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elicitedfrom the fastigial nucleus and its effe ORT COMMUNICATION
respiratory carotid sinus reflexes. J. Neurop
October I!lnd. J. Physiol. Pharm
om fastigialnucleus and its relay pathways
ebellar influences over certain vegetative functioi
responses to cerebellar stimulations in rabbi
Cat Brain. The University of Chicago Press
. Chambers. Experimental studies of the verm., 90 : 371-385, 1956.central respiratory mechanisms in the brainste
Alii. J. Physiol., 190 : 333-342, 1957.ic outburst elicited by cerebellar stimulation.
HE·PATOMEGALY PARAMETER OF CHRONIC EXPERIMENTAL DRUGTOXICITY
NIRMAL SETHI, VIJAYA TALWALKAR AND S. K. MUKHERJEE
Central Drug Research Institute, Chattar Manzil Palace, Lucknow
Summary : Gross and microscopic study of livers of rats of either sex which received 10 differentcompounds, was undertaken. Eight of these compounds (naphthofuron; diphenyl sulphone-4:iso-thio-cyanate; 3-p-chlorphenoxy l-n-(3,4 di-methoxyphenyl piperazino-propanol-2); 1 (m-trifluoromethyl)-4-(3-nitro-4-pyridyl) piperazine; phenaquinn hydrochloride; 4' [2-hydroxy-3[1-(4-phenyl piperazine)-propoxy] propiophenone: Paspalum scrobiculatum and (phenacetin)induced hepatomegaly. Many of them induced significant alterations in liver and endothelialcell counts. With three compounds (naphthofuron; 1 (m-tri-fiuromethyl)-4-(3-nitro-4-pyridyl)-piperazine and buciridin) the ratio of parenchymal to endothelial cells increased indicating a decrea-sed vascularity. Prolonged administration of 3 compounds did cause hepatomegaly withoutgross microscopic pathological change.
Key words: hepatomegalymorphology
drugs chronic toxicity liver
I 'TRODUCTlO
In chronic toxicity study of new drugs structural and functional changes in the liverof importance because liver subserves many important metabolic functions including
g biotransformation.
In such studies, hepatomegaly is often interpreted as a manifestation of drug'city (7) though it can occur without alteration of the liver histology (1,2,3,4).periments on rats with phenobarbitone (6) and a hypolipidaemic agent (5) suggest thater enlargement as such cannot be, in every case, due to direct drug toxicity. In this
ection, we report here our findings on 10 compounds.
MATERIALS A D METHODS
Ten compounds were used. Groups of rats (50-60 g, both sexes) received fractions orItiples of LDiO or ED50 as daily doses. The effective and lethal doses ~ere determinedthe Pharmacology Section of this Institute. In every experiment a control group of aboutI number of animals received only the vehicle. All compounds were given
,
340 Sethi et al. October197;Ind. J. Physiol. Pharmac.
orally except phenaquinn (an analeptic) and buciridin (a local anaesthetic) Which weregivenip and se respectively. Animals received the compounds once a day for 90 days unless other-wise stated (Table I). All animals were maintained under uniform conditions throughout theexperiment. They were observed for behaviour, appetite, activity and body weight. Theanimals were killed by ether inhalation and after gross observation the liver was weighed andits pieces were fixed in Bouin's fluid with buffered 10 /~ formaldehyde solution. Histologicalsections of liver were stained with standard haematoxylin eosin stain,
TABLF. I: Changes in liver weight and cellular constituents after prolonged administration of differentcompounds in rats.
Compound Dose-multiple of Liver weioht as Liver eellslE.D. 50 or L.D. percent of the body H.P.F. ± SE50 (No. 0/ animals weigh! ± S.E.(Sex)
(1)ill each sex group)
(2) (31 (4)--_._--1. Naphthofuron (antifertility X 2.5 (8) 4.0±(',13 (M)** 37.1 ± 1.68agent) 4.1 ± 0.02 (F)
El'11=1O mgjkg Control, gum 2.9±0.20 (M) 40.1 ± 1.77acacia (6) 3.9±0.15 (F)
2. Diphenyl sulphone-4, X 2.5 (9) 5.8 ± 0.23 (M)** 39.9± 1.16**4-Di-iso-thio-cyanate 4.9,0,0.09 (F)*
(anthelminthics agent) X 5 (9) 6.1=0.23 (M)** 32.0± 1.644.9±0.14 (F)*
Er 11=ICO mg/kg Control, gum 4.3± C.IC (M) 32.),." .ESacacia (9) 4.1±0.14 (F)
3. 3-p-Chlorophenoxy X 2.5 (2) 4.30"=0.12 (M)** 30.4=" 1.00I-n-(3,4 di =methoxy 4.50±0.13 (F,)*phenyl piperazinopropanol -2)
(anticonvulsant agent) Conrrol, gum 2.9±C.::J un 31.4± 1.93ED51=40 mg.kg' acacia (n) 3.9±0.15 (F)
4. l(m-trifluoromethyl)-4- X 2.5 (9) 4.6±0.09 (M)** 38.8 ± 1.07""(3-nitro-4 pyridy I) 4.4"=0.18 (F)**piperazine • X5 (9) 4.1 ±0.13 (M),'" 28.5± 1.20
4.9±0.16 (F)**
(anticonvulsant agent) Control, gum 3.1=0.11 (M) :<'8.3± 1.29ED5~=12.6 /Ilg/kg acacia (l0) 3.6=0.10 IF)
5. Phenaqurnn hydrochloride X 2.) (8) 5.1 =0.18 (M),' 32.3± 1.62(new analeptic agent, under :>.7=0.16 (F)*"trial)
ErdcthelialcellsH.r.r ±H.
11.3±0.63
6.4 ± ('.59
E.C. '>'0.36
6.4=('.58
7.0=0.35
6.4=0.49
5.8=0.18*
8.1="0.31
7.3=0.53
(3)
Volume 16umber 4
(administered fa
EDso=10 mg!
------6. 4' [2-hydroxy-
piperazine) ·prop'propiophenone(antidepressant
ED50=20 mg]
7. Paspalum scrobdried ethanol e(tranquillizer)
ED50=41.6 mg
8_ Phenacetin U.
Phenacetin B.P
EDso-24 mglA
-9_ Buciridin (newanaesthetic un(administered
LDso=45 mgl
10_ 3 ethyl-8, met3,8-triazali-cyc(4,n,o,)-decan-
ED50=1 mgik
H.P.F.=hig~
**=p<O.OI*=P<0.05
.,
October 1972 ume 16lnd. J. Physiol Pharmac ber 4
I an?esthetic) Which were givena day for 90 days unless other-
form conditions throughout theactivity and body weight. Thetion the liver WC's weighed andalde~)de solution. Histological
strin.
ged administration of different
Liver cellsH.P.F. = S.E.
EIC/n/re/iu/ -crll.<H ir ±'SF..
(4)
7.1 = 1.68(3)
4
Hepatomegaly and Chronic Drug Toxicity 341
3
6.2±0.13 (M)**4.9=0.15 (F)**6.5±0.24 (M)**6.4 ± 0.26 (F) *
4.5±0.12 (M)5.6± 0.16 (F)
._---3.S =0.26 (M)3.9±0.22 (F)
4.2±0.lS (M)*
3.4 ± 0.08 (M)4.2±0.27 (F)*3.3 ± 0.47· (M)3.4 ± 0.1° (F)
2
X 5 (8)
X 20(8)
Control, normalsaline (8)
X 2.S (S)
X 5 (6)
X IS(6)
Control, gumacacia (8)
Paspalum scrobiculatumdried ethanol extract(tranquillizer)
EDso=41.6 mg1kg
Phenacetin U.S.S.R.P.
Phenacetin B.P.
EDso-24 mglkg
Buciridin (new localanaesthetic under trial)(administered for 30 days)
LDso=45 mglkg
3 ethyl-B. methyl-l ,3,8-triazali-cyc1o(4,n,o,)-decan-2-one
EDso=1 mglkg'
2.S (6)
S (4)
Control, gumacacia (S)
X 2.5 (4)
X 2.5 (4)
Control, distilledwater (4)
X 0.1 (9)
X 0.01 (10)
Control, distilledwater (10)
X 2.5 (9)
X 5 (9)
Control, distilledwater (16)
4.1 ± 0.19 (M)*4.1 ±0.17 (F)*4.3±0.27 (M)**4.1 ±.0.16 (F)**3.4±0.18 (M)3.3"'=0.13 (F)
4.1 ,,=0.23 (M)4.8",=0.32 (F)**4.2±0.38 (M)4.3±0.22 (F)*3.6±0.12 (M)3.6 ± 0.21 (F)
2.9"'=0.12 (M)**3.4±0.11 (F)3.3"'=0.07 (M)**4.1 ",=0.10 (F)4.8±0.33 (M)
3.1"'=0.14 (M)3.2± 0.18 (F)2.9",=0.11 (M)3.S "'=0.12 (F)3.3 ± 0.47 (M)
S
(administered for 15 days)]
"=P<O.OI*=P<O.OS
4' [2-hydroxy-3(-1-(4-pbenylpiperazine) ·propoxy]propiophenone(antidepressant agent)
30.0",=1.26 7.3"'=0.62
32.S"'=1.61 7.S±0.64
32.4±1.66 6.3±0.83
27.9"'=1.53 6.S±0.61
29.9±1.88
29.9"'=1.87
6.0±0.22
6.7 ±0.S2
32.2± 2.13 6.5 ±0.S3
7.4",=0.49
.1 ± 1.77 11.3±0.63
-.9± 1.16** 6.4 ± ('.59
6.4±0.89.o± 1.646 r, ±0.36
(o4±('.58
,------._--.4± LeO 7.0",=0.35
7.1 ±0.S7**
= 1.93 6.4±0.49
8"'1.07**11.3± 0.83 **
= 1.20 8.1 ±0.31
=1.29 7>·0.53
-------± 1.62
26.2"'=1.48
28.2"'=1.63 7.6± 0.32*
29.1 ±1.61 6.7 ±0.21
24.8",=1.07*
25.6,,=0.98* 7.1 ±0.52
29.7 ±1.26 6.4± 0.41
30.7"'=1.28
32.4 ±1.68 6.8±0.31**
31.2",=1.28 11.3 ±0.87
30.9"'=1.15
28.6±1.64 7.4± 0.61*
32.2±1.67 5.8±0.31
H.P.F.=high power field under the microscope, M=male, F=female, S.E.=standard error.
'342 Sethi et al. October1972Ind, J. Physiol. Pharmac.
One liver slide of each animal Was studied. The parenchyrnatous and endothelialcells_ in 25nigh power (x430) fields Were counted. Average cell counts per field of the individual
animals (both sexes together) of every group were calculated (7).
RESULTS
The data are are shown in Table 1. The first 8 of the 10 compounds induced statisticallysignificant hepatomegaly as judged by the liver weights. The percent increase in liverweightsvaried from 3 to 50 (P= <0.05 to <0.01 by "t" -test) as compared to the control weights.Compound numbers 5 and 9 significantly reduced liver weights in some groups. Apparentlythe dose of the drugs did not influence the degree of hepatomegaly. Compound numbers 2and 4 significantly increased and 8 decreased the number of liver cells. Compound numbersI, 4 and 9 significantly decreased while 7 and 10 increased the endothelial cells.
DISCUSSION
This work demonstrates that in the chronic feeding study of some compounds(numbers 3,5 and 6 in Table I), liver enlargement can occur as a common denominatorwithout gross morphological change or hyperplasia; with other drugs it is often accompaniedby alteration of hepatic and endothelial cell counts. In such cases it is likely that the liveren-largement is a compensatory mechanism. The ratio of parenchymal to endothelial cells indicat-
- es the state of vascularity of the parenchyma. The capillary space increases by division of theendothelial cells (7). When thei ncreases (compound numbers 1,2,4 and 9 in Table I) it indicatespoorer b100d supply to the parenchyma which is undesirable. Increase in the number of livercells per in field drug-treated animals indicates slight decrease in the size of the individual livercells. It cannot be categorically stated that drug-induced hepatomegaly is harmless in everycase; one way to investigate the issue would be to see how animals with larger liversofnormal histological appearance react to the stress of shock, infection, surgery and drugs.Further work on this line is in progress .
••ACKNOWLEDGEMENT
DJ,". s.r. Gogte, Department of Pharmacology, All-India Institute of Medical Sciences,New Delhi-16, kindly helped in the preparation-of the manuscript.
REFERENCES
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Vol ume 16Nu mber 4
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Hepatomegaly and Chronic Drug Toxicity 343
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he percent increase in liver weights Kunz H.W., G. Schande, H. Schimassek, W. Schmid and M. Siess. Stimulation of liver growth by drugs.s mpared t the eo tr 1w . ht ri) Morphological analysis. (ii) Biochemical analysis. Proceedings of the European Society for the Study
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feedingstudy of some compoundsn occuras a common denominatorother drugs it is often accompaniedh cases it is likely that the liver en-nchymalto endothelial cells indicat-J'j spacemcrea e b di i ion f \rs 1,2,4 and 9 in Table I) it indicatesble. Increase in the number of liver
easein the size of the individ ual Iiverhepatomegaly is harmless in every
how animals with larger livers ofock, infection, surgery and drugs.
NT
••India Institute of Medical Sciences,nuscript.
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demic Press Inc., New York & London
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