JP6383920B2 - Methods used as criteria for Parkinson's disease - Google Patents

Description

The present invention relates to a method for early diagnosis of Parkinson's disease, and relates to a method of using a skin gas as a criterion for Parkinson's disease by using a chromatographic apparatus.

The current diagnosis of Parkinson's disease is impossible with brain MRI or MIBG myocardial scintigraphy, and no specific diagnostic marker has been developed yet. It is only based on clinical signs such as Parkinson's symptoms with left-right differences and diagnosis by reactivity to anti-Parkinson's drugs.
Parkinson's disease as defined above is mainly caused by degeneration of substantia nigra dopamine neurons, and slowly progressing 4 signs of movement (rest tremor, stiffness, slowness and agitation, postural reflex disorder) It is an idiopathic and progressive disease that develops and is usually sporadic, with about 5% of family-onset cases. The prevalence rate in Japan is about 110 per 100,000 population, and the prevalence rate of whites in Europe and America is said to be about 1.5 to 2.5 times higher than in Japan.
Moreover, the onset age is the most frequent from the late 50s to the 60s and is widely seen from the 20s to the 80s, and the realization of early diagnosis is expected.
Conventionally, in order to quantify trace components of skin gas, it has been practiced to collect skin gas, concentrate it, and then measure it with a gas chromatograph.

So far, skin gas has been collected from the finger (Patent Document 1) and from the arm (Patent Document 2), and the skin gas components obtained using these samplings have been collected. Since the skin gas concentration is low, the sample skin gas is introduced into a low-temperature apparatus and concentrated, and then the skin gas component is measured by a gas chromatograph. (Non-Patent Document 1).
By this method, it was found that acetone in skin gas takes twice the value of control in diabetic disease, and it was shown to find disease from non-invasive skin gas collection. (Non-Patent Document 1). However, no measurement has been performed on Parkinson's disease from skin gas.

  So far, a method for collecting sweat from the fingers <Patent Documents 4 and 5> according to the present application has been proposed, and the sodium / potassium ratio in sweat is effective as an index for the treatment of hyperhidrosis. Indicated. (Non-patent document 2). It was also shown that the chloride concentration in sweat was used as an indicator of chronic pancreatitis. (Non-Patent Document 3). However, no measurement has been performed on Parkinson's disease from skin gas.

  As a diagnosis of Parkinson's disease, Japanese Patent Publication No. 2004-517634 (Patent Document 3) has been proposed. This proposal relates to a Drosophila model of spinocerebellar ataxia 1 (SCA-1), which is a neurodegenerative disease. In particular, it relates to transgenic Drosophila expressing normal human ataxin-1 or mutant human ataxin-1 having an extended polyglutamine repeat for the treatment of SCA-1, and further to develop SCA-1 It relates to the diagnosis of predisposition to Furthermore, it relates to a method of using genetically modified Drosophila to screen therapeutic agents for SCA-1 and other neurodegenerative diseases, for therapeutic and diagnostic applications of SCA-1 and other neurodegenerative diseases, and therapeutic agents. Identification of a gene that alters the SCA-1 phenotype caused by overexpression of ataxin-1 for screening and further comprising a predisposition to SCA-1 comprising detecting overexpression of normal ataxin-1 It is about diagnosis. This allows diagnosis but is not non-invasive, which is the object of the present invention.

For clinical effective marker for Parkinson's disease is not currently found, because many Parkinson's patients are in a state where the first time treatment is initiated with progress of 50%, a method of the determination reference of Parkinson's disease Is an important issue.

Patent Publication 2006-234843 Patent Publication 2006-234844 Special Table 2004-517634 Patent Publication No. 2000-287942 Patent Publication No. 2003-315340

Norio Yamane, Takao Tsuda, Kazutoshi Nose, Akiko Yamamoto, Hiroshi Ishiguro, Takaharu Kondo, Clinica Chimica Acta 365, 325-329. Yuichiro Ohshima, Hirokazu Shimizu, Takeshi Yanagishita, Daisuke Watanabe, Yasuhiko Tamada, Junichi Sugenoya, Takao Tsudahi, Takao Tsuda. Naruse S, Ishiguro H, Suzuki Y, Fujiki K, Mizuno N, Takemura T, Yamamoto A, Yoshikawa T, Jin C, Suzuki R, Takawa M, Tsukawa M, Taw. 28 (3): e80-5.

Determination of Parkinson's disease, is obtained by allowing an early determination of Parkinson's disease by measuring the sweat and the skin gas as a therapeutic tool. The determination of Parkinson's disease involves examining whether or not a substance specific to Parkinson's disease is present in sweat or skin gas, and this makes it a subject to be used for determination of disease and determination of progression.

The present invention is a method for early detection of Parkinson's disease by finding a plurality of compounds related to Parkinson in a sample of skin gas or sweat and treating these compounds as single compounds or their relative ratios or multiple factors. There, it covers part of the skin surface of the human body, and samples of skin gases covered portion, the collected skin gas separation analysis, comprising the step of measuring the skin gas component concentration, measured by A method has been found in which the ratio of benzyl alcohol / benzoic acid ester in the obtained skin gas is 4 or more, which is used as a criterion for Parkinson's disease . The present invention provides a method for inventing a measurement method for early detection of Parkinson's disease using this method and using it as a criterion for Parkinson's disease .

In order to determine Parkinson's disease , a part of the skin surface of the human body is covered, the skin gas of the covered part is sampled, the collected skin gas is separated and analyzed, and the skin gas component concentration is measured And the ratio of benzyl alcohol / benzoic acid ester in the skin gas obtained by measurement is 4 or more, and is a method for determining criteria for Parkinson's disease . In the measurement method, skin gas was collected, concentrated using a low-temperature concentrator, and measured using a gas chromatograph / mass spectrometer to obtain the concentration of skin gas components. A disease marker was determined in advance, and a method for determining Parkinson's disease was established using criteria prepared from these concentrations.
In addition, an index of Parkinson's disease was calculated by adding statistical processing previously obtained from Parkinson's disease to fragment data obtained from gas chromatograph / mass spectrometer measurements of skin gas samples. This made early detection.

In order to establish a method for determining Parkinson's disease , the skin surface of the finger, the surface of the hand, the skin of the arm, the skin of the abdomen, or the skin of the eyelid is sampled, and the skin gas is sampled and collected. The obtained skin gas is concentrated at low temperature and separated and analyzed by gas chromatograph, gas chromatograph / mass spectrometer or liquid chromatograph, and hydrocarbons, aromatics, esters, alcohols, aldehydes, ketones, sulfur compounds, terpenes The concentration of skin gas components of carboxylic acids and the like was measured, and the method used as the criteria for Parkinson's disease or the degree of progression of the disease was calculated using criteria determined in advance.

Benzyl alcohol in skin gas is very effective as a disease standard for Parkinson's disease . As can be seen in FIG. 1, the difference between the diseased group and the healthy person was clarified. In order to clarify this method, when the ratio of benzyl alcohol / benzoic acid ester was used, as shown in FIG. It can be determined that the ratio is 2 or more. Here, the benzoic acid ester includes benzoic acid butyl ester and benzoic acid isobutyl ester.

  The following substances are further added as skin gas marker substances obtained from Parkinson's disease. Dichlorobenzene, trimethylbenzene, and limonene. Since these compound concentrations depend on Parkinson's disease, this is used as a criterion.

For early detection of Parkinson's disease, cover the finger skin surface, hand skin surface, arm skin surface, abdominal skin surface, or heel skin surface, perform sampling to collect sweat, and collect the sweat Is analyzed with a liquid chromatograph or liquid chromatograph / mass spectrometer, and the concentration of aromatic esters, aromatic alcohols, aldehydes, ketones, hydrocarbons and amino acids in the volatile components of sweat is measured. The method used as criteria for Parkinson's disease or the degree of progression of the disease was calculated.

Statistical data obtained from Parkinson's disease in advance was added to fragment data obtained from gas chromatograph / mass spectrometer measurements of skin gas samples to calculate Parkinson's index. This made early detection. Parkinson's disease group was divided and statistical processing (use of PLS Regression Partial Least Squares Regression in multivariate analysis method) was carried out by one group and applied to another group using the obtained processing method A good correlation coefficient of 0.9 was obtained. By this example, an index (UPDRS, Parkinson's disease unified scale) indicating the severity of Parkinson's disease was obtained for each patient.
The resulting equation by above _{Y = a 1 x 1 + a} 2 x 2 + a 3 x 3 + ---------- + a n x n
Y is UPDRS, a is a coefficient, and x is a count number for each mass indicated by the fragment. Here, the count number indicates the intensity of a fragment having the specific mass.
The coefficient of the obtained formula is shown in FIG. 3 with the mass number (x) on the horizontal axis and the coefficient (a) on the vertical axis. The vertical axis of FIG. 3 is a coefficient a _n number of primary expression above, the horizontal axis is shown the 50 mass selected from the fragment mass 50-200 as numbers 1-50. The 65 fragment masses used on the horizontal axis are 50-54, 57, 59-62, 67-71, 96-117, 120-132, 134-146, 148-150.
Using the obtained formula, the above method was applied to general subjects. That is, skin gas of a general subject is collected, measurement by a gas chromatograph / mass spectrometer is performed to obtain fragment data (intensity corresponding to mass number), and then the above formula is applied to obtain UPDRS. The obtained UPDRS determines whether the patient is ill.

By using both the Parkinson's disease marker substance for skin gas and the Parkinson's disease marker substance in sweat, a more accurate determination can be obtained. That is, by combining the measurement result of skin gas, the measurement result of sweat, and the statistical processing result of the fragment of the mass spectrometer used , the method used as the criterion of the present invention for Parkinson's disease is a highly accurate method.

To date, no method has been found to be a useful clinical disease criterion for Parkinson's disease. The present invention has found a method for determining a disease criterion for Parkinson's disease from skin gas and sweat. He also discovered a method to find out the disease criteria method . According to the present invention, the disease of Parkinson's disease has been progressed 50% so far as it is found medically, but this has been improved and early detection can be performed. That is, according to the present invention, Parkinson's disease can be detected at an early stage, and treatment can be started at an early stage, thereby contributing to the maintenance of people's health.

The present invention samples a person's skin gas or sweat and then performs a separation analysis to detect the concentration of the disease substance and use it to determine whether the subject is suffering from Parkinson's disease. . It is a very non-invasive method that is easy to accept and contributes to early detection.

  In the present invention, the subject's skin gas is sampled and supplied to a separation means, and data of chemical component fragments in the skin gas is obtained by the used mass spectrometer, and then statistical processing is performed in advance with Parkinson's disease UPDRS. The UPDRS of the subject is newly obtained by substituting into the obtained mathematical formula. UPDRS obtained by this method shows the degree of progression of Parkinson's disease, and can be used as a reference for treatment.

  As described above, the present invention collects skin gas released from human skin, quantifies the concentration of the chemical substance contained in the skin gas using the separation means, the concentration of the chemical substance and the relative ratio thereof. From this, it is possible to find out the classification between Parkinson's disease and healthy subjects.

  It is a figure of the result of having compared the compound benzyl alcohol in the skin gas of a Parkinson patient and a healthy person.   It is a figure which shows the ratio of the molecule | numerator in skin gas, ie, a Parkinson's disease novel biomarker, also about skin gas. The vertical axis shows the value of the ratio of benzyl alcohol to benzoate.   The vertical axis is an index showing the severity of Parkinson obtained from a fragment of skin gas, and the horizontal axis shows 65 masses selected from fragment masses 50 to 200 as numerical numbers 1 to 50.

As one mode for carrying out the invention, the concentration of Parkinson's criterion is measured using the following measurement procedure.
The measurement procedure first covers the surface of a person's skin and collects skin gas. For example, for a hand, a bag is made from a sheet of polytetrafluoroethylene and placed on the hand to collect skin gas. Skin gas obtained from the skin of the hand using an automatic sampling device (manufactured by Pico Device, model GS-3) is kept in a sample storage bag. Next, 25 ml of skin gas in the sample storage bag is sucked into a low-temperature concentrator (Pico Device, NIT-P type), concentrated for 15 seconds, and led to a gas chromatograph / mass spectrometer online to obtain a chromatogram. This is analyzed to obtain necessary information. For example, peaks of benzyl alcohol, benzoic acid ester, nonanal, nonenal, toluene, dichlorobenzene, acetaldehyde, alcohol, limonene, trimethylbenzene, etc. are obtained, and retention time, peak area, and mass spectrum are also obtained. Also, an overall mass / charge fragment is obtained. Each of these can be used to seek disease with Parkinson's disease. That is, discrimination from the disease group can be used. Typical examples are shown in FIGS.

  The chemical substances in the obtained skin gas will be described in more detail with examples. Examples of the hydrocarbons include methane, ethane, propane, butane, pentane, hexane, octane, heptane, octane, decane, dodecane, and the isomers. As for aromatic compounds, compounds such as benzene, toluene, xylene, styrene, trimethylbenzene, cresol, paradichlorobenzene, and substituted products thereof are recognized. As for esters, acetic acid ester, linalyl acetate, benzoic acid ester, phthalic acid ester and the like are recognized. As for alcohol, methanol, ethanol, isopropanol, benzyl alcohol, 2-ethylhexanol, limonene, linalool and the like are recognized. Examples of aldehydes include acetaldehyde, 2-methylbutanal, hexanal, octanal, nonanal, nonenal, and the like. Examples of ketones include acetone, 2-butanone, and 2,3-dimethylbutanone. Examples of sulfur compounds include hydrogen sulfide, carbon disulfide, methyl mercaptan, allyl methyl sulfide, and dimethyl disulfide. Terpenes include menthol, α-pinene, β-pinene and camphor. Examples of carbic acids include acetic acid, isovaleric acid, and butyric acid. Examples of amines include ammonia, trimethylamine, indole and skatole. As for gases, hydrogen, oxygen monoxide, oxygen dioxide and the like are recognized. The concentration of these compounds was examined.

  Here, the experimental results for Parkinson's disease will be explained. FIG. 1 to FIG. 3 show the comparison of compound benzyl alcohol (designated as compound X1 in the figure) in the skin gas of Parkinson patients and healthy persons. Yes, comparing the graphs of healthy subjects and patients, the peak of benzyl alcohol is strongly observed in patients, but it can be seen that this is rare or low in healthy subjects. That is, it can be determined from the peak height of benzyl alcohol. Benzyl alcohol is a novel disease marker for Parkinson's disease.

Moreover, FIG. 2 shows the method used as the new disease criteria of Parkinson's disease of skin gas. That is, the ratio of benzyl alcohol is shown separately for the healthy group and the Parkinson's disease group. The difference between the healthy group and the Parkinson's disease patient group became clear, indicating that the relative ratio of benzyl alcohol / benzoic acid ester is effective as a novel Parkinson's disease disease marker. It was found that the normal group takes a value of the relative ratio below 4.0. A relative ratio of alcohol / benzoic acid ester of 4.0 or less can be regarded as a healthy group. Although the relative ratio is 4.0 or less even in some disease groups, there are many cases where complete classification is not possible in the method based on the normal disease criteria, and this phenomenon is also observed with this marker. The phenomenon is within the range used as a disease marker, and it does not deny that the proposed benzyl alcohol / benzoic acid ester relative ratio of 4 or more is a new disease criterion.

The following substances are further added as reference substances for skin gas obtained from Parkinson's disease. Dichlorobenzene, trimethylbenzene, and limonene. Since the concentrations of these compounds depend on Parkinson's disease, it can be determined that the presence of these compounds increases the likelihood of developing Parkinson's disease.

  By using a mass spectrometer in the measurement procedure, fragment data of chemical substances contained in skin gas or sweat can be obtained. From this statistical analysis of the Parkinson's disease unified scale (UPDRS), the subject may have Parkinson's disease. Was able to be judged.

Statistical data obtained from Parkinson's disease in advance was added to fragment data obtained from gas chromatograph / mass spectrometer measurements of skin gas samples to calculate Parkinson's index. This made early detection.
That is, the Parkinson's disease group is divided, and statistical processing (use of PLS regression Partial Least Squares Regression in the multivariate analysis method) is performed on one group, and the obtained processing method is applied to another group. As a result, a good correlation coefficient of 0.9 was obtained. From the obtained relational expression, an index (UPDRS, Parkinson's disease unified scale) indicating the severity of Parkinson's disease was obtained for each subject.
The statistical processing will be described in more detail above. The obtained relational expression is
_{Y = a 1 x 1 + a} 2 x 2 + a 3 x 3 + ---------- + a n x n
Y is UPDRS, a is a coefficient, and x is a count number for each mass indicated by the fragment. Here, the count number indicates the intensity of a fragment having the specific mass.
The coefficient of this equation is shown in FIG. 4 with the horizontal axis representing the count number (x) for each mass and the vertical axis representing the coefficient (a).
The above method was applied to a subject. That is, skin gas was collected, measured with a gas chromatograph / mass spectrometer, fragment data (intensity corresponding to mass number) was obtained, and then the formula obtained from Parkinson's disease was applied to obtain UPDRS. A small value of 5 or less was shown, and the patient was judged to be a healthy person.

As described above, a plurality of chemical substances present in skin gas / sweat have been found as a method for determining Parkinson's disease disease . In its operation, the amount of the chemical substance or the relative ratio between them can be used as a new disease criterion substance, but it is preferable to more accurately determine the disease of Parkinson's disease by using a combination of multiple criterion substances. It is. Moreover, although the Example about skin gas was demonstrated, it is the same also about the sweat from a body.

It can be assumed that the use of a new standard for Parkinson's disease disease criteria makes it possible to make early judgments accurately and to expect people to recover their health through early treatment.

  Since the present invention enables early detection of Parkinson's disease if it can be used in the medical field, it can be expected to have a great effect that recovery of people's health can be expected by starting early treatment. It has an effect on the medical industry such as establishment of institutions. In addition, the development of drugs for early treatment will advance and it will be possible to contribute to the pharmaceutical industry. It can also contribute to the advancement of brain science. Further, the use of a chromatographic apparatus using skin gas and sweat for early diagnosis of Parkinson's disease is effective in the analytical instrument industry and the medical industry.

Claims (1)

It is a method for early diagnosis of Parkinson's disease, covering a part of human skin surface, sampling the skin gas of the covered part, separating and analyzing the collected skin gas, and measuring the concentration of skin gas components A method for determining Parkinson's disease as having a ratio of benzyl alcohol / benzoic acid ester in the skin gas obtained by measurement of 4 or more.