JP6418624B2 - Dialysis treatment support system, dialysis treatment support system operating method, and program - Google Patents

Description

The present invention, dialysis treatment support system, method of working dialysis treatment support system relates及beauty program.

  Dialysis medical care is intended for patients whose renal function is pathologically reduced, and the etiology and pathology vary from patient to patient. For this reason, the treatment policy for each patient has many items such as dialysis conditions of the hemodialysis treatment device, water removal amount, records of measured values of various substances in the dialysate, data obtained from blood tests by the blood test device, etc. Therefore, it was necessary to refer to a huge amount of data and so on, which required a lot of time and labor, and the burden on the person in charge was great.

  In recent years, a hospital information system (Patent Document 1) using an electronic medical record is being introduced in a medical field such as a hospital or a clinic to manage a medical record for recording a medical practice of a doctor. In addition, a management system for hemodialysis treatment devices that automatically sets the operating conditions of the hemodialysis treatment device based on information such as dialysis treatment conditions of the patient has been developed, and a support system for dialysis medical treatment is being prepared. .

JP 2000-322495 A

  However, in a conventional medical electronic medical chart system, due to a difference in data format or the like, it is not possible to freely access medical information unique to a patient held by each medical device such as a dialysis treatment device or a blood test device. For this reason, it is not possible to electronically use all medical information related to the diagnosis and treatment of patients to set individual treatment plans corresponding to dialysis patients and to judge the appropriateness of treatment effects comprehensively. Still difficult.

  Even when using a management system for hemodialysis treatment devices, the basic part of the treatment plan must be set by the attending physician with reference to individual medical information stored in other formats, The burden of data analysis for each patient has not been reduced.

  Therefore, medical staff such as doctors are distributed and stored in multiple devices, basic information such as patient names, blood test results, dialysis status (water removal status, blood pressure status), dialysis performed for each dialysis treatment Check all items of information (such as dialysis time, blood flow rate, dialyzer type), X-ray images, measured body weight before and after dialysis, past symptoms other than renal failure, medication information, etc. over time, It is necessary to comprehensively evaluate each patient's information.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to make it easy to refer to medical-related data acquired and stored by different devices in special medical treatment such as dialysis medical treatment.

In order to achieve the above object, a dialysis treatment support system according to the present invention comprises:
A plurality of items of basic data (D1) including identification information, a plurality of items of blood data (D2), a plurality of items of dialysis data (D3), and weight data (D5) are associated with each other. A database (3) to store;
Basic data registration means (2) for registering the basic data of a dialysis patient in the database (3);
Weight data registration means (6) for registering the weight data in the database in association with identification information of the dialysis patient;
Blood data registration means (7) for registering the blood data in the database in association with identification information of the dialysis patient;
A dialysis device (5) disposed near the bed for dialysis patients and performing dialysis and collecting dialysis data during dialysis;
Information processing means (4) for receiving the dialysis data from the dialysis apparatus and registering the dialysis data received in association with the identification information of the dialysis patient in the database;
The information processing means (4)
Receiving means (41) for receiving the blood data, the dialysis data and the weight data from the database (3);
Of the data received by the receiving means (41), the blood data, the dialysis data, and the body weight data are classified into clinical large items that are set in advance and ranked, and are preliminarily stored in the large items. Arranging means (45, S15) for arranging in order of ranked items;
Comparing means (45, S13) for comparing the arrayed blood data, the dialysis data, and the body weight data with preset individual reference ranges and discriminating whether or not they are out of the reference ranges;
An identification mark adding means (45, S14) for attaching an identification mark to data determined to be out of the reference range by the comparison means;
And presenting means (45, S15, 42) for creating and presenting a list including the basic data, blood data with the identification mark, dialysis data, and weight data.

Moreover, the dialysis treatment support method of the present invention comprises:
Read data from a database that stores a plurality of items of basic data including identification information, a plurality of items of blood data, and a plurality of items of dialysis data in association with each other,
The read data is classified into pre-set clinical large items, and arranged in the order of items pre-ranked within the large items,
Compare the arrayed data with a preset reference range,
Mark the data determined to be out of the reference range,
Display marked data,
Dialysis treatment support method.

Furthermore, the program of this invention is
To a computer connected to a database that stores identification information, a plurality of items of blood data, and a plurality of items of dialysis data in association with each other,
Processing to read data from the database;
A process of classifying the read data into pre-set clinical large items and arranging them in the order of items pre-ranked within the large items,
A process of comparing the arrayed data with a preset reference range;
Processing to mark the data determined to be out of the reference range,
Processing to display marked data,
Is executed.

  According to the present invention, individual medical information such as treatment / examination / medical data can be integrated and processed, and accurate determination of a patient's medical condition and proper formulation of a dialysis treatment plan can be facilitated. .

It is a figure which shows the structure of the dialysis treatment assistance system which concerns on one Embodiment of this invention. It is a figure which shows the block configuration of DB management server. It is a figure which shows the block configuration of a dialysis apparatus. It is a figure which shows the block configuration of information processing apparatus. (A)-(d) is a figure which shows an example of the medical information for dialysis. It is a figure which shows an example of integrated information and reference | standard data. It is a flowchart which shows the procedure of dialysis. It is a figure which shows the example of a data display of the inspection result classified by large item. It is a figure which shows the example of a data display of the inspection chart classified by patient. (A) And (b) is a figure which shows the example of a menu screen. It is a flowchart which shows the procedure for referring specific patient data.

The dialysis treatment support system according to the present embodiment has various functions unique to dialysis medical care that are not realized in the conventional electronic medical chart system. Therefore, with the dialysis treatment support system according to this embodiment, dialysis treatment such as improvement of work efficiency in dialysis treatment, prevention of medical errors, prevention / early detection of pathological deterioration and complications, or realization of more rapid and appropriate treatment, etc. It becomes possible to improve the convenience.
Hereinafter, an embodiment of a dialysis treatment support system according to the present invention will be described with reference to the drawings.

Configuration of Dialysis Treatment Support System, etc. As shown in FIG. 1, the dialysis treatment support system 1 according to the present embodiment is installed in a DB (database) management server 2, a database 3, and a bed of a patient undergoing dialysis. The information processing device 4 and the dialysis device 5, a weight scale 6, a blood test device 7, a medical image device 8, and a communication interface (IF) 9 are provided. The DB management server 2, the database 3, each information processing device 4, the weight scale 6, the blood test device 7, the medical image device 8, and the communication IF 9 are connected to be communicable via a network NW such as a LAN (Local Area Network). ing. Moreover, the information processing apparatus 4 and the dialysis apparatus 5 are connected so that communication is possible.

  Hereinafter, each component which comprises the dialysis treatment assistance system 1 is demonstrated concretely.

(DB management server 2)
The DB management server 2 is a computer that is operated by doctors, nurses, and the like and manages medical information (such as an electronic medical record) indicating the medical progress of each patient. Basic data registration for registering basic data D1 described later in the database 3 It functions as a means, and also functions as a data reading device that reads and displays data stored in the database 3. As shown in FIG. 2, the DB management server 2 includes a communication unit 21, an input unit 22, a display unit 23, a storage unit 24, and a control unit 25.

  The communication unit 21 includes a NIC (Network Interface Card) and the like, and communicates with the database 3 and the information processing apparatus 4 via the network NW.

  The input unit 22 includes a keyboard, a mouse, and the like, and performs processing for receiving an operation input from a user.

  The display unit 23 includes a liquid crystal display or the like, and displays various types of information based on instructions from the control unit 25. For example, the display unit 23 displays a list of data of a plurality of patients read from the database 3 or displays detailed medical data of one patient.

  The storage unit 24 includes a hard disk device and the like, and stores programs executed by the control unit 25 and various data.

  The control unit 25 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like, and executes the program stored in the storage unit 24, whereby the DB management server 2 as a whole. Control. In addition, the control unit 25 registers the data input from the input unit 22 in the database 3. Further, the control unit 25 receives data from the PC 4, the weight scale 6, the blood test device 7, the medical image device 8, and the electronic medical record system 10 via the communication unit 21, and registers this in the database 3. In addition, the control unit 25 reads data from the database 3 in response to an instruction from the input unit 22, displays a list of data of a plurality of patients on the display unit 23, or displays detailed medical data of one patient. 23.

(Dialyzer 5)
Returning to FIG. 1, the dialysis device 5 is a device for performing dialysis treatment of a patient, and is disposed adjacent to a dialysis bed for individual dialysis patients. As shown in FIG. 3, the dialysis device 5 includes a communication unit 51, a dialysis unit 52, a blood pressure measurement unit 53, an input unit 54, a display unit 55, a storage unit 56, and a control unit 57.

  The communication unit 51 includes a network interface card (NIC) and the like, and communicates with the DB management server 2. For example, various instructions for controlling the dialysis machine 5, DW (dry weight), dialysis time, blood flow rate (QB) Input setting information such as dialyzer type.

  The dialysis unit 52 includes a dialyzer, a blood circuit, a dialysate circuit, and the like, and performs dialysis on a dialysis patient under conditions such as a dialysis time, a blood flow rate during dialysis (QB), and a dialysate flow rate based on instructions from the control unit 57. Do. In addition, the dialysis unit 52 measures blood flow during dialysis, water removal rate, blood side pressure, dialysate conductivity (reflecting concentration), dialysate flow rate, dialysate side pressure, etc. as needed, and the measurement result is a control unit. To 57.

  The blood pressure measurement unit 53 measures the blood pressure of the patient during dialysis as needed, and outputs the measured blood pressure information (pulse, maximum blood pressure, minimum blood pressure, etc.) to the control unit 57.

  The input unit 54 includes operation buttons and the like, and receives an operation input from the user.

  The display unit 55 includes a liquid crystal display or the like, and displays various types of information based on instructions from the control unit 57. For example, the display unit 54 displays in real time the component information and blood pressure information of the dialysate output from the dialysis unit 52 and the blood pressure measurement unit 53 as needed.

  The storage unit 56 includes a hard disk device and the like, and stores information such as programs executed by the control unit 57, DW (dry weight) for controlling the dialysis device 5, dialysis time, blood flow rate (QB), dialyzer type, and the like. Remember.

  The control unit 57 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like, and executes the program stored in the storage unit 56, whereby the entire dialysis machine 5 is controlled. Control. For example, the control unit 57 receives setting information for controlling dialysis processing such as DW (dry weight), dialysis time, blood flow rate (QB), and dialyzer type from the information processing device 4 via the communication unit 51. And set in the storage unit 56. In addition, the control unit 57 responds to a dialysis start instruction supplied from the information processing device 4 via the communication unit 51, DW (dry weight), dialysis time, blood flow rate stored in the storage unit 56. (QB), the dialysis unit 52 is controlled in accordance with setting information such as the type of dialyzer.

  In addition, the control unit 57 creates dialysis data including information derived from the dialysis device output from the dialysis unit 52 and blood pressure information output from the blood pressure measurement unit 53 and transmits the dialysis data to the information processing device 4. The format of the dialysis information / blood pressure information varies depending on the manufacturer and model of the dialysis machine 5.

(Information processing apparatus 4)
Returning to FIG. 1, the information processing device 4 is connected to the dialysis device 5 and the DB management server 2 and supports treatment of a patient during dialysis. The information processing apparatus 4 includes a desktop computer, a notebook computer, a PDA (Personal Data Assistance), a mobile terminal such as a mobile phone / smartphone, and the like. As shown in FIG. 4, a communication unit 41, a display unit 42, , An input unit 43, a storage unit 44, and a control unit 45.

  The communication unit 41 includes a connector conforming to a NIC (Network Interface Card) or RC232C standard, a wireless communication unit, and the like, and communicates with the DB management server 2 and the dialysis machine 5.

  The display unit 42 includes a liquid crystal display or the like, and displays various types of information based on instructions from the control unit 45. For example, the display unit 42 displays patient medical information.

  The input unit 43 includes a keyboard, a mouse, and the like, and performs processing for receiving an operation input from the user.

The storage unit 44 includes a hard disk device and the like, and stores programs executed by the control unit 45 and various data. Further, the storage unit 44 stores a control application program (hereinafter referred to as control application) 44A and an integrated application program (hereinafter referred to as integrated application) 44B corresponding to the dialysis apparatus 5 connected thereto.
The control application 44 </ b> A is an application program for the information processing device 4 to control the dialysis device 5. Details thereof will be described later.
The integrated application 44B is an application program for the information processing apparatus 4 to integrate, process, display, and output data of various formats stored in the database 3. Details thereof will be described later.

  The control unit 45 includes a CPU, a ROM, a RAM, and the like, and controls the entire information processing apparatus 4 by executing a program stored in the storage unit 44.

  Moreover, the control part 45 controls the dialysis apparatus 5 connected via RC232C cable, radio | wireless communication, etc. by running the control application 44A. For example, the control unit 45 transmits setting data such as DW and QB to the dialysis machine 5 and receives dialysis information from the dialysis machine 5. This dialysis information is data in a format that differs depending on the manufacturer and model of the dialysis machine 5. Further, the control unit 45 receives data collected by the control unit 57 during dialysis of the dialysis apparatus 5 and displays it on the display unit 42 in real time. A doctor, a nurse, or the like can know the dialysis state of the patient from the display on the display unit 42.

  The control unit 45 responds to an instruction input from the input unit 43, executes the integrated application 44B, reads various patient data from the database 3 via the communication unit 41 and the DB management server 2, and displays the display unit. 42. The database 3 stores various data in various formats input from various devices.

  More specifically, the medical information of each patient is accumulated and stored in the database 3. The medical information includes basic data D1, blood data D2, dialysis data D3, and image data D4 that have different formats. Includes weight data D5.

  The basic data D1 is data obtained from an existing electronic medical record and the like, as shown in FIG. 5A (a), identification information for identifying the dialysis patient himself, name, address, date of birth, etc. Basic attribute information of dialysis patients Includes basic data such as blood type, height, and weight.

  The blood data D2 is obtained from a blood test apparatus 7 or a storage medium containing test results of various blood components from an external testing organization, and as exemplified in FIG. 5A (b), the hemoglobin count, white blood count count, etc. Contains data indicating blood component values.

  The dialysis data D3 is data related to the dialysis machine 5, and as shown in FIG. 5A (c), data such as DW (dry weight), dialysis time, blood flow during dialysis, blood pressure, dialyzer type, etc. Including.

  The image data D4 is image data photographed (captured) by the medical image device 8 and information calculated therefrom. The image includes an X-ray image, an echo image, an electrocardiogram image, and the like.

  The body weight data D5 is a measured body weight measured by the weight scale 6, and includes body weight data before, during, and after dialysis.

  Further, the control unit 45 executes the integrated application 44B, and ranks and sets the medical data of various patients in various formats read from the database 3 in advance according to clinical importance as shown in FIG. 5B. Are classified into the clinical large items that are classified and arranged for each of the items previously ranked in the large items, and displayed on the display unit 42 (examination results by large items, inspection charts by patient, etc. described later) . In this display, if individual reference ranges (upper limit value, lower limit value) are set for each data, it is determined whether or not the data value is within the range, and it is out of the reference range. If it belongs to the abnormal range, an identification mark can be attached. Furthermore, in the examination result for each large item, a plurality of patients can be displayed in order of increasing abnormality width (in descending order of risk) by assigning priorities to each item. This reference range is often different from the normal range of healthy individuals for dialysis patients, and can be set according to the individual disease state and medical condition of the patient.

  The integrated application 44B configures medical information and obtains data such as basic data D1, blood data D2, dialysis data D3, image data D4, weight data D5, etc., which have various formats from the database 3, The data is integrated into a format, and each data is selected and classified into one or more items in an item group constituting a plurality of large items set from the viewpoint of clinical dialysis. The item groups constituting the large item are ranked in advance in the order of items that are clinically important for the large item.

Here, “major items” are risks related to life maintenance of dialysis patients, exacerbation of decreased renal function, development of acute diseases / complications, prevention of early onset of infections, etc., judgment of appropriateness of dialysis treatment This means a clinical index that is set in order to quickly and appropriately perform the above, and is composed of a plurality of item groups ranked according to the clinical importance of the patient.
Each item of the item group is composed of any one data selected from blood data D2, dialysis data D3, image data D4, weight data D5, etc., which have different formats, and associated with the basic data D1.
These large items, item groups constituting the large items, and ranking of the large items and the item groups can be appropriately modified, changed, or added as medical examination / diagnosis technology progresses.

  Examples of major items are “DW (dry weight) related”, “Real-time blood pressure / weight graph”, “Renal anemia”, “Dialysis”, “Food related”, “Inflammation”, “Nephro-osteopathies” , “Diabetes”, “liver / bile / pancreatic system”, “lipid”, “thyroid”, “coagulation system”, and the like. Details of these major items will be described below.

The major item “DW (dry weight) related” is a standard weight / DW (defined as “weight that does not cause symptoms such as a decrease in blood pressure during dialysis and is as low as the patient can tolerate”). It relates to the body's body water content adjustment function related to dry weight. Although the kidney has a function of automatically adjusting the body water content, a patient with chronic renal failure who is a dialysis treatment target cannot maintain an appropriate water content by himself. It is necessary to adjust the appropriate amount of water as needed using the DW of each patient as an index, but the target DW varies depending on changes in daily diet, blood pressure, physical condition, weight, physique, etc. Misadjustment can cause life-threatening complications (heart failure, cerebral infarction, etc.). Here, in order to make it possible to quickly and appropriately determine the life support of dialysis treatment patients and the appropriateness of dialysis treatment, the major item “DW-related” is not the set DW (dry weight) alone, but dialysis. HANP (Human Atrial Diuretic Peptide) that decreases rapidly with dehydration in the body, CTR (cardiothoracic ratio) and Ht (hematocrit) that fluctuate due to increase and decrease of body water, weight gain rate, DW, post-weight-DW, etc. It consists of a group of items related to body water adjustment, ranked according to the clinical importance of the patient.
In addition, hANP and Ht are blood data, DW is dialysis data, body weight before and after dialysis is derived from body weight data, and CTR is derived from image data, and post-body weight-DW uses medical data with different formats of body weight data and dialysis data. To calculate.

  The major item “renal anemia” relates to the hematopoietic function of the kidney. In patients with chronic renal failure, the ability of the kidney to produce erythropoietin that promotes erythropoiesis is reduced, so patients easily become “renal anemia” and deteriorate in physical condition. For early detection and early treatment of this condition, the major items are the amount of red blood cells (hematocrit (Ht) and hemoglobin (Hb)) and the amount of iron essential for hemoglobin synthesis (ferritin (Fer), etc.) It consists of a group of items ranked according to clinical importance.

The major item “dialysis volume” relates to the appropriateness of treatment with a dialysis machine to compensate for the decline or failure of the kidney's processing function for wastes and the like. Fatal uremia and arrhythmia are caused when the removal of waste and harmful substances by dialysis is not successful. On the other hand, when the removal efficiency by dialysis is too good, the concentration of wastes and harmful substances is drastically lowered, and it is easy to cause “imbalance syndrome” accompanied by unpleasant symptoms and blood pressure reduction. In addition, since there are various types of wastes and harmful substances, it is difficult to confirm all the removal status by dialysis treatment. Therefore, BUN (urea nitrogen), Cr (creatinine), etc. in waste products are selected as “dialysis markers”, and the major items are standardized dialysis value (Kt / V), TAC (time average concentration of BUN), It consists of a group of items ranked according to the clinical importance of patients, such as BUN values before and after dialysis and Cr values before and after dialysis.
Kt / V is calculated using medical data with different origins and formats such as BUN (blood test data), body weight before and after dialysis (body weight data), and dialysis time (dialysis data). The calculation formula recommended by the Dialysis Society may be used.

The large item “meal-related” mainly relates to the function of the kidney to maintain the electrolyte balance. In patients with chronic renal failure, the ingested electrolyte accumulates as it is due to this reduced function, and potassium, in particular, has a high risk of causing fatal arrhythmias due to an increase in blood concentration and requires strict control. And Major items, including other important items, rank according to the clinical importance of patients, such as K, IP (inorganic phosphorus), Na, salt intake, Alb, BUN, nPCR (standardized protein catabolism rate) It consists of a group of items.
The nPCR is calculated using various medical data such as BUN (blood data), body weight before and after dialysis (weight data), dialysis time (dialysis data), and the like.

  The major item “inflammation” relates to susceptibility to infection caused by the accumulation of uremic substances due to renal dysfunction and the history of diabetes. In patients with deterioration of protein nutrition status, cellular immunity, lymphocyte function, and neutrophil function decrease, and the frequency of hospitalization and death due to infection increases. For early detection of signs of abnormal inflammation, the major items are CRP (C-reactive protein), one of the indicators of the acute phase of inflammatory response, WBC (white blood cell), which is an indicator of bacterial infection, and mainly at the site of inflammation. It consists of a group of items ranked according to the clinical importance of the patient, such as Eosino (eosinophils), which is a cell responsible for inflammation.

The major item “nephrogenic osteopathy” relates to the bone metabolic function of the kidney. In dialysis patients, a decrease in the ability to synthesize active vitamin D _{3 that} occurs along with a decrease in renal function, and an abnormal balance of calcium and phosphorus concentrations in the blood lead to increased secretion of parathyroid hormone (PTH), thereby causing bone resorption (disruption). Bone) progresses and develops nephroostosis (renal osteodystrophy). Recently, serious effects on systemic symptoms and prognosis have been pointed out. For early detection of abnormal signs of nephrogenic osteopathy, the major items are i-PTH (complete parathyroid hormone), corrected Ca (calculated from Ca, Alb data), IP (inorganic phosphorus), Ca x IP, presence of active vitamin D ₃ oral like were ranked according to the clinical severity of the patient, and a set of items.

  The major item “diabetes mellitus” relates to the prognosis of patients with renal failure that developed as a complication of diabetes. Diabetes nephropathy (about 45%) is the primary disease of dialysis patients, and many dialysis patients suffer from diabetes. Diabetes patients are also at risk of developing many serious complications such as retinopathy, peripheral neuropathy, cardiovascular disease and cerebrovascular disease, and for their prevention, early detection and prevention of disease state deterioration, Follow-up and control are important. Therefore, the major items consist of groups of items ranked according to patient clinical importance, such as HbA1c, fasting blood glucose level (BS), which is considered to reflect the average blood glucose over the past 1-3 months Is done.

  The major item “liver / biliary / pancreatic” relates to the prognosis of diabetic nephropathy patients. Diabetes nephropathy (about 45%) is the primary disease of dialysis patients, and many dialysis patients suffer from diabetes. Diabetes patients are at risk of developing various complications throughout the body, including visceral (liver, bile, pancreatic, etc.) diseases. Since various organs in the body contain various enzymes, when organ damage occurs, enzymes specific to each organ leak into the blood and are recognized as an increase in blood concentration, so early detection of abnormalities, identification of diseases and sites Useful for. Major items include Alb as an indicator of liver damage, CPK (creatine kinase) as an indicator of tissue cell damage, GOT, GPT, ALP (alkaline phosphatase), gamma-GTP, etc. as indicators of liver dysfunction, It consists of a group of items ranked according to the clinical importance of the patient.

  The major item “lipid” relates to lipid abnormalities that are considered as independent risk factors for cardiovascular disease, particularly myocardial infarction. Lipid control is important because heart failure is the leading cause of death in dialysis patients. Items ranked according to the clinical importance of patients, such as TG (neutral fat), T-cho (total cholesterol), LDL-cho (LDL cholesterol), which are indicators of dyslipidemia Composed of groups.

  The major item “thyroid” relates to hypothyroidism. Dialysis patients are said to have mild hypothyroidism due to nutritional problems and amino acid loss during dialysis. In addition, it has been reported that primary hypothyroidism is observed in 5.4% of dialysis patients (0.7% in control patients), and it is important to observe thyroid function in dialysis patients. Major items are ranked according to the clinical importance of patients such as thyrotropin (TSH) secreted from the pituitary gland, thyroid hormones triiodothyronine (T3) and thyroxine (T4). Composed of groups.

  The major item “coagulation system” relates to heart diseases and complications of cerebral infarction. Dialysis patients generally have some of the heart disease and are well equipped to develop atrial fibrillation. Atrial fibrillation is said to be one of the causes of cerebral infarction because blood in the atrium is stagnant and blood clots are easily formed. The major items consist of groups of items ranked according to the clinical importance of the patient, such as PLT, which is an indicator of platelet aggregation, which is a thrombus, and PT-INR, which is an indicator of blood coagulation ability.

  The relationship between the major items, item groups, and each data will be shown below with examples. For example, the major item “DW (dry weight) related” is ranked in the following order: hANP (pg / ml), CTR (cardiothoracic ratio:%), Ht (hematocrit value:%), weight gain rate ( %), DW (kg), and post-body weight-DW (kg). The information of these items is different in format, and the basic application D1, blood data D2, dialysis data D3, image data D4, weight data D5, and the like stored in the database 3 are executed by the integrated application 44B. And can be obtained by unifying. Among these item groups, the item “hANP” and the item “Ht” are information obtained from the blood data D2, and the item “DW (dry weight)” is the information obtained from the dialysis data D3, the item “CTR ( "Cardiothoracic ratio:%)" is a value obtained from X-ray imaging data or the like in the image data D4, and the item "post-weight-DW" is calculated from the post-dialysis body weight of the weight data D5 and the DW of the dialysis data D3. The value and the item “weight gain rate” are values calculated from the weight before and after dialysis of the weight data D5 and the DW of the dialysis data D3.

  A reference range (upper limit value to lower limit value) is set in the configuration data of each item as shown in FIG. Reference range data is also included in the medical information. For example, in the example of FIG. 5A (d), hANP (pg / ml), which is constituent data related to the large item DW, indicates that the range between the lower limit value 25 and the lower limit value 100 is the reference range. These reference range data are data that can be appropriately set for each patient according to the symptom of the dialysis patient and the like, unlike the normal range of a healthy person. The various patient medical data assigned to the item is compared with the reference range, and if it is equal to or lower than the lower limit value or higher than the upper limit value, an identification mark is attached to indicate it.

(Database 3)
In the database 3 shown in FIG. 1, medical information of each patient is accumulated and stored.
As described above, the medical information includes basic data D1, blood data D2, dialysis data D3, image data D4, and weight data D5.

  As described above, the basic data D1 includes, as shown in FIG. 5A (a), data such as identification information (patient ID), name, address, date of birth, etc. It includes basic attribute information such as blood type, height, dialysis history, and the like.

  The blood data D2 is, as shown in FIG. 5A (b), values of various blood components measured by the blood test apparatus 7, or blood test result information obtained from an external blood test organization.

  As shown in FIG. 5A (c), the dialysis data D3 is data directly related to the dialysis apparatus. For example, the dialysis apparatus 5 includes DW (dry weight), dialysis time, blood flow rate (QB), dialyzer type, and the like. The measurement data obtained by measuring during dialysis, such as the data set to 1, the blood pressure at the start of dialysis, and the minimum blood pressure during dialysis.

  The image data D4 is image data photographed (captured) by the medical image device 8, and includes an X-ray image, an echo image, an electrocardiogram image, and the like.

  The body weight data D5 is a measured body weight measured by the weight scale 6, and includes body weight data before, during, and after dialysis.

  The database 3 stores these data in various formats while being linked to each other.

(Weight scale 6)
Returning to FIG. 1, the weight scale 6 has a function of connecting to the network NW in addition to the weight measurement function. The weight scale 6 registers information indicating the measured weight value of the patient in the database 3 via the DB server 2. The registered weight data is accumulated in the database 3 as weight data D5. Alternatively, after being input (recorded) into the existing electronic medical chart system 10, it is transmitted and stored in the database 3. The scale 6 may be a terminal device that inputs the weight measured externally and registers it in the database 3 via the DB management server 2.

(Blood test device 7)
Blood test apparatus 7 has a function of connecting to network NW in addition to a known blood test function. The blood test apparatus 7 is controlled by the DB management server 2 and transmits information indicating the value of each blood component of the tested (measured) patient to the database 3. Blood test apparatus 7 may be a terminal for inputting external blood test result data. The blood test apparatus 7 may be a terminal apparatus that inputs blood data that has been examined externally and registers it in the database 3 via the DB management server 2.

(Medical image device 8)
The medical image device 8 is composed of an X-ray device, an echo device, an electrocardiogram device, and the like, and has a function of connecting to a network NW in addition to a known medical image imaging function. The medical image device 8 is controlled by the DB management server 2 and transmits image data of a captured image (an X-ray image, an echo image, an electrocardiogram image, etc.) to the database 3. The medical image device 8 may be a terminal device that inputs a medical image acquired externally and registers it in the database 3 via the DB management server 2.

(Communication interface (IF) 9)
The communication interface 9 performs communication between the dialysis / treatment support system 1 and an external electronic medical chart system 10 or the like.

Next, the operation of the dialysis treatment support system 1 having the above configuration will be described.
(Basic data registration process)
Doctors, nurses, etc. operate the DB management server 2 to transmit data such as patient ID, name, address, blood type, height, etc. of the new patient to the database 3 and request registration. The database 3 registers these data as new basic data D1. At this time, the DB management server 2 functions as basic data registration means.

(Weight data registration process)
A dialysis patient is weighed by a scale 6 before and after dialysis treatment. The weight scale 6 registers the measured weight in the database 3. More specifically, the scale 6 transmits weight data including the measured weight before and after dialysis to the database 3 together with data such as the patient ID and the treatment date, and requests registration. The database 3 registers these data as weight data D5. At this time, the weight scale 6 functions as weight data registration means. Instead of the weight scale 6, weight data measured by another device may be input to the terminal device and registered in the database 3 via the DB management server 2.

(Blood data registration process)
The blood of the dialysis patient is appropriately examined by the blood test apparatus 7. The blood test apparatus 7 registers blood data obtained by the test in the database 3. More specifically, blood test apparatus 7 transmits measured blood data to database 3 together with data such as patient ID and measurement date, and requests registration. The database 3 registers these data as blood data D2. At this time, blood test apparatus 7 functions as blood data registration means.
Instead of the blood test apparatus 7, data tested by an external laboratory or the like may be input to the terminal device and registered in the database 3 via the DB management server 2.

(Dialysis data registration process)
The blood of the dialysis patient is dialyzed by the dialyzer 5. The information processing device 4 acquires dialysis treatment data including dialysis conditions, dialysis time, blood flow during dialysis, blood pressure during dialysis, etc. from the dialysis device 5 together with data such as patient ID and treatment date and time, and stores them in the database 3. sign up. More specifically, dialysis data is transmitted to the DB management server 2 to request registration. The database 3 registers these data as dialysis data D3. At this time, the information processing device 4 functions as a dialysis data registration device.

(Image data registration process)
A medical image of the dialysis patient is appropriately captured by the medical image device 8. The medical image capturing apparatus 8 is controlled by the DB management server 2 and transmits a captured medical image to the database 3 together with a patient ID, an imaging date, and requests registration. The database 3 registers these data as image data D4. At this time, the medical image device 8 functions as a medical image data registration device.
Note that medical images taken by an external examination institution or the like may be transmitted from another terminal such as the electronic medical record system 10 to the database 3 via the DB management server 2 and registered.

  The basic data, blood data, dialysis data, image data, etc. already stored in the external electronic medical chart system 10 are read out by the DB management server 2 via the communication IF 9, and the basic data D1, blood data are read into the database 3. You may store as D2, dialysis data D3, image data D4, etc.

(Dialysis treatment data processing)
Next, an example of a procedure for performing dialysis of a patient in the dialysis treatment support system 1 will be described with reference to a procedure diagram of FIG.

  First, blood collected from a patient is examined by the blood test apparatus 7. The blood test apparatus 7 transmits the blood test result together with the patient ID and the test date to the DB management server 2. The DB management server 2 additionally registers this in the database 3 as blood data D2 (step S1). This can be substituted with blood test data obtained from an external laboratory.

  Next, the weight of the patient is measured with the weight scale 6. The weight scale 6 transmits the measurement value together with the patient ID and the measurement date and time to the DB management server 2. The DB management server 2 additionally registers this in the database 3 as weight data D5 (step S2). This may be pre-measured weight data.

  Next, a medical image of the patient is acquired by the medical image device 8 as necessary. The medical image device 8 transmits the photographed image to the DB management server 2 together with the measurement value and the patient ID and the photographing date and time. The DB management server 2 additionally registers this as image data D4 in the database 3 (step S3). The medical image data of the patient may be obtained from an image captured in advance.

The person in charge operates the input unit of the information processing device 4 and inputs the patient ID of the dialysis patient and dialysis condition setting information (DW (dry weight), dialysis time, blood flow rate, etc.) to the dialysis device 5. The control unit 45 of the information processing device 4 displays the input patient ID, setting information, and the like on the display unit 42 and transmits them to the dialyzer 5 via the communication unit 41. The control unit 57 of the dialysis device 5 receives the setting data via the communication unit 51 and sets it in the storage unit 56.
Subsequently, the patient moves to the bed and starts dialysis at the dialysis unit 52 of the dialysis apparatus 5 arranged adjacent to the bed (step S4). During the dialysis, the control unit 57 executes the control application 44A stored in the storage unit 56 and controls the dialysis unit 52 according to the setting data. The dialysis unit 52 determines the dialysis time and dialysis based on the setting data. Dialysis treatment is performed on patients under conditions such as blood flow (QB) and dialysate flow. The dialysis unit 52 analyzes values such as blood flow during dialysis as needed, and outputs the analysis results to the control unit 57. The control unit 57 temporarily stores the analysis result in the storage unit 56.

  The blood pressure measurement unit 53 measures the blood pressure of the patient before dialysis, during dialysis, and after dialysis as needed, and measured blood pressure information (pulse, blood pressure at the start of dialysis, blood pressure at the time of the lowest decrease during dialysis, and The blood pressure at the end of dialysis (systolic / diastolic blood pressure, etc.) is output to the controller 57. The control unit 57 temporarily stores blood pressure information in the storage unit 56.

The control unit 57 sends the blood flow rate and blood pressure information stored in the storage unit 56 to the information processing apparatus 4 connected together with the patient ID, the acquisition time, and the like. The control unit 45 of the information processing apparatus 4 receives the data via the communication unit 41 and displays the data on the display unit 42 together with the patient ID, setting data, and the like. A doctor or the like can see the progress of dialysis, dialysis data, and the like by looking at the display unit 42.
The information processing device 4 transmits the dialysis related information (setting information + measurement information) to the DB management server 2 as appropriate. The DB management server 2 additionally records the received data in the database 3 as dialysis data D3.

  When dialysis is completed, blood is collected from the patient and a blood test is performed again (step S5). Blood test apparatus 7 transmits blood test data to DB management server 2. The DB management server 2 additionally registers this in the database 3 as blood data D2. When the test is outsourced, blood data is transmitted to the database 3 and stored after obtaining the result.

Next, the weight of the patient is measured again with the weight scale 6 (step S6). The weight scale 6 transmits the measurement value to the DB management server 2 together with the patient ID and the measurement date and time. The DB management server 2 additionally registers this in the database 3 as weight data D5 (step S6).
Subsequently, if necessary, the medical image is acquired again and transmitted to the DB management server 2. The DB management server 2 additionally registers this in the database 3 as image data D4 (step S7).

  Thus, one hemodialysis process for one patient is completed.

  During the above dialysis procedure, the control unit 25 of the DB management server 2 appropriately accesses each information processing device 4 via the communication unit 21 in accordance with an operator's instruction, and displays the screen displayed on the information processing device 4. Acquire and display the same screen. As a result, a plurality of doctors / nurses and the like can check and examine while viewing the same screen, and the doctors can explain the situation and the like.

  At any timing during dialysis and after the end of dialysis, doctors, nurses, etc. operate terminals such as the information processing device 4 to refer to any data of any patient for any period of time, to treat / diagnose / Can be used for confirmation.

(Integrated application)
The integrated application 44B is executed by the control unit 45 and read various medical related information (basic data D1, blood data D2, dialysis data D3, image data D4, weight, etc.) read from individual existing devices and accumulated in the database 3. Data D5 is an application for reading, integrating, unifying, and analyzing the data D5 from the database 3 via a connection control application (ODBC (Open Database Connectivity) driver (middleware), ODBC / API, etc.).

  The integrated application 44B distributes the integrated data to the ranked clinical major items. Since each large item is composed of a group of items that are further ranked, when distributing the various data described above, the basic data D1 and blood data are assigned to the individual items constituting the item group, respectively. Any one of D2, dialysis data D3, image data D4, weight data D5, or numerical data calculated by combining a plurality of data is distributed according to ranking according to the items.

  Here, clinical major items include early detection of risks related to life maintenance of dialysis patients, deterioration of renal function deterioration, onset of acute diseases / complications, onset of infection, etc., and promptness of appropriateness of dialysis treatment. It is set and ranked in order to make a quick and qualified judgment, etc., DW-related, real-time blood pressure / weight graph, renal anemia, dialysis dose, diet-related, inflammation, nephrogenic osteopathy, diabetes, liver・ Biliary / pancreatic system, lipid, thyroid, coagulation system, etc. are ranked in this order, for example.

  Each of these clinical major items is composed of an ordered group of items. For example, major item DW-related items are hANP [pg / ml], CTR [%], Ht [%], weight gain rate [%], It consists of a group of items ranked in the order of DW [kg], post weight-DW [kg], and so on. Major item renal anemia is Ht [%], Hb [g / dl], Fer (ferritin) [ng / ml], TSA (iron saturation rate) [%], etc. Each item group is ranked in the order of i-PTH [pg / ml], corrected Ca [mg / dl], IP [mg / dl], Ca × IP, and the like.

  The integrated application 44B converts the basic data D1, blood data D2, dialysis data D3, image data D4, and weight data D5 read from the database 3 via the DB management server 2 into a specific format, and further matches the items. Integrate data by ranking and distributing.

  The items obtained from blood data D2 among all the items that constitute clinical large items are hANP, Ht, Hb, Fer, TSA, TAC, BUN, Cr, UA, K, IP, Na, Alb, CRP , WBC, Eosino, i-PTH, IP, HbA1c, BS, CPK, GOT, GTP, ALP, γ-GTP, TG, T-cho, LDL-cho, TSH, Free T3, Free T4, PLT, PT-INR The composition ratio. The items obtained from the dialysis data D3 are blood pressure (during dialysis), dialysis time, blood flow rate (QB), dialyzer (type), etc., and the items obtained from the weight data D5 are the weight before and after dialysis, etc. Items obtained from the data D1 are medication history, pre-existing diseases, and the like, and items obtained from the image data D4 are CTR (cardiothoracic ratio) (calculated from X-ray images and the like contained in the image data). Among these data, for example, some large items are used redundantly as items, such as Alb, IP, and Ht.

Among the items, there is an item whose value is obtained by calculating by combining blood data D2, dialysis data D3, weight data D5, and the like.
For example, the item Kt / V (dialysis society standard) and nPCR (dialysis society standard), the control unit 45 functioning as a calculation means, the weight included in the weight data D5, the dialysis time included in the dialysis data D3, BUN and the like included in blood data D2 are calculated by applying them to mathematical formulas prescribed by the Dialysis Society. In addition, the weight increase rate of the item is calculated by the control unit 45 using the expression “(previous weight−DW) / DW (dry weight) included in the weight data D5 and the DW (dry weight) included in the dialysis data D3. Substituted into “post-weight”, the item “post-weight-DW” is calculated from the post-body weight included in the weight data D5 and the DW included in the dialysis data D3, and the salt intake of the item is the weight data. It is calculated from the body weight included in D5 and the Na value included in blood data D2.

  Among the data distributed to the item groups ranked in this way, those represented by numerical values have individual reference ranges (upper and lower reference values). The control unit 45 compares the individual data with the upper limit value and the lower limit value, and attaches an identification mark therefor when higher than the upper limit value, and an identification mark therefor when lower than the lower limit value.

  Furthermore, for example, when the integrated application 44 </ b> B displays the “large-item inspection results” described below as the integration results of various data, the integrated application 44 </ b> B configures the large items and ranks them in descending order of importance from a clinical viewpoint. For the selected item group, the data was sorted (sorted) in the order of patients that exceeded the reference range (highly abnormal), that is, patients with the highest clinical severity. It is displayed as two spreadsheet-like data (FIG. 7).

  For example, when the integrated application 44B displays the “patient-specific examination chart” described below as an integrated result of various data, a plurality of large items ranked in descending order of importance from a clinical point of view, It arranges in order with the ranked item group which comprises it, goes back in time, and displays it as one spreadsheet-like data (FIG. 8). The integrated application 44B assigns an identification mark that can be seen at first glance to data indicating that a reference range is individually set in each item group and that is not within the reference range and indicates clinical abnormality.

(Launch integrated application)
When the operator instructs activation of the integrated application 44B, the control unit 45 starts executing the integrated application 44B.
Then, the control unit 45 displays on the display unit 42 a menu screen including “Examination results for each major item”, “Examination chart for each patient” and the like as shown in FIG.

  The operator can refer to various data from the screen by operating the buttons on the menu screen.

Menu items or displayed data are appropriately converted into icons or buttons.
When the displayed icon is pressed, the control unit 45 proceeds to the next step and appropriately displays the corresponding data. When any display is instructed to display some data, the display process shown in FIG. 10 is executed.

  First, when an instruction to display data is issued, the control unit 45 (integrated application program 44B) starts the display process shown in FIG. 10, and displays data to be displayed according to the content of the instruction in the DB. Read from the database 3 via the management server 2 (step S11). Data that is not included in the read data is appropriately generated by calculation or the like.

  Next, since the read data has different formats and data formats, the control unit 45 integrates the data into one table format (step S12). More specifically, the basic data D1, blood data D2, dialysis data D3, image data D4, and weight data D5 of various formats are converted into one format, and further classified into large items that are ranked in advance. In addition, the items are arranged in the order of the items previously ranked in the large items. Here, the data format conversion does not mean that the data format is physically completely the same, but means that the data format is converted into a form that can be arranged and displayed side by side on the same screen. For example, the basic data D1, blood data D2, dialysis data D3, and weight data D5 are converted into a hypertext format, and the image data D4 is converted into a JPEG format, and a link to the image data is embedded in the hypertext. The format may be converted so that it can be displayed integrally in a browser.

  Next, the control unit 45 compares each data with the reference range, determines whether or not the reference range falls, and identifies abnormal data that falls outside the reference range (step S13). Also, the degree of abnormality is obtained as necessary. The degree of abnormality is, for example, the absolute value of the difference from the upper limit value or lower limit value of the reference range of the data of interest, the ratio between the absolute value of the difference and each data (ratio value), or the like.

  Next, the control unit 45 adds an abnormality mark, which is an identification mark indicating an abnormal value, to the specified abnormality data (step S14).

  Next, the control unit 45 integrates and displays the marked data in descending order of the degree of abnormality (step S15). Alternatively, the integrated and marked data is displayed over time (step S15).

  By adopting such a configuration, doctors, nurses, etc. can easily identify and examine data indicating abnormal values from a large amount of data of a large number of patients. Risks involved include early detection of exacerbation of decreased renal function, onset of acute illness / complications, onset of infection, etc., and appropriateness of dialysis treatment, etc. It is easy to decide the treatment policy.

  In addition, the information processing apparatus 4 displays only the information of the person, when the identification ID of the person located in the bed for dialysis is input. Regarding the other person's data, the download of the other person's data is refused by comparing the identification ID at the stage of downloading from the database 3. Such a block function can be temporarily turned off by inputting an administrator ID or the like.

  Further, an application similar to the integrated application 44B may be introduced into the DB management server 2 and the same display control process may be performed.

(Inspection results by major items)
Here, for example, when the “examination result by large item” on the menu screen of FIG. 9A is clicked, the integrated software 44B displays the ranked clinical large items as exemplified in FIG. 9B. The list menu is displayed on the display unit 42. When the user selects one large item from the list, as illustrated in FIG. 7, each item group constituting the large item for all patients (not necessarily all patients) targeted at that time. Instructed to display the results in the order of ranking in advance and in descending order of the degree of abnormality in the top item.

  As mentioned above, these clinical major items are related to the early detection of deterioration of renal function, the onset of acute diseases / complications, the onset of infectious diseases, etc. It is ranked from a clinical standpoint, such as judgment of appropriateness. The list of major items includes DW-related, real-time blood pressure / weight graph, renal anemia, dialysis dose, diet-related, inflammation, nephroostosis, diabetes, liver / bile / pancreatic system, lipid, thyroid, coagulation system, etc. . These large items are further made up of several types of items each individually ranked by clinical importance.

  With respect to the example of FIG. 7, the integrated application 44B has various data such as basic data D1, blood data D2, dialysis data D3, image data D4, and weight data D5 that are separately formatted and stored in the database 3. Are collected (step S11). For some data, data is generated by calculation or the like.

  Next, the integrated application 44B converts the basic data D1, the blood data D2, and the data format into a common format, for example, a text format and arbitrarily associates the examination items in advance in order of importance so as to constitute the selected large item. Results are generated and integrated so as to correspond to groups (step S12).

  The integrated application 44B compares the item for which the reference range is set with the reference range to determine whether or not the item falls outside the reference range, and obtains the degree (abnormality) of the outlier that falls outside the reference range ( In step S13), an identification mark is attached to the abnormal value (step S14).

  Subsequently, the integrated application 44B displays on the display unit 42, as illustrated in FIG. 7, in the order of the patients having the most abnormal items (hematocrit value 30 in FIG. 7) having a highly abnormal result (step S15). ). In FIG. 7, the abnormal value identification mark is shaded. The identification mark can be arbitrarily changed such as changing the character color or changing the cell color. In addition, the item group is configured by any one of basic data D1, blood data D2, dialysis data D3, image data D4, weight data D5, or numerical data calculated by combining a plurality of data. In FIG. 7, the patients are sorted based on the first item among the large items. However, the user may be able to specify the item serving as the reference. For example, when “serum iron saturation 20” is designated in FIG. 7, patients may be ranked and arranged according to the degree of abnormality of serum iron saturation 20.

(Examination chart by patient)
Here, for example, when the “patient-specific examination chart” on the menu screen shown in FIG. 9A is clicked, a screen for specifying a patient to be processed is displayed. When information such as a patient ID for identifying a patient is input to this screen, the integrated application 44B is individually formatted and stored in the database 3, and the basic data D1, blood data D2, dialysis data D3, Image data D4 and weight data D5 are collected (step S11). For data that needs to be calculated and graphed, necessary processing is performed to obtain data.

  Next, format conversion is performed to integrate these data. Further, the data is arranged in the order of important items set in advance and in the order of importance constituting each large item and in time series (step S12).

  Subsequently, the item for which the reference range is set is compared with the reference range to determine whether it is out of the reference range (abnormal value) (step S13), and an identification mark is attached to the abnormal value (step S13). S14) and display on the display unit 42 (step S15). Thus, for example, data is arranged in order of items ranked in the vertical axis direction and in date order in the horizontal axis direction using the patient ID as a key, and a series of past examination data with different measurement dates is integrated over time. Thus, it is displayed as one spreadsheet data as illustrated in FIG. In FIG. 8, the abnormal value identification mark is shaded.

  More specifically, in the example of FIG. 8, the integrated application 44B displays blood data D2, dialysis data D3, weight data D5, and the like as clinical major items (DW related, real-time blood pressure / (Weight graph, renal anemia, dialysis amount, diet-related, inflammation, nephroostosis, diabetes, liver / bile / pancreatic system, lipid, thyroid, coagulation system, etc.) Arrange in the order of the specified items. As described above, the major clinical items are the risk of life-support of dialysis patients, the deterioration of renal function deterioration, the onset of acute diseases and complications, the onset of infectious diseases, and the appropriateness of dialysis treatment. It is ranked from the clinical viewpoint such as judgment.

  Furthermore, the integrated application 44B compares each arranged blood data, dialysis data, etc. with the reference range data set in advance individually, determines whether it is within the reference range, and determines that it is out of the reference range. An identification mark is attached to the recorded data. The identification mark can be arbitrarily changed such as changing the character color or changing the cell color.

  When the specific patient is designated in the state where the display of FIG. 7 is made, the processing of FIG. 10 is executed, and the display of FIG. 8 is performed for the designated patient, or the display of FIG. When a specific large item is designated in the state of being configured, the processing of FIG. 10 may be executed and the processing of FIG. 7 for the designated large item may be performed.

  In the following, an example is used to explain how large-scale test results and test charts are used in actual dialysis treatment.

(Usage example) (From “DW-related” test results by major items to “patient-specific test charts”)

  If you select the “DW-related” large item from the “Results by Large Item” menu, you should pay particular attention to the test results that are arbitrarily associated in advance (highly clinically important) hANP, CTR, Ht, weight A list of all patients with the latest data such as rate of increase, DW, etc. is displayed. At the same time, for example, the item hANP is automatically rearranged in ascending order. Thus, for example, in the case of a dialysis center, among a large number of patients, an abnormal identification mark is attached to the group of items in the large item DW, and the result list of patients requiring important attention is ordered in descending order of risk. It is displayed and it is possible to immediately determine which patient should be dealt with urgently.

As for sorting, it can be displayed in ascending or descending order by manual operation thereafter, and it is also possible to sort on starting blood pressure, dialysis diastolic blood pressure, and CTR. If a reference range is set in advance for the inspection value, for example, a value below the reference range is displayed in blue, a value above is displayed in red, and a value within the reference range is displayed in white. In addition, the percentage of patients who are below or above the reference range for the total number of patients is also displayed.
Healthcare professionals use color-coded display and sorting functions to provide detailed examination results, including other major items, in order to comprehensively determine the condition of patients who are out of the standard range and have high urgency. You can move on to the checking step.

  As a procedure, when the corresponding patient name (A) is double-clicked from the list of “examination results classified by major items” (DW related), an icon screen of medical information data dedicated to the patient A is displayed. Clicking on the “patient-specific test chart” in the list, the test results for all major items in the item group arbitrarily associated with each major item, including not only the latest information but also past test results, Along with the identification mark of abnormality, it is displayed in time series (Fig. 8). At first glance, it is possible to grasp the background of the results of the patient A so far related to the large item DW and other large items, A comprehensive pathological picture can be determined.

  For the large item “DW-related”, attention is paid to the next ranked large item “blood pressure / weight graph”. Here, the blood pressure at the time of dialysis treatment on the examination day is displayed as a hexagon consisting of 6 points: the time when dialysis starts, the time when the dialysis is most reduced, and the systolic / diastolic blood pressure at the end of dialysis, In addition, the pre-dialysis weight and post-dialysis weight on the examination date are displayed as a bar graph, and the current DW value line is also displayed.

  Here, the medical worker determines how the abnormal value of the “major item test result” (DW related) has come out and whether the DW is appropriate. Specifically, it is the result of water removal being properly performed up to the target DW, or the result in a situation where water removal to the DW was not possible, the blood pressure during dialysis was not too high, not too low, and stable (If the hexagon is as close to the quadrangle as possible, it is evaluated that blood pressure is stable during treatment), and X-ray images and dialysis progress records (patient complaints, etc.) from patient A's medical data, prescription Check records (internal use of antihypertensives). By comprehensively evaluating this information, it is possible to quickly determine whether there is an error in the setting of DW, which has been difficult to determine in the past, or whether the patient's body water content is inappropriate and the risk of heart failure or cerebral infarction has increased. Immediately, a risk avoidance instruction, DW setting change, and the like can be performed.

(Usage example) (From the test result of major items “renal anemia” to “patient-specific test chart”)
If you select the large item "renal anemia" from the "large item test results", you should pay particular attention to the test results that are arbitrarily associated in advance, such as Ht, Hb, ferritin, TSAT (iron saturation), MCV, etc. A list of all patients with the latest data is displayed in order. At the same time, Ht ranked most important is automatically sorted in ascending order. Thus, for example, in the case of a dialysis center, among many patients, an abnormal identification mark is attached to a group of items of major renal anemia, and a result list of patients requiring important attention is high-risk. It is displayed in order, and it is possible to immediately determine which patient should be dealt with urgently.

Sorting can be displayed in ascending or descending order by manual operation, and sorting for TSAT, ferritin, MCV, etc. can also be performed. If a reference range is set in advance for the inspection value, it is color-coded, for example, so that it can be seen at a glance when the reference range is above the upper limit and below the lower limit. In addition, the percentage of patients who are below or above the reference range for the total number of patients is also displayed.
Healthcare professionals use color-coded display and sorting functions to provide detailed examination results, including other major items, in order to comprehensively determine the condition of patients who are out of the standard range and have high urgency. You can move on to the checking step.

  As a procedure, double-click the patient's name (A) from the displayed list of “Examination results by major item” (renal anemia), and an icon screen for medical information data dedicated to patient A will be displayed. . Clicking on the “patient-specific test chart” in the list, the test results for all major items in the item group arbitrarily associated with each major item, including not only the latest information but also past test results, Listed in chronological order together with abnormal identification marks (Fig. 8). At first glance, patient A can understand the history of the results of the previous major item renal anemia and the other major item groups. It is possible to judge the overall pathological picture of

Here, the medical staff determines how the abnormal value of the “major item test result” (renal anemia) has come out and whether it can be diagnosed as renal anemia. Specifically, first, the progression of anemia or the tendency of anemia or polycythemia can be quickly determined based on the transition of the test values of Ht and Hb displayed in time series. In the case of anemia, ferritin and TSAT determine whether the situation is due to excess or deficiency of Fe agent, and evaluate whether the source of bleeding is caused by fecal human hemoglobin or reticulocytes. If there is no problem with the Fe drug or bleeding source, it is judged that the ESA preparation is insufficient, and the instruction to increase the ESA preparation is changed. In the case of polycythemia, it is judged that the ESA preparation is excessive, and the ESA preparation weight reduction instruction is changed.
It is possible to quickly determine the risk of renal anemia and immediately give a countermeasure for avoiding the risk and give instructions for treatment.

(Usage example) (From the “Results of Renal Osteopathy” test result by major item to the “Test chart by patient”)
If you select the large item “Nephro-osteopathies” from the “Results by large item”, PTH, corrected Ca, IP (inorganic phosphorus), and Ca / IP products that you want to pay particular attention to among the test results that are arbitrarily associated in advance A list of all patients with the latest data is displayed. At the same time, PTH is automatically sorted in descending order. Thus, for example, in the case of a dialysis center, among a large number of patients, an abnormal identification mark is attached to a group of items of major nephrogenic osteopathy, and a result list of patients requiring important alerts is displayed as a risk. It is displayed in descending order, and it is possible to immediately determine which patient should be treated urgently.

Sorting can be displayed in ascending or descending order by manual operation, and sorting for corrected Ca, IP (inorganic phosphorus), Ca / IP products, etc. can also be performed. The corrected Ca, Ca · IP product is automatically calculated from the calculation formula. If a reference range is set in advance for the inspection value, it is color-coded, for example, so that it can be seen at a glance when the reference range is above the upper limit and below the lower limit. In addition, the percentage of patients who are below or above the reference range for the total number of patients is also displayed.
Healthcare professionals use color-coded display and sorting functions to provide detailed examination results, including other major items, in order to comprehensively determine the condition of patients who are out of the standard range and have high urgency. You can move on to the checking step.

  As a procedure, double-click the patient's name (A) from the list of “Examination results by major item” (nephrogenic osteopathy) that is displayed, and the icon screen of the medical information data dedicated to patient A will be displayed. The Clicking on the “patient-specific test chart” in the list, the test results for all major items in the item group arbitrarily associated with each major item, including not only the latest information but also past test results, Along with the identification mark of abnormality, it is displayed in a time-series list, and at a glance, it is possible to grasp the background of the results of patient A's previous major item nephrostosis and other major items, and the patient's comprehensive The pathological condition can be judged.

  Paying attention to the large item “renal osteopathy” in the “patient examination chart”, the items of PTH, corrected Ca, IP, and Ca · IP product are displayed in time series. In addition, the administration status of active vitamin D3 preparations and hyperparathyroidism drugs used to treat nephrogenic osteopathy is also displayed. If a reference range is set in advance for the inspection value, it is color-coded, for example, so that it can be seen at a glance when the reference range is above the upper limit and below the lower limit.

Here, the medical worker determines how the abnormal value of the “major item test result” (nephrogenic osteopathy) has come out and whether or not it can be diagnosed as renal osteopathy. Specifically, the presence or absence of hyperparathyroidism is first determined from the changes in PTH displayed in time series. If hyperparathyroidism is observed, the presence or absence of an increase in corrected Ca and IP is confirmed. If no increase is observed, the instruction to increase the active vitamin D3 preparation is changed. If elevation of corrected Ca and IP is observed, dosing instructions for drugs for hyperparathyroidism are given.
It is possible to quickly determine the risk of nephrogenic osteopathy and immediately give a countermeasure for avoiding the risk and give instructions for treatment.

In addition, this invention is not limited to the said embodiment, A various deformation | transformation and application are possible.
For example, these large items, item groups constituting the large items, and ranking of the large items and the item groups can be appropriately modified or added according to progress of medical examination / diagnosis technology / treatment method.
For example, in the above embodiment, the DB management server 2 and the database 3 are arranged separately, but these may be integrated. Moreover, although the example which accesses (registration, reading) etc. to the database 3 via the DB management server 2 was shown, other apparatuses, for example, the information processing apparatus 4, the weight scale 6, the blood test apparatus 7, and the medical image apparatus 8 are shown. The electronic medical record system 10 may be directly accessible to the database 3.

  The information processing apparatus 4 and the DB management server 2 according to the above embodiment can be configured from a dedicated apparatus, and can also be configured using a general-purpose computer apparatus. That is, by installing and executing the above-described program in such a general-purpose device, it can function as the dialysis treatment support system according to the above embodiment.

  Such a program providing method is arbitrary. For example, the program data can be stored and distributed in a storage medium such as a CD-ROM, and the program data can be superposed on a carrier wave so that a predetermined communication medium (for example, It can also be distributed via the Internet).

DESCRIPTION OF SYMBOLS 1 Dialysis treatment support system 2 DB (database) management server 3 Database 4 Information processing apparatus 5 Dialysis apparatus 6 Scale 7 Blood test apparatus 8 Medical image apparatus 9 Communication interface (IF)
10 Electronic medical record system NW network

Claims (10)

A plurality of dialysis patients, and the basic data of a plurality of items including the identification information, and blood data of a plurality of items, and dialysis data of a plurality of items, a database in association with weight data, and
Basic data registration means for registering the basic data of a dialysis patient in the database;
Weight data registration means for registering the weight data in the database in association with identification information of the dialysis patient;
Blood data registration means for registering the blood data in the database in association with identification information of a dialysis patient;
A dialysis machine that is placed in the vicinity of a dialysis patient bed and collects dialysis data during dialysis,
Information processing means for registering the dialysis data received from the dialysis device in the database in association with the identification information of the dialysis patient,
The information processing means includes
Receiving means for receiving the blood data, the dialysis data, and the weight data from the database;
Converts the previous SL blood data received the dialysis data and the weight data in said receiving means into a common format, the converted data to a common format, the dry weight-related, real-time blood pressure, weight graph, renal Clinical, pre-set and ranked according to clinical importance , including anemia, dialysis, diet-related, inflammation, renal osteopathy, diabetes, liver / biliary / pancreatic, lipid, thyroid, and coagulation was classified as either major item, and the plurality of patient, the sequence means for arranging the item order of pre ranked according to the clinical importance for a particular major item,
The blood data, the dialysis data, and the body weight data arranged by the arrangement means are compared with individual reference ranges that are set in advance, and whether or not the reference data is out of the reference range is determined. Comparison means for determining the degree of deviation from the reference range for
An identification mark adding means for attaching an identification mark to data determined to be out of the reference range by the comparison means;
The patients are ranked in descending order of the degree of deviation from the reference range obtained by the comparison means, and the order of the patients in which the degree of deviation from the reference range is large in the order of items pre-ranked according to clinical importance. And presenting means for creating and presenting a list including the basic data, blood data with the identification mark, dialysis data, and weight data,
Dialysis treatment support system. The information processing means includes a display unit that displays dialysis data obtained by the dialysis device during dialysis,
The dialysis treatment support system according to claim 1. The basic data registration means includes means for communicating with the information processing means and displaying the same screen as the information processing means.
The dialysis treatment support system according to claim 2. The arrangement means arranges data of the ranked items of a plurality of ranked large items in time series for a specific patient.
The dialysis treatment support system according to any one of claims 1 to 3 . Items in the large items include data items derived by calculation from any of the blood data, the dialysis data, and the weight data,
The information processing means includes calculation means for calculating data,
The dialysis treatment support system according to any one of claims 1 to 4 . The basic data includes the patient ID and the patient attribute information,
The blood data includes blood component test result data,
The dialysis data includes a start of dialysis blood pressure dialyzed and diastolic blood pressure DW and (dry weight),
The dialysis treatment support system according to any one of claims 1 to 5 . The basic data registration means comprises means for inputting basic data or means for reading basic data from an external device,
The weight data registration means includes means for inputting weight data or means for measuring weight and generating weight data,
The blood data registration means includes means for inputting blood data or means for examining blood to generate blood data.
The dialysis treatment support system according to any one of claims 1 to 6 . The basic data registration means includes a database management server that manages the database,
The weight data registration means registers weight data in the database via the database management server,
The blood data registration means registers blood data in the database via the database management server.
The dialysis treatment support system according to any one of claims 1 to 7 . A method for operating a dialysis treatment support system comprising an information processing means,
The information processing means reads data from a database storing a plurality of items of basic data including identification information, a plurality of items of blood data, and a plurality of items of dialysis data in association with a plurality of dialysis patients,
The information processing means converts the read data into a common format, and the data converted into the common format is related to dry weight, real-time blood pressure / weight graph, renal anemia, dialysis amount, meal-related, inflammation, kidney Classified into any of the clinical major items that are preset and ranked according to clinical importance , including osteoarthritis, diabetes, liver / bile / pancreatic system, lipid, thyroid, coagulation system , and For multiple patients, arrange for specific large items in order of items that are pre-ranked according to clinical importance,
The information processing means compares the arrayed data with a preset reference range, determines whether or not the reference range falls, and determines the degree of deviation from the reference range for data outside the reference range,
The information processing means attaches a mark to data determined to be out of the reference range,
The information processing means ranks the patients in descending order of the degree of deviation from the reference range, the items are ranked in advance according to the clinical importance, and the patients are largely out of the reference range. , Display marked data,
Operation method of dialysis treatment support system. To a computer connected to a database that stores identification information, a plurality of items of blood data, and a plurality of items of dialysis data in association with each other,
Processing to read data from the database;
Convert the read data to a common format, and convert the data converted to a common format to dry weight related, real-time blood pressure / weight graph, renal anemia, dialysis, diet related, inflammation, renal osteopathy, diabetes, Classify into one of the major clinical categories that are pre-set and ranked according to clinical importance , including the liver, bile, pancreatic system, lipid, thyroid, and coagulation system , and specify multiple patients A process for arranging the large items in the order of the items ranked in advance according to the clinical importance,
A process of comparing the arrayed data with a preset reference range to determine whether or not the reference range falls out, and determining the degree of deviation from the reference range for data outside the reference range,
Processing to mark the data determined to be out of the reference range,
The patients are ranked in descending order of the degree of deviation from the reference range, and the marked data is displayed in the order of items that are pre-ranked according to clinical importance and in the order of patients that are largely out of the reference range. Processing,
A program that executes

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