diff --git a/wiki/pages/model.html b/wiki/pages/model.html
index eea7cc52584717032e9cf4c7734f09aa9a0d4cd7..76ac8de0fe21f6ef72814a41b0244c2ee822df43 100644
--- a/wiki/pages/model.html
+++ b/wiki/pages/model.html
@@ -135,7 +135,7 @@
\(t\) represents the time variable:</p>
<li><strong>Compartment 0</strong> (Alveolar Space, \(A\)): \(Q_A(t)\) represents the amount of
muscone
- in the alveoli (mg).</li>
+ in the alveoli (\(\text {mg}\)).</li>
<li><strong>Compartment 1</strong> (Respiratory Mucosa, \(M\)): \(Q_M(t)\) represents the amount of
muscone adhered to the respiratory mucosa (\(\text {mg}\)).</li>
<li><strong>Compartment 2</strong> (Alveolar Capillaries, \(L\)): \(Q_L(t)\) represents the amount of
@@ -275,7 +275,7 @@
fluid and peristalsis.</p>
<p>
- \( k_{\text{dist}} \): Same as above<br>
+ \( k_{\text{dist}} \): Same as Compartment 3<br>
\( k_{move} \): The metabolism and excretion of muscone in the intestine, taken as \( 0.02 \
\text{min}^{-1} \)
</p>
@@ -305,9 +305,9 @@
<p>We simulated the distribution of muscone in the systemic circulation and obtained the concentration
change curve of muscone in the systemic circulation. According to the model, after one breath,
- traces of muskone can spread into the intestine, similarly, the concentration change caused by
- continuous muskone is simulated by changing the inhalation equation, and the concentration of
- muskone in the intestine can be obtained in combination with experimental determination. Because
+ traces of muscone can spread into the intestine, similarly, the concentration change caused by
+ continuous muscone is simulated by changing the inhalation equation, and the concentration of
+ muscone in the intestine can be obtained in combination with experiment. Because
there is no animal experimental support, the data are manually drafted, and the calculation method
is more meaningful than the calculation results.</p>
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