% confidence interval [CI]: 0.1-0.2), and out of a total of 114 of the very elderly patients, were found to have CAD. From the results of this study, the author could establish only a causal relationship between hypertension and CAD in very elderly people (P=0.005). At best, this is just an association with a higher risk of CAD in this age group. Several studies with similar outcomes are needed to establish causality.
CONCLUSION: This study could find no link between CAD and traditional risk factors, except for hypertension.

Introduction

Coronary artery disease (CAD) is defined in many studies and in the international and national clinical practice guidelines as the manifestation of atherosclerosis in the coronary arteries.1–9 The concept of CAD is not uniformly defined in the literature by all authors. There is also a somewhat broader definition. CAD is caused by a coronary insufficiency that, in addition to atherosclerosis, has numerous other underlying causes, such as inflammation.10–13 Fat, blood clots, connective tissue, and calcium deposits on the blood vessel walls, with an increasing reduction of the vessel cross-section, ultimately results in complete blockage.14–16 This causes impairment of the blood circulation and thus a decreased oxygen supply to the heart muscle. The result is a mismatch between oxygen demand and oxygen supply, which is referred to as ischemia or coronary insufficiency.17

Myocardial ischemia is manifested in various forms. Symptomatic CAD presents as chest pain caused by reversible myocardial ischemia; this is called angina pectoris.18 The likelihood of symptoms increases with the progression of the disease; these include cardiac arrhythmias, heart failure, and acute life-threatening complications such as heart attack and sudden cardiac death.19–23 CAD is manifested clinically as acute coronary syndrome (ACS). The term ACS summarizes the immediately life-threatening stages of coronary heart disease, unstable angina, non–ST-segment elevation myocardial infarction (NSTEMI), and ST-segment elevation myocardial infarction (STEMI).24

CAD is a chronic disease that progresses over a period of years to decades.25 There are well-known risk factors for CAD that the patient cannot influence, such as a genetic predisposition, as well as the age and sex of the patient. Conversely, the risk factors for CAD that the patient can influence are hypercholesterolemia in particular, as well as obesity, tobacco smoking, arterial hypertension, diabetes mellitus, a sedentary lifestyle, and psychosocial factors.26–28 The individual risk factors are perhaps not only additive, but together they disproportionately increase the risk for the occurrence of CAD. The major risk factors for CAD in terms of morbidity and mortality are hypercholesterolemia with tobacco smoking, arterial hypertension, and diabetes mellitus.29–33

Smokers have an increased risk of heart attack, depending on the number of cigarettes smoked daily and the number of years they have smoked.34 There is a linear relationship between blood pressure and the risk for developing CAD. Blood pressure values proportionally increase the risk of the occurrence of CAD with an increase in blood pressure.35 More than half of patients suffering from diabetes mellitus die from CAD; moreover, diabetics have an increased risk of developing CAD compared to nondiabetics.36 A cure – that is, the removal of the cause in the sense of removal of the deposits in the affected vessel walls – is currently not possible, but the increasing deterioration can be delayed or stopped. To accomplish this, there are a number of approaches, ranging from a change in diet to lifestyle change.37 Furthermore, CAD can be treated with medication, therapeutic interventions using cardiac catheterization, and surgically.38

CAD in its acute forms of clinical presentation such as ACS is the most common cause of death in industrialized nations.39

There are reasons for the different risk profile for CAD in very elderly people. The assessment of cardiovascular risk factors for CAD in the elderly may not be as easy; thus, the identification and assessment of risk factors for CAD in the elderly presents something of a challenge. The traditional risk factors for CAD are independently associated with aging.40,41 Moreover, aging is itself a risk factor for CAD.42 The results of the risk profile for CAD in younger people should not be applied to the elderly.42 Elderly people have been historically underrepresented in epidemiological studies evaluating the cardiovascular risk factors for CAD.43

The author conducted the present investigation to better understand all the possible risk factors for CAD in very elderly people aged >90 years. Therefore, the author collected data on all patients of this age with CAD according to the International Classification of Diseases (ICD) from the hospital database at the Department of Internal Medicine, Saarland University Medical Center, Germany. The variety of tested risk factors for CAD in people over 90 years of age were arterial hypertension, diabetes mellitus, hypercholesterolemia, hyperlipidemia, obesity, tobacco smoking, and former smoking. CAD diagnosis was carried out after cardiac catheterization. The risk factors for CAD were compared in patients older than 90 years of age after the exclusion of CAD by performing cardiac catheterization. Only once we have identified the causes of CAD can we develop appropriately tailored therapies for all patients to take precautions against CAD.

Materials and methods

Patients

In this study, the traditional cardiovascular risk factors for CAD were retrospectively examined in patients aged >90 years using hospital chart data at the Department of Internal Medicine, Saarland University Medical Center, with a study period from 2004–2013.

The study population was composed of very elderly patients >90 years of age diagnosed with CAD, and the control group was composed of elderly patients >90 years of age without CAD, as determined after cardiac catheterization. All patients >90 years who were treated at the internal medicine emergency room or in one of the internal departments were included in this study after receiving a cardiac catheterization. Individuals who received the cardiac catheterization of the predicating symptoms of CAD were categorized as having stable angina and ACS.

Definition and diagnosis of CAD

CAD has been defined as a chronic disease of the coronary arteries characterized by the manifestation of atherosclerosis with variable coronary artery stenosis, resulting in myocardial ischemia. CAD symptoms are classified as stable angina and ACS. ACS is a collective term for unstable angina, NSTEMI, and STEMI. The main symptom of coronary insufficiency is angina pectoris; angina pectoris involves localized retrosternal pain triggered by physical and mental stress. It usually subsides within 15 minutes or within 2 minutes after taking nitroglycerin spray. Such chest pain may spread to the neck, lower jaw, shoulder, back, left arm to the fingertips, or the upper abdomen. Unstable angina refers to angina pectoris occurring for the first time, as well as a worsening of symptoms in pain intensity and duration of episodes.

NSTEMI was described for unstable angina and myocardial infarction with an increase of cardiac enzymes such as high-sensitivity cardiac troponin T without ST-segment elevation on electrocardiogram. A 12-lead electrocardiogram was used at rest for the temporary recording of the sum of the electrical activity of the heart for diagnosis of STEMI or cardiac arrhythmias in all patients. Typical ST-segmental change in the electrocardiogram for STEMI was considered ST-segment elevation >0.1 mV in at least one derivation. The diagnosis of CAD was made after cardiac catheterization.

The classification of CAD was performed in each case according to the latest edition of the ICD (I25.11–I25.13) from 2004–2013. CAD injuries were categorized as 1-, 2-, or 3-vessel. Further, examiners visually estimated the degree of stenosis diameter as a percentage of the cardiac catheterization, as per the stenosis morphology classification recommendations of the American College of Cardiology/American Heart Association.44

Risk factors categorization

The author compared the cardiovascular risk factors in accordance with the guidelines of the International Atherosclerosis Society,45 such as arterial hypertension, diabetes mellitus, hypercholesterolemia, hyperlipidemia, obesity, tobacco smoking, and former smoking in very elderly patients aged >90 years with and without CAD (ICD I25.0–I25.10) after completing cardiac catheterization. Arterial hypertension was described as a condition in which the blood pressure of the arterial vascular system is chronically elevated. According to the World Health Organization (WHO),46 hypertension can be diagnosed with a systolic blood pressure of at least 140 mmHg or a diastolic blood pressure of at least 90 mmHg (ICD I10.90). New guidelines have raised the target for treatment of high blood pressure from below 140/90 to below 150/90 for people aged 60 years and older, unless they have diabetes or chronic kidney disease. Manifestation of hypertension was described as a known history of hypertension where the patient has been treated with drugs. The methods of measurement of blood pressure were the indirect method following Riva-Rocci: 24-hour blood pressure measurement, and DINAMAP® blood pressure monitor (GE Healthcare Europe GmbH, Freiburg, Germany).

Diabetes mellitus (ICD E14.90) was diagnosed as a chronic metabolic disease based on an absolute or relative lack of insulin with elevated blood glucose levels when fasting values were >126 mg/dL or occasionally when a measured value >200 mg/dL was detected in the serum of the patients. Blood glucose was determined in the serum of all patients using serum Monovette® 4.7 mL (brown top; SARSTEDT, Nümbrecht, Germany) blood collection system with a multifly blood collection needle.

The determination of blood lipids was carried out after 12 hours of fasting in all patients after blood collection in lithium heparin SARSTEDT Monovette® 4.7 mL (orange top) with a multifly blood collection needle as an enzymatic colorimetric test using the cobas c 701 system (Hoffman-La Roche Ltd., Basel, Switzerland). As hypercholesterolemia (ICD E78.0) is considered a lipid metabolic disorder characterized by elevated blood cholesterol levels of >200 mg/dL, hyperlipidemia (ICD E78.2–E78.3) is mainly diagnosed through elevated triglycerides in the blood plasma of patients. The reference range for hypertriglyceridemia has been specified as >200 mg/dL in blood plasma.

Obesity (ICD E66.99) was defined as excessive growth of adipose tissue in the body. The transition from overweight to obesity was achieved with a body mass index (BMI) of 30 kg/m2 as an adipose tissue type by calculating the body weight in kilograms divided by height in meters squared. Nicotine abuse (ICD F17.1) was designated as the abusive consumption of products that contain nicotine, including cigarettes, cigars, and other tobacco products. The study population was categorized into smokers, former smokers, and nonsmokers. The quantification of tobacco smoking by measuring in terms of packs per year was not considered in this study because the harmful effect of nicotine was not the focus of the research.

Comorbidities

The author analyzed acute and chronic comorbidities as predisposing factors for the development of CAD in elderly people. Comorbidity was considered the presence of one or more additional disorders existing simultaneously with a primary disease. The additional disorder may also be a behavioral or mental disorder. The risk for acute disease after organ groups was compared in patients with and without CAD. All cancer-related diagnoses were included as a separate comorbidity. In addition, the lengths of hospital stays were compared between study and control groups.

Ethics statement

Due to the retrospective nature of the study protocol, the Medical Association of Saarland’s Institutional Review Board waived the need for informed consent.

Statistical analysis

The data were expressed as proportion, mean, and standard deviation wherever appropriate. The author calculated 95% confidence intervals (CIs) for the total number of patients with CAD. Odds ratios (OR) were calculated for cardiovascular risk factors for CAD, sex, and acute and chronic comorbidities. A calculation of the chi-square test for four independent standard normal variables of two probabilities was used to compare the association between cardiovascular risk factors and stable angina, unstable angina, NSTEMI, or STEMI. Fisher’s exact test for four variables of two probabilities was calculated for cardiovascular risk factors in different forms of CAD. The Mann–Whitney test was used to compare the duration of hospital stays between the two groups. The survival rates for the duration of hospital stays for both groups were calculated using the Kaplan–Meier method. All tests were expressed as two-tailed, and a P-value of <0.05 was considered to be statistically significant.

Results

In the hospital database, the author found 67,976 patients who underwent cardiac catheterization at the Department of Internal Medicine, University Hospital of Saarland, Germany, during the study period of 2004–2013. A total of 114 (45 female [39.4%]) patients aged >90 years having had a cardiac catheterization met the inclusion criteria for this trial. A total of 106 of 67,976 (0.2%, 95% CI: 0.1–0.2, mean age 91.6±1.8 years, 40 female [37.7%]) patients aged >90 years had CAD (study group); in eight patients (0.01%, 95% CI: 0–0.02, mean age 90.9±1.1 years, female [62.5%]), CAD was excluded by means of cardiac catheterization (control group). The author found a higher prevalence of CAD in males, but without increased risk (OR: 1.9, 95% CI: 0.4–8.2, P=0.409).

Following the results of this study, the author identified an eight-fold higher cardiovascular risk of developing CAD in patients aged >90 years with arterial hypertension (P=0.005, Table 1). There was a low number of patients with hypercholesterolemia. Statins were prescribed as standard of care for heart attack patients. Not all patients had primary hypertension; there were a few with secondary causes, such as kidney diseases, diabetic nephropathy, hyperthyroidism, benign prostate hyperplasia, etc (Table 2). Very elderly diabetics had three-fold and very elderly former smokers twofold increased risk for the development of CAD, but without a statistically significant difference (Table 1). Both groups were distinguished statistically according to the number of subjects of normal weight, although most of the patients in the study population were not overweight (Table 1).

Table 1

Cardiovascular risk factors in elderly people >90 years of age with and without CAD

Risk factors	CAD (n=106) (%)	Without CAD (n=8) (%)	Odds ratio	95% CI	P-value
Hypertension	89 (84)	3 (37.5)	8.7	1.9–40	0.005
Diabetes	32 (30.2)	1 (12.5)	3.0	0.4–25.6	0.310
Hypercholesterolemia	2 (1.9)	0	0.4	0.02–9.2	0.571
Hyperlipidemia	26 (24.5)	2 (25)	1	0.2–5.1	0.976
Obesity	4 (3.8)	2 (25)	0.1	0.02–0.8	0.026
Smoker	4 (3.8)	0	0.7	0.04–15.1	0.848
Former smoker	11 (10.4)	0	2	0.1–37.8	0.630

Note: Significant P-values are shown in bold.

Abbreviations: CAD, coronary artery disease; CI, confidence interval.

Table 2

Comparison of chronic comorbidities in elderly people aged >90 years with and without CAD

	CAD (n=106) (%)	Without CAD (n=8) (%)	Odds ratio	95% CI	P-value
Cardiovascular disease	n=92	n=8	1.2	0.5–3	0.645
Aneurysm	1 (0.9)	0
Cardiomyopathy	3 (2.8)	0
Carotid stenosis	3 (2.8)	1 (12.5)
Cor pulmonale	6 (5.7)	2 (25)
Hypertensive heart disease	5 (4.7)	1 (12.5)
Pacemaker	12 (11.3)	1 (12.5)
Peripheral arterial occlusive disease	14 (13.2)	0
State after syncope	3 (2.8)	0
Cardiac valvular defect	50 (47.2)	3 (37.5)
Pulmonary disease	n=12	n=2	0.6	0.1–2.7	0.489
Chronic obstructive pulmonary disease	7 (6.6)	2 (25)
Emphysema	2 (1.9)	0
Obstructive sleep apnea syndrome	1 (0.9)	0
State after tuberculosis	2 (1.9)	0
Gastrointestinal diseases	n=37	n=1	4.1	0.5–31.6	0.170
Appendectomy	1 (0.9)	0
Cholecystectomy	14 (13.2)	1 (12.5)
Colonic diverticula	4 (3.8)	0
Gallbladder disease	1 (0.9)	0
Gastric carcinoma	4 (3.8)	0
Liver cysts	1 (0.9)	0
Pancreatic disease	1 (0.9)	0
Splenectomy	1 (0.9)	0
State after bowel surgery	3 (2.8)	0
State after hepatitis	3 (2.8)	0
State after hernia operation	4 (3.8)	0
Kidney disease	n=40	n=3	1.4	0.4–4.9	0.606
Chronic renal failure	25 (23.6)	3 (37.5)
Contracted kidney	1 (0.9)	0
Diabetic nephropathy	3 (2.8)	0
Nephrectomy	3 (2.8)	0
Renal adenoma	2 (1.9)	0
Renal cysts	5 (5.7)	0
State after kidney stones	1 (0.9)	0
Disease of the genitourinary system	n=12	n=2	0.6	0.1–2.7	0.489
Benign prostate hyperplasia	3 (2.8)	1 (12.5)
Hysterectomy	1 (0.9)	0
Prostate cancer	3 (2.8)	1 (12.5)
Prostatectomy	3 (2.8)	0
State after bladder carcinoma	2 (1.9)	0
Thyroid disease	n=4	n=1	0.4	0.04–3.6	0.406
Struma	2 (1.9)	0
Strumectomy	2 (1.9)	1 (12.5)
Nervous system disorders	n=22	n=4	0.5	0.2–1.6	0.246
Chronic lumbago	0	1 (12.5)
Disc herniation	2 (1.9)	0
Polyneuropathy	3 (2.8)	1 (12.5)
Parkinson disease	5 (4.7)	0
Spinal canal stenosis	1 (0.9)	1 (12.5)
State after stroke	11 (10.4)	1 (12.5)
Orthopedic disorders	n=13	n=3	0.4	0.1–1.5	0.177
Osteoarthritis	7 (6.6)	2 (25)
Osteoporosis	4 (3.8)	1 (12.5)
Rheumatism	2 (1.9)	0
Psychiatric disorders	n=4	n=0	0.9	0.05–17.7	0.960
Dementia	2 (1.9)	0
Depression	2 (1.9)	0
Ear, nose, and throat disease	n=2	n=0	0.5	0.02–10.9	0.668
Nasal polypectomy	1 (0.9)	0
Tonsillectomy	1 (0.9)	0
Skin disorders	n=2	n=0	0.5	0.02–10.9	0.668
Allergy	1 (0.9)	0
State post-herpes zoster	1 (0.9)	0
Ophthalmologic diseases	n=8	n=1	0.8	0.1–6.6	0.828
Gynecological disorders	n=3	n=0	0.7	0.04–14.3	0.828
State after breast cancer	3 (2.8)	0
Total number of diseases	251	25

Notes: Significant P-values are shown in bold. The percentages refer to the total of number of patients in each group.

Abbreviations: CAD, coronary artery disease; CI, confidence interval.

The largest group in the study had 3-vessel CAD followed by those with 2-vessel CAD, and the smallest group had 1-vessel CAD (Table 3). A comparison of the traditional cardiovascular risk factors with the number of coronary arteries that were afflicted with CAD showed no statistical difference (Table 3).

Table 3

Comparison of cardiovascular risk factors in different forms of CAD

Risk factors	CAD			P-value
	1-vessel (n=13) (%)	2-vessel (n=41) (%)	3-vessel (n=52) (%)
Hypertension	11 (84.6)	34 (82.9)	44 (84.6)	0.999
Diabetes	3 (23.1)	9 (22)	20 (38.5)	0.216
Hypercholesterolemia	0	0	2 (3.9)	0.617
Hyperlipidemia	3 (23.1)	11 (26.8)	12 (23.1)	0.949
Obesity	1 (7.7)	1 (2.4)	2 (3.9)	0.599
Smoker	0	0	4 (7.7)	0.175
Former smoker	0	3 (7.3)	8 (15.4)	0.291

Abbreviation: CAD, coronary artery disease.

The author found no statistical difference after a comparison of the traditionally tested cardiovascular risk factors with the clinical manifestation of CAD, such as stable angina or ACS (Table 4). From a total of 106 patients with CAD, 21 (19.8%) patients had stable angina, 79 (74.5%) patients had unstable angina, and six (5.7%) patients had no stable angina or ACS. From a total of 79 patients with ACS, 36 (45.6%) had NSTEMI, 27 (34.2%) had STEMI, and 16 (20.3%) had no NSTEMI or STEMI. The author also found no statistical difference between risk factors and acute comorbidities in the two groups (Table 5). Patients with acute comorbidities such as falls, attacks of gout, and delirium were less likely to have CAD (Table 5). These acute comorbidities showed no increased risk for CAD. In addition, chronic comorbidities also exhibited no increased risk for CAD (Table 2).

Table 4

Comparison of cardiovascular risk factors in different forms of myocardial infarction

Risk factors	CAD		NSTEMI (n=36) (%)	STEMI (n=27) (%)	P-value
	Stable angina(n=21) (%)	Unstable angina(n=79) (%)
Hypertension	21 (100)	63 (79.8)	28 (77.8)	19 (70.4)	0.072
Diabetes	6 (28.6)	23 (29.1)	13 (36.1)	4 (14.8)	0.317
Hypercholesterolemia	0	2 (2.5)	0	1 (3.7)	0.615
Hyperlipidemia	6 (28.6)	19 (24.1)	9 (25)	5 (18.5)	0.871
Obesity	0	4 (5.1)	3 (8.3)	0	0.296
Smoker	2 (9.5)	2 (2.5)	2 (5.6)	0	0.295
Former smoker	2 (9.5)	9 (11.4)	6 (16.7)	1 (3.7)	0.440

Abbreviations: CAD, coronary artery disease; NSTEMI, non–ST-segment elevation myocardial infarction; STEMI, ST-segment elevation myocardial infarction.

Table 5

Comparison of acute illnesses in patients with and without CAD

	CAD (n=106) (%)	Without CAD (n=8) (%)	Odds ratio	95% CI	P-value
Cardiovascular diseases	n=123	n=14	1.7	0.6–4.8	0.314
Acute heart failure	95 (89.6)	8 (100)
Anemia	4 (3.8)	0
Cardiac decompensation	14 (13.2)	2 (25)
Circulatory collapse	1 (0.9)	0
Derailed blood pressure	7 (6.6)	0
Shock	1 (0.9)	0
Syncope	1 (0.9)	4 (50)
Pulmonary disease	n=8	n=2	0.5	0.1–2.5	0.394
Acute respiratory failure	2 (1.9)	1 (12.5)
Aspiration pneumonia	1 (0.9)	0
Bronchopulmonary infection	3 (2.8)	1 (12.5)
Pneumonia	1 (0.9)	0
Pulmonary edema	1 (0.9)	0
Gastrointestinal diseases	n=4	n=0	1.2	0.1–23.6	0.893
Duodenal ulcer	1 (0.9)	0
Gastrointestinal bleeding	2 (1.8)	0
Reflux esophagitis	1 (0.9)	0
Kidney disease	n=13	n=1	1.8	0.2–14.2	0.599
Acute kidney injury	3 (2.8)	0
Acute urinary tract infection	7 (6.6)	1 (12.5)
Macrohematuria	3 (2.8)	0
Thyroid disease	n=5	n=0	1.5	0.1–28.3	0.784
Hyperthyroidism	1 (0.9)	0
Hypothyroidism	4 (3.8)	0
Other conditions	n=1	n=3	0.03	0.004–0.4	0.005
Fall	0	1 (12.5)
Attack of gout	0	1 (12.5)
Delirium	1 (0.9)	1 (12.5)
Total number of diseases	154	20

Notes: Significant P-values are shown in bold. The percentages refer to the total of number of patients in each group.

Abbreviations: CAD, coronary artery disease; CI, confidence interval.

The duration of hospital stays was 6.3±9 days in the study group and 7.5±7.8 days in the control group, exhibiting no statistical significance (P=0.756). There were three (2.8%, three [100%] female, 95% CI: −0.3 to 6) deaths in the study group and no deaths in the control group (P=0.630). Thus, the survival rate was 97.2% (95% CI: 94−100.4) in the study group and 100% in the control group.

Discussion

After completing this study, the author found that for patients aged >90 years, only those with hypertension had a high risk for CAD. Traditional cardiovascular risk factors such as progressing age, diabetes mellitus, hypertension, dyslipidemia, smoking, and obesity are well-accepted for their relationship with CAD.47,48 Diabetes provided no increased risk for the development of CAD without statistical significance, and smoking presented absolutely no increased risk for CAD in the analysis of this study. Surprisingly, there was a low number of patients with hypercholesterolemia, which cannot be explained by prescription of statins for patients with acute myocardial infarction. The reason for the low number of patients with hypercholesterolemia was not studied in detail by this study. While the number of male patients with CAD was found to be slightly increased in this study, the author could not find a statistical difference in sex, with no increased risk for CAD. The severity of CAD in the elderly seemed to correlate poorly with the prevalence of established traditional cardiovascular risk factors.

Moreover, the predictive power of cardiovascular risk factors for CAD was also found to be weak in previous studies. According to the results of previous studies, the traditional cardiovascular risk factors did not correlate well with cardiac morbidity and mortality.49,50

CAD is often responsible for a deterioration of quality of life or mortality in the elderly. In addition, CAD prevention is often underused in this population. CAD can be prevented through antihypertensive drugs in elderly patients with hypertension. Not only treatment for hyperlipidemia, but also treatment of high-risk elderly persons by statins and antiplatelet agents, might minimize the risk of CAD. Heart failure can also be prevented in the elderly. Lifestyle changes should be encouraged in older persons, particularly smoking cessation, increased physical activity, and a Mediterranean-type diet; these factors appear to have greater positive effects on cardiovascular health in the elderly than in younger adults.51 While hypertension was treated by medication in the very elderly, the present study showed that the risk for CAD was high. Hyperlipidemia exhibited no increased risk for CAD in the very elderly in our study population. The prevention of heart failure via the administration of appropriate drugs is also very difficult in the aging hearts of the very elderly. Compliance may deteriorate as a result of various circumstances, such as in elderly patients with dementia, although very elderly people with dementia were found in this study to have no increased risk of CAD.

Smokers were underrepresented in this study. According to the results, smoking plays no role at an advanced age. Former smoking in earlier years also presented no increased risk of CAD for the elderly in the current study. However, the damaging effects of tobacco smoking on health are certainly not in question among the very elderly, as in other populations. The effects of smoking on mortality in the elderly population has been studied previously.52 When comparing the mortality rates for older smokers, ex-smokers, and nonsmokers, lower mortality was observed for nonsmokers and former smokers compared to older smokers.52 Although no direct evidence was available, it is desirable for older smokers to stop smoking. Smoking cessation is certainly a health benefit for older smokers, not to mention the high costs incurred by smoking.

Obesity was not an increased risk factor for CAD in very elderly patients in this study. The same result was reported by Kim et al in relation to the elderly.53 These results raise questions about the value of weight loss and diet for the prevention of CAD in the elderly.

Acute and chronic comorbidities were not predictors of CAD in the very elderly in the present study. Female sex, hypertension, and comorbidity were greater predictors of CAD in the elderly than in younger patients in the study by Mogensen et al.54 Mogensen et al found that the prevalence of cardiovascular comorbidities increased with advancing age only until the seventh decade and then declined, resulting in the lowest prevalence of diabetes, hypertension, ischemic heart disease, and peripheral artery disease among the very elderly aged >85 years compared with patients aged <85 years. Noncardiovascular comorbidities generally increased linearly with age.54

Veeranna et al reported that age and male sex, but not hypertension or dyslipidemia, represented an increased risk for CAD. Only diabetes was an independent predictor of CAD, and smoking was associated with the occlusion of the left main trunk artery of the heart in their study.55 However, it should be noted that the difference in mean age was more than 20 years between Veeranna et al’s population and that of this current study. It could be that the risk profile of CAD is different in people in their 70s. This was very different from the outcome of this study, as the author of the present study found a high risk of CAD related to hypertension in very elderly people.

The associations of some risk factors for CAD are reduced in older age, while other risk factors in old age remain constantly detectable. One study examined all elderly patients according to age groups regarding cardiovascular risk factors. The associations of most traditional risk factors with CAD were insignificant in the very elderly in the previous study reported by Odden et al.56 The link between hypertension and diabetes with age was strongest in the study by Odden et al.56

However, it continues to be difficult to correlate CAD and atherosclerosis. Even though this has been evaluated angiographically, the connection has not been well-established, and previous studies have reported different and varying outcomes concerning the link between CAD and atherosclerosis.57–59

Although the Framingham Risk Score assessment tool can be used to estimate a patient’s 10-year risk of developing CAD, this score was not considered in the present study, as this score underrates the CAD risk in the elderly, and particularly women; in contrast, traditional risk factors represent the best predictors of CAD.60

Study limitations

This study examined the traditional risk factors for CAD in very elderly people in a single-center department of internal medicine but did not investigate the very elderly with CAD in other medical departments. A generalization should therefore not be concluded from the results of a study in only one department of a hospital. Another limitation was that the author was unable to identify very elderly patients with ACS who had not undergone cardiac catheterization for any reason. Moreover, aging itself was considered to be a risk factor for CAD in previous studies. It is also possible that the risk profiles change over time among age groups. The influence of lifestyle and diet on the traditional risk factors were not considered in the very elderly in this study. Therefore, it is difficult to identify the risk profile for CAD in very elderly people. Various causes of the development for CAD have been discussed in the current scientific/medical literature. The number of the very elderly aged >90 years was relatively small for drawing any generalized conclusions. Cardiac catheterization may not be the best and most appropriate investigation through which to diagnose CAD, particularly in this age group.

Conclusion

The author was able to demonstrate an increased risk in the prevalence of hypertension in patients aged >90 years with CAD. However, more attention needs to be paid particularly to the therapy of hypertension as established risk factors in addition to diabetes, hyperlipidemia, obesity, and smoking in the therapeutic management and prevention of CAD in very elderly people, in addition to treatment for acute and chronic comorbidities.