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[[ファイル:SweatingBeforeBasicFeedbackToADH-Eng.jpg|left|500px]]
[[ファイル:SweatingBeforeBasicFeedbackToADH-Eng.jpg|left|500px]]


① Sweating increases plasma osmolarity (concentrated, hypertonic), and water reabsorption (through the water channels, which are increased by vasopressin, ADH) decreases plasma osmolarity. These effects are in the <font color="#00f">opposite direction (blue)</font>.
1st star (illustration): Subject sweated.  With sweating, plasma osmolarity increases.  (Synthesis, secretion, and concentration in blood of )vasopressin (ADH) (increases water channels.  Water channels increase water reabsorption.  Water reabsorption) decreases plasma osmolarity.<br>
①(illustration): These are in the <font color="#00f">opposite direction (blue)</font>.
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<br style="clear:both;" />  
[[ファイル:SweatingDuringBasicFeedbackToADH-Eng.jpg|left|500px]]
[[ファイル:SweatingDuringBasicFeedbackToADH-Eng.jpg|left|500px]]


② Since these effects are in the <font color="#00f">opposite direction (blue)</font>, negative feedback <font color="#ff0000">increases (red)</font> (the synthesis, secretion, and blood concentration of) vasopressin (anti-diuretic hormone, ADH)This increases the number of water channels and the water reabsorptionThe plasma osmolarity-decreasing effect of the water reabsorption becomes stronger.  This will lead to a reverse in the increased plasma osmolarity (concentrated, hypertonic) produced by sweating, decreasing it towards normal (baseline, isotonic) osmolarity.  
(illustration): Since these are in the <font color="#00f">opposite direction (blue)</font>, negative feedback <font color="#ff0000">increases (red)</font> (synthesis, secretion, and concentration in blood of vasopressin (ADH).<br> 
<br>
With the increase in (the synthesis, secretion, and concentration in blood of)vasopressin (ADH), (water channel-increasing effect is strengthened, and water channels are increasedWith the increase in water channels, water reabsorption-increasing effect is strengthened, and water absorption is increasedWith the increase in water reaborption), plasma osmolarity-decreasing effect is strengthened.<br>
<br>
Because of this control, the increased plasma osmolarity decreases (towards that before sweating).
<br>
<br>
Namely, the initial change (the increase in plasma osmolarity) decreases (red upward unfilled arrow disappears).<br>
<br style="clear:both;" />  
<br style="clear:both;" />  
Similar to cooler (function) being increased when room temperature is increased (summer),  this also is <font color="#00f">blue</font>→<font color="#ff0000">red</font> negative feedback.


{{QuizTitle}}
{{QuizTitle}}
<GIFT>
<GIFT>
//LEVEL:2
//LEVEL:3
//RAND
//RAND
Sweating {~=increases~decreases} plasma osmolarity, and water reabsorption (through the water channels, which are increased by vasopressin, ADH) {~increases~=decreases} plasma osmolarity.  Since these effects are in the {~same~=opposite} direction, negative feedback {~=increases~decreases} (the synthesis, secretion, and blood concentration of) vasopressin (anti-diuretic hormone, ADH).
発汗により血漿浸透圧は{~=上昇~低下}し、バソプレッシン、抗利尿ホルモン ADH(は水チャンネルを{~=増加~減少}させ、水チャンネルは水分再吸収を{~=増加~減少}させます。水分再吸収)は血漿浸透圧を{~上昇~=低下}させる。これらは{~同じ~=逆の}方向なので、負のフィードバックはバソプレッシン(抗利尿ホルモン anti-diuretic hormone, ADH)の生成、内分泌、血中濃度を{~=亢進~低下}させる。水チャンネルが{~=増加~減少}、水分再吸収が{~=増加~減少}し、水分再吸収の血漿浸透圧{~上昇~=低下}作用が{~=増強~減弱}し、この調節により、{~=上昇~低下}していた血漿浸透圧は、(発汗前の浸透圧へ向けて){~上昇~=低下}する。要するに、最初の変化(血漿浸透圧の{~=上昇~低下})は{~大きくなる~=小さくなる(消える)}。
</GIFT>
</GIFT>

2024年4月1日 (月) 10:10時点における最新版

POINT!
SweatingBeforeBasicFeedbackToADH-Eng.jpg

1st star (illustration): Subject sweated. With sweating, plasma osmolarity increases. (Synthesis, secretion, and concentration in blood of )vasopressin (ADH) (increases water channels. Water channels increase water reabsorption. Water reabsorption) decreases plasma osmolarity.
①(illustration): These are in the opposite direction (blue).

SweatingDuringBasicFeedbackToADH-Eng.jpg

②(illustration): Since these are in the opposite direction (blue), negative feedback increases (red) (synthesis, secretion, and concentration in blood of vasopressin (ADH).

With the increase in (the synthesis, secretion, and concentration in blood of)vasopressin (ADH), (water channel-increasing effect is strengthened, and water channels are increased. With the increase in water channels, water reabsorption-increasing effect is strengthened, and water absorption is increased. With the increase in water reaborption), plasma osmolarity-decreasing effect is strengthened.

Because of this control, the increased plasma osmolarity decreases (towards that before sweating).

Namely, the initial change (the increase in plasma osmolarity) decreases (red upward unfilled arrow disappears).

Similar to cooler (function) being increased when room temperature is increased (summer), this also is bluered negative feedback.

Challenge Quiz

1.

発汗により血漿浸透圧は 上昇 低下 し、バソプレッシン、抗利尿ホルモン ADH(は水チャンネルを 増加 減少 させ、水チャンネルは水分再吸収を 増加 減少 させます。水分再吸収)は血漿浸透圧を 上昇 低下 させる。これらは 同じ 逆の 方向なので、負のフィードバックはバソプレッシン(抗利尿ホルモン anti-diuretic hormone, ADH)の生成、内分泌、血中濃度を 亢進 低下 させる。水チャンネルが 増加 減少 、水分再吸収が 増加 減少 し、水分再吸収の血漿浸透圧 上昇 低下 作用が 増強 減弱 し、この調節により、 上昇 低下 していた血漿浸透圧は、(発汗前の浸透圧へ向けて) 上昇 低下 する。要するに、最初の変化(血漿浸透圧の 上昇 低下 )は 大きくなる 小さくなる(消える)