Your search keyword '"J. Murakami"' showing total 10 results

1. [Discussion of Routine Laboratory Data of a Patient Complaining of Back Pain and General Fatigue].

Author

Satoh N, Yanai M, Ebashi M, Hayashi Y, Masuda A, Murakami J, and Hosokawa N

Subjects

Adult, Humans, Laboratories, Magnetic Resonance Imaging, Male, Back Pain blood, Back Pain diagnostic imaging, Fatigue

Abstract

Conventional reversed clinicopathological conference (RCPC) is an educational method to interpret labora- tory data. In this RCPC, physicians and several specialists in laboratory medicine discussed laboratory data of a patient with tuberculous spondylitis who complained of back pain and general fatigue. Then, they and the moderators held a question-and-answer session with an audience in a hall, and they tried to understand the detailed state of the patient. This discussion revealed the usefulness of RCPC to elucidate the clinical state of patient. At the same time, we can understand the limits of laboratory data analysis. [Review].

Published

2016

2. [Roles of and Team Medical Care Involving Clinical Engineers in Blood Purification Therapy].

Author

Abe T, Ishimori I, Murakami J, Kaneko I, Miura H, Kimata N, Hanafusa N, Mineshima M, Kawashima M, Nitta K, and Tsuchiya K

Subjects

Medical Laboratory Personnel, Renal Dialysis, Biomedical Engineering, Patient Care Team

Abstract

Progress in medical care strongly depends on the development of pharmaceutical and medical technologies. Multi-disciplinary care by a medical team is required for the diversity of medical care. "Clinical engineering technician (CET) " is one of the national medical licenses in Japan. Many CETs are engaged in blood purification therapies. Team medical care, involving medical doctors, nurses, CETs, etc., in the hemodialysis field is useful for the early detection of complications in dialysis patients and provision of appropriate treatments. In some medical facilities, for example, progressive approaches such as appropriate nutritional guidance by a dietitian or exercise therapy by a physical therapist are practiced in advance. Clinical laboratory technologists (CLTs), furthermore, play an important role in team medical care for dial- ysis therapy. They can use ultrasonic equipment for vascular access management. Based on the results of the ABI and SPP measurements by CLTs, medical doctors can diagnose PAD in dialysis patients. [Review].

Published

2016

3. [Japanese Association of Clinical Laborato Physicians--What We Are Doing Now and How We Should Develop in the Future as Competent Members of Team Medicine].

Author

Murakami J

Subjects

Forecasting, Humans, Japan, Medical Laboratory Personnel, Medical Laboratory Science organization & administration, Medical Laboratory Science trends, Pathology, Clinical organization & administration, Patient Care Team trends, Physicians, Societies, Medical organization & administration

Abstract

No clinical laboratory would admit they do not practice team medicine, at least conceptually. However, true team medicine is more than an aspiration--it is an intentional care structure built, led, and delivered by a diverse, multidisciplinary team of physicians, medical technologists, nurses, pharmacists, and dozens of other professionals. We clinical laboratory physicians are able to fulfill an important role as competent members of the team medicine. Because we can look at the results of clinical examinations of patients earlier than anyone else, we can interpret the patient's condition by analyzing that results, and provide useful information to facilitate team medicine. I have conducted a questionnaire survey on team medicine targeting clinical laboratory physicians to clarify the tasks we are performing. In this paper, I describe what clinical laboratory physicians are currently doing, and how should we develop in the future.

Published

2014

4. [Comments on routine laboratory data that are of practical use for physicians].

Author

Honda T, Murakami J, Shimo M, Masaki M, Uehara Y, and Ogasawara R

Subjects

C-Reactive Protein analysis, Humans, Laboratories, Hospital, Physician's Role, Diagnostic Tests, Routine, Pathology, Clinical

Abstract

In the reversed clinicopathological conference (R-CPC), we analyzed a patient's pathosis using only the results of routine laboratory tests. R-CPC is one of the most effective training methods to acquire the abil- ity to interpret such data logically and reasonably. At the same time, we can know the limits of laboratory data, even though they can be analyzed in detail. In this R-CPC, three specialists in laboratory medicine discussed routine laboratory data of a patient with a ruptured abdominal aortic aneurysm. Then, they and moderators fielded a question-and-answer session with an audience in a hall. It was difficult for us to decide on the correct diagnosis, but we were able to analyze the data logically and reasonably in order to understand the patient's actual condition. It has been revealed that the Department of Laboratory Medicine can support physicians by adding comments to laboratory data that are of practical use to follow a patient.

Published

2014

5. [Task analysis of clinical laboratory physician in acute hospital].

Author

Murakami J

Subjects

Communication, Cross Infection prevention & control, Decision Making physiology, Electronic Mail, Humans, Japan, Physicians, Referral and Consultation, Workforce, Laboratories, Hospital

Abstract

Appropriate communications between clinical divisions and clinical laboratories are required to improve the quality of health care in hospitals. In this paper, the routine work of a clinical laboratory physician is presented. 1. In order to support attentive medical practice, we have established a consultation service system for handling questions from medical staff. The main clients are doctors and clinical laboratory technologists. 2. In order to improve the quality of infectious disease analysis, we have recommended obtaining two or more blood culture sets to achieve good sensitivity. The order rate of multiple blood culture sets increased 90% or more in 2011. 3. In order to provide appropriate blood transfusion, we intervene in inappropriate transfusion plans. 4. In order to support prompt decision making, we send E-mails to physicians regarding critical values. 5. We send reports on the morphology of cells(peripheral blood and bone marrow), IEP, flow cytometry, irregular antibodies, and so on. It has been realized that doctors want to know better solutions immediately rather than the best solution tomorrow morning. We would like to contribute to improving the quality of health care in Saitama Cooperative Hospital as clinical laboratory physicians.

Published

2013

6. [Laboratory medicine in the compulsory postgraduate clinical training system--newly revised program in Nihon University School of Medicine].

Author

Murakami J

Subjects

Japan, Curriculum standards, Education, Medical, Graduate methods, Education, Medical, Graduate standards, Pathology, Clinical education, Schools, Medical

Abstract

In 1999, the 4th report of the discussion group on 21st century medicine and health care proposed that it was necessary to establish in medical education a core curriculum emphasizing carefully selected basic content and to greatly expand the number of subjects that students might take electively. Following this report, a model core curriculum was made by the research and development project committee for medical educational programs in 2001. Similarly, the necessity of establishing a standardized postgraduate training curriculum and system has been discussed for many years. The Departments of Education and Technology and Welfare and Labor proposed a new curriculum named "Objectives in postgraduate clinical training" in order to ensure the quality of the medical doctors licensed to practice medicine in postgraduate clinical training in 2002. Following this new curriculum, Nihon University School of Medicine revised and enlarged its postgraduate program. All graduates are required to enter a full rotation program including general disciplines for two years. In addition to this basic curriculum, an elective curriculum will be added, providing attractive training programs based on medical trainees' needs. The training program in Laboratory Medicine is administered in the 2nd year as an elective program.

Published

2003

7. [Present state of transfusion errors].

Author

Murakami J

Subjects

ABO Blood-Group System, Blood Group Incompatibility etiology, Humans, Japan epidemiology, Surveys and Questionnaires, Blood Group Incompatibility epidemiology, Medical Errors statistics & numerical data, Transfusion Reaction

Abstract

Most serious transfusion error is ABO-incompatible transfusion. The Japanese Society of Blood Transfusion reported the results of the National Survey on the present state of ABO-incompatible blood transfusion in Japan. The targets of the survey were 777 hospitals with more than 300 beds, which have transfused more than 3,000 units of blood products per year. The answer could be obtained from 578(74%) hospitals among them. The questionnaire focused on the presence or absence of ABO-mismatched transfusion between January 1995 and December 1999. 115 hospitals(20%) have experienced ABO-mismatched transfusion in the period of the study. The frequency of ABO-mismatched transfusion increased with increasing the number of beds and the units of transfused blood. The ABO-mismatched transfusions were due to clerical or technical errors. The main causes of errors were misidentification of blood bags(42.8%), incorrect blood typing(15.1%) and failure to identify patient (11.5%). Incorrect blood typing errors were performed in 25 cases, and were caused by doctors in 17 cases, others by laboratory technicians. Majority of incorrect blood typing occurred during holidays or night shifts, and in emergency.

Published

2003

8. A study on task-analysis of clinical pathologists as medical consultants in Nihon University Hospital--a Japanese perspective by comparison with current status in the USA.

Author

Kumasaka K, Yanai M, Hosokawa N, Iwasaki Y, Hoshino T, Arashima Y, Hayashi K, Murakami J, Tsuchiya T, and Kawano K

Subjects

Hospitals, University, Japan, Task Performance and Analysis, Tokyo, United States, Consultants, Pathology, Clinical

Abstract

To identify our role and the customers' satisfaction, the on-call consultation service records of the Department of Clinical Pathology, Nihon University School of Medicine, Itabashi Hospital (NUIH), were analyzed. Between 1995 and 1998, 1,789 consultation services were recorded, and approximately 40% were from physicians, and 50% were from medical technologists. During office hours, many physicians made contact with us at the office of clinical pathology, the clinical laboratory and other places in the hospital by various means. They asked us to interpret multidisciplinary laboratory data, and to provide the specific information that might affect clinical management. Medical technologists asked for clinical information of patients with extreme measured values and requested that we contact with physicians. In contrast, on weekends/holidays or after routine working hours, physicians sometimes requested non-automated laboratory tests such as peripheral blood smears/bone marrow smears or Gram stains. The major contents of our responses to medical technologists were concerned with blood banking and handling of instruments not to be operated in routine work. These results reconfirm that we are still required to have clinical competence for common laboratory procedures and to have the capability of interpretation of multidisciplinary laboratory data in the university hospital. Traditionally, most Japanese clinical pathologists have been focused their attention on bench work in research laboratories. However, the present study shows that the clinical pathologists need to bridge the real gap between laboratory technology and patient care. Our on-call service system can enhance the education of clinical pathologists, and improve not only laboratory quality assurance but also patient care. In addition, in response to a need for customer access to this service with a shortage of clinical pathologists, a more effective method would be to set up a proactive systemic approach in a more rigorous academic environment adopting advances in medical informatics.

Published

2000

9. [Dry clinical chemistry--blood sugar self-monitoring].

Author

Murakami J and Murakami T

Subjects

Biomarkers analysis, Blood Preservation, Diabetes Mellitus, Type 1 blood, Edetic Acid, Hematocrit, Humans, Reproducibility of Results, Temperature, Time Factors, Blood Glucose analysis, Blood Glucose Self-Monitoring instrumentation, Blood Glucose Self-Monitoring methods

Published

1997

10. [Lp(a) serum concentrations in diabetes mellitus].

Author

Murakami J, Kumasaka K, Kawano K, Murakami T, Hayashi Y, and Arakawa Y

Subjects

Adult, Aged, Arteriosclerosis etiology, Diabetic Nephropathies blood, Diabetic Retinopathy blood, Female, Humans, Male, Middle Aged, Risk Factors, Diabetes Mellitus blood, Lipoprotein(a) blood

Abstract

Lp(a) has been considered as an independent risk factor for atherosclerosis, mainly for coronary heart disease. Recent epidemiologic studies have demonstrated elevation of Lp(a) serum concentration in diabetes mellitus. Atherosclerosis is the most common cause of death in diabetic patients, but there is little information available concerning the importance of Lp(a) in these patients. We investigated the relationship between Lp(a) serum concentration and the presence of chronic diabetic complications. Lp(a) was determined in 14 IDDM patients and 62 NIDDM patients. Median Lp(a) serum concentration in diabetics was 21.8 mg/dl, which was significantly higher than in nondiabetic controls described before. Glucose, HbA1c, fructosamine, total cholesterol, triglycerides, HDL-cholesterol, apolipoprotein A1, B and E were not associated with raised Lp(a) values. With increasing Lp(a) levels, higher prevalences of retinopathy and of albuminuria were observed. We conclude that in diabetic patients, Lp(a) levels are elevated compared with non-diabetic subjects, and that higher Lp(a) levels are associated with higher prevalences of retinopathy and of albuminuria.

Published

1994