RT Book, Section
A1 Connors, Nicholas J.
A1 Hamilton, Richard J.
A2 Nelson, Lewis S.
A2 Howland, Mary Ann
A2 Lewin, Neal A.
A2 Smith, Silas W.
A2 Goldfrank, Lewis R.
A2 Hoffman, Robert S.
SR Print(0)
ID 1163017507
T1 Withdrawal Principles
T2 Goldfrank's Toxicologic Emergencies, 11e
YR 2019
FD 2019
PB McGraw-Hill Education
PP New York, NY
SN 9781259859618
LK accesspharmacy.mhmedical.com/content.aspx?aid=1163017507
RD 2024/04/19
AB In  the  central  nervous  system  (CNS),  excitatory  neurons  fire  regularly,  and  inhibitory  neurons  inhibit  the  transmission  of  these  impulses.  Whenever  action  is  required,  the  inhibitory  tone  diminishes,  permitting  the  excitatory  nerve  impulses  to  travel  to  their  end  organs.  Thus,  all  action  in  human  neurophysiology  can  be  considered  to  result  from  disinhibition.