Introduction

The information and communication technologies (ICT) have impacted in all areas of society, penetrating the culture is such a way that youth have turned much of their social and leisure activities to the electronic media. Nevertheless, ICT's have also caused notorious impact in the productive and educational sectors. In the health area, the use of information technology and other sciences is known as medical informatics or medical computing; it exists since the origins of computers in the 50's. Health informatics includes computers, clinical guidelines, formal medical terminology, information and communication systems, and medical information standards among other aspects [1-7]. Electronic medical record is a key aspect for medical informatics, because around it there are areas like: consulting room [8,9,10], nursery [11,12,13,14,15], mental health [16,17], intensive care [18], clinical laboratory, clinical imaging [19,20,21], cardiology, blood bank, among others. However, in the United States only 5% [2] of providers of general medical services (family doctors) use electronic systems for medical records and just 19% of hospitals have integrated systems of medical software [3]. This fact is alarming if, only in that country, 98 million people annually dies due by direct medical malpractice [2]. Mexico does not escape of such problems; even the government agency named National Commission for Medical Arbitration (CONAMED [22]) was created to resolve controversies caused by medical malpractices. Nevertheless, this action is corrective, while preventive action would be the developing of an integral software platform to improve the medical services in general. Besides, it has been estimated that United States could save 77.8 billion dollars [2] if an integral, and universal, software system is deployed [23], allowing to infer, even with the economy scale, that implementing a Mexican integral health electronic system would help to achieve big savings, derived of the bureaucracy decrease, optimization of resources, disease prevention, standardization, among most important. Penetration of medicalinformatics in health sector has been so gradual that despite humankind has been able to take men to the moon 4 decades ago; still is not possible for most developed countries, that a general doctor access an electronic medical record "comprehensible" for his patients from anywhere, because there is not even a standard version or "universal" of such file.

Nowadays, the market for hospital and clinic management systems is segmented in medium and small companies, that on one side, develop particular solutions for specific areas in health services, leaving in the background aspects like interconnectivity between different areas and, on the other hand, do not comply with standards that allows import and export results between programs created by different companies. Thus, the health system works as a granulated entity, such that even within the hospital, data exchange between different departments is made through paper, although electronic and informatics systems are deployed in the respective departments.

Electronic Medical Record

In Mexico there is an official standard related to the medical record (NOM-168-SSA1-1998), which was issued in 1998 and subsequently amended in 2003 to include and validate the potential for an electronic medical record. Hence, this standard for the Mexican medical record, should serve as base for the creation of a standard electronic file for all the country. Besides, such standard is complemented with other standards like:

NOM-003-SSA2-1993.Provision for human blood and its components with therapeutic purposes. NOM-005-SSA2-1993.Provisions for family planning. NOM-006-SSA2-1993.Prevention and control of tuberculosis as primary attention to health. NOM-007-SSA2-1993.Attention to women during pregnancy, birth and puerperium, and newborn. NOM-008-SSA2-1993.Nutrition control, growth and development for kids and adolescents. NOM-013-SSA2-1994.Prevent and check oral diseases. NOM-014-SSA2-1994.Prevention, treatment, and control womb and mammary cancer in primary attention. NOM-015-SSA2-1994.Prevention, treatment, and control of diabetes Mellitus as primary attention. NOM-017-SSA2-1994.Epidemiological surveillance. NOM-024-SSA2-1994.Prevent and control acute respiratory infections. NOM-025-SSA2-1994.Provision of health services in integral attention units for Medical-Psychiatric Hospitals.

These standards support the standard for the medical record, so they have to be included in the design of the electronic version of the medical record. Currently there is not a standard way to design an electronic medical record [24, 25, 26]; inMexico the starting point is the official standard for the medical record. Nevertheless, the standard just dictates the information to request, but not the way to organize it electronically, and in this aspect, organization, there is still more work and research to perform. There are several aspects to consider when the electronic medical record is implemented, like:

Access speed and storage capacity. When it comes to health, access speed to clinical information of a patient could, literally, save his life [20]. The volume of medical information produced by a registry of patients of about 500 thousand people may be in the order of 1.8 terabytes monthly [27], so search for information fast is a complex task. At present, there is a system with 8 millions of patients which performs 300 thousand queries in day at a cost of 200 million dollars [3]. Figures mentioned before should be escalated if the population of Mexico is considered since it is over 100 million inhabitants, this is when can be inferred that data base technologies commercially employed nowadays could not be able to handle efficiently such information load. Nevertheless, there is a data base named Big Table [28], which is a high performance data base, designed in a structured way under a distributed storage data scheme, capable to store data in the order of petabytes based on a distributed network with thousand of servers; such data base represents, philosophically, the way to follow in order to store such amount of information that an electronic universal medical record could generate, taking into account the huge number of health professionals (medics, chemistries, radiologists, nurses, social services, administrative, among others) that would access the system for various purposes. Robust. The system must be functional no matter what happens, 24 hours a day, all year long. Besides, must be guaranteed the integrity of the information when the system fails or sabotage attempts. This implies the use of data redundancy schemes and servers that allows keeping the responsiveness and the reliability even under extreme load conditions. Flexible. There are no patients alike; each person is an individual with his own life story and, therefore, diseases. So, the electronic medical record should be adapted to the particularities of each patient. Following, a scheme of information hierarchy is proposed and extended [4]: Information unit. The medical record is divided in sub-blocks of information until the minimum expression is achieved, keeping the "meaning" within the health context of the patient, it is named information unit. For example, the glucose level in blood is an information unit, which has properties as values and units. Each information unit must have an identification code. The origin of an information unit could be by capture (manual) or directly of electronic equipment (automated). Class. It is the group of information units that recreate a particular aspect of the health for an individual. Could be a disease, laboratory study, clinical history, among others. For example, a complete blood test is made of glucose, urea, creatinine, cholesterol, and uric acid, which are considered as information units. Object. It is a specific case (in terms of time) for one or more classes. For example, blood test class is one that turns into an object when is the blood test for a patient, performed at a specific date and time. Section. A section groups in logical way different objects. For example, surgical procedures could be a section that includes the following objects: acute appendicitis, caesarean, etc. An important aspect of a section is that, while maintains logic, may include objects from different sections. For example, a laboratory test could be in the section "surgical procedures" and the section "clinical analyses". E-Views. The way that information is displayed to the user (units, objects or sections) using Web technologies; this content should be dynamic in order to adapt to user needs, which is the one that interprets the data. There should always be possible to create different views for new users or when scientific advances are achieved. E-Forms. It is the user interface where information for units or objects is captured. A form based in Web technologies [29, 30, 31] would be a viable option, because the experience of the people using the Internet would be taken into account to use in a more efficient way the electronic medical record and, simultaneously, opens to adopt a scheme of hospital management and public health on line. Secure. The information of every patient must be protected with different security schemes like passwords, electronic health cards and digital signatures. The desirable characteristics mentioned above about the electronic medical record (EMR), provides a glimpse of the complex correlation and dependence between several hospital areas when the medical record is filled for each individual or patient.

Official standards establish that all medical records must include: clinical history, medical notes in case of emergency, medical notes in case of hospitalization, notes after surgery, improvement notes, nursery notes, notes for auxiliary services of diagnose and treatment, letters of knowledge about information, voluntary discharge notes, notification notes for public prosecutor, and notes in case of death or foetal death. This standard details all the required information whether it is medical as for identification (including name of patient, date, place name of the doctor or assistant that created the note) that the note must include. Therefore, this information can be subdivided, classified and stored according to the already mentioned criteria.

Electronic medical record for the newborn

The electronic medical record is a tool that allows doctors to visualize health of their patients in an integral way both in content and in time. Truth is that health problems, in particular the chronic, have usually an indelible mark evidenced when the medical record of the patient is observed through long time.

The standard ( NOM-007-SSA2-1993) for Attending Women during Pregnancy, Birth and Puerperium, and Newborn at section "5.11 Registry and information" details all the information that about the mother and newborn should be gathered for statistical reasons, touching aspects like: vaccination, maternal death, fetal death, gestational age births, abortions, among other aspects, birth or death certificate. Pregnancy, because of its importance and complexity, must be filed in a section of the electronic medical record for women. Considering all the critical aspects of monitoring pregnancy helps to decrease maternal deaths. In this sense, standard NOM-007-SSA2-1993 provides enough information to create a robust section about pregnancy and birth that allows the doctors, for instance, use the electronic medical record as the base to plan the labor and delivery surgeries.

While conducting statistics related to birth and newborn is important for health state policies, it is also equally important to establish what information should be stored in the medical record for the newborn, situation missed in such standard. This would have direct impact in the health of the infants, since many deaths happened during the first year of life would be preventable if information about the newborn is standardized and regulated. In this context this question should be asked: what medical information from the medical record should be transferred from the mother to the newborn? How much of the privacy of the medical record of the mother should be "invaded" in order to provide the newborn with more informed treatments and, therefore, more reliable? The mother "should," decide which information should or should not be transferred to the baby's medical record? Health and legal implications are broad [45, 46], so this process should be regulated by official standards. It is considered that all health data of a mother involving the evolution of pregnancy and birth of the product, are important aspects that cannot be left in limbo of ignorance, to baby's benefit. Although Human Rights indicate that privacy of the mother's EMR is violated [45, 46], this has to be transferred to the baby's EMR, especially everything that relates to the evolution and good health for the newborn and leave out unrelated clinical aspects. Setting aside the legal aspect, it is known that the relationship between baby and mother is so tight that the newborn health is intimately related to the health of the mother previous to the delivery and after it (when the newborn consume breast milk). Information proposed to extract from the mother's medical record is [4]: Mother's age, date of birth, maturity, mode of delivery, duration of membrane rupture, birth weight, diagnose and related procedures, among others.

Benefits And Innovation Opportunities

Create a Mexican electronic file, under the framework of standards like: medical nomenclature, data transmission, image handling; would allow opening a new frontier in the health system to directly benefit patients. 

Conclusions

Medical informatics has proven to be a fundamental tool in the process of modernization of the public health system. The openness of the society to such information systems, in particular the universal electronic medical record, is a slow process but one cannot be stopped, because the benefits to implement such modernization far outweigh the debatable aspects both moral and legal. The advent of a universal electronic medical record accessible from the internet would allow an immediate improvement on the medical attention increasing the quality, and avoid adverse events by having the background of the patient; thus the incidence of lawsuits against the medical staff, service provider be kept to a minimum, also being source of useful information to researches in the health field. The economical and cultural dynamics of countries like Mexico delay medical informatics applied to public health systems, making it scarce or almost null. This situation, curiously, can be seen as an advantage, considering that advanced countries like United States or England started the use of medical informatics applied to the health system even before the appearance of the internet and other advanced technologies, so to migrate their infrastructure to new technologies represents an astronomical cost even for their strong economies. Nevertheless, Mexico, practically, is virgin territory to implement an electronic health scheme nationwide, so it is urgent for the government, researchers, and general public to sit down to discuss and define the future of our public health system in the regard of medical informatics, at the present time, that high investment costs in the health sector overwhelm the national budget. Prevention is an alternative to reduce costs and, in this area, to have a "generational" electronic file would greatly help to incise on the patients and their actual health condition.

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