FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1984247777> ?p ?o ?g. }

• W1984247777 endingPage "85" @default.
• W1984247777 startingPage "81" @default.
• W1984247777 abstract "In this issue of Advances of Chronic Kidney Disease, the 3 coeditors, Debbie Cohen, Jesse Goldman, and John Sim, have marshaled the efforts of 11 sets of authors to provide the readership with updates of the diagnosis and management of the most prevalent cardiovascular disease, hypertension. The 11 articles expansively cover the engaging and multidimensional relationship between hypertension and the kidney. However, this editorial will reflect on some of the vagaries encountered in the day-to-day practice of managing hypertension. This brief vignette underscores the importance of developing and implementing blood pressure follow-up protocols with involved stakeholders and the utility of home-based blood pressure monitoring. An older man with a 30-year history of high blood pressure had, in his words, “been well controlled” by a 3-drug antihypertensive regimen until recently. However, 7 weeks after an abdominal surgery, his blood pressure, which had only been measured sporadically, was recorded as 198/105 mmHg, and he had a global headache. At 4 weeks postoperatively, his blood pressure had been recorded as normal. Notably, he had been taking only 1 antihypertensive agent then, amlodipine. Losartan and hydrochlorothiazide had been discontinued after surgery because of postoperative normotension. After restarting these, his blood pressure descended into the normal range over the next 4 weeks, while a hypertension specialist followed his case closely and communicated with the patient frequently. Over the next 5 to 6 weeks, the patient engaged in home blood pressure monitoring after the appropriate method of blood pressure measurement was taught to the patient. Three, 5-day blood pressure logs were submitted to the specialist as a surrogate of ambulatory blood pressure monitoring (ABPM). The 5-day blood pressure logs documented 4 blood pressures daily, 2 in the morning and 2 in the evening, following measurements with an oscillometric device that had been calibrated against an in-office aneroid device.1Canzanello V.J. Jensen P.L. Schwartz G.L. Are anaeroid sphygmomanometers accurate in hospital and clinical settings?.Arch Intern Med. 2001; 161: 729-731Crossref PubMed Scopus (109) Google Scholar Over 4 weeks, the blood pressure logs revealed a decline in the patient's blood pressure to normal level but an absence of the normal decline in blood pressure during the evening and night (Table 1).Table 1A 5-Day, Self-recorded Blood Pressure LogDayAMPMSBP (mmHg)DBP (mmHg)HR (bpm)SBP (mmHg)DBP (mmHg)HR (bpm)1118958214792761358282149897221268282152907113178781198276312385851458778131816713482724134878414887651167876118777451248275130888312276731217984Mean BP or HR126.082.678.4136.385.375.1Min BP or HR116.076.067.0118.077.065.0Max BP or HR135.095.085.0152.092.084.0SD BP or HR6.25.25.412.84.75.4Abbreviations: DBP, diastolic blood pressure; HR, heart rate; Max, maximum; Min, minimum; SBP, systolic blood pressure; SD, standard deviation.Seated, right arm blood pressures were obtained during 2 intervals: twice from 0700 to 1000 hours (daytime) and twice from 1900 to 2200 hours (night-time). Means, minima, maxima, and SDs (measure of variability) were computed for SBP and DBP and HR during daytime and night-time intervals. Open table in a new tab Abbreviations: DBP, diastolic blood pressure; HR, heart rate; Max, maximum; Min, minimum; SBP, systolic blood pressure; SD, standard deviation. Seated, right arm blood pressures were obtained during 2 intervals: twice from 0700 to 1000 hours (daytime) and twice from 1900 to 2200 hours (night-time). Means, minima, maxima, and SDs (measure of variability) were computed for SBP and DBP and HR during daytime and night-time intervals. Recently, the US Preventive Services Task Force issued the following statement after conducting an exhaustive systematic review, funded by the Agency for Healthcare Research and Quality, regarding the benefits and harms of screening adults for hypertension: “On the basis of the prognostic evidence, we selected ABPM as the reference standard for BP measurement and for evaluating the diagnostic accuracy of other measurement methods.2Piper M.A. Evans C.V. Burda B.U. et al.Diagnostic and predictive accuracy of blood pressure screening methods with consideration of rescreening intervals: an updated systematic review for the U.S. Preventive services task force blood pressure screening methods and consideration of rescreening intervals.Ann Intern Med. 2014; https://doi.org/10.7326/M14–M1539http://annals.org/article.aspx?articleid=2085846Crossref Google Scholar We regarded daytime, night-time, or 24-hour ABPM protocols as acceptable.” This statement has broad implications because noninvasive 24-hour ABPM is not routinely carried out in the United States or anywhere else for that matter, although it was conceived of nearly 50 years ago by a team led by Sokolow3Kain H.K. Hinman A.T. Sokolow M. Arterial blood pressure measurements with a portable recorder in hypertensive patients. I. Variability and correlation with casual pressure.Circulation. 1964; 30: 882-892Crossref PubMed Scopus (118) Google Scholar, 4Sokolow M. Werdegar D. Kain H.K. et al.Relationship between level of blood pressure measured casually and by portable recorders and severity of complications in essential hypertension.Circulation. 1966; 34: 279-298Crossref PubMed Scopus (473) Google Scholar and shown to correlate better than conventional mercury-based sphygmomanometry with blood pressure in the elderly patient.5Staessen J. O'Brien E. Atkins N. et al.The increase in blood pressure with age and body mass index is overestimated by conventional sphygmomanometry.Am J Epidemiol. 1992; 136: 450-459PubMed Google Scholar The singular impediment in a fee-for-service environment is simply that the cost of the equipment and time to properly perform ABPM represents a nearly nil return on the investment of several thousand dollars of equipment and computers. There are defined American Medical Association Current Procedural Terminology billing codes for ABPM (93,784 and 93,788), but the only indication is for Medicare beneficiaries with an International Classification of Diseases, Ninth Revision, Clinical Modification code 796.2/code R03.0 that signifies an “elevated blood pressure reading without a diagnosis of hypertension,” which roughly translates to “suspected ‘white coat hypertension (WCH).’”6American Medical Association. Medicine/Cardiovascular chapter. Noninvasive Physiologic Studies and Procedures section. CPT 2014 Professional Edition. 1st ed. Chicago, IL: AMA; 2014:570Google Scholar Strictly, WCH is defined operationally: (1) clinic/office blood pressure greater than 140/90 mmHg on at least 3 separate clinic/office visits with 2 separate measurements made at each visit, (2) at least 2 documented separate blood pressure measurements taken outside the clinic/office that are less than 140/90 mmHg, and (3) no evidence of end-organ damage. The trouble with this concept is that it omits individuals with “white coat effect,” namely a hypertensive individual who manifests blood pressure elevations in-office for whichever reason.7Verdecchia P. Schillaci G. Borgioni C. et al.White coat hypertension and white coat effect. Similarities and differences.Am J Hypertens. 1995; 8: 790-798Crossref PubMed Scopus (190) Google Scholar Moreover, if ABPM must be repeated, the qualifying criteria must be repeated. A full 24 hours of blood pressure measurements that encompass daytime and night-time blood pressures must be ascertained from the recording device to obtain any reimbursement for conduct of the study. For non-Medicare patients, few practitioners have bothered to petition third-party payers for reimbursement of ABPM, and fewer of these payers have done so. To rub salt into the wound, the reimbursement is generally disproportionately smaller than what would be anticipated, given the effort entailed to properly read and interpret an ABPM study. The interpretation of ABPM recordings is detailed and must be correlated with the well-kept diary of the putatively hypertensive patient. ABPM interpretation is generally not taught within the curricula of Internal Medicine, Cardiology, Endocrinology, or Nephrology centers simply because there is nothing to teach from. However, ABPM is carried out routinely, and proper interpretation thereof takes place within the rubric of dedicated hypertension fellowships. If universally applied, ABPM defines and refines the management of 4 groups of patients—Group 1: those who manifested transient hypertension; Group 2: those who incur WCH; Group 3: those who have hypertension; and Group 4: those who have “masked” hypertension (also referred to as isolated ambulatory hypertension: normal office-based blood pressure and elevated blood pressure elsewhere)—undiagnosable in the absence of ABPM. However, some cases of masked hypertension are attributable to nocturnal hypertension (nocturnal systolic blood pressure >120 mmHg).8Papadopoulos D.P. Makris T.K. Masked hypertension definition, impact, outcomes: a critical review.J Clin Hypertens (Greenwich). 2007; 9: 956-963Crossref PubMed Scopus (59) Google Scholar The utility of ABPM in groups 1 and 2 is that individuals will not be inappropriately labeled or treated as having high blood pressure. Ironically, this would be one of the few times that medication nonadherence would be of benefit. Group 3 hypertensives who faithfully reproduce perfect blood pressure records yet truly have high blood pressure will have their hypertension exposed by ABPM. These patients mask their hypertension but do not have the masked hypertension of Group 4, defined as hypertension by ABPM or home blood pressure monitoring with normal office-based blood pressures. This phenomenon occurs in approximately 12% to 14% of those with normal office-based blood pressures and who are not treated as hypertensive patients. Masked hypertension has been correlated with left ventricular hypertrophy, increased carotid artery intima thickness, and decreased large artery distensibility. Cardiovascular disease risk may be equivalent to patients with conventional office-based hypertension. A person with a home blood pressure log that reveals masked hypertension should likely undergo a 24-hour blood pressure recording, to optimize their medical management. Lastly, masked hypertension should be sought out in patients with diabetes and/or CKD and treated accordingly. ABPM as a monitoring tool is valuable. In the 6-month, 419 participant, treatment-blinded, Belgian Ambulatory Blood Pressure Monitoring and Treatment of Hypertension study, the hypothesis that ABPM vs conventional blood pressure measurement would result in less intensive antihypertensive therapy was fulfilled.9Staessen J.A. Byttebier G. Buntinx F. et al.Antihypertensive treatment based on conventional or ambulatory blood pressure measurement.JAMA. 1997; 278: 1065-1072Crossref PubMed Google Scholar Briefly, total medication discontinuation was achieved in 26.3% of those randomized to the ABPM-monitored group vs only 7.3% (P < .001) in conventional, office-based group.9Staessen J.A. Byttebier G. Buntinx F. et al.Antihypertensive treatment based on conventional or ambulatory blood pressure measurement.JAMA. 1997; 278: 1065-1072Crossref PubMed Google Scholar In the control group, 42.7% progressed to sustained multiple agent therapy vs just 27.2% in the ABPM-monitored group (P < .001). ABPM may be of particular utility in elderly patients in whom high pulse pressures correspond to impaired diastolic coronary artery filling and reduced cerebral perfusion. Overly aggressive antihypertensive therapy, which is discoverable by ABPM, can thus be identified and remediated. This risk potential has been at least partially attenuated by the global change of the hypertensive systolic pressure threshold to 150 mmHg for elderly persons by Recommendation 1 of the Eighth Joint National Committee's 2014 Evidence-Based Guideline for the Management of High Blood Pressure in Adults.10James P.A. Oparil S. Carter B.L. et al.2014 Evidence-based guideline for the management of high blood pressure in adults: report from the panel members appointed to the eighth national joint committee (JNC 8).JAMA. 2014; 311: 507-520Crossref PubMed Scopus (6153) Google Scholar ABPM reporting includes facets of the blood pressure that are ignored in routine practice: circadian variation, integrated blood pressure load, and variability of blood pressure. One of these is “dipper” status. Within the circadian rhythm of most patients, an evening-to-nocturnal “physiological” blood pressure reduction transpires.11Verdecchia P. Schillaci G. Guerrieri M. et al.Circadian blood pressure changes and left ventricular hypertrophy in essential hypertension.Circulation. 1990; 81: 528-536Crossref PubMed Scopus (1215) Google Scholar, 12Verdecchia P. Prognostic value of ambulatory blood pressure: current evidence and clinical implications.Hypertension. 2000; 35: 844-851Crossref PubMed Scopus (523) Google Scholar Those who manifest this unprovoked blood pressure reduction that is normally 10% or more of the daytime systolic and diastolic blood pressures are termed, dippers. Those who do not are “nondippers” and have worse cardiovascular outcomes than their dipping counterparts, presumably from elevated nocturnal sympathetic nervous system tone. Nondippers, representing 10% to 40% of individuals who have undergone ABPM in blood pressure trials, demonstrate more left ventricular hypertrophy, brain lacunae, albuminuria, and cardiovascular mortality than dippers.13Rizzoni D. Muiesan M.L. Montani G. Zulli R. Calebich S. Agabiti-Rosei E. Relationship between initial cardiovascular structural changes and daytime and nighttime blood pressure monitoring.Am J Hypertens. 1992; 5: 180-186Crossref PubMed Scopus (176) Google Scholar, 14Kuwajima I. Suzuki Y. Shimosawa T. et al.Diminished nocturnal decline in blood pressure in elderly hypertensive patients with left ventricular hypertrophy.Am Heart J. 1992; 123: 1307-1311Abstract Full Text PDF PubMed Scopus (130) Google Scholar, 15Palatini P. Penzo M. Racioppa A. et al.Clinical relevance of nighttime blood pressure and of daytime blood pressure variability.Arch Intern Med. 1992; 152: 1855-1860Crossref PubMed Scopus (452) Google Scholar, 16Redon J. Liao Y. Lozano J.V. Miralles A. Pascual J.M. Cooper R.S. Ambulatory blood pressure and microalbuminuria in essential hypertension: role of circadian variability.J Hypertens. 1994; 12: 947-953Crossref PubMed Google Scholar, 17Bianchi S. Bigazzi R. Baldari G. Sgherri G. Campese V.M. Diurnal variations of blood pressure and microalbuminuria in essential hypertension.Am J Hypertens. 1994; 7: 23-29Crossref PubMed Scopus (362) Google Scholar, 18Timio M. Venanzi S. Lolli S. et al.Night-time blood pressure and progression of renal insufficiency.High Blood Press Cardiovasc Prev. 1994; 3: 39-44Google Scholar, 19O'Brien E. Sheridan J. O'Malley K. Dippers and nondippers.Lancet. 1988; 2 ([letter]): 397Abstract PubMed Scopus (1003) Google Scholar, 20Shimada K. Kawamoto A. Matsubayashi K. Nishinaga M. Kimura S. Ozawa T. Diurnal blood pressure variations and silent cerebrovascular damage in elderly patients with hypertension.J Hypertens. 1992; 10: 875-878PubMed Google Scholar, 21Kario K. Matsuo T. Kobayashi H. Imiya M. Matsuo M. Shimada K. Nocturnal fall of blood pressure and silent cerebrovascular damage in elderly hypertensive subjects: advanced silent cerebrovascular damage in extreme dippers.Hypertension. 1996; 27: 130-135Crossref PubMed Scopus (572) Google Scholar Although, the nocturnal dipping status of systolic and diastolic blood pressures is evaluated in ABPM, the systolic pressure appears the more important of the two and overrides any effects of the 24-hour blood pressure. The hazard rate for total cardiovascular events was 1.41 (95% confidence interval, 1.03 to 1.94, P = .03) in the Systolic Hypertension in Europe study for each 10% increment of night-to-day systolic blood pressure.22Staessen J.A. Fagard T.L. O'Brien E.T. et al.Predicting cardiovascular risk using conventional vs ambulatory blood pressure in older patients with systolic hypertension. Systolic Hypertension in Europe Trial Investigators.JAMA. 1999; 282: 539-546Crossref PubMed Scopus (1366) Google Scholar In this 808-patient trial of isolated systolic hypertension with a median follow-up of 4.4 years, 12% of participants developed a major cardiovascular-related event. ABPM disclosed that increased night-time systolic pressures associated with these events; the hazard rate for cerebrovascular events increased by 0.31 and 0.20 for cardiovascular events for each 10 mmHg increment of systolic pressure. A nocturnal blood pressure of 142 mmHg was equivalent to a daytime blood pressure of 160 mmHg. This increased burden of cardiovascular disease risk was also apparent in an ambulatory, rural Japanese population and an Italian prospective registry of cardiovascular morbidity and mortality. The Ohasama Study followed 1300 participants aged 20 years or more for 5 years.23Zachariah P.K. Sheps S.G. Ilstrup D.M. et al.Blood pressure load: a better determinant of hypertension.Mayo Clin Proc. 1988; 63: 1085-1091Abstract Full Text Full Text PDF PubMed Scopus (117) Google Scholar Those nondippers whose 24-hour systolic pressures appeared in the highest quintile developed a significant 2.56-fold enhancement of cardiovascular mortality over the study's dippers. Equally compelling evidence has not yet been shown in blacks or patients with CKD who fail to follow a normal circadian blood pressure pattern. Lastly, nondipping may disclose a secondary source of hypertension such as sleep apnea, which our patient had, and that is characterized by enhanced sympathetic activity.24Kimura G. Kidney and circadian blood pressure rhythm.Hypertension. 2008; 51: 827-828Crossref PubMed Scopus (66) Google Scholar Kimura strongly argues that loss of dipping status is often representative of kidney disease in the absence of secondary hypertension. A rectangle of width W and height H is certainly smaller than one of 3 W and 0.75 H, but we do not think of blood pressure in such an integrated manner. However, the concept of blood pressure load25Ohkubo T. Imai Y. Tsuji I. et al.Relation between nocturnal decline in blood pressure and mortality: the Ohasama study.Am J Hypertens. 1997; 10: 1201-1207Crossref PubMed Scopus (409) Google Scholar is inculcated into ABPM, and only ABPM calculates this otherwise uncalculated entity when a sufficient number of blood pressures have been obtained (minima: 14 daytime and 7 night-time blood pressures). The blood pressure load is defined by determining the number/proportion of blood pressures that exceed the hypertension threshold pressures during the daytime and night-time intervals.26White W.B. Dey H.M. Schulman P. Assessment of the daily blood pressure load as a determinant of cardiac function in patients with mild-to-moderate hypertension.Am Heart J. 1989; 118: 782-795Abstract Full Text PDF PubMed Scopus (314) Google Scholar The blood pressure load associates with left ventricular hypertrophy, especially if the systolic and diastolic blood pressure loads exceed 50% or 70%, respectively. Greater blood pressure variability has been touted by some to predict target organ damage. The variability parameter is self-consciously reported by patients who proclaim how much their blood pressure “jumps around,” notwithstanding that the patients themselves may have been jumping around during blood pressure measurements. Formally defined as the standard deviation of the systolic pressure, daytime or night-time above a group mean, blood pressure variability is not reported by all investigators. Conflicting results regarding this metric's usability and clinical utility preclude its use in an evidence-based fashion at this time.27Schillaci G. Verdecchia P. Borgioni C. Ciucci A. Porcellati C. Lack of association between blood pressure variability and left ventricular mass in essential hypertension.Am J Hypertens. 1998; 11: 515-522Crossref PubMed Scopus (42) Google Scholar For now, until further results are forthcoming, blood pressure variability's clinical utility is for want of a better word, variable. However, the 24-hour ABPM-based pulse pressure is predictive of cardiovascular and cerebrovascular events. This metric of arterial stiffness was examined by office-based blood pressure measurement and ABPM over a mean 3.8 years of follow-up in the Progetto Ipertensione Umbria Monitoraggio Ambulatoriale study, with cardiovascular morbidity and mortality as end points.28Verdecchia P. Schillaci G. Borgioni C. et al.Ambulatory pulse pressure: a potent predictor of total cardiovascular risk in hypertension.Hypertension. 1998; 32: 983-988Crossref PubMed Scopus (385) Google Scholar Ambulatory pulse pressure clearly portended cardiovascular morbidity and mortality more than age, left ventricular hypertrophy, and nondipper status. Notably, ABPM-based pulse pressure was minimally more valuable than office-based pulse pressure, implying that the diagnosis of arterial inelasticity at a certain threshold by any blood pressure measuring technique is associated with greater cardiovascular disease. Lastly, ABPM may lower the total cost of antihypertensive care. This is in direct alignment with the Affordable Care Act, although ABPM, which costs approximately $100 to $350 per measurement,29Anwar Y.A. White W.B. Ambulatory monitoring of blood pressure.in: White W.B. Contemporary cardiology: blood pressure monitoring in cardiovascular medicine and therapeutics. Humana Press, Totowa, NJ2001: 57-75Crossref Google Scholar has been considered too expensive by the majority of the payers for the reasons cited earlier and cost neutral by others. For example, office visits for hypertension can be greatly reduced by ABPM, which represents an amortized piece of equipment, a clear cost savings over time for each hypertensive patient. Overall, medication costs were decreased in toto by ABPM with respect to population-based hypertension management.9Staessen J.A. Byttebier G. Buntinx F. et al.Antihypertensive treatment based on conventional or ambulatory blood pressure measurement.JAMA. 1997; 278: 1065-1072Crossref PubMed Google Scholar, 30Yarows S.A. Julius S. Pickering T.G. Home blood pressure monitoring.Arch Intern Med. 2000; 160: 1251-1257Crossref PubMed Scopus (103) Google Scholar In the Ambulatory Blood Pressure Monitoring and Treatment of Hypertension trial, the ABPM arm saved nearly $8 less on blood pressure medications per patient per month ($4188 vs $3390 per 100 patients per month), and physician visits were decreased. If this calculus is further verified, then arguably, most physicians would only be involved during escalation of care of hypertensive individuals, ie, prescription of second and third drugs to patients with essential hypertension. It is time for medical personnel to stop taking blood pressures on patients when possible. This is especially relevant because a great number of blood pressures are acquired errantly for multiple reasons including the use of noncalibrated aneroid devices and failure to position patients and measuring devices appropriately for blood pressure measurements. And physicians generally should not be taking any patient's blood pressure in the majority of circumstances. Mounting evidence clearly shows that physicians, nurses, and other health care workers should not be obtaining office-based blood pressures from patients. Aside from the patient, the blood pressure measuring device and a quiet room, devoid of television, telephones, reading materials, and other persons (ie, family members), are all that is necessary to obtain the blood pressure. Auto-repeated measurements are useful using standard oscillometrically based equipment and must become the norm at home.31Pickering T.G. Hall J.E. Appel L.J. et al.Recommendations for blood pressure measurement in humans and experimental animals, part 1: blood pressure measurement in humans.Hypertension. 2005; 45: 142-161Crossref PubMed Scopus (1917) Google Scholar, 32ANSI/AAMI/ISO 81060-2:2013. Non-invasive sphygmomanometers—part 2: clinical validation of automated measurement type. Available at: http://webstore.ansi.org/RecordDetail.aspx?sku=ISO+81060-2%3a2013. Accessed January 2, 2013.Google Scholar It follows logically that the patient must take ownership of his blood pressure and measure it in a protocolized fashion, particularly after a significant health-related event such as our patient experienced. Until ABPM is widely deployed and to rectify the problem of inaccurate blood pressure measurement, retraining of all medical personnel is required. To this end, initiatives such as the American Medical Group Foundation's national effort to combat high blood pressure, the Measure Up/Pressure Down campaign, is laudable and achievable.33Partners. Measure Up/Pressure Down—American Medical Group Foundation (AMGF). Available at: http://millionhearts.hhs.gov/aboutmh/partners/amgf.html. Accessed January 1, 2015.Google Scholar The Foundation has enjoined over 140 medical groups of the American Medical Group Association, representing 42 million patients, in their effort to effect successful antihypertensive therapy. Leveraging multiple stakeholders who develop high-quality best practice tools that engage providers and patients in co-ordinated care delivery systems is anticipated to successfully treat 80% of antihypertensive patients to their respective goals. In essence, high blood pressure is everyone's problem and everyone must be involved in the solution. The resolution to this problem clearly involves greater implementation of ABPM, which facilitates the diagnosis of those individuals who are truly hypertensive and permits more facile monitoring of them. Until then, continue to educate your patients on the proper method for them to participate in home blood pressure monitoring as our patient did. Home blood pressure monitoring is roughly equivalent to a 24-hour ABPM study and considered especially useful in diabetics, pregnant women, children, and individuals with CKD.34Pickering T.G. Miller N.H. Ogedegbe G. et al.Call to action on use and reimbursement for home blood pressure monitoring: executive summary: a joint scientific statement from the American Heart Association, American Society of Hypertension, and Preventive Cardiovascular Nurses Association.Hypertension. 2008; 52: 1-9Crossref PubMed Scopus (222) Google ScholarThe most familiar precepts are not always the truest.—MP The author expresses his gratitude to Raymond Townsend, MD, for his incisive contributions to this manuscript and call for action." @default.
• W1984247777 created "2016-06-24" @default.
• W1984247777 creator A5020919570 @default.
• W1984247777 date "2015-03-01" @default.
• W1984247777 modified "2023-10-16" @default.
• W1984247777 title "Ambulatory Blood Pressure Monitoring: Mercury Rising" @default.
• W1984247777 cites W1908194698 @default.
• W1984247777 cites W1968181896 @default.
• W1984247777 cites W1968291490 @default.
• W1984247777 cites W1976091876 @default.
• W1984247777 cites W1991752970 @default.
• W1984247777 cites W2004346957 @default.
• W1984247777 cites W2019306998 @default.
• W1984247777 cites W2044656600 @default.
• W1984247777 cites W2057233709 @default.
• W1984247777 cites W2060057035 @default.
• W1984247777 cites W2062654608 @default.
• W1984247777 cites W2074014323 @default.
• W1984247777 cites W2102604499 @default.
• W1984247777 cites W2103015566 @default.
• W1984247777 cites W2116491415 @default.
• W1984247777 cites W2121969402 @default.
• W1984247777 cites W2126125759 @default.
• W1984247777 cites W2127768705 @default.
• W1984247777 cites W2147624902 @default.
• W1984247777 cites W2147958256 @default.
• W1984247777 cites W2156052378 @default.
• W1984247777 cites W2160615492 @default.
• W1984247777 cites W2160801689 @default.
• W1984247777 cites W2322148992 @default.
• W1984247777 cites W2562646453 @default.
• W1984247777 cites W4297084692 @default.
• W1984247777 cites W4319054711 @default.
• W1984247777 doi "https://doi.org/10.1053/j.ackd.2015.01.001" @default.
• W1984247777 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25704342" @default.
• W1984247777 hasPublicationYear "2015" @default.
• W1984247777 type Work @default.
• W1984247777 sameAs 1984247777 @default.
• W1984247777 citedByCount "2" @default.
• W1984247777 countsByYear W19842477772015 @default.
• W1984247777 crossrefType "journal-article" @default.
• W1984247777 hasAuthorship W1984247777A5020919570 @default.
• W1984247777 hasBestOaLocation W19842477771 @default.
• W1984247777 hasConcept C126322002 @default.
• W1984247777 hasConcept C149323552 @default.
• W1984247777 hasConcept C164705383 @default.
• W1984247777 hasConcept C177713679 @default.
• W1984247777 hasConcept C199360897 @default.
• W1984247777 hasConcept C2777777548 @default.
• W1984247777 hasConcept C35785553 @default.
• W1984247777 hasConcept C41008148 @default.
• W1984247777 hasConcept C42219234 @default.
• W1984247777 hasConcept C71924100 @default.
• W1984247777 hasConcept C84393581 @default.
• W1984247777 hasConceptScore W1984247777C126322002 @default.
• W1984247777 hasConceptScore W1984247777C149323552 @default.
• W1984247777 hasConceptScore W1984247777C164705383 @default.
• W1984247777 hasConceptScore W1984247777C177713679 @default.
• W1984247777 hasConceptScore W1984247777C199360897 @default.
• W1984247777 hasConceptScore W1984247777C2777777548 @default.
• W1984247777 hasConceptScore W1984247777C35785553 @default.
• W1984247777 hasConceptScore W1984247777C41008148 @default.
• W1984247777 hasConceptScore W1984247777C42219234 @default.
• W1984247777 hasConceptScore W1984247777C71924100 @default.
• W1984247777 hasConceptScore W1984247777C84393581 @default.
• W1984247777 hasIssue "2" @default.
• W1984247777 hasLocation W19842477771 @default.
• W1984247777 hasLocation W19842477772 @default.
• W1984247777 hasOpenAccess W1984247777 @default.
• W1984247777 hasPrimaryLocation W19842477771 @default.
• W1984247777 hasRelatedWork W2015555924 @default.
• W1984247777 hasRelatedWork W2081937420 @default.
• W1984247777 hasRelatedWork W2324123234 @default.
• W1984247777 hasRelatedWork W2332882810 @default.
• W1984247777 hasRelatedWork W2404687814 @default.
• W1984247777 hasRelatedWork W2414038239 @default.
• W1984247777 hasRelatedWork W2442675013 @default.
• W1984247777 hasRelatedWork W2463839308 @default.
• W1984247777 hasRelatedWork W2896036831 @default.
• W1984247777 hasRelatedWork W2466005980 @default.
• W1984247777 hasVolume "22" @default.
• W1984247777 isParatext "false" @default.
• W1984247777 isRetracted "false" @default.
• W1984247777 magId "1984247777" @default.
• W1984247777 workType "article" @default.