KR102302730B1 - A Method for Determining of Diarrhea of Neonatal Calves by using an Index of Serum Protein - Google Patents

Abstract

The present invention relates to a method for judging diarrhea using a serum protein indicator of a newborn calf. According to the present invention, in the method of determining a health status of the newborn calf using the serum protein index, it is possible to provide the method for judging diarrhea using a serum protein indicator of the newborn calf comprising a blood analysis step to obtain serum protein information by analyzing the blood of the newborn calf, and a determination step of determining the health status of the newborn calf by comparing the serum protein information with the serum protein index.

Description

A method for determining diarrhea using a serum protein index of a newborn calf {A Method for Determining of Diarrhea of Neonatal Calves by using an Index of Serum Protein}

The present invention relates to a method for judging diarrhea using a serum protein index of a newborn calf, and more particularly, a normal calf serum protein index and diarrhea calf data obtained by analyzing serum proteins according to age changes of normal calves and diarrheal calves in the lactation period. It relates to a method of judging diarrhea using a serum protein index of a newborn calf, which provides a serum protein index, so that the health status of a newborn calf can be determined at an early stage to prevent or take treatment measures for diarrhea.

Neonatal Calf Diarrhea (NCD) within 1 month of birth is a disease that is a common cause of growth failure or death in newborn calves.

Since the mortality rate due to these diseases is very high in newborn calves within one month of birth, it is very important to prevent digestive diseases such as diarrhea in the feeding management at this time. Meanwhile, Korean Patent Registration No. 10-0331176 has been disclosed as a method for diagnosing diarrhea.

These neonatal diarrheal diseases are Rotavirus, Coronavirus, Virus such as Bovine Viral Diarrheal Virus (BVDV) and E. coli, Salmonella spp., Clostridium spp. It is caused by Enteric Protozoa infections such as Bacteria, Eimeria, Giardia, Cryptosporidium, etc., and it is important to consume colostrum containing a sufficient amount of immunoglobulin immediately after delivery to prevent these infections.

On the other hand, serum protein is divided into total albumin and globulin, globulin is further subdivided into α-, β-, and γ-globulin, and α- and β-globulin are each subdivided into α1-, It is divided into α2-, β1-, and β2-globuin. Each of these proteins has independent metabolic characteristics, so the fractionation of serum proteins has important diagnostic value in clinical biochemistry.

Therefore, in order to effectively prevent, treat, and manage digestive diseases such as diarrhea in newborn calves, it is necessary to accurately identify serum proteins so that the immune status of newborn calves can be quickly identified.

Serum protein through electrophoretic analysis so far has been widely used in human medicine, but in veterinary medicine, it has been mainly used in laboratory animals. There have been no reports of blood immunoglobulin concentrations according to age.

Therefore, there is a need for a standard index for serum protein in newborn calves so that the health status can be accurately identified and treatment directions can be suggested when diarrhea occurs.

In order to solve the above problems, the present invention provides a normal calf serum protein index and a diarrhea calf serum protein index data data by analyzing the serum protein according to the age change of each normal calf and diarrhea calf, which is the lactation period. An object of the present invention is to provide a "method for judging diarrhea using a serum protein index of a newborn calf", which enables early prevention or treatment of diarrhea by judging the health status.

In order to solve the above problems, the method for determining diarrhea using a serum protein index of a newborn calf according to an embodiment of the present invention is a method for determining the health status of a newborn calf using a serum protein index, the blood of a newborn calf A method of judging diarrhea using a serum protein index of a newborn calf, comprising a blood analysis step of analyzing and obtaining serum protein information and a determination step of determining the health status of the newborn calf by comparing the serum protein information with a serum protein index can provide

Here, in the blood analysis step, the blood of the newborn calf is analyzed through electrophoresis, and total serum protein, total albumin, total globulin, A/G ratio, α-globulin total, It is characterized in that information about one or more of serum proteins among α1-globulin, α2-globulin, β-globulin, and γ-globulin is acquired.

In addition, the determining step may include a health status determination step of determining the health status of the newborn calf by comparing the serum protein information with a normal calf serum protein index when the newborn calf is a normal calf.

In addition, the normal calf serum protein index is characterized in that it includes a standard value of serum protein of normal calves according to age.

In addition, when the serum protein information deviates from the standard value of serum protein of a normal calf corresponding to the age of the newborn calf, it is characterized in that it is determined as a health condition.

In addition, the health status determination step may be performed when at least one of the total amount of albumin and γ-globulin of the serum protein information is decreased than the normal calf serum protein index; when at least one of the total amount of α-globulin and α1-globulin in the serum protein information is increased compared to the normal calf serum protein index; when the ratio of α1-globulin among globulins of the serum protein information is higher than that of the normal calf serum protein index; and when the ratio of γ-globulin among globulins of the serum protein information is lower than that of the normal calf serum protein index; It is characterized in that it is judged as a health status abnormality if one or more of the cases are true.

In addition, the determining step may include a diarrhea status determination step of determining the diarrhea status of the newborn calf by comparing the serum protein information with a normal calf serum protein index when the newborn calf is a calf with diarrhea.

In addition, the diarrhea status determination step may be performed when one or more of the total amount of albumin and γ-globulin of the serum protein information is decreased than the normal calf serum protein index; when at least one of the total amount of α-globulin and α1-globulin in the serum protein information is increased compared to the normal calf serum protein index; when the ratio of α1-globulin among globulins of the serum protein information is higher than that of the normal calf serum protein index; and when the ratio of γ-globulin among globulins of the serum protein information is lower than that of the normal calf serum protein index; It is characterized in that the diarrhea status is determined according to one or more of the cases.

The method for judging diarrhea using a serum protein index of a newborn calf according to an embodiment of the present invention as described above is a normal calf serum protein index and diarrhea data data by analyzing the serum protein according to the age change of each normal calf and diarrhea calf during the lactation period. By providing an indicator of calf serum protein, it is possible to determine the health status of newborn calves and to prevent or take treatment measures for diarrhea at an early stage.

In addition, it may be possible to determine whether colostrum ingestion.

Accordingly, it is possible to reduce the incidence and mortality rate of diarrhea, and it is possible to keep calves healthy during the feeding period.

It is also thought to be applicable to the development of kits for the treatment and prevention of diarrhea.

1 is a flowchart schematically illustrating a method for judging diarrhea using a serum protein indicator of a newborn calf according to an embodiment of the present invention.
Figure 2 is a graph of the reference value of the A/G ratio according to the result of analyzing the blood of normal calves and calves with diarrhea by age through electrophoresis.
3 (a) to (d) are graphs of baseline values of α1-globulin, α2-globulin, β-globulin and γ-globulin according to the results of electrophoresis analysis of the blood of normal calves and calves with diarrhea by age.
4 is a graph of the composition ratio of globulin according to the results of electrophoresis analysis of the blood of normal calves and calves with diarrhea by age;

Hereinafter, the description of the present invention with reference to the drawings is not limited to specific embodiments, and various modifications may be made and various embodiments may be provided. In addition, it should be understood that the contents described below include all conversions, equivalents, and substitutes included in the spirit and scope of the present invention.

In the following description, terms such as first and second are terms used to describe various components, meanings are not limited thereto, and are used only for the purpose of distinguishing one component from other components.

Like reference numbers used throughout this specification refer to like elements.

As used herein, the singular expression includes the plural expression unless the context clearly dictates otherwise. In addition, terms such as "comprises", "comprising" or "have" described below are intended to designate the existence of features, numbers, steps, operations, components, parts, or combinations thereof described in the specification. It should be construed as not precluding the possibility of the presence or addition of one or more other features, numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

In addition, in the description with reference to the accompanying drawings, the same components are given the same reference numerals regardless of the reference numerals, and the overlapping description thereof will be omitted. In describing the present invention, if it is determined that a detailed description of a related known technology may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted.

The present invention relates to a method for judging diarrhea using a serum protein index of a newborn calf, by analyzing the serum protein according to the age change of a normal calf, which is the lactation period, and providing the datad normal calf serum protein index as a standard value, thereby providing a healthy newborn calf Make sure that the status (immunity status, diarrhea risk group, etc.) can be accurately judged.

In addition, by analyzing the serum protein according to the age change of the calf with diarrhea (calf with diarrhea) during the lactation period, and providing the data of the serum protein index of the calf with diarrhea, the health status (diarrhea condition) of the newborn calf with diarrhea is also better. to understand in detail.

Accordingly, it is possible to prevent diarrhea at an early stage or to establish accurate treatment measures to reduce the incidence and mortality of diarrhea, and to keep calves healthy during the lactation period.

In addition, it is possible to determine whether colostrum intake or not, it is possible to ingest colostrum when necessary.

Hereinafter, an embodiment of the present invention will be described in detail with reference to FIGS. 1 to 4 attached thereto.

1 is a flowchart schematically illustrating a method for determining diarrhea using a serum protein indicator of a newborn calf according to an embodiment of the present invention.

Referring to FIG. 1 , a method for determining diarrhea using a serum protein index of a newborn calf may include a blood collection step (S1), a blood analysis step (S2) and a determination step (S3).

Specifically, in the blood collection step (S1), blood may be collected through body blood from a newborn calf whose health status or diarrhea status is to be determined.

Here, a newborn calf refers to a calf within 30 days of age.

In the blood analysis step (S2), the blood of the newborn calf collected in the step S1 may be analyzed through electrophoresis to obtain serum protein information.

Here, the electrophoresis is performed by an agarose-gel electrophoresis method using a protein electrophoresis device (Hydrasys2, SEBIA, France), and the quantitative value (concentration) and ratio of the composition of the serum protein are obtained as serum protein information. However, the present invention is not limited thereto.

Through this, one or more of total serum protein, total albumin, globulin, A/G ratio, α-globulin, α1-globulin, α2-globulin, β-globulin, and γ-globulin Serum protein information can be acquired, and the composition ratio of globulin can be further acquired.

The quantitative value of the composition of each serum protein may be obtained at a concentration of g/dl, but is not limited thereto.

The determination step (S3) may determine the health status of the newborn calf by comparing the serum protein information obtained in step S2 with the serum protein index.

Here, the serum protein index may include a normal calf serum protein index and a diarrhea calf serum protein index.

In more detail, step S3 may include at least one of a health condition determination step and a diarrhea condition determination step. Such a determination step may be selectively configured according to the user's needs.

First, the health status determination step may determine the health status of the newborn calf by comparing the serum protein information obtained in step S2 with the serum protein index of a normal calf. At this time, the newborn calf may be a calf in a normal state that does not have diarrhea, that is, a normal calf.

On the other hand, the health state determination step is not limited thereto, and in order to determine the health state of the newborn calf from more various viewpoints, the health state of the newborn calf may be determined by using the biometric information index of the diarrhea calf together.

Normal calf serum protein index and diarrhea calf serum protein index include the serum protein standard values of normal calves according to age and serum protein standard values of diarrhea calves according to age, respectively, as shown in Table 1 below. It may be made by including the standard value of serum protein of calves, and the standard value of serum protein of calves with diarrhea according to age.

In this case, the age may be divided into three sections, 1Stage: 1 to 10 days old, 2Stage: 11 to 20 days old, 3Stage: 21 to 30 days old.

Among these, the health status analysis step can determine the health status by using the normal calf serum protein index including the serum protein reference value of the normal calf. If it deviates from the serum protein standard, it may be judged as a health condition.

In addition, in the health status analysis step, when at least one of the total amount of albumin and γ-globulin in the serum protein information is decreased compared to the normal calf serum protein index, at least one of the total amount of α-globulin in the serum protein information, and α1-globulin If one or more of the following cases are true: an increase in the ratio of α1-globulin among globulins in the serum protein information, or a decrease in the ratio of γ-globulin in globulins in the serum protein information, it can be judged as a health condition. It can be judged as a risk group for diarrhea.

This can help prevent diarrhea at an early stage.

In addition, in the health condition analysis step, when it is determined that the health condition of the newborn calf is abnormal, a serum protein that deviates from the serum protein standard value of a normal calf from the acquired serum protein information may be provided as serum protein abnormality information.

Such serum protein abnormality information may include a difference in values between serum proteins deviating from the normal calf's serum protein reference values in the serum protein information, and between the reference values and serum proteins deviating from each reference value.

The diarrhea status determination step may be performed by comparing the serum protein information obtained in step S2 with the serum protein index of a normal calf to determine the diarrhea status of a newborn calf (diarrhea calf). That is, according to the degree of difference between the serum protein information and the normal calf serum protein index, the state of diarrhea can be classified in more detail into mild, severe, or early, middle, and late stages.

Specifically, the step of determining the state of diarrhea is one of the total amount of α-globulin and one of α1-globulin in the serum protein information when one or more of the total amount of albumin and γ-globulin in the serum protein information is decreased compared to the normal calf serum protein index. If the abnormality increases, the ratio of α1-globulin among globulins in the serum protein information increases, or when the ratio of γ-globulin in the globulins in the serum protein information decreases, the diarrhea status is judged according to one or more of the cases. can do.

In addition, for the serum protein corresponding to the above case, it is possible to more precisely determine the state of diarrhea by deriving a numerical difference from the reference value.

In addition, the step of determining the state of diarrhea is not limited thereto, and it is also possible to determine the state of diarrhea by using the calf serum protein index with diarrhea.

As such, the determination information on the health condition or the determination information on the diarrhea condition derived in step S3 may be provided to the user.

On the other hand, the diarrhea condition determination step may provide coping information as a desirable coping plan according to the determination information on the diarrhea condition.

In addition, the determination step may further include a colostrum determination step of determining whether colostrum intake.

In the colostrum determination step, it is possible to determine whether colostrum is ingested with γ-globulin in the serum protein information, and whether colostrum is ingested can be determined by comparing the γ-globulin in the serum protein information with the normal calf serum protein index. However, the present invention is not limited thereto.

The determination method as described above may be performed directly by a person, but is not limited thereto, and may be implemented in various ways, such as automatically through a system when serum protein information is input to a terminal including an application.

As described above, the method for judging diarrhea using the serum protein index of a newborn calf according to an embodiment of the present invention analyzes the serum protein according to the age change of each normal calf and diarrhea calf, which is the lactation period, and datad normal calf serum protein. By providing an indicator and an indicator of serum protein of a calf with diarrhea, it is possible to determine the health status of a newborn calf and to prevent or take treatment measures for diarrhea at an early stage.

In addition, it may be possible to determine whether colostrum ingestion.

Accordingly, it is possible to reduce the incidence and mortality rate of diarrhea, and it is possible to keep calves healthy during the feeding period.

It is also thought to be applicable to the development of kits for the treatment and prevention of diarrhea.

Hereinafter, the present invention will be described in more detail with reference to the above-described examples, but the present invention is not necessarily limited to these examples and experimental examples.

One. by age of normal calves and diarrheal calves serum protein analysis

1) Selection of normal calves from newborn calves and age classification

In order to analyze the change in serum protein of normal calves according to age change and to analyze the difference in serum protein from calves with diarrhea, healthy calves within 30 days of age according to the thinness of feces collected from farms in Korea, physical examination, and skin barrier examination. and calves suffering from diarrhea were randomly selected and classified into three stages by age for comparative analysis.

Here, the three stages by age consisted of 1Stage: 1 to 10 days of age, 2Stage: 11 to 20 days of age, and 3Stage: 21 to 30 days of age.

2) blood collection

In order to proceed with the blood test, blood was collected from the normal calves and calves with diarrhea, respectively.

3) serum protein electrophoresis

The previously collected blood was centrifuged to separate serum, and the composition ratio and quantitative values of serum proteins were obtained by agarose gel electrophoresis using a protein electrophoresis device (Hydrasys2, SEBIA, France). .

As a result, total serum protein, total albumin, total globulin, and A/G ratio were obtained. The quantitative values of beta-globulin and gamma-globulin and the composition ratio of globulin were subdivided and analyzed.

As a result, the total serum protein was 6.3±1.0 g/dL and 6.1±1.4 g/dL in normal calves and calves with diarrhea at 1 to 10 days of age, respectively, which was observed to be very low in calves with diarrhea compared to normal calves, At 11 to 20 days of age, it was 6.2±0.7 g/dL and 6.2±0.9 g/dL, respectively, and at 21 to 30 days of age, it was 6.1±0.6 g/dL and 6.5±0.9 g/dL, respectively, confirming that no significant difference was observed. could

The total amount of albumin was 2.8±0.3 g/dL and 2.7±0.7 g/dL in normal calves and diarrhoea calves, respectively, at 1-10 days of age, and at 11-20 days of age, 3.4±0.3 g/dL and 3.2±0.5 g in calves, respectively. /dl, and at 21-30 days of age, 3.6±0.3g/dl and 3.3±0.6g/dl, respectively, were observed somewhat lower in calves with diarrhea. On the other hand, it was observed that the total amount of albumin in normal calves and calves with diarrhea gradually increased with growth.

The total amount of globulin was 3.6±1.0 g/dL and 3.3±1.3 g/dL in normal calves and diarrheal calves, respectively, at 1 to 10 days of age, and at 11 to 20 days of age, 2.8±0.7 g/dl and 2.9±1.1 g in calves, respectively. /dl, and at 21 to 30 years of age, 2.5±0.6g/dl and 3.2±0.7g/dl, respectively, were observed. On the other hand, it was observed that the total amount of globulin in normal calves gradually decreased in inverse proportion to the total amount of albumin according to growth.

A/G ratio (Albumin/Globulin ratio) was 0.8±0.2 and 1.0±0.4, respectively, in normal calves and diarrheal calves at 1 to 10 days of age, and 1.3±0.3 and 1.3±0.5 at 11 to 20 days of age, respectively. However, at 21 to 30 days of age, it was confirmed that the values of normal calves were very high compared to calves with diarrhea at 1.5±0.4 and 1.1±0.3, respectively (see FIG. 2). On the other hand, it was observed that the A/G ratio of normal calves gradually increased with growth.

The total amount of α-globulin was 1.38±0.2 g/dl and 1.8±0.7g/dl in normal calves and diarrheal calves, respectively, from 1 to 10 days of age, and 1.07±0.2 g/dl and 1.51±0.8 g/dl from 11 to 20 days of age, respectively. ㎗, and at 21 to 30 days of age, 0.96±0.2g/dL and 1.50±0.3g/dL, respectively, it was confirmed that the values were very high in calves with diarrhea than in normal calves.

In addition, as a result of subdivision and comparative analysis of the total amount of α-globulin, α1-globulin was 1.03±0.3 g/dl (17.0±5.0%) and 1.02±0.3 g/dl (17.0±5.0%) and 1.02±0.3 g/dl ( 18.8±7.5%), 0.68±0.1 g/dL (10.7±2.4%) and 0.78±0.4 g/dL (12.4±5.9%) at 11 to 20 days of age, respectively, and 0.53±0.1 at 21 to 30 days of age, respectively g/dl (9.1±2.6%) and 0.77±0.3 g/dl (12.4±4.1%) were observed. That is, although the number was somewhat higher in calves with diarrhea at the age of 21 to 30 days, no significant difference was observed between the two groups (see Fig. 3 (a)).

α2-globulin was 0.34±0.1 g/dL (4.9±1.8%) and 0.76±0.7 g/dL (13.6±15.5%) in normal calves and diarrheal calves at 1 to 10 days of age, and 0.40 at 11 to 20 days of age, respectively. ±0.1g/dL (6.1±1.9%) and 0.71±0.7/dL (13.3±12.1%), respectively, at 21 to 30 days of age, 0.44±0.2g/dL (6.4±1.7%) and 0.74±0.4g/dL (11.4±5.3%), it was confirmed that the calves with diarrhea than the normal calves increased statistically very significantly (see (b) of FIG. 3).

β-globulin levels were 0.96±0.3 g/dL (14.7±4.4%) and 0.85±0.3 g/dL (13.2±3.5%) in normal calves and diarrheal calves at 1 to 10 days of age, and 0.96± at 11 to 20 days of age. 0.2 g/dL (15.3±2.8%) and 0.80±0.3 g/dL (13.4±3.4%), and 0.82±0.2 g/dL (13.4±2.3%) and 1.07±0.3 g/dL at 21-30 days of age It was confirmed that no significant difference was observed as (17.6±4.0%) (see (c) of FIG. 3).

γ-globulin levels were 1.24±0.7 g/dL (18.1±9.0%) and 0.55±0.4 g/dL (8.3±5.4%) in normal calves and diarrheal calves at 1 to 10 days of age, and 0.87 at 11 to 20 days of age, respectively. ±0.3g/dL (12.5±5.4%) and 0.63±0.4g/dL (9.9±5.9%), at 21-30 days of age, 0.74±0.2g/dL (11.0±5.7%) and 0.58±0.4g/dl, respectively ㎗ (8.5 ± 4.9%) was observed, and it was confirmed that the lower value was characteristically observed in calves with diarrhea compared to normal calves (see (d) of FIG. 3).

The composition ratio of globulin is shown as shown in FIG. 4 , and it was confirmed that γ-globulin decreased and α2-globulin increased in calves with diarrhea than in normal calves.

4) significant serum protein screening and by age Suggestion of serum protein standards for normal calves and diarrheal calves

In 3) above, as the changes in serum protein of normal calves according to age were analyzed and compared, the serum protein information having a significant meaning among them is total serum protein, total amount of albumin, and globulin. ) total amount, A/G ratio, total amount of α-globulin, α1-globulin, α2-globulin, and γ-globulin.

In addition, as the serum protein difference between the normal calf and the calf with diarrhea was analyzed in 3) and the serum protein indicating the key difference was identified, the serum protein information that has a significant meaning as an analytical performance for the diagnosis of the risk group for diarrhea or the state of diarrhea is It was determined that the total amount of albumin, the total amount of α-globulin, the ratio of α2-globulin and γ-globulin in α2-globulin, γ-globulin, and globulin.

The reference values according to age of the serum proteins having the above significance are shown in Tables 2 to 4 below.

The embodiment of the present invention described above is not implemented only through an apparatus and/or method, but may be implemented through a program for realizing a function corresponding to the configuration of the embodiment of the present invention, a recording medium in which the program is recorded, etc. Also, such an implementation can be easily implemented by those skilled in the art to which the present invention pertains from the description of the above-described embodiments.

In addition, although the embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements by those skilled in the art using the basic concept of the present invention as defined in the following claims are also presented. It belongs to the scope of the invention.

Claims (8)

A blood analysis step to obtain serum protein information by analyzing the blood of a newborn calf, and
Comprising a determination step of comparing the serum protein information with a serum protein index to determine the health status of the newborn calf for diarrhea,
The judging step is
When the newborn calf is a normal calf, comparing the serum protein information with a normal calf serum protein index to determine the health status of the newborn calf for diarrhea;
The health status determination step is,
When the α2-globulin of the serum protein information is higher than the normal calf serum protein index; when the ratio of α2-globulin to the globulin of the serum protein information is higher than that of the normal calf serum protein index; And when the ratio of γ-globulin in the globulin of the serum protein information is decreased than that of the normal calf serum protein index; a method for determining diarrhea using a serum protein index of a newborn calf, characterized in that it is determined as a risk group for diarrhea.
According to claim 1,
The blood analysis step is
Blood of the newborn calf was analyzed through electrophoresis, and total serum protein, total albumin, total globulin, A/G ratio, α-globulin total, α1-globulin, α2-globulin , β-globulin, a method for judging diarrhea using a serum protein indicator of a newborn calf, characterized in that information on one or more of the serum protein is acquired.
delete According to claim 1,
The normal calf serum protein indicator is,
A method for judging diarrhea using a serum protein index of a newborn calf, characterized in that it includes a reference value of serum protein of a normal calf according to age.
5. The method of claim 4,
Diarrhea determination method using a serum protein index of a newborn calf, characterized in that when the serum protein information deviates from the standard value of serum protein of a normal calf corresponding to the age of the newborn calf, it is determined as a health condition.
delete According to claim 1,
The judging step is
When the newborn calf is a calf with diarrhea, comparing the serum protein information with the serum protein index of a normal calf to determine the diarrhea status of the newborn calf.
8. The method of claim 7,
The diarrhea status determination step is,
When one or more of the total amount of albumin and γ-globulin of the serum protein information is decreased than the normal calf serum protein index;
When one or more of the total amount of α-globulin and α2-globulin in the serum protein information is increased compared to the normal calf serum protein index;
when the ratio of α2-globulin among globulins of the serum protein information is higher than that of the normal calf serum protein index; and
when the ratio of γ-globulin among globulins of the serum protein information is lower than that of the normal calf serum protein index; Diarrhea determination method using a serum protein index of a newborn calf, characterized in that the determination of the diarrhea status according to one or more of the cases.

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