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Implementation of home blood pressure monitoring among French GPs: A long and winding road

  • Giselle Dugelay,

    Roles Formal analysis, Investigation, Writing – original draft

    Affiliation Université de Lorraine, Département de Médecine Générale, Nancy, France

  • Joëlle Kivits,

    Roles Formal analysis, Methodology, Supervision, Writing – review & editing

    Affiliations Université de Lorraine, École de Santé Publique, Nancy, France, Université de Lorraine, Apemac, Nancy, France

  • Louise Desse,

    Roles Investigation, Resources, Visualization

    Affiliation Université de Lorraine, Département de Médecine Générale, Nancy, France

  • Jean-Marc Boivin

    Roles Conceptualization, Methodology, Project administration, Supervision, Validation, Visualization, Writing – review & editing

    Affiliations Université de Lorraine, Département de Médecine Générale, Nancy, France, Centre d’Investigations Clinique Plurithématique 1433 (CIC-P), Inserm, CHRU de Nancy, Nancy, France



To explore the perception of home blood pressure monitoring (HBPM) by general practitioners (GPs) in everyday practice in order to identify facilitators and barriers to its implementation in daily practice.


A qualitative study comprising the conduct of six focus groups between October 2016 and February 2017, gathering 41 general practitioners in primary care practice in Lorraine (North Eastern France), with thematic and comprehensive analysis.


The first reasons given by GPs to explain their difficulties with HBPM (Home Blood Pressure Monitoring) implementation were the usual lack of time, material and human resources. However, all of these motives masked other substantial limiting factors including insufficient knowledge regarding HBPM, poor adherence to recommendations on HBPM and fear of losing their medical authority. GPs admitted that HBPM use could enhance patient observance and decrease therapeutic inertia. Despite this observation, most GPs used HBPM only at the time of diagnosis and rarely for follow-up. One explanation for GP reluctance towards HBPM may be, along with guidelines regarding hypertension, HBPM is perceived as being a binding framework and being difficult to implement. This barrier was more predominantly observed among aging GPs than in young GPs and was less frequent when GPs practiced in multidisciplinary health centers because the logistical barrier was no longer present.


In order to improve HBPM implementation in everyday practice in France, it is necessary to focus on GP training and patient education. We must also end "medical power" in hypertension management and turn to multidisciplinary care including nurses, pharmacists and patients.


Hypertension is the foremost chronic disease in the world. In 2012, high blood pressure accounted for 30% of individuals over 25 years of age worldwide and a crude increase in the prevalence in the last decade has been observed [1]. In 2017, it accounted for more than 13 million people in France or around 30% of the population over 35 years old [2].

As such, hypertension control is a major public health issue. However, despite recommendations put forward over the past several years to improve its management, hypertension remains insufficiently controlled [3,4]. In Europe, blood pressure (BP) targets are rarely reached, whether patient management is overseen by a general practitioner (GP) or by a specialist [5,6]. In France, 55% of hypertensive patients were adequately controlled in 2015 [7] and only 50.9% in 2017 [2].

A more systematic use of home blood pressure monitoring (HBPM) by GPs is constantly being advanced by learned societies to improve hypertension diagnosis and control[810]. In a great majority of cases, OBP (Office Blood Pressure) measurement is not reliable [11]. In comparison, HBPM is often associated with good hypertensive management, as Verberk and al. already pointed out in 2007 [1214]. Indeed, the detection of white coat and masked hypertension [15] as well patient compliance improvement [16,17], owing to HBPM, allows better BP control and in addition to having a good better prognostic impact [18,19]. It is moreover an inexpensive tool, easy to implement by GPs, and its use has been both well tolerated by patients [20] and democratized throughout the world [21,22]. However, HBPM use remains insufficient in many countries [23,24], particularly in France [25,26].

HBPM protocols and GP acceptance of the HBPM method differ from one country to another. In France, the HBPM protocol consists in measuring BP three times, spaced by a few minutes, in the morning and three times in the evening before bedtime, during three successive days. It is recommended to confirm the diagnosis of high blood pressure with an out-of-office BP measurement. In Japan, it is recommended to measure BP, twice per occasion, within one hour of waking-up, before breakfast, and in the evening before retiring, after one to two minutes rest. The measurement period should be as long as possible [27]. In Europe, it is recommended to measure BP at home twice in the morning and twice in the evening for seven days [3].

In 2009, Boivin et al. observed that HBPM use by French general practitioners increased from 70% in 2004 to 92% in 2009. However, only 21% recommended HBPM in the majority of their patients, while 71% were only casual users. Their study revealed that adherence by French general practitioners to hypertension guidelines remained insufficient, particularly with regard to an under-use of HBPM, as well as a lack of knowledge of its diagnostic and prognostic value. [26] In 2015, a qualitative study led in Netherlands highlighted that GPs implemented out-of-office BP monitoring but showed a strong preference for ambulatory blood pressure monitoring (ABPM) even when there was poor tolerance of the method. [28] In 2017, Kronish et al. conducted a semi quantitative study (based on the nominal group) which enabled similar barriers to our study to be highlighted but not intimate reasons, such as the fear of losing medical power. [29]

In quantitative studies, reasons given by GPs for HBPM under-use remain systematically the same in many countries: lack of time, logistical difficulties and lack of knowledge or confidence in hypertension guidelines [3033]. However, previousthese studies did not really explore the main reasons explaining the lack of HBPM appropriation by GPs. Most of the published studies, in France, were quantitative studies using closes-ended questionnaires that did not allow the GPs to express themselves freely.

In the light of the above, the aim of the present study was to explore, through a qualitative study, general practitioners’ perception of HBPM use in current practice in order to identify existing factors levering and limiting its systematic implementation in daily practice.

Material and method

This study was conducted in accordance with COREQ criteria (Consolidated Criteria for Reporting Qualitative research) [34].


This qualitative study was carried out in the form of six focus groups, conducted among 41 general practitioners in the eastern region of France. The GPs were recruited from phone list and mailing list provided by the Faculty of Medicine, through the Council of the Medical Association and by knowledge network. This method of qualitative data collection was selected for its ability to produce, within a short time-frame, a wide variety of ideas, opinions and beliefs currently perceived on a given topic [2027]. An interview guide was developed beforehand to discuss various topics on self-measurement (Table 1) (GD, LD, JK).

Table 1. Interview guide: Advantages and brakes linked to HPBM.

Each meetingErreur de traductionFEach meeting was recorded and subsequently fully transcribed to gather all statements. Each focus group was composed of GPs using HBPM more or less regularly. Erreur de traductionFocus groups were led by a moderator and an observer (GD, LD). The observer’s role was to collect non-verbal behavior, noting silences and hesitations. The role of the moderator was to ensure that each of the GPs could speak on each theme. It was not a questionnaire but a semi-structured open discussion. The duration of the focus groups was about two hours. We ensured for each group that all of the themes in the interview guide had been addressed. There were reminders when the moderator estimated that the number of physicians answering was insufficient.

At the end of each meeting, a short questionnaire was distributed to collect socio-demographic data. Study data collection was conducted from October 2016 to February 2017. Data collection was performed until data saturation.


Sampling was carried out among a population of general practitioners working in a primary care office setting. Variability in age, gender, type and place of practice were taken into consideration for constituting the different GP panels. The first group comprised teachers and GPs trained in the use of HBPM (some GPs had a university degree in hypertension and cardiovascular risk). The second group comprised GPs occasionaly working with one of the authors and known to them as non-user.

Data analysis

All participating GPs gave their agreement to the recording of the interviews. All of the comments expressed during each focus group were meticulously transcribed, preserving the anonymity of those involved. All participants were informed regarding the goal of this study, the modalities of focus group attainment and the processing of collected data.

All of the statements were translated by the investigators. A thematic and comprehensive analysis was performed and allowed the elaboration of an analysis grid according to the following major themes: inventory of HBPM use; facilitators and barriers related to HBPM use; logistical strategies. Analysis of the data was performed by three researchers (GD, LD, JK).


Forty-one (41) GPs participated in the focus groups. The characteristics of the studied population are summarized in Table 2, with a synthesis of the key points described in Table 3.

Barriers related to HBPM implementation

Lack of confidence in the HBPM method.

One of the major barriers identified in this study was the lack of confidence of GPs in the HBPM method, generating a great variability in GP practices. GPs mentioned transcription errors and wrong measurement conditions. They referred, for example, to an unfulfilled rest time, an obsessive use by the patient, or BP measurement during anxiety or pain.

A proposal for HBPM was made when GPs suspected “white coat hypertension”. However, they did not always trust HBPM results when the latter were unexpected, such as in the case for masked hypertension. Most of the time, they only used OBP, which they judged sufficiently accurate, to follow up hypertension, and were still adjusting treatments without confirmation from an out-of-office BP measurement (that is to say either an ABPM or an HBPM).

“There must have been (white coat hypertension)yes definitelybut afterwards, if we measure several times before”

(Man 43Y FG6)

“I do not completely trust electronic devices, even those in hospitals”

(Man 57Y FG3)

Availability of blood pressure devices.

Numerous sources of access to devices were mentioned. However, GPs still considered the number of loaned devices as a factor limiting HBPM practice and several physicians said they would use HBPM more frequently if they had more loaned devices.

To compensate for the lack of device, some GPs tended to ask their patients to buy their own BP device. However, this solution was not consensual as other GPs considered that patients should not own a device because of the risk of obsessive use. GPs also described an economic barrier and unequal access for patients who cannot always afford to buy a BP device.

“To have a device at home, I think that it is not always a good thing (talking about obsessive use)”

(Man 37Y FG1)

“It’s a real access barrier in my area… clearly there are a lot of patients who don’t buy the device because they can’t afford it”

(Man 37Y FG1)

It was therefore often still necessary for the GPs to lend a BP device to their patient, nevertheless few of them make the effort to invest in a pool of loaned devices. Moreover, when discussing the choice of device, only a few physicians in our panel knew the lists of validated BP devices.

“There must be a list of recommended devices? I suppose so”

(Woman 31Y FG5)

Insufficient logistical resources.

Among all criticisms made regarding HBPM, the lack of time and the lack of human resources emerged as major barriers for HBPM implementation.

Time spent educating patients and to analyzing results was perceived as a genuine limitation to HBPM implementation.

“Patient education may not be the fifth reason for consultation in a quarter of an hour”

(Man 35Y FG3) (in a protesting tone)

“I often have to do the average”

(Man 55Y FG1) (In a disappointed tone)

“Who really does the average of all the measurements? () I do a rough estimation”

(Man 33Y FG6)

In particular, GPs complained that HBPM requires human resources and a certain level of organization which are not available within the French health-care system. Indeed, delegation of tasks is not always available in the French system’s organization.

“Why not, but in this case, the health care system will have to train and pay qualified nurseswhy dont they come to our office!

(Woman 50Y FG3)

From knowing to trusting scientific guidelines.

From the discussions, we noted deficiencies in GP knowledge regarding hypertension management. They did not always know when, how and how often an HBPM should be performed. Moreover, GPs were often unfamiliar with BP objectives. While OBP thresholds were more commonly known, ambulatory BP thresholds were most often inaccurate. Lastly, few physicians were aware of new hypertension concepts such as isolated ambulatory hypertension, and were therefore unable to recognize this type of hypertension when faced with the latter.

“If BP are beyond 130/85mmHg with HBPM, its too high!

(Man 62Y FG4)

Even when guidelines regarding hypertension were known, GPs, and particularly the older ones, had some reluctance in tightly applying these guidelines.

“In medicine, in the younger generation, only recommendations matter! Sometimes, the younger generation of doctors confuses recommendations with an obligation”

(Man, 47Y FG3)

They did not always acknowledge scientific evidence regarding HBPM efficiency on BP control. Another reason for poor BP control was that GPs did not adhere to guidelines regarding BP targets. In fact, they often underestimated cardiovascular consequences due to a moderately elevated BP. These findings were more prevalent within the older generation of GPs.

“In real life, in terms of public health: does “half a cmHg”, or so, really make a difference in patientslives?

(Man 54 Y FG1) (In a protesting tone)

“We do not treat in order to have good BP measures, we treat to protect against CVD (cardiovascular disease) risk”

(Man 59Y FG3)

“If hypertension has no impact on the cardiologists consultationI am less rigorous for the BP target”

(Man 59Y FG3)

It is worth highlighting that when it comes to medical practice in multidisciplinary health centers (particularly in rural and semi-rural areas with young practitioners), HBPM use seemed to be more frequent and closer to the recommendations because the logistical barrier was no longer present.

“We are organized in a multidisciplinary health center with the pharmacists. So we prescribe a loan of blood pressure device and the pharmacies lend the device to the patient and explain the modalities of HBPM”

(Man 29Y FG1)

HBPM, a threat to medical authority.

Most GPs, and particularly the older generation of GPs, expressed their concerns regarding patient empowerment when practicing HBPM. The main issue was the risk of self-adaptation of treatment by the patient.

“It can make them change their treatment”

(Woman 63Y FG1)

“They (the patients) are controlled in self measurement and they tell you “you know, its been a month since I have stopped taking the treatment and you see, it is still good”

(Woman 63Y FG6)

Some patients say that there is no need to put this medication on the prescription because they dont take it anymore” (because the BP is controlled in HBPM)

(Woman 32Y FG6)

By measuring their BP, patients become actors of their hypertension management and are therefore empowering themselves. This last aspect seemed to particularly worry GPs.

“(About not giving BP thresholds to the patient): I tell a patient that he has to write down the numbers on the device and that there is no reason to try to predict what I will think about it”

(Woman 55Y FG1)

“You should not explain too much because, if you do, you lose power over people”

(Man 52Y FG2)

“Do they (patients) really need to know…?

(Woman 50Y FG4)

For example, some GPs did not tell patients their “real” OBP values in order to not have to manage the patient’s reactions. In the same way, some GPs did not tell the patients their BP target in order not to have to justify their therapeutic inertia. Indeed, this “wait and see” attitude of some GPs faced with an elevated BP could no longer be justified to a patient who was educated on the subject and involved in HBPM.

“Well, you give him a bogus BP value! Why do you measure BP again?

(Woman 50Y FG4)

“There, with an electronic device you cannot cheatpatients will see BP values”

(Man 62Y FG4)

Notwithstanding the above, the expression of risk regarding their medical authority and power did not prevent them from quoting advantages for HBPM implementation, notably better patient compliance.

Advantages related to HBPM implementation

Most GPs agreed to say that HBPM could enhance patient compliance since it enhanced patient comprehension of hypertension and its consequences. Furthermore, GPs highlighted that HBPM use was linked to a decrease in antihypertensive drug side effects and thus increased patient therapeutic compliance.

“It has been proven that empowering them, involving them in their health was beneficial”

(Man 55Y FG1)

GPs sometimes recognized the implication of therapeutic inertia. In the same way, they agreed to say that HBPM practice was a valuable tool against this. Indeed, one cause of physician inertia was due to a lack of confidence in their OBP in some cases, such as white coat hypertension.

“One determinant of therapeutic inertia is: ‘You are nervous todaySo, this time, we will ignore your BP measures’. Now, patients come with HBPM that were taken at rest! So, we can no longer hide behind a white coat effect when we do not really want to change the treatment!

(Man 55Y FG1)


This study highlighted a great reluctance of GPs regarding a regular use of HBPM. Whereas using HBPM when making a diagnosis of hypertension for the first time was rather well accepted, they conversely expressed true reservations with regard to the systematic use of HBPM, in other words before every reassessment of antihypertensive treatment.

Our qualitative study enabled exploring certain barriers which were not clearly explained by previous French studies. The studies on the appropriation of HBPM entitled Megamet [26] did not allow, any more than FLASH studies [2] to explore real obstacles to HBPM use. These studies were conducted using closed-ended questions that did not allow the GPs’ feelings to be explored. This qualitative approach has been implemented in other countries but not in France [20,29,35,36]. The focus group approach of the study allowed GPs to freely express themselves without the restrictive nature of a closed-questions survey. Indeed, the given pretext of lacking time would often disguise the true reasons highlighted by our qualitative study.

Regardless of the country and despite the differences in health care systems, whether it be in the United Kingdom, Germany or France, GPs have all put forward logistical difficulties and lack of time to explain their lack of HBPM use in daily practice. [26,37,38]. In addition to the above, other barriers for HBPM implementation emerged from our analysis. A lack of scientific knowledge and awareness of hypertension guidelines were noted in the present study, as also described in other studies [39]. Furthermore, some studies have shown that GPs often suggested much more frequent home measurements than recommended and that their interpretation of HBPM results were often suboptimal [40]. Other studies quoted that even when physicians were aware of guidelines, there was still a gap between knowledge and implementation of the recommendations due to a lack of adherence to guidelines. [41] The lack of confidence in the HBPM method has also been noted in other countries, including Japan. In a Japanese questionnaire survey, some physicians still answered that OBP was more reliable than HBPM [42].

In Europe, it was the Nice 2011 guidelines that introduced, for the first time, the obligation to carry out ambulatory measurements of BP to confirm the permanence of hypertension [43]. In 2013, the ESH working group on BP monitoring has proposed a number of recommendations for HBPM. The 2010 Canadian Hypertension Education Program recommendation also included HBPM in the diagnosis of hypertension. [44]

In France, the definition of hypertension is still based on clinical measurements[45], even though, since 2011, it is recommended to confirm hypertension with HBPM before the start of antihypertensive drug therapy [4]. Previous French guidelines on hypertension rely exclusively on OBP. Indeed, hypertension was defined by SBP ≥ 140mmHg and/or a DBP ≥ 90mmHg, measured in a medical office and confirmed by at least two OBP measures of three successive consultations during a three to six months period. [45,46]

This is maybe one of the reasons why some GPs, and especially those from the older generation, may feel it difficult to step back from previous norms and tell their patients that OBP is no longer accurate at all and that, now, it is HBPM that is far more reliable for diagnosis and follow-up of hypertension [47].

In the present study, GPs rarely made a connection between under-use of HBPM and poor BP control. GPs still remain convinced that poor BP control is solely due to patients, without ever mentioning their share of responsibility in terms of therapeutic inertia-which is rarely admitted. Therapeutic inertia has been defined as the failure of health-care provider to initiate or intensify therapy when therapeutic goals are not reached. In a study conducted in 2010, French GPs attributed poor BP control to poor patient compliance [48]. Therapeutic inertia was not spontaneously mentioned whereas the latter is one of the most important causes of poor BP control worldwide and particularly in France [4951]. Indeed, in a French study conducted in 2007, therapeutic inertia was estimated at 85%. Comparatively, in United States, therapeutic inertia was estimated at 63% [51]. Furthermore, even if GPs judge HBPM as a good tool to improve patient observance and decrease therapeutic inertia, these benefits don’t seem to be sufficient to make them use HBPM more frequently [35,52].

GPs, and especially older GPs, also expressed their fear regarding patient empowerment, especially with regard to a loss of medical authority. In France, as in other countries, GPs are reluctant to tightly implement recommendations, which they associate as an attack on their medical power[53,54]. Most GPs base their medical practice on their individual experiences and on an intuitive approach [55]. With the HBPM method, patients are educated and “know some of the rules” of the management of their hypertension. Hence, if GPs do not “apply the rule”, they will have to explain the reasons for not doing so to their patients.

Some of the GPs interviewed were rather paternalistic. The reasons for this paternalism may have been that the pre-requirement for a shared medical decision is therapeutic information and education[56]. Therapeutic education requires time and resources they often do not have (as a reminder, the GPs interviewed were mostly installed alone or in areas of low medical density). GPs therefore do not give themselves the time or the means to form a shared medical decision and decide on their own what is good for their patients [57]. This paternalistic aspect did not appear in a similar British study. The British healthcare system allows a multidisciplinary care involving the doctor, the nurse and a health care assistant (HCA). The GPs in this study delegated some of the BP management and this may explain this less paternalistic aspect [58].

In addition, our study revealed that certain GPs do not always disclose BP measurements if they are too high. GPs stated that they did not want to worry patients regarding high BP values, but in fact it would appear that they do not want to take time to explain HBPM and to argue with patients. GPs would like to avoid confronting themselves with a binding framework [43,44]. If patients are educated and involved in the management of their hypertension as a result of HBPM practice, GPs will be forced to follow recommendations.

Finally, several barriers need to be overcome in order to spread HBPM use, namely the need to improve GPs’ scientific knowledge, fight against their medical beliefs, and accept a form of patient empowerment [59]. An area for improvement could be to simplify the schedule for self-measurement, and/or to have sufficient flexibility to allow adaptation to individual routine, so that, in the long term the motivation of GPs and patients will be not impacted [30,36,58].

However, this ongoing reluctance by GPs towards the HBPM method could lead to the conclusion that implementation of HBPM is not going to improve, regardless of the efforts made by the health care system. In such case, an alternative to HBPM could be the office blood pressure measurement, whose validity is now well established [60,61]. Indeed, in the Canadian guidelines, it is now recommended to evaluate BP with an unattended OBP measurement as performed in the SPRINT study. In this latter study, the adjustment of antihypertensive drug was based on a mean of three BP measurements at an office visit, while the patient was seated after five minutes of quiet rest, and with an automated measurement system [62]. However, the current French medical office organization does not always allow this new method of BP assessment, since it requires that the patient remains alone in a private room.

The strengths of the present study are a triangulation in several stages of our research: a triangulation during data collection and analysis and a triangulation of investigators. Its design in the form of focus group, in semi-structured interviews, furthermore allowed a group dynamic to be created, obtaining a rich debate. Limitations of this study were partially linked to the methodology. Indeed, focus group constitution is dependent on GP availability or GP motivation and, as such, can generate a selection bias. Finally, the focus group method induces a desirability bias, albeit less significant than with individual interviews.

Conclusion and perspectives

GPs express a lack of confidence in the HBPM method, and a lack of confidence in scientific guidelines. Although they have partial knowledge of them, they deplore insufficient logistical resources, and express a fear of losing medical authority by regular use of HBPM. On the other hand, they acknowledge that HBPM improves patient compliance, decreases antihypertensive drug side effects and decreases therapeutic inertia.

The time when physicians were the only actors in hypertension management is over. It seems essential to put an end to medical power, reflecting a practice of medicine in which physicians’ knowledge is uniquely prominent and orientates therapeutic choices, excluding patients’ points of view and lay knowledge. Our study shows how it is now necessary to encompass a health-care approach shared by all, i.e. physicians, nurses, pharmacists and patients, and accept the evolution of medical practice towards a doctor-patient therapeutic alliance.

Several scientific experiments in which the patient shared a healthcare role with their nurse and/or pharmacist have shown good outcomes [6365].

Similar programs should be launched and expanded to all hypertensive patients. In order to allow for this to occur, all hypertensive patients should be educated regarding HBPM by their GPs, or by a care network in which access to a BP device should be developed. For instance, why not reimburse BP devices for all hypertensive patients, or set up a booking system in conjunction with pharmacies or a care network? A healthcare program focused on multidisciplinary care, as implemented in Canada with the Canadian Hypertension Education Program (CHEP), could contribute to a more systematic use of HBPM and thus to a better BP control.

Another means to spread HBPM use should also include teaching this method to GPs in the early years of their medical training. GPs should now realize that HBPM is an essential tool for BP management, and that OBP is something of the past, as it is too inaccurate. GPs, especially older GPs, will have to step back from previous recommendations regarding hypertension, which stated that several office BP measurements were sufficient to make a diagnosis of hypertension.

Changing GPs habits regarding hypertension, especially in the older GP generation, will certainly be a long and winding road.


We would like to thank all the practitioners for their participations.


  1. 1. Hosni S, Doaa M. H, Aya E, Hazem AE-M. Worldwide prevalence of hypertension: a pooled meta-analysis of 1670 studies in 71 countries with 29.5 million participants. Journal of the American College of Cardiology. mars 2018;Issue 11 Supplement.
  2. 2. Girerd X, Hanon O, Vaisse B. Use of the EvalObs adherence scale in an unselected French population of treated subjects with antihypertensive, hypolipemiants or oral antidiabetics medications: The FLAHS 2017 adherence survey. Annales de Cardiologie et d’Angéiologie. juin 2018;186–90. pmid:29786508
  3. 3. Mancia G, Fagard R, Narkiewicz K, Redon J, Zanchetti A, Böhm M. 2013 ESH/ESC Guidelines for the management of arterial hypertension: The Task Force for the management of arterial hypertension of the European Society of Hypertension (ESH) and of the European Society of Cardiology (ESC). Eur Heart J. 21 juill 2013;34(28):2159–219.
  4. 4. Amar J, Benetos A, Blacher J, Bobrie G, Chamontin B, Girerd X, et al. Mesures de la pression artérielle: Recommandations de la Société française d’hypertension artérielle (SFHTA). Médecine Mal Métaboliques. nov 2011;6(4):347–349.
  5. 5. Mancia G, Ambrosioni E, Rosei EA, Leonetti G, Trimarco B, Volpe M. Blood pressure control and risk of stroke in untreated and treated hypertensive patients screened from clinical practice: results of the Forlife study. J Hypertens. 23(8):1575–81. pmid:16003185
  6. 6. Amar J, Chamontin B, Genes N, Cantet C, Salvador M, Cambou JP. Why is hypertension so frequently uncontrolled in secondary prevention? J Hypertens. 21(6):1199–205. pmid:12777958
  7. 7. Girerd X, Hanon O, Pannier B, Mourad JJ, Vaïsse B. Determinants of controlled hypertension in patients treated with antihypertensive drugs in France: The French League Against Hypertension Survey (FLAHS 2015). Ann Cardiol Angéiologie. juin 2016;65(3):219–22.
  8. 8. Ho JK, Carnagarin R, Matthews VB, Schlaich MP. Self-monitoring of blood pressure to guide titration of antihypertensive medication—a new era in hypertension management? Cardiovasc Diagn Ther. févr 2019;9(1):94–9. pmid:30881886
  9. 9. Cohen JB, Cohen DL. Integrating Out-Of-Office Blood Pressure in the Diagnosis and Management of Hypertension. Curr Cardiol Rep. nov 2016;18(11):112. pmid:27677895
  10. 10. Glynn LG, Murphy AW, Smith SM, Schroeder K, Fahey T. Self-monitoring and other non-pharmacological interventions to improve the management of hypertension in primary care: a systematic review. Br J Gen Pract J R Coll Gen Pract. déc 2010;60(581):e476–488.
  11. 11. Ulusoy Ş, Özkan G, Güvercin B, Sökmen Y, Erdem Y. Do physicians measure patients’ blood pressure, and are those measurements reliable? J Hum Hypertens. mars 2018;32(3):203–11. pmid:29422514
  12. 12. Obara T, Ohkubo T, Asayama K, Metoki H, Inoue R, Kikuya M, et al. Home blood pressure measurements associated with better blood pressure control: the J-HOME study. J Hum Hypertens. mars 2008;22(3):197–204. pmid:18172452
  13. 13. Aekplakorn W, Suriyawongpaisal P, Tansirisithikul R, Sakulpipat T, Charoensuk P. Effectiveness of Self-Monitoring Blood Pressure in Primary Care A Randomized Controlled Trial. Journal of Primary Care and Community health. 2016;58–64. pmid:26574566
  14. 14. Verberk WJ, Kroon AA, Jongen-Vancraybex HA, de Leeuw PW. The applicability of home blood pressure measurement in clinical practice: A review of literature. Vasc Health Risk Manag. déc 2007;3(6):959–66. pmid:18200814
  15. 15. Zhao H, Zeng F, Wang X, Wang L. Prevalence, risk factors, and prognostic significance of masked hypertension in diabetic patients. Medicine (Baltimore). 27 oct 2017;96(43).
  16. 16. Ogedegbe G, Schoenthaler A. A Systematic Review of the Effects of Home Blood Pressure Monitoring on Medication Adherence. J Clin Hypertens. 1 mars 2006;8(3):174–80.
  17. 17. Cappuccio FP, Kerry SM, Forbes L, Donald A. Blood pressure control by home monitoring: meta-analysis of randomised trials. BMJ. 17 juill 2004;329(7458):145. pmid:15194600
  18. 18. Cuspidi C, Meani S, Fusi V, Salerno M, Valerio C, Severgnini B. Home blood pressure measurement and its relationship with blood pressure control in a large selected hypertensive population. 2004;(18):725–31.
  19. 19. Shimbo D, Abdalla M, Falzon L, Townsend RR, Muntner P. Role of Ambulatory and Home Blood Pressure Monitoring in Clinical Practice: A Narrative Review. Ann Intern Med. 3 nov 2015;163(9):691. pmid:26457954
  20. 20. Wood S, Greenfield SM, Haque MS, Martin U, Gill P, Mant J. Influence of ethnicity on acceptability of method of blood pressure monitoring: a cross sectional study in primary care. British Journal of General Practice. août 2016;577–86.
  21. 21. Herpin D, Mourad J-J, Postel-Vinay N, Pannier B, Vaïsse B, Girerd X, et al. [Number and use of home blood pressure devices in France in 2004 and 2006 (FLAHS 2006)]. Arch Mal Coeur Vaiss. août 2007;100(8):620–4. pmid:17928763
  22. 22. Daskalopoulou SS, Rabi DM, Zarnke KB, Dasgupta K, Nerenberg K, Cloutier L, et al. The 2015 Canadian Hypertension Education Program Recommendations for Blood Pressure Measurement, Diagnosis, Assessment of Risk, Prevention, and Treatment of Hypertension. Can J Cardiol. 1 mai 2015;31(5):549–68. pmid:25936483
  23. 23. Tirabassi J, Fang J, Ayala C. Attitudes of Primary Care Providers and Recommendations of Home Blood Pressure Monitoring—DocStyles, 2010. J Clin Hypertens. 1 avr 2013;15(4):224–9.
  24. 24. Jones MI, Greenfield SM, Bray EP, Hobbs FR, Holder R, Little P, et al. Patient self-monitoring of blood pressure and self-titration of medication in primary care: the TASMINH2 trial qualitative study of health professionals’ experiences. Br J Gen Pract. juin 2013;63(611):e378–85. pmid:23735408
  25. 25. Vaïsse B, Mourad J-J, Girerd X, Hanon O, Halimi J-M, Pannier B. Flash survey 2012: The use of self-measurement in France and its evolution since 2010. Ann Cardiol Angéiologie. 1 juin 2013;62(3):200–3.
  26. 26. Boivin J-M, Tsou-Gaillet T-J, Fay R, Dobre D, Rossignol P, Zannad F. Influence of the recommendations on the implementation of home blood pressure measurement by French general practitioners: a 2004–2009 longitudinal survey. J Hypertens. nov 2011;29(11):2105–15. pmid:21946694
  27. 27. Shimamoto K, Ando K, Fujita T, Hasebe N, Higaki J, Horiuchi M. The Japanese Society of hypertension Guidelines for the Management of Hypertension (JSH 2014). 2014 p. 253–92.
  28. 28. Carrera PM, Lambooij MS. Implementation of Out-of-Office Blood Pressure Monitoring in the Netherlands. Medicine (Baltimore). 30 oct 2015;94(43).
  29. 29. Kronish IM, Kent S, Moise N, Shimbo D, Safford MM, Kynerd RE. Barriers to Conducting Ambulatory and Home Blood Pressure Monitoring during Hypertension Screening in the United States. J Am Soc Hypertens JASH. sept 2018;573–80.
  30. 30. Sharman JE, Blizzard L, Kosmala W, Nelson MR. Pragmatic Method Using Blood Pressure Diaries to assess Blood Pressure Control. Annals of Family Meddicine. févr 2016;63–9.
  31. 31. Setia S, Subramaniam K, Teo BW, Tay JC. Ambulatory and home blood pressure monitoring: gaps between clinical guidelines and clinical practice in Singapore. Int J Gen Med. 2017;10:189–97. pmid:28721085
  32. 32. Mejzner N, Clark CE, Smith LF, Campbell JL. Trends in the diagnosis and management of hypertension: repeated primary care survey in South West England. Br J Gen Pract. mai 2017;306–13.
  33. 33. Fletcher BR, Hinton L, Bray EP, Hayen A, Hobbs FR, Mant J. Self-monitoring blood pressure in patients with hypertension: an internet-based survey of UK GPs. Br J Gen Pract. nov 2016;(831–837).
  34. 34. Tong A, Sainsbury B, Craig J. Consolidated criteria for Reporting Qualitative research (COREQ): a 32-item checklist for interviews and focus group. Int J Qual Health Care. déc 2007;349–57. pmid:17872937
  35. 35. Plaete J, Crombez G, DeSmet A, Deveugele M, Verloigne M, De Bourdeaudhuij I. What do general practitionners think about an online self regulation programme for health promotion? Focus group interview. BMC family practice. 2015;
  36. 36. Grant S, Hodgkinson J, Milner S, Martin U, Tompson AC, Hobbs FR. Patients’ and clinicians’ views on the optimum schedules for self-monitoring of blood pressure: a qualitative focus group and interview study.—PubMed—NCBI. British Journal of General Practice. nov 2016;
  37. 37. Erler A, Nolte E, Beyer M, Gerlach FM. Commentary: preparing primary care for the future—perspectives from the Netherlands, England, USA and lessons for Germany. Z Evidenz Fortbild Qual Im Gesundheitswesen. 2011;105(8):581–4.
  38. 38. Tsakiri C, Stergiou GS, Boivin J-M. Implementation of Home Blood Pressure Monitoring in Clinical Practice. Clin Exp Hypertens. 1 nov 2013;35(7):558–62. pmid:23405853
  39. 39. Obara T, Ohkubo T, Fukunaga H, Kobayashi M, Satoh M, Metoki H, et al. Practice and awareness of physicians regarding home blood pressure measurement in Japan. Hypertens Res. mai 2010;33(5):428–34.
  40. 40. McManus RJ, Wood S, Bray EP, Glasziou P, Hayen A, Heneghan C, et al. Self-monitoring in hypertension: a web-based survey of primary care physicians. J Hum Hypertens. 2014;
  41. 41. Setia S, Subramaniam K, Tay JC, Teo BW. Hypertension and blood pressure variability management practices among physicians in Singapore. Vasc Health Risk Manag. 2017;13:275–85. pmid:28761353
  42. 42. Kobayashi M, Obara T, Ohkubo T, Fukunaga H, Satoh M, Metoki H, et al. Practice and awareness of physicians regarding casual-clinic blood pressure measurement in Japan. Hypertens Res. sept 2010;33(9):960–4.
  43. 43. McManus R, Caulfield M, Williams B. NICE hypertension guideline 2011: evidence based evolution. British Medical Journal. janv 2012;
  44. 44. Quinn R, Hemmelgam BR, Padwal RS, Myers M, Cloutier L, Bolli P. The 2010 Canadian Hypertension Education Program recommendations for the management of hypertension: part I -blood pressure measurement, diagnosis and assesment of risk. The Canadian Journal of Cardiology. mai 2010;241–9. pmid:20485688
  45. 45. Denolle T, Asmar R, Bobrie G, BOIVIN J-M, Girerd X, Le Jeune S. Mesure de la Pression artérielle. Société Francaise d’Hypertension Artérielle; 2018 déc.
  46. 46. Haute Autorité de Santé H. Prise en charge des patients adultes atteints d’hypertension artérielle essentielle. 2005.
  47. 47. O’Brien E, Dolan E, Stergiou GS. Achieving reliable blood pressure measurements in clinical pratice: It’s time to meet the challenge. juill 2018;Volume 20 1084–1138.
  48. 48. Van Onzenoort H, Verberk W, Kroon A, Kessels A, Nelemans P, Van der Kuy P. Effect of self-measurement of blood pressure on adherence to treatment in patient with mild-to-moderate hypertension. 28 mars 2010;622–7.
  49. 49. Okonofua EC, Simpson KN, Jesri A, Rehman SU, Durkalski VL, Egan BM. Therapeutic Inertia Is an Impediment to Achieving the Healthy People 2010 Blood Pressure Control Goals. Hypertension. 1 mars 2006;47(3):345–51. pmid:16432045
  50. 50. Agarwal R, Bills JE, Hecht TJW, Light RP. Role of home blood pressure monitoring in overcoming therapeutic inertia and improving hypertension control: a systematic review and meta-analysis. Hypertens Dallas Tex 1979. janv 2011;57(1):29–38.
  51. 51. Lebeau J-P, Cadwallader J-S, Vaillant-Roussel H, Pouchain D, Yaouanc V, Aubin-Auger I, et al. General practitioners’ justifications for therapeutic inertia in cardiovascular prevention: an empirically grounded typology. BMJ Open. 1 mai 2016;6(5):e010639. pmid:27178974
  52. 52. Milman T, Joundi RA, Alotaibi NM, Saposnik G. Clinical inertia in the pharmacological management of hypertension. Medicine (Baltimore). 22 juin 2018;97(25).
  53. 53. Ekesbo R, Midlöv P, Gerward S, Persson K, Nerbrand C, Johansson L. Lack of adherence to hypertension treatment guidelines among GPs in southern Sweden-a case report-based survey. BMC Fam Pract. 9 juill 2012;13:34.
  54. 54. Lugtenberg M, Zegers-van Schaick JM, Westert GP, Burgers JS. Why don’t physicians adhere to guideline recommendations in practice? An analysis of barriers among Dutch general practitioners. Implement Sci IS. 12 août 2009;4:54. pmid:19674440
  55. 55. Reiner Z, Sonicki Z, Tedeschi-Reiner E. Physicians’ perception, knowledge and awareness of cardiovascular risk factors and adherence to prevention guidelines: the PERCRO-DOC survey. Atherosclerosis. déc 2010;213(2):598–603. pmid:20947087
  56. 56. Reach G. Patient autonomy in chronic care: solving a paradox. Patient Prefer Adherence. 12 déc 2013;
  57. 57. A’Court C, McManus RJ. Why are doctor still measuring blood pressure? Br J Gen Pract. avr 2014;
  58. 58. Grant S, Greenfield SM, Nouwen A, McManus RJ. Improving management and effectiveness of home blood pressure monitoring: a qualitative UK primary care study. Br J Gen Pract. nov 2015;65(640):e776–83. pmid:26500326
  59. 59. Hodgkin P, Taylor J. Power to the people: what will bring about the patient centred revolution? Br Med J. nov 2013;
  60. 60. Roerecke M, Kaczorowski J, Myers M. Comparing Automated Office Blood Pressure Readings with other methods of Blood Pressure Measurement for identifying Patients with Possible Hypertension: a systematic review and meta-analysis. JAMA Intern Med. 2019;
  61. 61. Green LA. It is time to change how we measure blood pressures in the office. Annal of Family Medicine. 2017;105–6.
  62. 62. The SPRINT Research Group. A Randomized Trial of Intensive versus Standard Blood-Pressure Control. N Engl J Med. 26 nov 2015;373(22):2103–16. pmid:26551272
  63. 63. McManus RJ, Mant J, Bray EP, Holder R, Jones MI, Greenfield S, et al. Telemonitoring and self-management in the control of hypertension (TASMINH2): a randomised controlled trial. Lancet Lond Engl. 17 juill 2010;376(9736):163–72.
  64. 64. Jones MI, Greenfield SM, Bray EP, Hobbs FR, Holder R, Little P, et al. Patient self-monitoring of blood pressure and self-titration of medication in primary care: the TASMINH2 trial qualitative study of health professionals’ experiences. Br J Gen Pract. juin 2013;63(611):e378–85. pmid:23735408
  65. 65. Franssen M, Farmer A, Grant S, Greenfield S, Heneghan C, Hobbs R, et al. Telemonitoring and/or self-monitoring of blood pressure in hypertension (TASMINH4): protocol for a randomised controlled trial. BMC Cardiovasc Disord. 2017;17:58. pmid:28193176