Self-Monitoring of Blood Glucose in Noninsulin-Using Type 2 Diabetic Patients

Recommended frequency and timing of SMBG must be adequate

How many blood glucose tests are necessary and how should the frequency and timing of tests be structured? The answer varies depending on the clinical concern addressed. Is the goal to assure that clinicians have the data needed to propose timely medication adjustments and/or lifestyle recommendations? Or perhaps it is to alert patients that dietary or activity changes need to be made? For example, across many of the studies cited by Malanda et al., both pre- and postprandial tests were included in the protocol, but the recommended timing and frequency of testing varied greatly—often they were almost random (e.g., test after meals twice a week), and only in rare cases were they sufficient to obtain a reliable pattern of findings that could be used for clinical decision making. We believe that highly structured SMBG before and after selected meals (and/or before and after bouts of physical activity), conducted at set times over several days is required if the purpose is to collect enough data that patients and their clinicians can detect well-defined blood glucose patterns and use them as the basis for corrective action (9).

Patients need to be knowledgeable about SMBG and have the necessary skills to use SMBG data

It is often assumed that SMBG functions similarly to an automated feedback device, where the patient unvaryingly takes the appropriate, corrective action after each measurement. But patients must know how to test, why they are testing, what the data mean, and what they can do. In none of the studies cited by Malanda et al. is it possible to tell how much patients knew and what they actually did with their data. In addition, the SMBG-related education and subsequent support that patients received varied widely across studies; in some cases, there was almost none at all (8). If patients do not understand or are not able to respond to SMBG data appropriately, the mere act of blood glucose monitoring will seem meaningless and the frequency of SMBG will likely decrease considerably over time as motivation to test declines (10,11).

Clinicians need to be knowledgeable about SMBG, actually see the SMBG data that patients collect, and have the necessary skills to use the SMBG data

A key value of SMBG is that it can provide clinicians with the information they need to make timely treatment adjustments. Clinician involvement in SMBG can also help patients see that their personal efforts to collect SMBG data are worthwhile, thus contributing to patients’ motivation to continue SMBG over time. Unfortunately, we cannot assume that clinicians know how to use SMBG data effectively to adjust treatment. Appropriate training is critical in any evaluation of the clinical efficacy of SMBG for this population. Unfortunately, these issues are not addressed by Malanda et al. In several of the studies cited (5,8,12), physicians were not permitted to review SMBG data, whereas in others they were (13,14). Regular nurse and/or dietitian support occurred in many studies (5,12,13,15) but not all (8), and it was never clear what that support entailed or how, or if, nurses used SMBG data to adjust treatment directly. Nor were efforts made to ensure that the clinicians who saw SMBG data actually knew what to do with them. In sum, SMBG is more likely to be beneficial when clinicians actually review SMBG data with patients, know how to make good clinical use of the data, and work directly with patients around their SMBG findings in a close, collaborative manner.

SMBG data must be collected and recorded in a manner that permits blood glucose patterns to be readily observable and easily intelligible for clinicians and patients

A simple logbook or other unstructured list of blood glucose values is rarely helpful. It is frequently confusing to patients, and it requires far too much time for busy clinicians to review each page of results. We believe that a carefully constructed, easy-to-read, profile sheet, web application, or online form that makes sense to both patients and clinicians and is tailored to address specific clinical questions is necessary to facilitate recognition of trends in blood glucose values. None of the studies reviewed by Malanda et al. mentioned how SMBG data were actually recorded and how blood glucose trends were observed from the recorded data by both patients and clinicians; therefore, it remains unclear if blood glucose patterns were even observable or detected. If they were not, as we suspect, how could they be used effectively by clinicians to alter care?

We argue, therefore, that the key question in need of examination is, “Can a program of SMBG that makes good use of the four elements listed above lead to improved glycemic control among insulin-naïve patients?” This question, however, is quite different from the question that Malanda et al. addressed, “Can simply obtaining and recording SMBG data, whether or not they are used to inform care, lead to improved glycemic control?” We believe that Malanda et al. and others have indeed reached the correct answer to their question. Simply obtaining and recording SMBG data is of minimal clinical value. But this is clearly the wrong question. Even a thermometer, blood pressure monitor, or electrocardiogram monitor may be clinically ineffective if the resulting data are never seen by educated clinicians or are used inappropriately by clinicians and/or patients. Therefore, if patients are given inadequate guidance regarding the interpretation and use of SMBG data, and if clinicians rarely see or make use of these data, why should we expect to see a positive glycemic impact? Nor should we be surprised that many patients then lose interest in SMBG and begin to see it as unimportant, viewing SMBG as a pointless, demotivating experience, where the results may lead to feelings of guilt, confusion, and helplessness, especially when it seems to them that blood glucose numbers are rising and falling for no apparent reason (10). Sadly, recent data suggest that such negative patient attitudes are far from uncommon (10,11).

Further concerns about study design

The studies included in the report by Malanda et al. and other recent reviews raise additional concerns about how SMBG efficacy studies of insulin-naïve type 2 diabetic patients have been designed and implemented. A report by the International Diabetes Federation (16), along with several other publications (9,17), suggests that many SMBG trials have serious design flaws that increase the probability of a type 1 error. For example, some studies included patients with baseline A1Cs far too low to benefit from the intervention (5); in other studies, only patients—not clinicians—were randomized, so that the same clinicians saw patients from both study arms (12). This can lead to the “bleeding” of SMBG benefits across study arms, thus reducing between-group differences. Furthermore, SMBG protocols are unlikely to be beneficial if patients do not follow them. Poor adherence to SMBG recommendations has been a perennial problem, noted to be as high as 48% among some studies (18), yet all but one (14) used only intention-to-treat analyses. No effort was made to determine the effectiveness of SMBG among patients who actually tested (per protocol analyses), nor were efforts devoted to determine why some patients tested and some did not. Thus, intention-to-treat analyses confounded the effectiveness of SMBG with patient motivation to test. And that motivation, we suggest, is directly tied to how SMBG is introduced, taught, and used by both patients and clinicians in a collaborative and clinically meaningful way.