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Pregnancy outcome in the patient with a nonreactive nonstress test and a positive contraction stress test
Pregnancy outcome in the patient with a nonreactive nonstress test and a positive contraction stress test
The pregnancy outcomes for 41 patients with high-risk pregnancies who had undergone antepartum fetal heat-l rate testing between July 5, 1977, and April 10, 1980, and demonstrated a nonreactive nonstress test (NST) and a positive contraction stress test (CST) were reviewed. The estimated gestational ages of the time of the positive CST ranged from 28 to 44 weeks’ gestation. Of the 41 pregnant women with a positive CST, 30 were allowed to labor. The remaining 11 patients underwent immediate cesarean section (8) or were managed expectantly because of immature phospholipid profiles (3). In the laboring group, 60.0% had evidence of late decelerations. Cesarean section for persistent late decelerations was necessary in 33.3%. The overall cesarean section rate for the positive CST group was 58.5%. The neonatal outcome for these 41 pregnancies demonstrated 29.3% of fetuses to be growth retarded and 17.1% of fetuses to have congenital abnormalities. The overall perinatal mortality rate was 7.3%. This investigation further substantiates the increased fetal and neonatal risks associated with a nonreactive NST and a positive CST. Induction of labor with direct fetal monitoring should be attempted in a term gestation where the cervix is ready for induction of labor and where rapid intervention by cesarean section is possible. (AM. J. OBSTET. GYNECOL. 139:11, 1981.)
ELTAI. k3EAR.r RATE (FHR) testing shown to he ;I valuable adjunct in the manqemcnt of rhe high-risk pregnancy.‘, ” The goal of this biophysical technique is to identify those fetuses at risk tot- ~lrerol’lac.erlt;lI insufficiency. Currently, the nonhtl-ess test (NST) has been used as the primary approach for assessing fetal u.ell-being. \Vhen primaril! thr NST is used, a nonreacrive (NR) NST has been .-\NTLI’.ARTl’M
has
bec,n
associated with a higher perinatal mortality rate and intrapartum fetal distress than a reactive NST.’ However, further evaluation with the contraction stress test (CST) is required to improve its predictive accurac);. Whenever the CST is used, the positive CST, which is manifested as repetitive late decelerations of the FHR, carries the gravest prqnosis for the fetus. Previous investigations of the pregnancy cWcome in patients with a positive CST along have shown higher incidences of‘ intrapartum fetal distress and perinatal death.“, ’ Braly and Freeman” have shown an even poorer outcome in those pregnancies with a positive CST that is not reactil’e. A recent review by Gauthier and associates” of’ their exper-ience Icith patients bvho exhibited a NR KST and a positive CST has shown a similar relationship. Therefore. an investigation was undertaken at our illst.itution to review and report the clinical outcome and course of those pregnancies in our NS7‘ population who had a NR NST and a positive CST. Material and methods Since July 5. 1977, all pregnancies at high-risk for uteroplacental insufficiency haire been evaluated by antepartum FHR testing. The indications for antepartum evaluation by the NST were postdates (242 weeks’ ges11
12
Slomka
Table
and Phelan
I. (Ilinical
exhibited
of’ those
profile
a NKNS’l’-posit i!
pl-egrmncies
tl\lg~lc~tx~l
which
e (Xl‘
pr’ewnt),
therr
:tlJo\c.
llo~\c\~cr~.
it’tlre
tiitr7
ir~itrr~1trrr~it~
( tlie
I~OLII-5.
It the
,igemctit lo\\
(:S’I‘
lx1tient fluid
(:SI
\\;is
tc;is Ixtacd
01 t:tllitrg
the
atrrrriotic \vri4
ag:;iirr
lv;t\
tlvli\v~-c,ci
iri&xtc~tl
~~qxitc’d
posiri\c.
\\illiiIr
:1trCl joint
i!+
srrtJwclirc~r1t
err cstr iol tl~~rt~r ririrr;itioris.
\alucs.
.I\
l)1tltrroriJCttr-
<‘\lx’(
i;~ll\
\\itlr
tlrc
11c’011;11;11 lC(oItl\
of
~otrsttlt;1tiorr
trcoti;1tologi~ts. ITiti;lll\
. all
tlJosc~ lxiticrjts
the
tn~ltelx;lI
\\ith
;t NK
;1t1d SS’I;i~ic1
po.siti\v
;I
(IS 1 wc’tc
~lll~ll\/CYI. Table
II.
in those
1ndications
f’ol- antepar-turn
pregnancies
with
FHR
testing
a NRNST-positive
Results
CS?‘
Rrt~zecrr
Jtrl!
tvorn~rr t’osttlates Suspected 1 U(GR be-eclarripsia Chronic hypertension l’revious fetal death Di~1lJcres rnellitrrs (Classes AnerrG
I ti I4 ti 4 4 3 I
R to D)
33.3 29.2 12.5 8.3 8.3 6.3 2. I
{
ss-rs
;ltld
positive
clinically
clatiotl
suspected
(I LGK).
intrauterine
chronic
clialxtes
rnellittrs.
(II’FD),
or-
liy~ertension,
previous
(:S’I‘
rlccx;ised
l’etal reu~rd
e:1~l1 NSI‘
a~~tl c:s7
in twl
bet-c
talwti
1~11~ ititerpretatior~ prwertcr
ti\-itk, scril-xd.7
our blrcnever.
;I(
dor1e
of FHR
iirid
position
and
tdootl
‘I-he
according
pressttrx
(Sl‘s
to the
\vcr-c
to
per~toI~IIletl
met hod
the cej-\is wis
;1 positi\.e war based
tlcw7ihetl
(X5.1‘ was ohtairrctl. on fetal matttrit\
WAS suitable
c-orrsidcr-c,d
for
indrrction
Ix
otr fetal
c-linic ;1II\
rn;Ilrrre.
dir-cc-r
riot be ;ipplied.
FIfK
ws:1re,11J
r~~oriitor-ir1g wc.tic~n
\v;is
h;trltl, if the cervix follo\viIrg ;1mrriotom\ morritorirrg lxtticrit
10
tlrr.
irr the
111 c’ir.ses lvlrcrc nioc~errtcis
coultl done
iv;ts
\‘t’rtes, later-;11
letal
amniotic
tabor wx
phospholipid for-
lxtticntx
411~1 Xi
\vceks’
1.76’7 :{.(i’,
Ss’l
I-4 positi\,c
I
atrtt
(5
CL
l’s wc’i v
wc’~.c’ c rgxr-c,ttc
NST
betwc~tt
;mtl
demonsrr-;1tetl pt-ofilcs
~gest;1tion
\vt’tx~
arltl
riliecl.
Id)\ lvho
tlo apparent
ltt ttrc
gestxiorj.
the
NS’I
antI
it1tlttc
tiorr
witlr
w:1~
Ifuitl phospholipid :ISS:~~ [I./S] ratio 2 2: 1, plrospl1cjti.
;lntl NSI’\.
II.
rrtrc-lial
b\as ;tpprx~priat~
.\t
rlIix
!\‘;1s ii0 ititt
stic
\v;~\
wcr.v \II(.
<1 .i-rrritrtttcbitlr
wec,I\s’
,yet;1tiotr
ICIC~~\C..
~1tt~srclttc’rrfl\ t-cslxyri\~vl\.
swtiorr in l;rl~~~r lot. lx,t+tcirt c-eplialopcl\ic disl)rlJlJor-riorr.
‘I SK C’L itlcrtc
\,igirr;rll\ ;\ly;tI
l)ositi\cs
idrti-
1ttrcl~~i-u~~rrt
alJ;1t~t~trri
tlcli\ct-cd
\\itlr
3X wecLs,
\\;ti
cthit,itt~tl
linrc,
to tx
ctrsl)i~i~,trs
1\.15
NS’l’x
patictjrs
36 ;1nd
rlic
g~~~t;ttioti;iI
clr;tlh
(:.$I
OIIC ~3 xgitr
(ISI.. Tlrcrc
frt;tl
x~orrtl
Iwo
At
(:$I‘.
COJ (I .III~I
\v;1s tortrrtl f-0~.
intant
b\crit (csare:irr ~r~itiorjs :iritl
3 I
I tJ 1~11 o\~J(‘c 1. I IJ(.
t~~~rir~1irrit1g 36
;rt
tli;ihvle\.
tl1e I,tyt
subscclttcnt
, arid
~r‘o~~llr-1~etar~tled !i. ‘l‘lic
;1m-
of’labor
I)
ol~t.1itiirrg
tl1c IXlhV
\lrc
;I l)oGlive clistrxx
(:l;iss
;I tight
whose
gestz1tiorr.
01 f’et;il
( I). It1 tlit (.S-1s
;1f.tcr
(‘;iLr4c* of tllr
lxttient
At 36 weeks’
other
li;ttl
At ~ltltops~‘.
infant
irit~r-l~J~c.t,iti~,114
114 Irc~rrr
tlwt
\l-itli
of se\ ct c f~ct;tl ~co~J;II-~\.
the
norY~lal.
uitlr
ti~t,il
\ ;I[ ZS
,q’ot~l~
(:S 1 \\;1s tlonc
the
2-l IIO~IIY
to
pJxyrJ;rJJc~b
(31
posilivc
pr~~cltrcl~~cl
ititlic:1tive
.-It tlvliw*r\.
(~I‘hv it1 tlic
illltl
3t-;
;rrrrtJiotic
( I). :1trtl poGti\cL
less ttiari lJi%jr-
L’,‘c 2nd
positi\,.
c~or~sec~uti\c~
tlitfi~~ulties
.I :I-+-wcT~
clsc’.
srispiciotts
l~r c~rotil~
lJol~trl;rfiorr.
,I rqxxt
irr ;1 lxiticrrr
ocutt7wl
apl”“I‘“i
III.)
in cat-h two
III).
had
is irr~ltrtled
in Tahlc
bith
i,esttlts
who
orIt‘
the
tlJi<
imrri;1ttrt~~~
( T‘;ihle
patient
(Z),
t cst1lrs
of loi
(XI’7
;IIX’
tlr;iti
euwption
iritlic~ations o\c~;iII
gcat;itiorr,
ILlFl>
TVitlr NS’I‘
tcatirrg
mow
of‘otrr~
hour5
prxy~arlcy
l1;id
positi\,e
tlistwss Z-4
E‘HK
lxitierrls
had
;1t !!H bvceks’
m:ittrt.it\
I9XO.
SK
(41.5’%)
;1r1tep;1r~trttrr
the
;t primaI3
cltrcstioIr;1l~lr,
>I
to tltose
LVC~I-C’ticgxti\e
.rgt’,
f’or. Se\-eral
one
c~sti~iol
position.
If’ l~trtrrIonar~~
fluid
c~ttt~orirc
Rat
example, of labor or‘
LY;IS irrtltr~~~l
rcc-r1n~tx7rt
nratur.ity
w;1s pet~fi1rmetl.
tlemoIrstr;1ted I)) (letit)lil~isl~lliti~~~~li~~lin
On
g5txtiori
‘I‘ec-l1tric;il
siiit;ible for itrtlrrclioIr of. l:1bor, and ;1pplic;iriotI of tlirec t FHK
fetal let’t
initnecli;rtcly.
For
woks’
;111tl
\2;;1s x~orrr-
m;trrner. fi)r- intluc~tion
simil;rr-
weeks
If a ftrrs
f!eliveI-v
plishetl iii the nrost espeditious if the c,ct-vi\ w;is riot srtit;tt)le
10,
ttntler-xteztt
to IJ;l\~c
e\~aluatiorJ.
E‘OLII~ patients
tlcwas
subsecluerrt and whethet
of’lahor.
for. gr-orip,
\Iitlrin
deper1ds
it] I-espotxse
April
I). A tot81 of
II.
c&iriiptic
no fet;il
xso~i~~tes.~
~Vtrwcwr n~:1n;1gcr~~erit
the
\2’;1s
iritrr\als. lvhich
SST.
wcrc‘ xti\it\.
U’Om;ltl
lo-minute
the
xwlcrations
4;1t11c’ da!..
iriterpwld
l)r”~tratIt
fetal
iii .I‘ahle
I~IT
iristittrtioti has ken previotrd~ a NR NST was obtained. ;I (Xl‘
for
the
tnottitoi~z
and
. each iit
of’
FHR
(‘l’ahle
Sevcrmcn
itidic;itiotr
death
Corwmetrics
1 I :! tetal
the
in the semi-Fowler’5
rnc3bttt-eriierit5 the
;md
to cotttinttousl\
l)wing
niovement.
tiJtlrltl
1.11~ irr~lic~~1tioIrs
retar-
fetal
gird
pr~eyn;ttrcic.~
smol\rr-r.
pi+edanipsia,
intraitterinc
‘1~~11~s IO 1 H. 1 I I. I lOA<:, wxl
yw!vth
I!)lif.
-i 1 ue1-e
t-eu~rxled.
li5tetl tation).
3.
hi+-I-isk
C’
01 ;I 9~ or.~’ 411’
(:%I
\ ‘11 3 1
lr;itJ
1(~1~1i\~ I,otl1 ~111~lcr~.
I;1tc cl~t~~i~r~l~~ri\el\.
Pregnancy
Table
III.
Pregnancy
outcome
in patients
outcome
with a NRNST-positive
after
nonreactive
CST by clinical
NST and positive
CST
13
management Labor
Immature phospholipid fwofile
Ikvn Pregnancies (No.) Mods of d&wry:
Vaginal Spontaneous Forceps Cesarean section Meconium Abnormal cord position *Includes t IUFD.
patient
with
No labor
F&l
distress
No fetal dL~lrf?F.\ *
7 ‘otnl
3
8
12
18
41
It
0
1
17
2 1
8 3
1 11 6
15 13 2 ?I 3
24 13
2
2
2
6
12
1
positive
CST
at 28 and 36 weeks’
gestation.
Of‘ the 38 pregnancies which were considered mature, either clinically or by phospholipid assay, all were delivered within 24 hours of the NR NST and positive CST. Of these, eight underwent direct cesarean section for the following indications: “uninducible” cervix (4), breech presentation (2). and repeat cesarean section (2) (Table I II). Of the 30 patients who were allowed to labor, which includes the pregnancy discussed earlier with positive CS’l‘s at 28 and 36 weeks’ gestation, direct FHR monitoring was applied in each case (Table III). Meconiurn-stained amniotic Huid was detected intrapartum in nine patients (30.0%). During labor, late decelerations of the FHR were observed in 18 (60.0%). and cesarean section for persistent late declerations, despite position change and oxygen administration, was necessary in 10 instances (3X:4’%) (Table IV). In the patients with persistent FHR late decelerations, 80% (8 of 10) had absent or minimal FHR variability. One cesarean section for fetal distress was done because of sustained FHR bradycardia. and one patient developed late decelerations in the second stage of labor and was delivered by midforceps. At delivery, abnormal cord positions were recorded in eight instances (26.7%). In summary, cesarean section was performed in 24 of -11 pregnancies (58.5%). Of those patients who labored, 11 of :30 required immediate cesarean section for fetal distress. Meconium-stained amniotic Huid and abnormal cord positions were present in 31.7% and 29.3%. respectively. ‘l‘he f’etal outcome for the entire NR NST-positive CST group are listed in Table V. While the overall incidence of growth-retarded babies was 29.2%, the fetal distress group had the highest rate of growthretardecl babies (7.5.0’2). In addition, the fetal distress group had the highest incidence of neonatal complicariotis and the lowest mean birth weight. The overall perinatal mortality rate was 7311,000, with two neonatal deaths (Potter’s syndrome, diaphragmatic hernia)
Table IV. Intrapartum FHR patterns with induction of labor
Itern
Pregnancies (No.) Decrease in baseline variability
Fetal dislms
in patients
No f&al di,strm
Total
12 8
18 3
2
4
6
30
11
of <5 bpm
Variable decelerations (severe) La& rleceleratzon.~:
Mild Moderate Severe
Combined late decelerations and decreased baseline variability
2
5
5 5
1 0
7 6 5
8
0
x
and one IUFD. Finally, congenital abnormalities present in seven infants (17.1%,) (Table VI).
were
Comment Whenever a physician is faced with a patient who has a NR NST and a positive CST, the route of‘ delivery is his primary concern. In most instances, these patients, as in this series, undergo antepartum FHR testing because of hypertensive disorders of pregnancy, postdates, or suspected ICJGR.‘-” Therefore, it is no surprise that the majority of the babies delivered are growth retarded. The incidence in various series ranges from ?3703 to 41.470.’ However, the problem remains as to the best mode of deliver\. In clinical situations where the cervix is unfavorable for induction of labor, there is a breech presentation, or the patient has had a previous cesarean section, the decision to proceed directly to cesarean section is easy. Induction of labor, under these circumstances, would not be without the potential for additional maternal and fetal risk. As a result of this decision to l”-oceed directly to cesarean section, a higher overall cesarean section rate which, depending on the series. ranges from 57.7% to 84y03 is encountered in these cases.
14
Slomka
and Phelan
Pregnancy
(:ST.
In
mediate rect
FHR
I I(;R
those
insritutions
cesarean
section,
monitoring
with
is justifiable.
c.an 1~ iI~~lrratcl\
the
an attempt diagnosed,
capability at labor
In those primary
cases
outcome
for
irn-
section
with
di-
when
where
appears this
should
after
nonreactive
to he the
antepartum
consider
the
NST and positive
procedure FHR
of choice.
pattern
possibility
CST
Finally,
is observed.
of‘ a11 anomalous
15
one fetus.
cewrean
REFERENCES
I. Lee. C. I’.: Fetal activity acceleration determination for rhe evaluation of fetal reserve. Obstet. Gynecol. 48: 19. 197li. 2. Evrrtson. I,. R.. Gauthier. R. J.. Schifrin, B. S., and Paul. R. !I.: Antepartum fetal heart rate testing. 1. Evolution of the
rwnstress
test.
AM. J. ORSTET.
GYNECOL.
133:29,
1979.
3. Freeman, R. K., Goebelsmann. U., Nochimson. D., and (:rtl ulo, C:.: An evaluation of the significance of a positive oxvrocin challenge test. Obstet. Gynecol. 47:8, 1976. -1. Odcndaal, H. J,: The fetal and labor outcome of 102 po\irive contraction stress tests. Ohster. Gynecol. 54:X11. 1979. .i. Braly, P.. and Freeman, R. K.: The significance of fetal heart rate reactivity with a positive oxytocin challenge test. Ohsret. Gvnecol. 50:689. 1977. 6. Gaurhier, R. J.; Ever&on, L. R., and Paul, R. H.: Anteparturn fetal heart rare testing. II. Intrapartum fetal heart observation and newborn outcome following a positive contraction stress test. AM. J. OBSTET. GYNECOL. 133:34. 19i’l.
7. Phelan. AM.
J. P.: Diminished
J. OBSTET.
GYNECOL.
fetal
reactivity
136:230,
with
smoking.
1980.
8. Ray, M.. Freeman. R., Pine, S., and Hesselgesser. R.: Clinical experience with the oxyrocin challenge test. AM. J. OBSTET.
GYNEcot..
114:
1. 197”.
9. Gabbe, S. G., Freeman, R., and Goehelsmann, I..: EvahIation of the contraction stress test hefnre 33 weeks’ gestation, Obstet. Gynecol. 523649, 197X. 10. Keegan, K. A., and Paul, R. H.: Antepartum fetal heart rate testing. IV. The nonstress test as a primary approach, AM. J. OBSTET. GYNECOL. 136:75. 1980. 1 I. Sandenbergh, H. A., and Odendaal. H. J.: Clinical experience with the contraction stress test. S. Afr. Med. J. 51:660. 12.
1977.
Garite, T. J., Luizey, E. M., Freeman. ter, W. : Fetal heart rate patterns fetuses with congenital anomalies. 716, 1970.
R. Ii., and Dorchesand fetal distress in Ohstet. Gynecol. 53:
The pregnancy outcomes for 41 patients with high-risk pregnancies who had undergone antepartum fetal heat-l rate testing between July 5, 1977, and April 10, 1980, and demonstrated a nonreactive nonstress test (NST) and a positive contraction stress test (CST) were reviewed. The estimated gestational ages of the time of the positive CST ranged from 28 to 44 weeks’ gestation. Of the 41 pregnant women with a positive CST, 30 were allowed to labor. The remaining 11 patients underwent immediate cesarean section (8) or were managed expectantly because of immature phospholipid profiles (3). In the laboring group, 60.0% had evidence of late decelerations. Cesarean section for persistent late decelerations was necessary in 33.3%. The overall cesarean section rate for the positive CST group was 58.5%. The neonatal outcome for these 41 pregnancies demonstrated 29.3% of fetuses to be growth retarded and 17.1% of fetuses to have congenital abnormalities. The overall perinatal mortality rate was 7.3%. This investigation further substantiates the increased fetal and neonatal risks associated with a nonreactive NST and a positive CST. Induction of labor with direct fetal monitoring should be attempted in a term gestation where the cervix is ready for induction of labor and where rapid intervention by cesarean section is possible. (AM. J. OBSTET. GYNECOL. 139:11, 1981.)
ELTAI. k3EAR.r RATE (FHR) testing shown to he ;I valuable adjunct in the manqemcnt of rhe high-risk pregnancy.‘, ” The goal of this biophysical technique is to identify those fetuses at risk tot- ~lrerol’lac.erlt;lI insufficiency. Currently, the nonhtl-ess test (NST) has been used as the primary approach for assessing fetal u.ell-being. \Vhen primaril! thr NST is used, a nonreacrive (NR) NST has been .-\NTLI’.ARTl’M
has
bec,n
associated with a higher perinatal mortality rate and intrapartum fetal distress than a reactive NST.’ However, further evaluation with the contraction stress test (CST) is required to improve its predictive accurac);. Whenever the CST is used, the positive CST, which is manifested as repetitive late decelerations of the FHR, carries the gravest prqnosis for the fetus. Previous investigations of the pregnancy cWcome in patients with a positive CST along have shown higher incidences of‘ intrapartum fetal distress and perinatal death.“, ’ Braly and Freeman” have shown an even poorer outcome in those pregnancies with a positive CST that is not reactil’e. A recent review by Gauthier and associates” of’ their exper-ience Icith patients bvho exhibited a NR KST and a positive CST has shown a similar relationship. Therefore. an investigation was undertaken at our illst.itution to review and report the clinical outcome and course of those pregnancies in our NS7‘ population who had a NR NST and a positive CST. Material and methods Since July 5. 1977, all pregnancies at high-risk for uteroplacental insufficiency haire been evaluated by antepartum FHR testing. The indications for antepartum evaluation by the NST were postdates (242 weeks’ ges11
12
Slomka
Table
and Phelan
I. (Ilinical
exhibited
of’ those
profile
a NKNS’l’-posit i!
pl-egrmncies
tl\lg~lc~tx~l
which
e (Xl‘
pr’ewnt),
therr
:tlJo\c.
llo~\c\~cr~.
it’tlre
tiitr7
ir~itrr~1trrr~it~
( tlie
I~OLII-5.
It the
,igemctit lo\\
(:S’I‘
lx1tient fluid
(:SI
\\;is
tc;is Ixtacd
01 t:tllitrg
the
atrrrriotic \vri4
ag:;iirr
lv;t\
tlvli\v~-c,ci
iri&xtc~tl
~~qxitc’d
posiri\c.
\\illiiIr
:1trCl joint
i!+
srrtJwclirc~r1t
err cstr iol tl~~rt~r ririrr;itioris.
\alucs.
.I\
l)1tltrroriJCttr-
<‘\lx’(
i;~ll\
\\itlr
tlrc
11c’011;11;11 lC(oItl\
of
~otrsttlt;1tiorr
trcoti;1tologi~ts. ITiti;lll\
. all
tlJosc~ lxiticrjts
the
tn~ltelx;lI
\\ith
;t NK
;1t1d SS’I;i~ic1
po.siti\v
;I
(IS 1 wc’tc
~lll~ll\/CYI. Table
II.
in those
1ndications
f’ol- antepar-turn
pregnancies
with
FHR
testing
a NRNST-positive
Results
CS?‘
Rrt~zecrr
Jtrl!
tvorn~rr t’osttlates Suspected 1 U(GR be-eclarripsia Chronic hypertension l’revious fetal death Di~1lJcres rnellitrrs (Classes AnerrG
I ti I4 ti 4 4 3 I
R to D)
33.3 29.2 12.5 8.3 8.3 6.3 2. I
{
ss-rs
;ltld
positive
clinically
clatiotl
suspected
(I LGK).
intrauterine
chronic
clialxtes
rnellittrs.
(II’FD),
or-
liy~ertension,
previous
(:S’I‘
rlccx;ised
l’etal reu~rd
e:1~l1 NSI‘
a~~tl c:s7
in twl
bet-c
talwti
1~11~ ititerpretatior~ prwertcr
ti\-itk, scril-xd.7
our blrcnever.
;I(
dor1e
of FHR
iirid
position
and
tdootl
‘I-he
according
pressttrx
(Sl‘s
to the
\vcr-c
to
per~toI~IIletl
met hod
the cej-\is wis
;1 positi\.e war based
tlcw7ihetl
(X5.1‘ was ohtairrctl. on fetal matttrit\
WAS suitable
c-orrsidcr-c,d
for
indrrction
Ix
otr fetal
c-linic ;1II\
rn;Ilrrre.
dir-cc-r
riot be ;ipplied.
FIfK
ws:1re,11J
r~~oriitor-ir1g wc.tic~n
\v;is
h;trltl, if the cervix follo\viIrg ;1mrriotom\ morritorirrg lxtticrit
10
tlrr.
irr the
111 c’ir.ses lvlrcrc nioc~errtcis
coultl done
iv;ts
\‘t’rtes, later-;11
letal
amniotic
tabor wx
phospholipid for-
lxtticntx
411~1 Xi
\vceks’
1.76’7 :{.(i’,
Ss’l
I-4 positi\,c
I
atrtt
(5
CL
l’s wc’i v
wc’~.c’ c rgxr-c,ttc
NST
betwc~tt
;mtl
demonsrr-;1tetl pt-ofilcs
~gest;1tion
\vt’tx~
arltl
riliecl.
Id)\ lvho
tlo apparent
ltt ttrc
gestxiorj.
the
NS’I
antI
it1tlttc
tiorr
witlr
w:1~
Ifuitl phospholipid :ISS:~~ [I./S] ratio 2 2: 1, plrospl1cjti.
;lntl NSI’\.
II.
rrtrc-lial
b\as ;tpprx~priat~
.\t
rlIix
!\‘;1s ii0 ititt
stic
\v;~\
wcr.v \II(.
<1 .i-rrritrtttcbitlr
wec,I\s’
,yet;1tiotr
ICIC~~\C..
~1tt~srclttc’rrfl\ t-cslxyri\~vl\.
swtiorr in l;rl~~~r lot. lx,t+tcirt c-eplialopcl\ic disl)rlJlJor-riorr.
‘I SK C’L itlcrtc
\,igirr;rll\ ;\ly;tI
l)ositi\cs
idrti-
1ttrcl~~i-u~~rrt
alJ;1t~t~trri
tlcli\ct-cd
\\itlr
3X wecLs,
\\;ti
cthit,itt~tl
linrc,
to tx
ctrsl)i~i~,trs
1\.15
NS’l’x
patictjrs
36 ;1nd
rlic
g~~~t;ttioti;iI
clr;tlh
(:.$I
OIIC ~3 xgitr
(ISI.. Tlrcrc
frt;tl
x~orrtl
Iwo
At
(:$I‘.
COJ (I .III~I
\v;1s tortrrtl f-0~.
intant
b\crit (csare:irr ~r~itiorjs :iritl
3 I
I tJ 1~11 o\~J(‘c 1. I IJ(.
t~~~rir~1irrit1g 36
;rt
tli;ihvle\.
tl1e I,tyt
subscclttcnt
, arid
~r‘o~~llr-1~etar~tled !i. ‘l‘lic
;1m-
of’labor
I)
ol~t.1itiirrg
tl1c IXlhV
\lrc
;I l)oGlive clistrxx
(:l;iss
;I tight
whose
gestz1tiorr.
01 f’et;il
( I). It1 tlit (.S-1s
;1f.tcr
(‘;iLr4c* of tllr
lxttient
At 36 weeks’
other
li;ttl
At ~ltltops~‘.
infant
irit~r-l~J~c.t,iti~,114
114 Irc~rrr
tlwt
\l-itli
of se\ ct c f~ct;tl ~co~J;II-~\.
the
norY~lal.
uitlr
ti~t,il
\ ;I[ ZS
,q’ot~l~
(:S 1 \\;1s tlonc
the
2-l IIO~IIY
to
pJxyrJ;rJJc~b
(31
posilivc
pr~~cltrcl~~cl
ititlic:1tive
.-It tlvliw*r\.
(~I‘hv it1 tlic
illltl
3t-;
;rrrrtJiotic
( I). :1trtl poGti\cL
less ttiari lJi%jr-
L’,‘c 2nd
positi\,.
c~or~sec~uti\c~
tlitfi~~ulties
.I :I-+-wcT~
clsc’.
srispiciotts
l~r c~rotil~
lJol~trl;rfiorr.
,I rqxxt
irr ;1 lxiticrrr
ocutt7wl
apl”“I‘“i
III.)
in cat-h two
III).
had
is irr~ltrtled
in Tahlc
bith
i,esttlts
who
orIt‘
the
tlJi<
imrri;1ttrt~~~
( T‘;ihle
patient
(Z),
t cst1lrs
of loi
(XI’7
;IIX’
tlr;iti
euwption
iritlic~ations o\c~;iII
gcat;itiorr,
ILlFl>
TVitlr NS’I‘
tcatirrg
mow
of‘otrr~
hour5
prxy~arlcy
l1;id
positi\,e
tlistwss Z-4
E‘HK
lxitierrls
had
;1t !!H bvceks’
m:ittrt.it\
I9XO.
SK
(41.5’%)
;1r1tep;1r~trttrr
the
;t primaI3
cltrcstioIr;1l~lr,
>I
to tltose
LVC~I-C’ticgxti\e
.rgt’,
f’or. Se\-eral
one
c~sti~iol
position.
If’ l~trtrrIonar~~
fluid
c~ttt~orirc
Rat
example, of labor or‘
LY;IS irrtltr~~~l
rcc-r1n~tx7rt
nratur.ity
w;1s pet~fi1rmetl.
tlemoIrstr;1ted I)) (letit)lil~isl~lliti~~~~li~~lin
On
g5txtiori
‘I‘ec-l1tric;il
siiit;ible for itrtlrrclioIr of. l:1bor, and ;1pplic;iriotI of tlirec t FHK
fetal let’t
initnecli;rtcly.
For
woks’
;111tl
\2;;1s x~orrr-
m;trrner. fi)r- intluc~tion
simil;rr-
weeks
If a ftrrs
f!eliveI-v
plishetl iii the nrost espeditious if the c,ct-vi\ w;is riot srtit;tt)le
10,
ttntler-xteztt
to IJ;l\~c
e\~aluatiorJ.
E‘OLII~ patients
tlcwas
subsecluerrt and whethet
of’lahor.
for. gr-orip,
\Iitlrin
deper1ds
it] I-espotxse
April
I). A tot81 of
II.
c&iriiptic
no fet;il
xso~i~~tes.~
~Vtrwcwr n~:1n;1gcr~~erit
the
\2’;1s
iritrr\als. lvhich
SST.
wcrc‘ xti\it\.
U’Om;ltl
lo-minute
the
xwlcrations
4;1t11c’ da!..
iriterpwld
l)r”~tratIt
fetal
iii .I‘ahle
I~IT
iristittrtioti has ken previotrd~ a NR NST was obtained. ;I (Xl‘
for
the
tnottitoi~z
and
. each iit
of’
FHR
(‘l’ahle
Sevcrmcn
itidic;itiotr
death
Corwmetrics
1 I :! tetal
the
in the semi-Fowler’5
rnc3bttt-eriierit5 the
;md
to cotttinttousl\
l)wing
niovement.
tiJtlrltl
1.11~ irr~lic~~1tioIrs
retar-
fetal
gird
pr~eyn;ttrcic.~
smol\rr-r.
pi+edanipsia,
intraitterinc
‘1~~11~s IO 1 H. 1 I I. I lOA<:, wxl
yw!vth
I!)lif.
-i 1 ue1-e
t-eu~rxled.
li5tetl tation).
3.
hi+-I-isk
C’
01 ;I 9~ or.~’ 411’
(:%I
\ ‘11 3 1
lr;itJ
1(~1~1i\~ I,otl1 ~111~lcr~.
I;1tc cl~t~~i~r~l~~ri\el\.
Pregnancy
Table
III.
Pregnancy
outcome
in patients
outcome
with a NRNST-positive
after
nonreactive
CST by clinical
NST and positive
CST
13
management Labor
Immature phospholipid fwofile
Ikvn Pregnancies (No.) Mods of d&wry:
Vaginal Spontaneous Forceps Cesarean section Meconium Abnormal cord position *Includes t IUFD.
patient
with
No labor
F&l
distress
No fetal dL~lrf?F.\ *
7 ‘otnl
3
8
12
18
41
It
0
1
17
2 1
8 3
1 11 6
15 13 2 ?I 3
24 13
2
2
2
6
12
1
positive
CST
at 28 and 36 weeks’
gestation.
Of‘ the 38 pregnancies which were considered mature, either clinically or by phospholipid assay, all were delivered within 24 hours of the NR NST and positive CST. Of these, eight underwent direct cesarean section for the following indications: “uninducible” cervix (4), breech presentation (2). and repeat cesarean section (2) (Table I II). Of the 30 patients who were allowed to labor, which includes the pregnancy discussed earlier with positive CS’l‘s at 28 and 36 weeks’ gestation, direct FHR monitoring was applied in each case (Table III). Meconiurn-stained amniotic Huid was detected intrapartum in nine patients (30.0%). During labor, late decelerations of the FHR were observed in 18 (60.0%). and cesarean section for persistent late declerations, despite position change and oxygen administration, was necessary in 10 instances (3X:4’%) (Table IV). In the patients with persistent FHR late decelerations, 80% (8 of 10) had absent or minimal FHR variability. One cesarean section for fetal distress was done because of sustained FHR bradycardia. and one patient developed late decelerations in the second stage of labor and was delivered by midforceps. At delivery, abnormal cord positions were recorded in eight instances (26.7%). In summary, cesarean section was performed in 24 of -11 pregnancies (58.5%). Of those patients who labored, 11 of :30 required immediate cesarean section for fetal distress. Meconium-stained amniotic Huid and abnormal cord positions were present in 31.7% and 29.3%. respectively. ‘l‘he f’etal outcome for the entire NR NST-positive CST group are listed in Table V. While the overall incidence of growth-retarded babies was 29.2%, the fetal distress group had the highest rate of growthretardecl babies (7.5.0’2). In addition, the fetal distress group had the highest incidence of neonatal complicariotis and the lowest mean birth weight. The overall perinatal mortality rate was 7311,000, with two neonatal deaths (Potter’s syndrome, diaphragmatic hernia)
Table IV. Intrapartum FHR patterns with induction of labor
Itern
Pregnancies (No.) Decrease in baseline variability
Fetal dislms
in patients
No f&al di,strm
Total
12 8
18 3
2
4
6
30
11
of <5 bpm
Variable decelerations (severe) La& rleceleratzon.~:
Mild Moderate Severe
Combined late decelerations and decreased baseline variability
2
5
5 5
1 0
7 6 5
8
0
x
and one IUFD. Finally, congenital abnormalities present in seven infants (17.1%,) (Table VI).
were
Comment Whenever a physician is faced with a patient who has a NR NST and a positive CST, the route of‘ delivery is his primary concern. In most instances, these patients, as in this series, undergo antepartum FHR testing because of hypertensive disorders of pregnancy, postdates, or suspected ICJGR.‘-” Therefore, it is no surprise that the majority of the babies delivered are growth retarded. The incidence in various series ranges from ?3703 to 41.470.’ However, the problem remains as to the best mode of deliver\. In clinical situations where the cervix is unfavorable for induction of labor, there is a breech presentation, or the patient has had a previous cesarean section, the decision to proceed directly to cesarean section is easy. Induction of labor, under these circumstances, would not be without the potential for additional maternal and fetal risk. As a result of this decision to l”-oceed directly to cesarean section, a higher overall cesarean section rate which, depending on the series. ranges from 57.7% to 84y03 is encountered in these cases.
14
Slomka
and Phelan
Pregnancy
(:ST.
In
mediate rect
FHR
I I(;R
those
insritutions
cesarean
section,
monitoring
with
is justifiable.
c.an 1~ iI~~lrratcl\
the
an attempt diagnosed,
capability at labor
In those primary
cases
outcome
for
irn-
section
with
di-
when
where
appears this
should
after
nonreactive
to he the
antepartum
consider
the
NST and positive
procedure FHR
of choice.
pattern
possibility
CST
Finally,
is observed.
of‘ a11 anomalous
15
one fetus.
cewrean
REFERENCES
I. Lee. C. I’.: Fetal activity acceleration determination for rhe evaluation of fetal reserve. Obstet. Gynecol. 48: 19. 197li. 2. Evrrtson. I,. R.. Gauthier. R. J.. Schifrin, B. S., and Paul. R. !I.: Antepartum fetal heart rate testing. 1. Evolution of the
rwnstress
test.
AM. J. ORSTET.
GYNECOL.
133:29,
1979.
3. Freeman, R. K., Goebelsmann. U., Nochimson. D., and (:rtl ulo, C:.: An evaluation of the significance of a positive oxvrocin challenge test. Obstet. Gynecol. 47:8, 1976. -1. Odcndaal, H. J,: The fetal and labor outcome of 102 po\irive contraction stress tests. Ohster. Gynecol. 54:X11. 1979. .i. Braly, P.. and Freeman, R. K.: The significance of fetal heart rate reactivity with a positive oxytocin challenge test. Ohsret. Gvnecol. 50:689. 1977. 6. Gaurhier, R. J.; Ever&on, L. R., and Paul, R. H.: Anteparturn fetal heart rare testing. II. Intrapartum fetal heart observation and newborn outcome following a positive contraction stress test. AM. J. OBSTET. GYNECOL. 133:34. 19i’l.
7. Phelan. AM.
J. P.: Diminished
J. OBSTET.
GYNECOL.
fetal
reactivity
136:230,
with
smoking.
1980.
8. Ray, M.. Freeman. R., Pine, S., and Hesselgesser. R.: Clinical experience with the oxyrocin challenge test. AM. J. OBSTET.
GYNEcot..
114:
1. 197”.
9. Gabbe, S. G., Freeman, R., and Goehelsmann, I..: EvahIation of the contraction stress test hefnre 33 weeks’ gestation, Obstet. Gynecol. 523649, 197X. 10. Keegan, K. A., and Paul, R. H.: Antepartum fetal heart rate testing. IV. The nonstress test as a primary approach, AM. J. OBSTET. GYNECOL. 136:75. 1980. 1 I. Sandenbergh, H. A., and Odendaal. H. J.: Clinical experience with the contraction stress test. S. Afr. Med. J. 51:660. 12.
1977.
Garite, T. J., Luizey, E. M., Freeman. ter, W. : Fetal heart rate patterns fetuses with congenital anomalies. 716, 1970.
R. Ii., and Dorchesand fetal distress in Ohstet. Gynecol. 53: