*3.1.1.2 The mode of smelling "Zuko" incense rubbing into the hands without putting the hands*

**Figure 5** shows an example result of MEG response for the mode of smelling "Zuko" incense rubbing into the hands without putting the hands together. In this case, this male subject A5 had the characteristic habit of putting the hands in daily life. **Figure 5a** shows the result of response of a vector by single current dipole estimation method for smelling "Zuko" incense. **Figure 5b** shows also a vector of single current dipole estimated in the brain using 3-D coordinates. From these estimations we obtained the result of which a right inner frontal gyrus was activated by smelling "Zuko" incense without putting the hands together.

vector of single current dipole estimated in the brain using 3-D coordinates. From these estimations we obtained the result of which a left inner frontal gyrus (F5 language area) was activated by smelling "Zuko" incense without putting the hands

*An example of MEG responses to smelling "Zuko" incense rubbing into the hands without putting the hands together in subject B5. (a) Contour map of equivalent magnetic fields and an estimated current dipole (green arrow) on the head for the smelling "Zuko" incense without putting the hand in subject B5. (b) A vector of single*

*Smelling "Zuko": Incense Rubbing into the Hands and Smelling the Hands Activates…*

*DOI: http://dx.doi.org/10.5772/intechopen.88987*

*current dipole (red line) estimated in the brain using a 3-D coordinates.*

**Figure 6a** shows the contour mapping of real-time MEG responses in the state of smelling "Zuko" incense rubbing into the hands without putting the hands together. The red curves show equivalent positive magnetic fields, and the blue curves show equivalent negative magnetic fields on the subject's head surface. A green arrow shows an estimated single current dipole obtained from these contour mapping by

**Figure 7** shows another example of MEG response for the mode of smelling "Zuko" incense rubbing into the hands without putting the hands together. In this

*An example of MEG responses to smelling "Zuko" incense rubbing into the hands without putting the hands together in subject A3. (a) Contour map of equivalent magnetic fields and an estimated current dipole (green arrow) on the head for the smelling "Zuko" incense without putting the hand in subject A3. (b) A vector of*

*single current dipole (red line) estimated in the brain using a 3-D coordinates.*

together.

**Figure 6.**

the computer.

**Figure 7.**

**183**

**Figure 5a** shows the contour mapping of real-time MEG responses in the state of smelling "Zuko" incense rubbing into the hands without putting the hands together. The red curves show equivalent positive magnetic fields, and the blue curves show equivalent negative magnetic fields on the subject's head surface. A green arrow shows an estimated single current dipole obtained from these contour mapping by the computer.

**Figure 6** shows another example of MEG response or the mode of smelling "Zuko" incense rubbing into the hands without putting the hands together. In this case, a female subject B5 had the characteristic of no habit of putting the hands in daily life. **Figure 6a** shows the result of the response of a vector by single current dipole estimation method for smelling "Zuko" incense. **Figure 6b** shows also a

#### **Figure 5.**

*An example of MEG responses to smelling "Zuko" incense rubbing into the hands without putting the hands together in subject A5. (a) Contour map of equivalent magnetic fields and an estimated current dipole (green arrow) on the head for the smelling "Zuko" incense without putting the hand in subject A5. (b) A vector of single current dipole (red line) estimated in the brain using a 3-D coordinates.*

*Smelling "Zuko": Incense Rubbing into the Hands and Smelling the Hands Activates… DOI: http://dx.doi.org/10.5772/intechopen.88987*

#### **Figure 6.**

In this case, this male subject B1 had the characteristic no habit of putting the hands in daily life. **Figure 4a** shows an example of P300m of MEG wave (black wave line) response to "auditory oddball paradigm" for subject B1 without smelling "Zuko" incense into the hands. **Figure 4b** a vector of single current dipole estimated in the brain using 3-D coordinates. In this case, we obtained that active area was right anterior temporal area in the brain when he recognized a rare tone at the "auditory

**Figure 4a** shows that a value of the maximum cognitive peak height of P300m was 11.8 fT/cm and a size of the peak area was S = 7.5 (fT/cm)<sup>2</sup> as the latency time of P300m at T = 364.2 ms. **Figure 4b** shows that a vector of single current dipole

*3.1.1.2 The mode of smelling "Zuko" incense rubbing into the hands without putting the*

**Figure 5** shows an example result of MEG response for the mode of smelling "Zuko" incense rubbing into the hands without putting the hands together. In this case, this male subject A5 had the characteristic habit of putting the hands in daily life. **Figure 5a** shows the result of response of a vector by single current dipole estimation method for smelling "Zuko" incense. **Figure 5b** shows also a vector of single current dipole estimated in the brain using 3-D coordinates. From these estimations we obtained the result of which a right inner frontal gyrus was activated

**Figure 5a** shows the contour mapping of real-time MEG responses in the state of smelling "Zuko" incense rubbing into the hands without putting the hands together. The red curves show equivalent positive magnetic fields, and the blue curves show equivalent negative magnetic fields on the subject's head surface. A green arrow shows an estimated single current dipole obtained from these contour mapping by

**Figure 6** shows another example of MEG response or the mode of smelling "Zuko" incense rubbing into the hands without putting the hands together. In this case, a female subject B5 had the characteristic of no habit of putting the hands in daily life. **Figure 6a** shows the result of the response of a vector by single current dipole estimation method for smelling "Zuko" incense. **Figure 6b** shows also a

*An example of MEG responses to smelling "Zuko" incense rubbing into the hands without putting the hands together in subject A5. (a) Contour map of equivalent magnetic fields and an estimated current dipole (green arrow) on the head for the smelling "Zuko" incense without putting the hand in subject A5. (b) A vector of*

*single current dipole (red line) estimated in the brain using a 3-D coordinates.*

oddball paradigm" without smelling "Zuko" incense into the hands.

was estimated in the right superior temporal cortex of brain.

by smelling "Zuko" incense without putting the hands together.

*hands*

*Sino-Nasal and Olfactory System Disorders*

the computer.

**Figure 5.**

**182**

*An example of MEG responses to smelling "Zuko" incense rubbing into the hands without putting the hands together in subject B5. (a) Contour map of equivalent magnetic fields and an estimated current dipole (green arrow) on the head for the smelling "Zuko" incense without putting the hand in subject B5. (b) A vector of single current dipole (red line) estimated in the brain using a 3-D coordinates.*

vector of single current dipole estimated in the brain using 3-D coordinates. From these estimations we obtained the result of which a left inner frontal gyrus (F5 language area) was activated by smelling "Zuko" incense without putting the hands together.

**Figure 6a** shows the contour mapping of real-time MEG responses in the state of smelling "Zuko" incense rubbing into the hands without putting the hands together. The red curves show equivalent positive magnetic fields, and the blue curves show equivalent negative magnetic fields on the subject's head surface. A green arrow shows an estimated single current dipole obtained from these contour mapping by the computer.

**Figure 7** shows another example of MEG response for the mode of smelling "Zuko" incense rubbing into the hands without putting the hands together. In this

#### **Figure 7.**

*An example of MEG responses to smelling "Zuko" incense rubbing into the hands without putting the hands together in subject A3. (a) Contour map of equivalent magnetic fields and an estimated current dipole (green arrow) on the head for the smelling "Zuko" incense without putting the hand in subject A3. (b) A vector of single current dipole (red line) estimated in the brain using a 3-D coordinates.*

case, another female subject A3 had the characteristic habit of putting the hands in daily life. **Figure 7a** shows also the result of response of a vector by single current dipole estimation method for smelling "Zuko" incense. **Figure 7b** shows also a vector of single current dipole estimated in the brain using 3-D coordinates. From these estimations we obtained the result of which a left occipital gyrus (V1 visual region) was especially activated by smelling "Zuko" incense without putting the hands together. This subject A3 had especial remember impressions of visual image for this "Zuko" incense because of her smelling "Zuko" incense with putting the hands in usual daily life.

From these estimations of **Figure 8**, we obtained the result of which a left orbitofrontal cortex (OFC) was activated by smelling "Zuko" incense with putting

*Smelling "Zuko": Incense Rubbing into the Hands and Smelling the Hands Activates…*

had no habit with putting the hands in daily life. **Figure 9a** shows the result of response of a vector by single current dipole estimation method for smelling "Zuko" incense with putting the hands together. **Figure 9b** shows also a vector of single

current dipole estimated in the brain using 3-D coordinates.

"Zuko" incense with putting the hands during the MEG experiments.

Next, **Figure 9** shows also another example of a different female subject B5 who

In this case, a left inner frontal area (F5 language region) was activated. She told that she had the especial impressions for the recall of a few words of the language on the praying when she smelled "Zuko" incense with putting the hands during this

**Figure 9a** shows the contour mapping of real-time MEG responses in the state of smelling "Zuko" incense rubbing into the hands with putting the hands together. The red curves show equivalent positive magnetic fields, and the blue curves show equivalent negative magnetic fields on the subject's head surface. A green arrow shows an estimated single current dipole obtained from these contour mapping by the computer. **Figure 10** shows the result of another example of MEG response for the mode of smelling "Zuko" incense rubbing into the hands with putting the hands together. In this case, a female subject A4 who had the habit of putting the hands in daily life hold the especial strong impressions of visual image of praying when she smelled

**Figure 10a** shows the result of response of a vector by single current dipole estimation method for smelling "Zuko" incense with putting the hands together. **Figure 10b** shows also a vector of single current dipole estimated in the brain using 3-D coordinates. From these above estimations, a left occipital area (V1 visual

**Figure 10a** shows the contour mapping of real-time MEG responses in the state of smelling "Zuko" incense rubbing into the hands with putting the hands together. The red curves show equivalent positive magnetic fields, and the blue curves show

*An example of MEG responses to smelling "Zuko" incense rubbing into the hands and putting the hands together in subject B5. (a) Contour map of equivalent magnetic fields and an estimated current dipole (green arrow) on the head for the smelling "Zuko" incense with putting the hand in subject B5. (b) A vector of single current*

*dipole (red line) estimated in the brain using a 3-D coordinates.*

the hands together.

*DOI: http://dx.doi.org/10.5772/intechopen.88987*

MEG experiment.

region) in the brain was activated.

**Figure 9.**

**185**

**Figure 7a** shows the contour mapping of real-time MEG responses in the state of smelling "Zuko" incense rubbing into the hands without putting the hands together. The red curves show equivalent positive magnetic fields, and the blue curves show equivalent negative magnetic fields on the subject's head surface. The green arrow shows an estimated single current dipole obtained from these contour mapping by the computer.
