Archive for the ‘Electronic Health Record’ category

EHR Dissatisfaction…

May 7, 2013

An interesting opinion by Kimberli Martini: EHR dissatisfaction: A tech or people problem?,12,,29,24

There is plenty of literature about the failures of implementing information technologies. Most of the failures are mainly due to lack of proper attention to human-machine interaction issues, and still the most neglected aspect in implementation of EHR!

Typology IX: Age and Academic Practice as Socio-demographic Variables:

May 21, 2011

In the discussion of factors that might impact the adoption of EHR/EMR by physicians we must consider some socio-demographic variables that typically affect how we behave as part of a group!

a)     Age as a definer of generational subcultures: This can be simply expressed as, “the younger the physicians, the more easily they use EHRs[1] Whether this would mean or imply that younger physicians are or will be more inclined to “meaningful use” of the EHR is to be seen!

b)    Practice in educational settings as an “academic subculture:” Physicians practicing in teaching hospitals and medical residencies are more likely to adopt the EHRs. 1,[2],[3]

In this regard it is possible that medical students and residents, who generally spend at least some of their training in hospital settings, are functioning as catalysts for the office practices that house them to adopt EHRs and other HIT that may be more prevalent in the inpatient setting.[4]A particularly interesting experience that addresses both the education of medical students and the facilitating of the training of physicians in practice is occurring through the Florida State University College of Medicine model of community based medical education. Medical students who work in their preceptor’s office offer training to their mentors in the use of clinical decision support tools.

[1] DesRoches, CM., Campbell, EG., Rao, SR., et al. Electronic Health Records in Ambulatory Care — A National Survey of Physicians. N Engl J Med. 2008; 359:50-60.

[2] Simon SR. et al. Correlates of electronic health record adoption in office practices: a statewide survey. Journal of the American Medical Informatics Association. 14(1):110-7, 2007 Jan-Feb.

[3] Likourezos,A., Chalfin, DB., Murphy, DG., et al., Physician and Nurse satisfaction with an Electronic Medical Record System. The Journal of Emergency Medicine, Vol. 27, No. 4, pp. 419–424, 2004

[4] Simon, SR., et al. Physicians and Electronic Health Records: A State Survey. Arch Intern Med. 2007;167:507-512

Cultural Typology VII: Sense of belonging to a professional class (guild member), and medical specialty

April 27, 2011

As I expressed in my post of February 11, 2011, About the Culture of Medicine & Physicians, physicians have constructed a corporative collectivity, the medical profession, more or less admired or chastised, but always cohesive in its control of their profession and trade. The profession claims to be the most reliable authority on the nature of the reality it facesIn other words, the ailments brought by the patients, and they are the ultimate judge of their practice and conduct. One must not forget that the physician is the preeminent practitioner of medicine, and represents it par excellence. Perhaps anecdotally, physicians are sometimes characterized as “knowledge expert physicians,” or medicine expert, vs. “manual dexterity expert physicians”, or surgeons, but this needs to be further explored. In summary, and as it has been expressed earlier, physicians have historically relied on their professional peers as their primary source of information related to new technologies.

In relation to this sense of belonging to a professional class, particularly specific work in this respect is the work of Ford and Menachemi in Florida.[1] They argue that, collectively, the medical community’s social mechanisms that influence adoption decisions view EHRs as a potential threat to professional autonomy. This may be particularly true among physicians in small practices that value the freedom and autonomy these provide. Lee also argued that EHRs are not an appealing technology since it does not add to their social approval. [2] Menachemi, et al, found that physicians caring for children in Florida (Child Health Providers-CHP), and especially pediatricians, were significantly slower than other doctors to adopt EHRs as well as other important electronic patient safety functionalities into their office practices.[3]However, collectively, CHP did not differ from other physicians in Florida with respect to the use of many IT applications. On the other hand, specifically general pediatricians were significantly less likely than other CHPs and other physicians to indicate personally and routinely using an EHR system in their practice. A possible explanation given by Menachemi, et al, was that general pediatricians have the lowest median incomes of all physicians and they may not be able to overcome many of the financial burdens necessary to adopt EHR. Menachemi asserts that no previous study has specifically examined a broad group of CHPs, and the results of the current study may serve as a benchmark for those interested in charting the progress over time that pediatricians and other CHPs are making toward the widespread adoption of EHRs.

Menachemi, et al, recommend some key policy actions to address this lack of use of EHRs by CHPs:

  1. Advocacy for an increase in the proportion of federal resources dedicated to EHR adoption that is child specific.
  2. Increased representation by child health experts in national IT and IT standards organizations;
  3. Increased attention by vendors to building pediatric specific functionalities into their products, such as weight-based dosing and growth charting; and
  4. Increased involvement by practicing child health providers in on-going efforts to reward the use of clinical IT in pay-for-performance programs and to design ways to overcome the non-financial barriers as well.

From a cultural perspective, on the other hand, in order to address the guild cultural element implied in the profession as a close-knit social network, Ford and Menachemi’s recommendation of using internal influences (e.g. social contagions) appear to be more powerful for accelerating the diffusion of EHRs. They recommend an interactive educational strategy that would be likely to be most influential in penetrating physicians’ social networks, particularly those in small practices. The first, and more basic, is medical education. Ford and Menachemi assert that many medical schools and residency programs do not currently employ or train future physicians in the use of EHRs. They also assert that training the future medical workforce to rely on EHRs and their decision-support tools can only serve to accelerate universal EHR adoption. Furthermore, the acculturating of medical students and residents to EHRs during this formative period signals that the profession values EHRs.

The second potential channel for influencing physicians’ social networks is through the continuing medical education (CME) requirement. However, they explain, CME interventions have not proven to be particularly effective in changing providers’ behaviors in other clinical areas.

The third active educational mechanism recommended by Ford and Menachemi for accessing physicians’ social networks is academic detailing that involves in-depth, one-on-one training sessions with physicians and is an effective mechanism for altering physicians’ behaviors. Ford and Menachemi argue that, collectively, the interactive educational approaches hold the greatest power to hasten universal EHR adoption, but they also carry the highest price tag and require major coordination efforts to implement. Addressing the physicians’ social networks to use the social contagion influence is not a “bullet proof” strategy either. Simon, et al, found that fewer than one in five physicians in their study reported that the state medical society or specialty organizations played a role in their decision of adopting EHRs. Perhaps this reflects a sort of “passive aggressively” by these medical societies, who legitimately, represent the financial interest of the guild that feels particularly threatened by the loss of autonomy of physicians that the EHRs impose.

On the other hand, in relation to educational activities these have usually been delivered through the traditional physicians specialty groups. To this general rule there are exceptions. For example, the Clinical Directors Network, Inc. (CDN), based in New York and founded in 1985, deserves special attention. CDN was founded as a professional peer organization based on the demonstrated effectiveness of peer-initiated activities in promoting health care excellence, assuring and improving quality, and containing costs.[4] CDN operates by and for an extensive network or Community/Migrant Health Center (C/MHC) Clinical Leaders, not only physicians, in most of the states of the east coast, including Puerto Rico and U.S. Virgin Islands. Clinical directors in C/MHCs are clinicians who, usually by personal decision, accept the role of organizing and directing the clinical operation of a primary care center and are committed to make it work for the benefit of the patient. CDN offers its members access to peers who collect and share information, skills, and technical assistance. Within their communities, members introduce the latest developments in clinical and health services education, including Continuous Quality Improvement, re-engineering, managed care, practice-based research and electronic tools. CDN is the only practice-based research network in the country devoted to providing primary care research opportunities to medically underserved populations. With an extensive history in translation of clinical research into clinical practice this clinical network is a perfect example of the use of internal or social contagion factors that influence adoption decisions led by clinical directors. For example, their eClinician Project, a modest yet effective program provides free customized PDAs with clinical decision-support software to primary care clinicians working in New York City (NYC) Community Health Centers. A critical element of the project includes onsite and online training through Webcast Library to train clinicians on how to use electronic clinical decision-support tools. In addition, ongoing follow-up, new programs, e-health tools, and health alerts will be available to clinicians from the NYC Department of Health and Mental Hygiene Health Access Network.

This basic strategy of providing access to basic electronic tools and clinical decision tools, rewarding physicians for using computers to communicate with specialists and patients, and providing funding to help extend high-speed Internet access to doctors who do not have it, would be far more effective in facilitating physicians to adopt HIT than trying to “force physicians” to adopt full functional EHRs through external influences as might be the introduction of clinical reporting mandates.[5]

In relation to HIT as an industry, I would argue a most important working group is the Health Information and Management Systems Society’s (HIMSS) Physician Community (HPC). HPC was formed by the HIMSS and the Association of Medical Directors of Information Systems (AMDIS) to articulate a cohesive voice for HIMSS physicians and to provide leadership, guidance and domain expertise to HIMSS activities, industry initiatives, and collaborations with physician societies across the country.[6] The alliance between HIMSS and AMDIS formalizes all efforts with an enhanced and focused strategy for physicians engaged in HIT and management systems. HIMSS is the healthcare industry’s membership organization exclusively focused on providing leadership for the optimal use of healthcare IT and management systems for the betterment of healthcare with immense capacity to support their mission across the world. AMDIS, on the other hand, founded in 1997, is the premier professional organization for physicians interested in and responsible for healthcare information technology.[7 AMDIS Members are the thought leaders, decision makers and opinion influencers dedicated to advance the field of Applied Medical Informatics and thereby improve the practice of medicine.

Another key organization that is leading efforts in helping train clinicians and defining core competencies to develop physician medical informaticians, the American Medical Informatics Association (AMIA). As the professional home for biomedical and health informatics, AMIA is dedicated to promoting the effective organization, analysis, management, and use of information in health care in support of patient care, public health, teaching, research, administration, and related policy is a natural broker to engage as co-equal partners and collaborators physicians and healthcare practitioners in general, and other health/biomedical informatics and other relevant disciplines in an ongoing relationship to understand and solve problems of importance to health care.[8]

In relation to education and early adopters and the concept of social contagion, Geyer, in an expert opinion, presents another interesting strategy, that upon recruiting early adopters of technology to facilitate the adoption on HIT by physicians, nurses need to be trained first because they train MDs while assisting them during care duties.[9] In primary health care clinics that serve HIV/AIDS affected individuals, in multiple and diverse locations in the U.S., nurses play a critical role as early adopters of EHRs and facilitate that physicians appreciate and learn to use it most appropriately. This would be another internal influence to tap into.

[1] Ford, EW.,  Menachemi, N., Phillips, T., Predicting the Adoption of Electronic Health Records by Physicians: When Will Health Care be Paperless? J Am Med Inform Assoc. 2006;13:106–112.

[2] Lee, FW. Adoption of Electronic Medical Records as a Technology Innovation for Ambulatory Care at the Medical University of South Carolina. Contemporary Issues in Health Information Management. August 2000;21(1):pp 1-20

[3] Menachemi. N., L Ettel, DL., Brooks, RG., Simpson, L., Charting the use of electronic health records and other information technologies among child health providers. BMC Pediatrics 2006, 6:21

[4] Clinical Directors Network Web site, Accessed on January 6, 2009

[5] iHealthBeat. Experts Warn Against Large Investment in Existing HER Systems. January 5, 2009. California Health Care Foundation web site Accessed on January 6, 2009

[6] HIMSS website. Accessed on December 1, 2008

[7] AMDIS website. Accessed on December 1, 2008

[8] AMIA website. Accessed on December 1, 2008

[9] Geyer, S., Physicians: The Key to IT Success. Trustee; Feb 2004; 57, 2;

Cultural Typology V: Personal Relationship with the Patient; an Ethical Conundrum?

April 22, 2011

The personal relationship between the patient and the physician is the essence of medicine, an ethical relationship based on trust. One could argue that the EHR could challenge privacy and confidentiality, core values of the physician/patient relationship.(1,2) In particular, Rosenthal describes the perception of the physicians that the EHRs are an intrusion into the practitioner-patient relationship.(3) This has also been the case in Israel, an almost fully immersed EMR environment, where physicians use computers in the examination room and report that it can negatively affect patient centered practice. The computer became a “third party” in the clinical encounter requiring particular attention and diminishing the dialogue with the patient, particularly in the psychosocial and emotional realm.(4) In a hospital in Oman, physicians were generally satisfied with EMR, but most of them believed the system did not protect confidentiality because other physicians and nurses could access all clinical notes about patients and the physician could alter what they documented in some sections of the clinical data because it is not protected.(5)

Safeguarding the privacy and confidentiality of patients within the new IT environment, a tremendously volatile environment, poses many problems that are far from being clear, much less resolved.(6) On the one hand, as patients become tech-savvy, they will demand that their physician use current IT options.(7) On the other hand, Lupton would argue that this expectation must be seen within other conflicting expectations; first, frequently physicians are forced to deal with patients’ expectations of their “omnipotence.” Secondly, the physician often does not want to share the uncertainty of their treatment. Last, but critically important, are the demands from hospitals and payers to deal with the patient quickly and efficiently.(8)

To add complexity, the traditional paper chart in the physician’s office allows the physician to maintain certain anonymity, certain invisibility, in terms of what is his/her rationale for the treatment of a patient. The perception by the physician of a possible “oversight” by many others accessing an electronic version of “his” patient’s medical record is a powerful disincentive to the adoption of the EHRs. In addition, one aspect that has was not found addressed in the literature reviewed is that it also challenges the basis of medicine as a trade in which the value of a practice is determined in terms of the number of patient charts (confidential information the physician has of his/her panel of patients) kept in the not-so-easy-to-read paper chart, and locked in a private record room.

In order to address this cultural element, revisiting and, perhaps, redefining the social contract that throughout history society has developed with physicians seem most appropriate at this historical juncture. The EHRs is only pinpointing, like never before, the difficult issue of providing access to the patient of his/her medical information, arguably his/her property.


1. Mackenzie, K., The Key to PHR Success isn’t What You Think. HealthLeaders Media Website. November 4, 2008. Accessed on November 9, 2008.

2. Simon, SR., Kaushal, R., Cleary, PD., et al. Correlates of Electronic Health Record Adoption in Office Practices: A Statewide Survey. J Am Med Inform Assoc. 2007;14:110 –117.

3. Rosenthal, DA., Layman, EJ.,  Utilization of Information Technology in Eastern North Carolina Physician Practices: Determining the Existence of a Digital Divide.  Perspectives in Health Information Management 5; 3; Winter 2008 pp.  1-20

4. Margalit, RS., Roter, D., Dunevant, MA., Larson, S., Reis, S., Electronic medical record use and physician–patient communication: An observational study of Israeli primary care encounters. Patient Education and Counseling. Elsevier 2006;61:134–141

5. Farsi, MA., West Jr, DJ., Use of Electronic Medical Records in Oman and Physician Satisfaction. J Med Sys; 2006, 30(1): 17–22

6. GAO, Health Information Technology; Efforts Continue but Comprehensive Privacy Approach Needed for National Strategy. Tuesday, June 19, 2007. Downloaded on December 18, 2008

7. Randeree, E., Exploring Physician Adoption of EMRs: A Multi-Case Analysis. J Med Syst. 2007, 31:489–496

8. Lupton, D. Medicine as Culture. Sage, 2nd ed., 2003

Cultural Typology IV: Physicians’ resistance

April 21, 2011

A strong sense of autonomy, can also be projected, and/or interpreted, as “resistance to change”.  Physician resistance is a “cultural element” that recurs throughout the literature as either physicians’ resistance to EHRs or change per se.[1] However, if as Lee argued that physicians are resistant to the social change that will result from the EMR, and as Anderson argued that although physicians support computer applications that enhance their ability to manage medical information they tend to view with ambivalence computer applications that affect their role as medical decision makers; it seems physicians have much reason if one also considers Campbell’s identified adverse consequences of HIT: [2], [3],[4],[5]

a) There will be more/new work for clinicians;

b) Unfavorable workflow issues develop as rigidly modeling work processes according to the “letter of the law”, and organizational policies and procedures are implemented that dramatically highlight mismatches between intended and actual work processes in real-world settings;

c) There will be “never-ending system demands” with the new hardware and software implementation tasks, and maintenance issues;

d) The paper persistence will be a real issue. Interestingly, in the Sultanate of Oman in the Arabian Peninsula, the persistence of paper provoked poor utilization of the system mainly during physician rounds because some physicians used both the paper and also the EMR. They worked double keeping notes that were transferred at a later time into the EMR system.[6]

e) There will untoward changes in communication patterns and practices;

f) Negative emotions will be a disturbing important issue that needs to be addressed promptly;

g) HIT is no panacea and new kinds of errors will be generated;

h) There will certainly occur unexpected changes in the power structure. This issue will require special attention because while at the same time one is monitoring clinician’s behaviors, this may induce changes in the power structure and culture of the organization. This is especially problematic in health care, as Campbell assertively expresses, where lines of authority emanate from traditional educational hierarchies, differences between general practitioners and specialists, and among others other differential factors. It is also true that traditionally, physicians report loss of professional autonomy when computerized systems prevent them from ordering the types of tests or medications they prefer, or force them to comply with clinical guidelines they may not embrace, or when these limit their narrative flexibility through structured rather than free-text clinical documentation.

i) Finally, the over-dependence on the technology poses its own challenges; As HIT diffuses and becomes entrenched within organizations, clinical care delivery becomes inextricably dependent upon it.

There is no magic bullet to address physician resistance other than to learn and implement good strategies to manage change. On the other hand, because of the physician’s preeminence in the health care system, their resistance is more evident, voiced more prominently, and is certainly more critical than that of other members of the health care team.  It is important to remember that the IOM study of patient records concluded that the majority of barriers to the implementation of EMR systems are behavioral and organizational rather than technical. Wears and Berg (2005) also remind us that roughly 75% of all large IT projects in health care fail basically due to inattention to the problems associated with the introduction of computer technology into complex work environments. One would have to remember that health care is probably the most complex enterprise of modern society.[7]  Harrison, et al, (2007) in a viewpoint paper, argue that many unintended and undesired consequences of HIT flow from interactions between the HIT and the health care organizations’ socio-technical system, its workflow, culture, social interactions and technologies.[8]  They assert that these socio-technical interactions have been richly documented in the literature but that, unfortunately, many IT users and even IT specialists are unfamiliar with it or its practical implications.


[1] Randeree, E., Exploring Physician Adoption of EMRs: A Multi-Case Analysis. J Med Syst. 2007, 31:489–496

[2] Lee, FW. Adoption of Electronic Medical Records as a Technology Innovation for Ambulatory Care at the Medical University of South Carolina. Contemporary Issues in Health Information Management. August 2000;21(1):pp 1-20

[3] Anderson, J.G. “Computer-based Patient Records and Changing Physicians’ Practice Patterns.” Topics in Health Information Management 15, no. 1 (1994): 10-23.

[4] Anderson, J.G., et al. “Why Doctors Don’t Use Computers: Some Empirical Findings.” Journal of the Royal Society of Medicine 79, no. 3 (1986): 142-144.

[5] Campbell, EM., Sittig, DF., Ash, JS., Guappone, KP., Dykstra, RH. Types of Unintended Consequences Related to Computerized Provider Order Entry. JAMIA. 2006;13(5):547-556

[6] Mohammed Al Farsi · Daniel J.West Jr. Use of Electronic Medical Records in Oman and Physician. Satisfaction J Med Sys (2006) 30(1): 17–22

[7] Wears, RL., Berg, M. Computer Technology and Clinical Work; Still Waiting for Godot. JAMA, 2005, 293(10): 1261-1263

[8] Harrison, MI., Koppel, R., Bar-Lev, S. Unintended Consequences of Information Technologies in Health Care – An Interactive Sociotechnical Analysis. JAMIA. 2007;14(5):542-549

Cultural Typology III: Professional autonomy and leadership

March 9, 2011

Medicine has assumed a preeminent position in the health care system as no other profession; Freidson defines it as the epitome of a profession.[1] It has been so successful that it has gained full control over the substance of the field of medicine. It develops its own independent conception of the problems the people bring to the profession, reinterprets the experience of this people and recreates their problems creating new social realities (nosologies) that only the profession is capable and authorized to handle. On the other hand, during the last thirty years professional practice models have evolved from a physician’s solo practice and nursing team practice in the hospital, into an interdisciplinary care model that puts into function critical paths to support care management for which computer based applications hold great promise. Ozbolt and Bakken see a 21st Century with advanced practice nurses increasingly taking on functions previously provided by physicians while maintaining a nursing perspective on collaborative, interdisciplinary care.[2]

In order to address the cultural factors of professional autonomy and leadership, I would argue that it is incumbent upon physicians to assume the responsibility implicit in their delegation by society to define medicine. In order to do so, they would have to revisit their social contract with society so that the EHRs are used ethically for the benefit of the individual patient, and the society at large, whichever is most advantageous to the patients. This should occur irrespective of how much it infringes on the sense of control physicians believe they have on the patient’s medical information. Tang and McDonald, in Shortliffe, remind us that the greater need for leadership and action will be in the social and organizational foundations that must be laid if EHRs are to serve as the information infrastructure for health care.[3] I would argue that physician leaders in biomedical informatics have an important role to play in this area and that a broad “physicians and society dialogue” would be most appropriate to be called by physician leaders in bioinformatics. It needs to be defined who these leaders are and who brokers this initial agenda.

In relation to the cultural element of leadership, and the more immediate need of the implementation of the EHRs, the concept of “physician champion” is becoming popular in reference to that physician that has assumed a lead role in fomenting and facilitating the use of the EHRs. [4],[5],[6],[7] I would argue that the concept is used primarily anecdotally and needs clarification and specification. Simply because a physician is a “techie,” or an early adopter, does not guarantee that he/she knows management of health information. On the other hand, while it is true that “techies” and early adopters are “championing” all kind of technologies, physician’s use of IT today is rooted on practical and quite straightforward applications that serve their professional purposes. [8] On the other hand, physicians are also very critical of their own peers if these cannot produce compelling data showing the value of implementation and use of EHRs.

Having said this, Miller has interviewed several of these leaders and has been able to decipher some of their characteristics. [9] These physician champions had positive, “can-do” attitudes toward solving electronic medical records (EMR)-related problems and were vital to getting other physicians to use EMR.  They were physician—innovation “early adopters” who were willing to bear initial financial and time costs to generate benefits.  In contrast, non-champion physicians tended to be less positive toward EMR and more easily discouraged by usability problems.  Without exhortation and support from physician champions, these physicians tended to remain as lower level EMR users.  As a result, practices without physician EMR champions may flounder in their efforts to generate quality or financial benefits from EMR.  Finally, as a note of caution, I would reiterate, as Menachemi argues, that little is known about physicians who are likely to adopt EHR imminently.[10]

In relation to motivating physicians to adopt EHRs, Briggs reminds us to avoid the tendency of administrators to make decisions from the top down attempting to impose them on everyone. [11] Resistance to change is not unique to physicians, but in particular with physicians it is a huge issue.  In 1988, Kaplan compared the successes and failures in the implementation of three seminal management information systems (MIS), Technicon, COSTAR and PROMIS, and concluded that physicians’ reaction to a medical computer system was more important to system acceptance than the reactions of other user groups.[12] The experience gained with implementing these three systems showed that change cannot be forced and new computer systems cannot simply be mandated. Kaplan asserted then, and I would argue that nobody challenges it today, the fact that when change is well-managed, when the computer system does not radically challenge fundamental values and practices, and when it provides benefits that potential users easily identify as important and meaningful, the chances of success are greatly improved.(13)


[1] Freidson, E. Profession of Medicine: A study of the Sociology of Applied Knowledge. The University of Chicago Press, 1988

[2] Ozbolt, JG., Bakken, S. Patient Care Systems. In: Shortliffe and Cimino, eds. Biomedical Informatics, Computer Applications in Health Care and Biomedicine. Springer; 2006:564-584

[3] Tang, PC., McDonald, CJ., Electronic Health Record Systems. In Shortliffe and Cimino, Biomedical Informatics: Computer Applications in Health Care and Biomedicine. Springer 2006:470

[4] Miller RH, Sim I. Physicians’ Use of Electronic Medical Records: Barriers and Solutions, A survey of physician practices shows slow but steady progress in adopting this new technology. Health Affairs (Millwood-Spring Hope). 2004 Mar-Apr;23(2):116-126

[5] Margalit, RS., Roter, D., Dunevant, MA., Larson, S., Reis, S., Electronic medical record use and physician–patient communication: An observational study of Israeli primary care encounters. Patient Education and Counseling. Elsevier 2006;61:134–141

[6] Geyer, S., Physicians: The Key to IT Success. Trustee; Feb 2004; 57, 2;

[7] Terry, AL., Thorpe, CF., Giles, G., et al., Implementing electronic health records; Key factors in primary care. Canada Fam Physician 2008;54:730-6

[8] Briggs, B., Doctors Sound Off on I.T. Concerns. Health Data Management.  9.1 (Jan 2001): 38.

[10] Miller RH, Sim I. Physicians’ Use of Electronic Medical Records: Barriers and Solutions, A survey of physician practices shows slow but steady progress in adopting this new technology. Health Affairs (Millwood-Spring Hope). 2004 Mar-Apr;23(2):116-126

[11] Menachemi, N., Barriers to ambulatory EHR: who are “imminent adopters” and how do they differ from other physicians? Informatics in Primary Care 2006;14:101–8

[12] Briggs, B., Doctors Sound Off on I.T. Concerns. Health Data Management.  9.1 (Jan 2001): 38.

[13] Kaplan, B. Development and Acceptance of Medical Information Systems: A Historical Overview. Journal of Health and Human Resources Administration. 1988;11(1):9-29

Cultural Typology II. Medicine as a Technological Endeavor

March 7, 2011

This cultural factor could be assessed in relation to, or in conjunction with the previous, Medicine as Art, because many aspects of both sometimes merge and become indistinguishable from one another.How medicine evolved from the exercise of the “art of healing” to the “application of technology” in treating illness and disease is not an easy endeavor, but as technology continues its impact in health care, the adoption of EHRs will depend on the impact of contextual variables identified. This debate is accentuated with the use of computers for data management because computers tend to demand conformity to data standards and definitions, and medicine is notorious for imprecision and even a lack of standardized vocabulary.

Over the last century and for the first time in human history, one medical system, Biomedicine, the medicine of the twentieth-century Western world, has come to influence the health and healing practices of human societies worldwide. I would argue that Biomedicine can be understood as the “technologization” of medicine. Biomedicine, that “particular” medicine that the Western world has invented and that the United States has primed par excellence, as a cultural system, focuses on physicians, its preeminent practitioners.

One would have supposed that as biomedicine has incorporated most of the technology and made it a substantive element so that only physicians can dispense it, the EHRs would have also been fully embraced by the physician. However, this has not happened. The reason could well be, accepting Shortliffe’s assertions, that the biomedical culture views IT as a support activity, outside of the usual foci of biomedical science, and there has been poor appreciation of IT as a strategic asset.

In order to address this difficult cultural element, embedded into the professional culture as well as into the general societal health culture, I would argue that it is incumbent upon physician leaders in bioinformatics to make the case to the general public, and certainly within the profession, that the EHRs has been introduced into American Medicine with the wrong emphasis on administrative tasks (billing and collection being the most prominent) rather than as the substantive mechanism to deliver a type of medicine that is safe and of high quality and that follows best practices that fit the “art” of medicine.

One has to remember that medicine is an information and knowledge intensive enterprise. As the National Research Council report asserts, currently IT applications appear designed largely to automate tasks or business processes often designed in ways that simply mimic existing paper-based forms and provide little support for the cognitive tasks of clinicians or the workflow of the people who must actually use the system.


[1] Shortliffe, EH., Barnett, GO. Biomedical Data: Their Acquisition, Storage and Use. In: Shortliffe and Cimino, eds. Biomedical Informatics, Computer Applications in Health Care and Biomedicine. Springer; 2006:46-78

[2] Hahn, RA. Sickness and Healing; an Anthropological Perspective. Yale University Press; 1995

[3] Stein, H. American medicine as culture. Westview Press; 1990

[4] Committee on Engaging the Computer Science Research Community in Health Care Informatics; National Research Council. Computational Technology for Effective Health Care: Immediate Steps and Strategic Directions. Willam W. Stead and Herbert S. Lin, editors. National Academies of Sciences web site. ; 2009. Downloaded on January 11, 2009