Hypertension is one of the “big three” modifiable risk factors- – the others being cigarette smoking and hyperlipidemia. It is always important not to view risk factors in isolation because it is the cumulative risk that determines morbidity and mortality. Hypertension can lead to significant target organ damage, clinical cardiovascular disease, and frequently both.
In their review Spencer and Lip provide a succinct yet comprehensive review of target organ effects and their adverse influence on prognosis. Left ventricular hypertrophy (LVH) is a well-known marker for an adverse prognosis but it is only recently that we have seen evidence that treatment aimed at regressing LVH can impact on morbidity and mortality. Given its adverse effect on prognosis it is important to accurately detect the presence of LVH. 
It is now recognised that echocardiography is significantly superior to electrocardiography and should routinely be used for the detection of LVH. Takeda and Chambers provide us with a useful practical guide to the use of echocardiography and, though enthusiasts, clearly help us to understand its limitations. Magnetic resonance imaging (MRI,) whilste being more accurate than echocardiography in assessing LVH, is limited by cost, which precludes its use for serial measurement in clinical practice. In the research setting, MRI is the most accurate means of monitoring regression of LVH, with two-dimensional echocardiography an acceptable, less expensive alternative. 
The metabolic consequences of LVH and their detrimental effect on contractile function are reviewed by Montessuit and colleagues, who pose a challenging cause and effect question. This interesting and thoughtful overview opens the door to the concept of metabolic manipulation by agents such as trimetazidine, which would, from the paper by Sabouret, appear to address the metabolic abnormalities. Specific studies in this area are not yet available but the concept of adding a metabolic agent when hypertension is controlled and LVH is present may be worthy of prospective evaluation.
Translating basic concepts and research protocols into clinical practice is the ultimate end -point of any study aimed at improving patient care. As Brilla says:, “The question arises whether pharmacologically mediated regression of LVH would improve patients’ morbidity and mortality”. His article presents a well-balanced case for antihypertensive therapy not only benefitting the patient by good blood pressure control but also by regressing LVH. The question to which we do not yet have a clear answer to is whether the regression is due to the blood pressure control itself (no matter what agents are used) or whether certain agents achieve a preferential benefit (e.g. angiotensin converting enzyme inhibitors or angiotensin II antagonists.). It could also be a combination of means of action and time, with blood pressure control the common denominator. Thus certain drugs may regress LVH inside 12 months whereas, in the presence of equal blood pressure control, others may take 18-–24 months.
The "take home message" from this issue of Heart and Metabolism is that LVH is bad news. Its detection is clearly important and routine echocardiography is superior to electrocardiography and in addition offers the opportunity for serial non-invasive monitoring of the response to antihypertensive therapy. Controlling blood pressure leads to regression of LVH and reduced morbidity and mortality –- we have a target and a benefit but we still need to make progress with our understanding and treatment of LVH.

Graham Jackson 
Consultant Cardiologist

FURTHER READING 
Lorell BH, Carabello BA Left ventricular hypertrophy: pathogenesis, detection and prognosis. Circulation 2000;201: 470–479.

1: Circulation 2000 Jul 25;102(4):470-9

Related Articles, Books, LinkOut

 
Left ventricular hypertrophy: pathogenesis, detection, and prognosis.

Lorell BH, Carabello BA.

Department of Medicine, Beth Israel Deaconess Medical Center and Harvard Medical School, Boston, Mass 02215, USA.

Publication Types:

• Review
• Review, Tutorial

PMID: 10908222 [PubMed - indexed for MEDLINE]