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Effects of needle tip bevel and aspiration procedure on the morphology and developmental capacity of bovine compact cumulus oocyte complexes
ELSEVIER
EFFECTS OF NEEDLE TIP BEVEL AND ASPIRATION PROCEDURE ON THE MORPHOLOGY AND DEVELOPMENTAL CAPACITY OF BOVINE COMPACT CUMULUS OOCYTE COMPLEXES P.E.J. Bolsl
M.T. Ysebaeti:
1
ZDepartment Department
Received
A. Van Soom’
and A. de Kruif’
of Obstetrics, Reproduction and Herd Health of Physiology, Biochemistry and Biometrics Faculty of Veterinary Medicine University of Ghent, Belgium for publication: Accepted:
June
28,
1996
September
26,
1996
ABSTRACT Effects of the needle tip bevel and the aspiration procedure on the morphology of cumulusoocyte-complexes (COCs) and the developmental capacity of the oocytes after IVF were studied in 2 in vitro oocyte pick-up (OPU) simulations using a disposable ovum pick-up needle guidance system. In Experiment I, the influence of the length of the needle bevel was investigated using a short and a long bevelled 20-g disposable needle. After being aspirated from slaughterhouse ovaries, the retrieved COCs were divided into 3 categories: 1) oocytes surrounded by a compact cumulus, 2) oocytes with an expanded cumulus, 3) partially naked oocytes. In Experiment 2, the influence of 5 different levels of aspiration vacuum for 3 different needle diameters (18-g, 19-g, 20-g) and 2 different needle bevels (long, short) was tested on the recovery and on the morphology of the cumulus investment of a fixed number of previously scored compact cumulus oocytes complexes (CCOCs), retrieved after slicing slaughterhouse ovaries. The re-retrieved COCs were allocated to Categories 1 and 3. The results show that the length of the needle bevel has a significant effect on oocyte recovery, in favor of the long-bevelled needle. As soon as higher aspiration vacua are used, a decrease of the number of CCOCs can be observed, which is less prominent for the short-bevelled needle compared to the long-bevelled one. The final number of blastocysts is similar for both needle types. In Experiment 2, the disposable needle system proved to be highly effective since nearly 80% of the CCOCs were retrieved. At low aspiration vacuum, up to 90% of the CCOCs withstand the aspiration procedure undamaged. Increasing the aspiration vacuum results in a decrease of the number of CCOCs, which is less pronounced using thinner needles. Averaged over all needle types, the prevalence of blastocysts expressed relative to the number of recovered oocytes decreases with higher aspiration vacuum. 0 1997 by ElsewerScience Inc Key words: oocyte aspiration, compact cumulus oocyte complex, disposable needles, assisted bovine reproduction
Acknowledgments The authors thank G. Vanroose (IWT), A. Vanhoucke-De Medts and A. Van de Velde (IWONL) for their assistance with IVF procedures; J.M.M. Vandenheede for the excellent technical assistance; and T Van Laere for taking the pictures.
Theriogenology 47:1221-1236. 1997 0 1997 by Else&r Scmce Inc.
0093-691X/97/$17.00 PII SOO93-691X(97)00102-7
1222
Theriogenology
INTRODUCTION Transvaginal oocyte pick-up (OPU) is gaining popularity worldwide as an important technique for oocyte retrieval in living, previously selected, often genetically highly valuable donor cows. Its high repeatability turns it into a routine procedure in combination with in vitro fertilization (IVF) in assisted bovine reproduction. Once a well running IVF system is established, OPU is believed to become a valuable alternative for classical embryo transfer (ET) programs (10). Up till now it has been used both in the treatment of infertility patients (3, 9, 11) and in young healthy animals as a modem reproduction tool to shorten generation intervals and to hasten the spread of excellent characteristics in a herd (19). The final aim of the transvaginal oocyte pick-up technique is to retrieve as many good quality oocytes as possible. Practical approaches to optimize the recovery of oocytes can be divided into 2 main categories: 1) the biologically-mediated modifications in ovarian dynamics and 2) technical improvements in OPU devices (2, 17, l&21,22). Within the first group, there are different ways to increase oocyte recovery rates such as hormonal stimulation prior to OPU (6, 12, 14, 16, 20), performing OPU at a specific time during the estrous cycle (6, 15, 24) or increasing the number of sessions within a certain time period (8, 25). Although evaluating these biological influences will certainly be a part of the solution to more and good quality oocytes, the more technical aspects cannot be overlooked. No matter how many oocytes can be recruited in vivo, there is a need for a reliable, economically justified oocyte retrieval system. Several research groups refined the transvaginal OPU devices over the last years from a practical point of view, but the actual influence of the aspiration vacuum and needle diameter on the morphology of the cumulusoocyte-complexes (COCs) and on the subsequent developmental capacity of the oocytes has not been thoroughly evaluated. Previous experiments (4) showed that when using disposable needles the aspiration pressure and needle diameter could have a profound influence on the integrity of the cumulus cells surrounding the oocyte, with high aspiration pressures resulting in a higher proportion of naked oocytes. Thinner needles used at moderate aspiration pressures gave the highest proportion of compact cumulus oocyte complexes (CCOCs). Apart from the needle length and diameter, the length of the needle tip or bevel can be altered. The first experiment of this study investigates the possible influence of the needle bevel on the oocyte recovery and on the cumulus oocyte complex morphology. As stated before (4), the oocyte can theoretically appear in different states in the surrounding follicle. It can be surrounded by a compact cumulus or an expanded cumulus, or it may possibly even be naked already. Furthermore, the use of hormonal stimulation can alter the morphology of the COC since this stimulation can cause asynchrony between the maturation of the oocyte and the surrounding follicle (7), or even within the oocyte between nuclear and cytoplasmic maturation (5). Therefore, it would be useful to investigate the net effect of the aspiration procedure on the oocytes surrounded by a compact investment of cumulus cells. This would give us better understanding of the damage the procedure causes, and identify the proportion of oocyte complexes which are already in an inferior state prior to OPU, having
Theriogenology
1223
expanded cumulus cells or being naked from the start. Thus, the aim of the second experiment was to investigate the net effect of the OPU procedure on the morphology of COCs by aspirating oocytes which had been previously
retrieved
from slaughterhouse
ovaries after slicing and scored
as ccocs. MATERIALS Experimental Experiment
Figure
Design 1
1.
Different
In Experiment complex
AND METHODS
morphology
needle types used in Experiment
1, the influence and subsequent
Thus an OPU simulation
1 and 2
of the needle tip bevel on the recovery developmental
was set up using a disposable
capacity
rate, cumulus oocyte
of the oocyte
needle guidance
was investigated.
system which allows for
the use of the needle and tubing system separately, so that the aspiration conditions are the same both in vitro and in vivo (4). Two types of commercially available disposable needles (Terumo Neolus, Leuven, Belgium) were used: 1) the short bevelled 20-g2”3/16 with a length of 55 mm and an external diameter of 0.9 mm (2OS), and 2) the long bevelled 20-g2” with a length of 50 mm and an external diameter of 0.9 mm (20L; Figure 1). The 10% difference in needle length is caused by reasons
of commercial
availability
of the needles.
A stainless
steel connector
was
1224
Theriogenology
used to connect the needles by means of silicone tubings (Silclear TM Tubing, Multi Purpose Medical Grade Silicone Tubing, Degania Silicone/ Degania Bet, Israel) to a plastic 50-ml collection tube (Falcon 2074) and a suction pump with variable suction power (Labotect, Bovenden-GWingen, Germany). The used aspiration vacua were 50, 70, 90, 110 up to 130 mm Hg for each of the 2 needles. For purposes of repeatability of trials and to obtain a sufficient number of follicles to puncture under the same conditions, 106 slaughterhouse ovaries were used. The method of collecting the ovaries was described before (23). A total of 2000 follicles was aspirated, 100 visible follicles (between 3 and 8 mm in diameter) were punctured with the 2 different types of needles at 5 different levels of aspiration vacuum, for a total of 10 different treatment groups (needle bevel by level of aspiration vacuum). Aspiration of the follicles happened as described before (4). To test the repeatability of the experimental set up, 2 replicates were performed (2000 follicles in total), creating 2 data sets which differed only by the time of puncturing. The oocytes were given a score with regard to the morphology of the cumulus cell layers, Score 1 being oocytes surrounded by a compact cumulus (at least 2 intact cumulus cell layers), Score 2 being oocytes surrounded by an expanded cumulus, and Score 3 being the naked oocytes. Partially naked oocytes were given Score 1, when a maximum of one third of the total oocyte was naked. Otherwise Score 3 (naked oocyte) was given. Experiment 2 A different experimental protocol was used in Experiment 2 to investigate the net effect of the aspiration procedure on the recovery rate and the morphology of the COCs and to detect eventual oocyte losses or detrimental effects of the aspiration procedure on the oocytes. The COCs were previously obtained by slicing 116 slaughterhouse ovaries over a square Petri dish (Falcon 1012) filled with 10 cc Hepes buffered Talp solution (13) supplemented with 2.5 ml/lit Na-Heparin (25.000 IU/ml, Leo Pharmaceuticals, Vilvoorde, Belgium). The oocytes were searched for under a stereomicroscope. In total, 1000 oocytes surrounded by a compact cumulus and scored ‘compact cumulus oocyte complex’ (CCOC, Score I, Experiment 1) were divided into 20 groups of 50 CCOCs, spread over 3 replicates. Each of these groups was placed in a round Petri dish (Falcon 1008) filled with 3cc previously centrifuged (10 min, 3000 rad/min) follicular fluid, retrieved after puncturing an additional 26 slaughterhouse ovaries. After coating the needle and tubings with phosphate buffered saline (D-PBS, Gibco BRL, Life Technologies Ltd., Paisley, Scotland) supplemented with Na-Heparin (2.5 ml/ lit, 25.000 IU/ml, Leo Pharmaceuticals, Vilvoorde, Belgium) as used under in vivo conditions to prevent clotting, the CCOCs were aspirated by the system using 4 different types of disposable needles (Terumo neolus, Leuven, Belgium) at 5 different levels of aspiration vacuum (50, 70, 90, 110 and 130 mm Hg), thus creating the 20 different groups (needle type by level of aspiration vacuum). The CCOCs were placed in the Petri dish separated from each other to permit individual aspiration by the system. The following types of disposable needles with different diameters and bevels were used (Figure 1): Type 1, 18-gX2”, long bevelled, length 50 mm and external diameter 1.2 mm (18L); Type 2, 19-gX2”, long bevelled, length 50 mm and external diameter 1.1 mm (19L); Type 3, 20-gX2” long bevelled, length 50 mm and external diameter 0.9 mm (20L); and Type 4, 20-gX2”3/16
Theriogenology
1225
short bevelled, length 55 mm and external diameter 0.9 mm (20s). Types 3 and 4 are the same needles as used in Experiment 1. Aspiration was performed under visual control by means of a stereomicroscope to make sure that all 50 CCOCs in each group were actually aspirated (Figure 2). After aspiration, every group was re-collected separately in a round Petri dish (Falcon 1008) placed in an embryo filter (Em Con, Immuno Systems, Inc., Spring Valley, WI, USA) to finalize the identical set up as used for transvaginal OPU in vivo. The same needles, same connector, same length of tubing system and same way of collection were used, except for the fact that the
Figure 2. Experimental set up for Experiment 2: CCOCs are aspirated by the disposable system under visual control of a stereomicroscope and collected in a petridish placed in an embryo filter.
Theriogenology
CCOCs were collected immediately in the Petri dish and not on the filter membrane (Figure 2), the first being more practical for looking for the oocytes. After re-collection, the percentage of recovery was determined and the CCOCs were re-scored as previously described (Score 1, for oocytes still surrounded by a compact cumulus and Score 3, for naked or partially denuded oocytes). All COCs were taken up in an IVF system (23) to assess their developmental competence after the aspiration procedure. In Vitro Fertilization Following morphological evaluation, the oocytes were put into a loo-p1 drop of maturation medium, which consisted of TCM 199 bicarbonate supplemented with 20% estrous cow serum (ECS), 0.2 mM sodium pyruvate, 0.4 mM glutamine and 50 u&/ml gentamicin sulphate. This medium was covered with paraffin oil, and the COCs were incubated in 5% CO2 in humidified air at 39“C for 24 to 26 h. All treatment groups were matured, fertilized and cultured in separate drops. The oocytes were fertilized with frozen-thawed semen of a bull of known fertility and cultured following standard IVF procedures. Cleavage rate was determined 3 d post insemination. The number of expanded blastocysts 8 d post insemination was determined in relation to needle type, level of aspiration vacuum and COC morphology. Statistics Evaluation of the effect of needle tip or bevel on the oocyte recovery, cumulus oocyte complex morphology and subsequent developmental capacity of the oocytes after IVF was performed using the general linear model procedure (SPSS - Release 6.1 for Windows). Multiple logistic regression was used in a forward stepwise selection method with addition of the explanatory variables on condition that the probability of the difference in the likelihood for the reduced and full models is less than 0.05. Identical models were obtained with the backward selection method. These variables included the increase in aspiration vacuum level as a continuous variable, the type of needle tip bevel as categorical covariates and the interactions between increase in aspiration vacuum and type of needle tip bevel. The replication of the experiments yielded homogeneous results, which allowed pooling of the data. The applied model is as follows: In odds = In (rc/(l-7~)) = b,+b,x,+b,x,+b,,x,x, etc., with x, the increase in aspiration vacuum relative to 50 mm Hg and expressed per 20 mm Hg; x2 the indicator associated with the morphology of the oocyte (x2= 0 for compact cumulus oocyte complexes, x2= 1 for naked or partially denuded oocytes); xj, xq and x5 indicators associated with needle tip bevel or type. RESULTS Experiment
1
The results of Experiment I. in lvhich the influence of the needle bevel was studied. are given in Table 1 and Figure 3. The needle with the long bevel gave the highest recovery rate
Theriogenology
1227
Theriogenology
regardless of the aspiration vacuum used. The expected odds ratio of recovered oocytes for the 20L vs the 20s needle is e”.33= 1.40 (P< 0.001). For both types of needle tips, more oocytes are recovered at a higher aspiration vacuum with an odds ratio of e”.” = 1.12 per increase in vacuum pressure of 20 mm Hg (P < 0.001).
Compact Cumulus Oocytes
“O 4
0.8 -
v
20s
l
2OL
0.6 -
0.4 -
0.2 -
0.01
’
50
’
’
70
’
’
90
’
’
’
110
’
’
130
Aspiration Vacuum (mm Hg)
Figure 3. Multiple logistic regression of the proportion of CCOCs relative to the number of cumulus oocyte complexes recovered from punctured follicles as a function of the aspiration vacuum level for two 20-g needle bevels. Morphology was first analyzed relative to the actual number of recovered cumulus oocyte complexes. At low aspiration vacuum, most of the recovered oocytes are surrounded by a compact cumulus investment (an average of 64 % at 50 mm Hg for both needle types). This percentage decreased drastically with increasing aspiration vacuum. However, for the needle with the short bevel (2OS), this decrease is less pronounced (P d 0.001) as the odds for obtaining a CCOC decrease by 1.44 for short bevelled needles compared to 1.64 for long bevelled needles (Figure 3). As less oocytes are retrieved with a compact cumulus investment at higher aspiration
Theriogenology
1229
vacua, more naked oocytes are observed. When long bevelled needles were used, 75 % of the oocytes were naked, whereas this rate was 64 % for short bevelled needles, both at an aspiration vacuum
(Table
level of 130 mm Hg.
Second, morphology was expressed relative to the total number of punctured 1). At 50 mm Hg, an average for both needle types of 32 % of the punctured
follicles follicles
gave a CCOC and 10 % a naked or partially denuded oocyte. For both needle types, the odds for obtaining
a CCOC decrease
odds for obtaining Hg increase
by a factor of 1.29 (e” 258’) with increasing
naked oocytes
in aspiration
increase
vacuum (P < 0.001). The
by a factor of e045 = 1.57 and eo2* = 1.33 per 20 mm
vacuum (P < 0.001) when needles with a long, respectively
short bevel
are used. Finally,
developmental
after IVF. The prevalence at all aspiration follicles,
levels
capacity
of the retrieved
of blastocysts for both needle
remained
types. Expressed
an average of 9.7 % resulted in blastocysts
Experiment
of Experiment
and morphology
Application guidance
relative
complexes
was assessed
17 % of the recovered to the number
oocytes
of punctured
for both needle types at all aspiration
levels.
2
The results recovery
cumulus oocyte
approximately
of the aspiration system,
low aspiration
resulted
vacuum,
rate with an increasing
2, in which the net effect of the aspiration
of previously technique
increase
in aspiration
between
the 2 different
on previously
in an overall recovery
all needle types yielded aspiration vacuum
on the
scored CCOCs, using the disposable
of 79% of the aspirated similar recovery
vacuum was only observed
oocytes
20-g needles,
4 to 6. needle
(Figure 4). At
rates. An increase
in recovery
with the 18-g needle (odds ratio per
of 20 mm Hg = 1.22; P-c 0.05). The difference
bevelled
procedure
scored CCOCs was studied are given in Figures
as seen in the first experiment,
in recovery
rate
was not observed
here. At low aspiration cumulus
investment
thinner needles
vacuum, 82% of the recovered after aspiration.
Additionally,
oocytes were still surrounded this percentage
was higher
by a compact
when using the
(odds ratio of 1.57 referred to the 18-g needle; P < 0.01; Figure 5). For all needle
types a decreased yield of CCOCs was observed with increasing aspiration vacuum (a decrease in odds of 1.50 per increase in aspiration vacuum of 20 mm Hg; P < 0.001). All of the remaining ooytes
at low aspiration
aspiration needles,
pressures,
level (18%)
were naked.
As less CCOCs
the amount of naked oocytes increased
short and long bevelled,
were obtained
proportionally.
at higher
The 2 types of 20-g
gave similar results with respect to aspiration
pressure.
When morphology is expressed, relative to the initial amount of 50 CCOCs in each group (Figure 4), an average of 64% of the CCOCs remained surrounded by a compact cumulus and 14% became naked (at 50 mm Hg). For all needle types, the odds for obtaining a CCOC decrease by a factor of 1.30 (e026) with increasing aspiration vacuum (P < 0.001). The odds for obtaining
Theriogenology
1230
Morphology of oocyte complexes mm Hg
18L
50
70
90
110
130
18L
: 18-g long bevel
Legend
19L : 193 long bevel 20L : 20-g long bevel 20s
: 203
short bevel
Figure 4. Recovery and morphology different needle types at expressed as percentages addition of the number of
of previously scored CCOCs after aspiration with 4 5 different levels of aspiration vacuum. Results are relative to the number of aspirated CCOCs. The CCOCs and naked oocytes equals the recovery rate.
1231
Theriogenology
naked oocytes augment by a factor of eo.39= 1.48 per 20 mm Hg increase in aspiration vacuum (P + 0.001).
Compact Cumulus Oocytes ‘.OI
0.8 X 0.8
0.01
’
50
l
18L
v
19L. 2OL, 20s
’
s 70
’
’
90
’
’
’
110
’ 130
1
Aspiration Vacuum (mm Hg)
Figure 5. Multiple logistic regression of the proportion of CCOCs relative to the initial number of previously scored CCOCs as a function of the aspiration vacuum level for 4 needle types. Finally, developmental capacity of the retrieved cumulus oocyte complexes was assessed after IVF. Averaged over all needle types, the prevalence of blastocysts, relative to the recovered oocytes, decreased with higher aspiration pressure (odds ratio of 1.16 per 20 mm Hg, P < 0.05). Expressed relative to the initial number of previously scored CCOC in each group (Figure 6) on the average 12% of the CCOCs resulted in blastocysts, and no statistically significant effect of needle type or aspiration vacuum level on the final outcome in terms of blastocysts could be detected.
1232
Theriogenology
Blastocysts
Figure 6. Final outcome of blastocysts after aspiration of CCOCs with 4 different needle types at 5 levels of aspiration vacuum, relative to the number of aspirated CCOCs in each group.
DISCUSSION An increase in the quality and quantity of the COC retrieved with the transvaginal OPU technique in combination with a more economical approach can only be achieved after a profound study on the different aspects involved. Apart from biological factors such as hormonal pretreatment of the animals prior to puncture, there are more technical aspects dealing with the most reliable way to reach the follicles and retrieve the present oocytes. To eliminate the disadvantages of the long, non-disposable needles, a new oocyte pick-up device equipped with a disposable needle guidance system was constructed (2). Because of the use of disposables, an enormous amount of different needle types became available and in combination with the different aspiration vacua used, they can exert various effects on the morphology and therefore on the subsequent developmental capacity of the oocytes. In a previous study, we demonstrated by means of an in vitro oocyte pick-up simulation that a simple change in needle diameter in
1233
Theriogenology
combination
with an altered
Furthermore,
the thickest needle (18-g) yielded the highest recovery rate but also gave the highest
proportion
of naked oocytes.
rate, the proportion
aspiration
vacuum
Although
of oocytes
can affect the morphology
thinner needles
surrounded
(21-g) yielded
by a compact
cumulus
of the COC (4).
a lower oocyte
was higher.
recovery
For all needle
diameters, the proportion of oocytes surrounded by a compact cumulus decreased progressively as the vacuum increased. Based on these results, we recommended the use of thinner needles (19g, 21-g) at a moderate aspiration vacuum. An additional needle
aspect,
tip shape
Literature
which
or bevel
is studied
on oocyte
is very scarce concerning
needle bevels,
although
in our previous
(4), an in vitro simulation
First of all, the construction
and tubings
in exactly
separately, a sufficient
3 replicates. procedure,
without making mistakes
diameters
of the transvaginal
needles
oocyte
pick-up
as in vivo. Secondly,
can be a measure
due to insufficient
the actual puncture
needles.
of the follicle
of the aspiration
visualization,
more than once, which can happen in vivo.
the use of long and short bevelled
needle,
for the net effect
ultrasonal
missing
When a follicle
wall happens
by
the needle
tip
before
(RMWJ Baltussen,
anticipated follicle
experiment,
vacuum application
after the other. According
surrounded aspiration
by a compact vacuum.
which confirms short bevelled
cumulus
This percentage
our previous needle.
Contrasting
used. The possible of the aspiration
to the morphology, investment decreased
observations
This suggests
losses vacuum
described pressure
with increasing
this decrease
that a change to short bevelled
higher aspiration
pressure
lose the cumulus
cells along the long sharp ridge. In terms of final outcome
is used since the longer bevel constitutes
of the recovered
oocytes
at all aspiration
one
COCs were
needles
aspiration
at low vacuum,
is less pronounced needles
rate
are probably
when puncturing
for both long and short bevelled
(4). However,
recovery
earlier
most (64%) of the retrieved
drastically
fluid loss
results are obtained
where the needle with the long bevel gives the highest
of the aspiration by a constant
communication).
can
is punctured
as a whole. Leakage through the long bevel with oocyte and follicular personal
follicles
Several suppositions
enters the follicle in the present
was
this simulation
could be possible regardless
and
(1). As
set up assures the needle to be brought into each follicle
differences
one follicle
a long bevelled
COC.
with different
of the device permits the use of the needle
the same conditions
And finally, the simulation so the detected
be made concerning
of the
amount of oocytes to be retrieved within the same time period spread over
separately, or puncturing
needles
effect
of the retrieved
are made using long non-disposable
used for several reasons. guarantees
paper, is the possible
and the morphology
the use of disposable
similar comparisons
experiments
in the present
recovery
is indicated
for the when a
a higher risk for the COC to of blastocysts,
17%
vacua for both needle types are cultured to blastocysts
8 d post aspiration. As stated before complex pathway disposable needles
(2), one of the possible
disadvantages
of a disposable
system is the more
the oocyte has to follow from the follicle to the collecting tube. Using implicates the use of a connecting piece and longer tubings. Therefore, we
tried to isolate the net effect of the aspiration procedure on the recovery rate and morphology of a fixed number of previously scored CCOCs. These CCOCs were obtained after slicing
Theriogenology
1234
slaughterhouse ovaries instead of puncturing, because this first aspiration by needle and syringe would select already the CCOCs in which the cumulus investment is very strongly attached to the oocyte. CCOCs retrieved after slicing are not submitted to any kind of stress before the actual aspiration by the system and therefore mimic the in vivo situation in a better way. Our results show that on the average nearly 80% of the previously fixed number (50) of aspirated CCOCs in each group are re-retrieved after the aspiration procedure. This indicates a possible loss of oocytes in the system of 1 out of 5. Although comparable experiments have not been carried out with long, non-disposable needles, our results suggest that the use of disposables is highly effective for oocyte retrieval. Starting with COCs, previously scored as compact cumulus oocyte complexes (CCOC), the net effect of the aspiration procedure using different disposable needles at different aspiration vacua can be determined by re-scoring the CCOCs after being submitted to the aspiration procedure. In this sense, changes in morphology of the CCOCs are a measure for damage caused by aspiration. Using a low aspiration vacuum, 82% of the recovered oocytes were still surrounded by a compact cumulus investment after being aspirated. This percentage is even higher (86-90%) when using thinner needles and decreases proportionally for all needle types when aspiration vacuum increases, which confirms earlier observations (4). In other words, on the average 1 out of 5 to 1 out of 10 COCs of initial good quality (compact cumulus) is microscopically damaged by the aspiration procedure in a way that the cumulus cells are totally or partially ripped off, which seriously impairs the in vitro developmental potential of the oocyte (26). There were no significant differences between the two 20-g needles with different bevels. Although these results suggest once again that thinner needles cause less stress to the COC in terms of cumulus cell damage, it is much more difficult to observe these differences in the final outcome of blastocysts. One of the reasons for this is that the embryos are cultured for 7 d in the IVF system and are influenced undoubtedly by an innumerable amount of factors. Expressed relative to the recovered oocytes, the prevalence of blastocysts decreases with higher aspiration pressure, confirming previous results (4). In conclusion, our results show that the length of the needle bevel can have a significant effect on oocyte recovery, the long bevelled needle resulting in a higher oocyte recovery rate. As soon as higher aspiration vacua are used, the number of CCOCs decreases but less prominent for the short bevelled needle (20s) compared to the long bevelled one (20L). The final outcome in terms of blastocysts is similar for both needle types. Starting with a fixed number previously scored compact cumulus oocyte complexes, the disposable needle system suggests to be highly effective for oocyte retrieval, since nearly 80% of the aspirated CCOCs could be retrieved. Using a low aspiration vacuum and thin needles, up to 90% of these CCOCs withstand the aspiration procedure undamaged. Increasing the aspiration vacuum results in a decrease of the number of CCOCs,
which is less pronounced
when using thinner needles.
1235
Theriogenology
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1994; 42: 675-684.
11.
Looney CR, Lindsey BR, Gonseth CL, Johnson DL. Commercial aspects of oocyte retrieval and in vitro fertilization (IVF) for embryo production in problem cows. Theriogenology
12.
Meintjens
1994; 41: 67-72. M, Bellow
MS, Broussard
oocytes from Hormone-treated 1995; 73: 967-974. 13.
Parrish
JJ, Susko-Parrish
Bovine in vitro fertilization
JR, Paul JB, Godke RA. Transvaginal
pregnant
beef cattle for in vitro fertilization.
JL, Leibfried-Rutledge with frozen-thawed
ML, Critser ES, Eyestone semen. Theriogenology
aspiration
of
J Anim Sci WH, First NL.
1986; 25: 59 l-600.
14.
Paul JB, Looney CR, Lindsay BR, Godke RA. Gonadotropin stimulation of cattle donors at estrus for transvaginal oocyte collection. Theriogenology 1995; 43, 294 abstr.
15.
Pieterse MC, Vos PLAM, Kruip ThAM, Willemse AH, Taveme MAM. Characteristics of bovine estrous cycles during repeated transvaginal, ultrasound-guided puncturing of follicles for ovum pick-up. Theriogenology 1991; 35, 401-413.
1236
16.
17. 18.
19.
20.
21. 22.
23.
24.
25. 26.
Theriogenology
Pieterse MC, Vos PLAM, Kruip ThAM, Wurth YA, van Beneden ThH, Willemse AH, Taveme MAM. Repeated transvaginal ultrasound-guided ovum pick-up in eCG-treated cows. Theriogenology 1992; 37, 273 abstr. Rath D. Current status of Ultrasound-Guided retrieval of bovine oocytes. Embryo Transfer News1 1993; 11, 10-15. Reichenbach MD, Wiebke NH, Mod1 J, Zhu J, Brem G. Laparoscopy through the vaginal fomix of cows for the repeated aspiration of follicular oocytes. Vet Ret 1994; 135: 353356. Reinders JMC, Van Wagtendonck- de Leeuw AM. Improvement of a MOET program by addition of in vitro production of embryos after Ovum Pick-Up from pregnant donor heifers. Theriogenology 1996; 45, 354 abstr. Ryan DP, Blakewood EG, Swanson WF, Rodriguez H, Godke RA. Using hormone-treated pregnant cows as a potential source of oocytes for in vitro fertilization. Theriogenology 1993; 40: 1039-1055. Scott CA, Robertson L, de Moura RTD, Paterson C, Boyd JS. Technical aspects of transvaginal ultrasound-guided follicular aspiration in cows. Vet Ret 1994; 134: 440-443. Simon L, Bungartz L, Rath D, Niemann H. Repeated bovine oocyte collection by means of a permanently rinsed ultrasound guided aspiration unit. Theriogenology 1993; 39, 3 12, abstr. Van Soom A, Mijten P, Van Vlaenderen I, Van den Branden J, Mahmoudzadeh AR, de Kruif A. Birth of double-muscled Belgian Blue calves after transfer of in vitro produced embryos into dairy cattle. Theriogenology 1994; 41: 855-867. Vos PLAM, de Loos FAM, Pieterse MC, Bevers MM, Taverne MAM, Dieleman SJ. Evaluation of transvaginal ultrasound-guided follicle puncture to collect oocytes and follicular fluids at consecutive times relative to the preovulatory LH surge in eCG/PG treated cows. Theriogenology 1994; 41; 829-840. Walton JS, Christie KA, Stubbings RB. Evaluation of frequency of ultrasonically guided follicle aspiration on bovine ovarian dynamics. Theriogenology 1993; 39; 336, abstr. Zhang L, Jiang S, Wozniak PJ, Yang X, Godke RA. Cumulus cell function during bovine oocyte maturation, fertilization, and embryo development in vitro. Mol Reprod Dev 1995; 40: 338-344.
EFFECTS OF NEEDLE TIP BEVEL AND ASPIRATION PROCEDURE ON THE MORPHOLOGY AND DEVELOPMENTAL CAPACITY OF BOVINE COMPACT CUMULUS OOCYTE COMPLEXES P.E.J. Bolsl
M.T. Ysebaeti:
1
ZDepartment Department
Received
A. Van Soom’
and A. de Kruif’
of Obstetrics, Reproduction and Herd Health of Physiology, Biochemistry and Biometrics Faculty of Veterinary Medicine University of Ghent, Belgium for publication: Accepted:
June
28,
1996
September
26,
1996
ABSTRACT Effects of the needle tip bevel and the aspiration procedure on the morphology of cumulusoocyte-complexes (COCs) and the developmental capacity of the oocytes after IVF were studied in 2 in vitro oocyte pick-up (OPU) simulations using a disposable ovum pick-up needle guidance system. In Experiment I, the influence of the length of the needle bevel was investigated using a short and a long bevelled 20-g disposable needle. After being aspirated from slaughterhouse ovaries, the retrieved COCs were divided into 3 categories: 1) oocytes surrounded by a compact cumulus, 2) oocytes with an expanded cumulus, 3) partially naked oocytes. In Experiment 2, the influence of 5 different levels of aspiration vacuum for 3 different needle diameters (18-g, 19-g, 20-g) and 2 different needle bevels (long, short) was tested on the recovery and on the morphology of the cumulus investment of a fixed number of previously scored compact cumulus oocytes complexes (CCOCs), retrieved after slicing slaughterhouse ovaries. The re-retrieved COCs were allocated to Categories 1 and 3. The results show that the length of the needle bevel has a significant effect on oocyte recovery, in favor of the long-bevelled needle. As soon as higher aspiration vacua are used, a decrease of the number of CCOCs can be observed, which is less prominent for the short-bevelled needle compared to the long-bevelled one. The final number of blastocysts is similar for both needle types. In Experiment 2, the disposable needle system proved to be highly effective since nearly 80% of the CCOCs were retrieved. At low aspiration vacuum, up to 90% of the CCOCs withstand the aspiration procedure undamaged. Increasing the aspiration vacuum results in a decrease of the number of CCOCs, which is less pronounced using thinner needles. Averaged over all needle types, the prevalence of blastocysts expressed relative to the number of recovered oocytes decreases with higher aspiration vacuum. 0 1997 by ElsewerScience Inc Key words: oocyte aspiration, compact cumulus oocyte complex, disposable needles, assisted bovine reproduction
Acknowledgments The authors thank G. Vanroose (IWT), A. Vanhoucke-De Medts and A. Van de Velde (IWONL) for their assistance with IVF procedures; J.M.M. Vandenheede for the excellent technical assistance; and T Van Laere for taking the pictures.
Theriogenology 47:1221-1236. 1997 0 1997 by Else&r Scmce Inc.
0093-691X/97/$17.00 PII SOO93-691X(97)00102-7
1222
Theriogenology
INTRODUCTION Transvaginal oocyte pick-up (OPU) is gaining popularity worldwide as an important technique for oocyte retrieval in living, previously selected, often genetically highly valuable donor cows. Its high repeatability turns it into a routine procedure in combination with in vitro fertilization (IVF) in assisted bovine reproduction. Once a well running IVF system is established, OPU is believed to become a valuable alternative for classical embryo transfer (ET) programs (10). Up till now it has been used both in the treatment of infertility patients (3, 9, 11) and in young healthy animals as a modem reproduction tool to shorten generation intervals and to hasten the spread of excellent characteristics in a herd (19). The final aim of the transvaginal oocyte pick-up technique is to retrieve as many good quality oocytes as possible. Practical approaches to optimize the recovery of oocytes can be divided into 2 main categories: 1) the biologically-mediated modifications in ovarian dynamics and 2) technical improvements in OPU devices (2, 17, l&21,22). Within the first group, there are different ways to increase oocyte recovery rates such as hormonal stimulation prior to OPU (6, 12, 14, 16, 20), performing OPU at a specific time during the estrous cycle (6, 15, 24) or increasing the number of sessions within a certain time period (8, 25). Although evaluating these biological influences will certainly be a part of the solution to more and good quality oocytes, the more technical aspects cannot be overlooked. No matter how many oocytes can be recruited in vivo, there is a need for a reliable, economically justified oocyte retrieval system. Several research groups refined the transvaginal OPU devices over the last years from a practical point of view, but the actual influence of the aspiration vacuum and needle diameter on the morphology of the cumulusoocyte-complexes (COCs) and on the subsequent developmental capacity of the oocytes has not been thoroughly evaluated. Previous experiments (4) showed that when using disposable needles the aspiration pressure and needle diameter could have a profound influence on the integrity of the cumulus cells surrounding the oocyte, with high aspiration pressures resulting in a higher proportion of naked oocytes. Thinner needles used at moderate aspiration pressures gave the highest proportion of compact cumulus oocyte complexes (CCOCs). Apart from the needle length and diameter, the length of the needle tip or bevel can be altered. The first experiment of this study investigates the possible influence of the needle bevel on the oocyte recovery and on the cumulus oocyte complex morphology. As stated before (4), the oocyte can theoretically appear in different states in the surrounding follicle. It can be surrounded by a compact cumulus or an expanded cumulus, or it may possibly even be naked already. Furthermore, the use of hormonal stimulation can alter the morphology of the COC since this stimulation can cause asynchrony between the maturation of the oocyte and the surrounding follicle (7), or even within the oocyte between nuclear and cytoplasmic maturation (5). Therefore, it would be useful to investigate the net effect of the aspiration procedure on the oocytes surrounded by a compact investment of cumulus cells. This would give us better understanding of the damage the procedure causes, and identify the proportion of oocyte complexes which are already in an inferior state prior to OPU, having
Theriogenology
1223
expanded cumulus cells or being naked from the start. Thus, the aim of the second experiment was to investigate the net effect of the OPU procedure on the morphology of COCs by aspirating oocytes which had been previously
retrieved
from slaughterhouse
ovaries after slicing and scored
as ccocs. MATERIALS Experimental Experiment
Figure
Design 1
1.
Different
In Experiment complex
AND METHODS
morphology
needle types used in Experiment
1, the influence and subsequent
Thus an OPU simulation
1 and 2
of the needle tip bevel on the recovery developmental
was set up using a disposable
capacity
rate, cumulus oocyte
of the oocyte
needle guidance
was investigated.
system which allows for
the use of the needle and tubing system separately, so that the aspiration conditions are the same both in vitro and in vivo (4). Two types of commercially available disposable needles (Terumo Neolus, Leuven, Belgium) were used: 1) the short bevelled 20-g2”3/16 with a length of 55 mm and an external diameter of 0.9 mm (2OS), and 2) the long bevelled 20-g2” with a length of 50 mm and an external diameter of 0.9 mm (20L; Figure 1). The 10% difference in needle length is caused by reasons
of commercial
availability
of the needles.
A stainless
steel connector
was
1224
Theriogenology
used to connect the needles by means of silicone tubings (Silclear TM Tubing, Multi Purpose Medical Grade Silicone Tubing, Degania Silicone/ Degania Bet, Israel) to a plastic 50-ml collection tube (Falcon 2074) and a suction pump with variable suction power (Labotect, Bovenden-GWingen, Germany). The used aspiration vacua were 50, 70, 90, 110 up to 130 mm Hg for each of the 2 needles. For purposes of repeatability of trials and to obtain a sufficient number of follicles to puncture under the same conditions, 106 slaughterhouse ovaries were used. The method of collecting the ovaries was described before (23). A total of 2000 follicles was aspirated, 100 visible follicles (between 3 and 8 mm in diameter) were punctured with the 2 different types of needles at 5 different levels of aspiration vacuum, for a total of 10 different treatment groups (needle bevel by level of aspiration vacuum). Aspiration of the follicles happened as described before (4). To test the repeatability of the experimental set up, 2 replicates were performed (2000 follicles in total), creating 2 data sets which differed only by the time of puncturing. The oocytes were given a score with regard to the morphology of the cumulus cell layers, Score 1 being oocytes surrounded by a compact cumulus (at least 2 intact cumulus cell layers), Score 2 being oocytes surrounded by an expanded cumulus, and Score 3 being the naked oocytes. Partially naked oocytes were given Score 1, when a maximum of one third of the total oocyte was naked. Otherwise Score 3 (naked oocyte) was given. Experiment 2 A different experimental protocol was used in Experiment 2 to investigate the net effect of the aspiration procedure on the recovery rate and the morphology of the COCs and to detect eventual oocyte losses or detrimental effects of the aspiration procedure on the oocytes. The COCs were previously obtained by slicing 116 slaughterhouse ovaries over a square Petri dish (Falcon 1012) filled with 10 cc Hepes buffered Talp solution (13) supplemented with 2.5 ml/lit Na-Heparin (25.000 IU/ml, Leo Pharmaceuticals, Vilvoorde, Belgium). The oocytes were searched for under a stereomicroscope. In total, 1000 oocytes surrounded by a compact cumulus and scored ‘compact cumulus oocyte complex’ (CCOC, Score I, Experiment 1) were divided into 20 groups of 50 CCOCs, spread over 3 replicates. Each of these groups was placed in a round Petri dish (Falcon 1008) filled with 3cc previously centrifuged (10 min, 3000 rad/min) follicular fluid, retrieved after puncturing an additional 26 slaughterhouse ovaries. After coating the needle and tubings with phosphate buffered saline (D-PBS, Gibco BRL, Life Technologies Ltd., Paisley, Scotland) supplemented with Na-Heparin (2.5 ml/ lit, 25.000 IU/ml, Leo Pharmaceuticals, Vilvoorde, Belgium) as used under in vivo conditions to prevent clotting, the CCOCs were aspirated by the system using 4 different types of disposable needles (Terumo neolus, Leuven, Belgium) at 5 different levels of aspiration vacuum (50, 70, 90, 110 and 130 mm Hg), thus creating the 20 different groups (needle type by level of aspiration vacuum). The CCOCs were placed in the Petri dish separated from each other to permit individual aspiration by the system. The following types of disposable needles with different diameters and bevels were used (Figure 1): Type 1, 18-gX2”, long bevelled, length 50 mm and external diameter 1.2 mm (18L); Type 2, 19-gX2”, long bevelled, length 50 mm and external diameter 1.1 mm (19L); Type 3, 20-gX2” long bevelled, length 50 mm and external diameter 0.9 mm (20L); and Type 4, 20-gX2”3/16
Theriogenology
1225
short bevelled, length 55 mm and external diameter 0.9 mm (20s). Types 3 and 4 are the same needles as used in Experiment 1. Aspiration was performed under visual control by means of a stereomicroscope to make sure that all 50 CCOCs in each group were actually aspirated (Figure 2). After aspiration, every group was re-collected separately in a round Petri dish (Falcon 1008) placed in an embryo filter (Em Con, Immuno Systems, Inc., Spring Valley, WI, USA) to finalize the identical set up as used for transvaginal OPU in vivo. The same needles, same connector, same length of tubing system and same way of collection were used, except for the fact that the
Figure 2. Experimental set up for Experiment 2: CCOCs are aspirated by the disposable system under visual control of a stereomicroscope and collected in a petridish placed in an embryo filter.
Theriogenology
CCOCs were collected immediately in the Petri dish and not on the filter membrane (Figure 2), the first being more practical for looking for the oocytes. After re-collection, the percentage of recovery was determined and the CCOCs were re-scored as previously described (Score 1, for oocytes still surrounded by a compact cumulus and Score 3, for naked or partially denuded oocytes). All COCs were taken up in an IVF system (23) to assess their developmental competence after the aspiration procedure. In Vitro Fertilization Following morphological evaluation, the oocytes were put into a loo-p1 drop of maturation medium, which consisted of TCM 199 bicarbonate supplemented with 20% estrous cow serum (ECS), 0.2 mM sodium pyruvate, 0.4 mM glutamine and 50 u&/ml gentamicin sulphate. This medium was covered with paraffin oil, and the COCs were incubated in 5% CO2 in humidified air at 39“C for 24 to 26 h. All treatment groups were matured, fertilized and cultured in separate drops. The oocytes were fertilized with frozen-thawed semen of a bull of known fertility and cultured following standard IVF procedures. Cleavage rate was determined 3 d post insemination. The number of expanded blastocysts 8 d post insemination was determined in relation to needle type, level of aspiration vacuum and COC morphology. Statistics Evaluation of the effect of needle tip or bevel on the oocyte recovery, cumulus oocyte complex morphology and subsequent developmental capacity of the oocytes after IVF was performed using the general linear model procedure (SPSS - Release 6.1 for Windows). Multiple logistic regression was used in a forward stepwise selection method with addition of the explanatory variables on condition that the probability of the difference in the likelihood for the reduced and full models is less than 0.05. Identical models were obtained with the backward selection method. These variables included the increase in aspiration vacuum level as a continuous variable, the type of needle tip bevel as categorical covariates and the interactions between increase in aspiration vacuum and type of needle tip bevel. The replication of the experiments yielded homogeneous results, which allowed pooling of the data. The applied model is as follows: In odds = In (rc/(l-7~)) = b,+b,x,+b,x,+b,,x,x, etc., with x, the increase in aspiration vacuum relative to 50 mm Hg and expressed per 20 mm Hg; x2 the indicator associated with the morphology of the oocyte (x2= 0 for compact cumulus oocyte complexes, x2= 1 for naked or partially denuded oocytes); xj, xq and x5 indicators associated with needle tip bevel or type. RESULTS Experiment
1
The results of Experiment I. in lvhich the influence of the needle bevel was studied. are given in Table 1 and Figure 3. The needle with the long bevel gave the highest recovery rate
Theriogenology
1227
Theriogenology
regardless of the aspiration vacuum used. The expected odds ratio of recovered oocytes for the 20L vs the 20s needle is e”.33= 1.40 (P< 0.001). For both types of needle tips, more oocytes are recovered at a higher aspiration vacuum with an odds ratio of e”.” = 1.12 per increase in vacuum pressure of 20 mm Hg (P < 0.001).
Compact Cumulus Oocytes
“O 4
0.8 -
v
20s
l
2OL
0.6 -
0.4 -
0.2 -
0.01
’
50
’
’
70
’
’
90
’
’
’
110
’
’
130
Aspiration Vacuum (mm Hg)
Figure 3. Multiple logistic regression of the proportion of CCOCs relative to the number of cumulus oocyte complexes recovered from punctured follicles as a function of the aspiration vacuum level for two 20-g needle bevels. Morphology was first analyzed relative to the actual number of recovered cumulus oocyte complexes. At low aspiration vacuum, most of the recovered oocytes are surrounded by a compact cumulus investment (an average of 64 % at 50 mm Hg for both needle types). This percentage decreased drastically with increasing aspiration vacuum. However, for the needle with the short bevel (2OS), this decrease is less pronounced (P d 0.001) as the odds for obtaining a CCOC decrease by 1.44 for short bevelled needles compared to 1.64 for long bevelled needles (Figure 3). As less oocytes are retrieved with a compact cumulus investment at higher aspiration
Theriogenology
1229
vacua, more naked oocytes are observed. When long bevelled needles were used, 75 % of the oocytes were naked, whereas this rate was 64 % for short bevelled needles, both at an aspiration vacuum
(Table
level of 130 mm Hg.
Second, morphology was expressed relative to the total number of punctured 1). At 50 mm Hg, an average for both needle types of 32 % of the punctured
follicles follicles
gave a CCOC and 10 % a naked or partially denuded oocyte. For both needle types, the odds for obtaining
a CCOC decrease
odds for obtaining Hg increase
by a factor of 1.29 (e” 258’) with increasing
naked oocytes
in aspiration
increase
vacuum (P < 0.001). The
by a factor of e045 = 1.57 and eo2* = 1.33 per 20 mm
vacuum (P < 0.001) when needles with a long, respectively
short bevel
are used. Finally,
developmental
after IVF. The prevalence at all aspiration follicles,
levels
capacity
of the retrieved
of blastocysts for both needle
remained
types. Expressed
an average of 9.7 % resulted in blastocysts
Experiment
of Experiment
and morphology
Application guidance
relative
complexes
was assessed
17 % of the recovered to the number
oocytes
of punctured
for both needle types at all aspiration
levels.
2
The results recovery
cumulus oocyte
approximately
of the aspiration system,
low aspiration
resulted
vacuum,
rate with an increasing
2, in which the net effect of the aspiration
of previously technique
increase
in aspiration
between
the 2 different
on previously
in an overall recovery
all needle types yielded aspiration vacuum
on the
scored CCOCs, using the disposable
of 79% of the aspirated similar recovery
vacuum was only observed
oocytes
20-g needles,
4 to 6. needle
(Figure 4). At
rates. An increase
in recovery
with the 18-g needle (odds ratio per
of 20 mm Hg = 1.22; P-c 0.05). The difference
bevelled
procedure
scored CCOCs was studied are given in Figures
as seen in the first experiment,
in recovery
rate
was not observed
here. At low aspiration cumulus
investment
thinner needles
vacuum, 82% of the recovered after aspiration.
Additionally,
oocytes were still surrounded this percentage
was higher
by a compact
when using the
(odds ratio of 1.57 referred to the 18-g needle; P < 0.01; Figure 5). For all needle
types a decreased yield of CCOCs was observed with increasing aspiration vacuum (a decrease in odds of 1.50 per increase in aspiration vacuum of 20 mm Hg; P < 0.001). All of the remaining ooytes
at low aspiration
aspiration needles,
pressures,
level (18%)
were naked.
As less CCOCs
the amount of naked oocytes increased
short and long bevelled,
were obtained
proportionally.
at higher
The 2 types of 20-g
gave similar results with respect to aspiration
pressure.
When morphology is expressed, relative to the initial amount of 50 CCOCs in each group (Figure 4), an average of 64% of the CCOCs remained surrounded by a compact cumulus and 14% became naked (at 50 mm Hg). For all needle types, the odds for obtaining a CCOC decrease by a factor of 1.30 (e026) with increasing aspiration vacuum (P < 0.001). The odds for obtaining
Theriogenology
1230
Morphology of oocyte complexes mm Hg
18L
50
70
90
110
130
18L
: 18-g long bevel
Legend
19L : 193 long bevel 20L : 20-g long bevel 20s
: 203
short bevel
Figure 4. Recovery and morphology different needle types at expressed as percentages addition of the number of
of previously scored CCOCs after aspiration with 4 5 different levels of aspiration vacuum. Results are relative to the number of aspirated CCOCs. The CCOCs and naked oocytes equals the recovery rate.
1231
Theriogenology
naked oocytes augment by a factor of eo.39= 1.48 per 20 mm Hg increase in aspiration vacuum (P + 0.001).
Compact Cumulus Oocytes ‘.OI
0.8 X 0.8
0.01
’
50
l
18L
v
19L. 2OL, 20s
’
s 70
’
’
90
’
’
’
110
’ 130
1
Aspiration Vacuum (mm Hg)
Figure 5. Multiple logistic regression of the proportion of CCOCs relative to the initial number of previously scored CCOCs as a function of the aspiration vacuum level for 4 needle types. Finally, developmental capacity of the retrieved cumulus oocyte complexes was assessed after IVF. Averaged over all needle types, the prevalence of blastocysts, relative to the recovered oocytes, decreased with higher aspiration pressure (odds ratio of 1.16 per 20 mm Hg, P < 0.05). Expressed relative to the initial number of previously scored CCOC in each group (Figure 6) on the average 12% of the CCOCs resulted in blastocysts, and no statistically significant effect of needle type or aspiration vacuum level on the final outcome in terms of blastocysts could be detected.
1232
Theriogenology
Blastocysts
Figure 6. Final outcome of blastocysts after aspiration of CCOCs with 4 different needle types at 5 levels of aspiration vacuum, relative to the number of aspirated CCOCs in each group.
DISCUSSION An increase in the quality and quantity of the COC retrieved with the transvaginal OPU technique in combination with a more economical approach can only be achieved after a profound study on the different aspects involved. Apart from biological factors such as hormonal pretreatment of the animals prior to puncture, there are more technical aspects dealing with the most reliable way to reach the follicles and retrieve the present oocytes. To eliminate the disadvantages of the long, non-disposable needles, a new oocyte pick-up device equipped with a disposable needle guidance system was constructed (2). Because of the use of disposables, an enormous amount of different needle types became available and in combination with the different aspiration vacua used, they can exert various effects on the morphology and therefore on the subsequent developmental capacity of the oocytes. In a previous study, we demonstrated by means of an in vitro oocyte pick-up simulation that a simple change in needle diameter in
1233
Theriogenology
combination
with an altered
Furthermore,
the thickest needle (18-g) yielded the highest recovery rate but also gave the highest
proportion
of naked oocytes.
rate, the proportion
aspiration
vacuum
Although
of oocytes
can affect the morphology
thinner needles
surrounded
(21-g) yielded
by a compact
cumulus
of the COC (4).
a lower oocyte
was higher.
recovery
For all needle
diameters, the proportion of oocytes surrounded by a compact cumulus decreased progressively as the vacuum increased. Based on these results, we recommended the use of thinner needles (19g, 21-g) at a moderate aspiration vacuum. An additional needle
aspect,
tip shape
Literature
which
or bevel
is studied
on oocyte
is very scarce concerning
needle bevels,
although
in our previous
(4), an in vitro simulation
First of all, the construction
and tubings
in exactly
separately, a sufficient
3 replicates. procedure,
without making mistakes
diameters
of the transvaginal
needles
oocyte
pick-up
as in vivo. Secondly,
can be a measure
due to insufficient
the actual puncture
needles.
of the follicle
of the aspiration
visualization,
more than once, which can happen in vivo.
the use of long and short bevelled
needle,
for the net effect
ultrasonal
missing
When a follicle
wall happens
by
the needle
tip
before
(RMWJ Baltussen,
anticipated follicle
experiment,
vacuum application
after the other. According
surrounded aspiration
by a compact vacuum.
which confirms short bevelled
cumulus
This percentage
our previous needle.
Contrasting
used. The possible of the aspiration
to the morphology, investment decreased
observations
This suggests
losses vacuum
described pressure
with increasing
this decrease
that a change to short bevelled
higher aspiration
pressure
lose the cumulus
cells along the long sharp ridge. In terms of final outcome
is used since the longer bevel constitutes
of the recovered
oocytes
at all aspiration
one
COCs were
needles
aspiration
at low vacuum,
is less pronounced needles
rate
are probably
when puncturing
for both long and short bevelled
(4). However,
recovery
earlier
most (64%) of the retrieved
drastically
fluid loss
results are obtained
where the needle with the long bevel gives the highest
of the aspiration by a constant
communication).
can
is punctured
as a whole. Leakage through the long bevel with oocyte and follicular personal
follicles
Several suppositions
enters the follicle in the present
was
this simulation
could be possible regardless
and
(1). As
set up assures the needle to be brought into each follicle
differences
one follicle
a long bevelled
COC.
with different
of the device permits the use of the needle
the same conditions
And finally, the simulation so the detected
be made concerning
of the
amount of oocytes to be retrieved within the same time period spread over
separately, or puncturing
needles
effect
of the retrieved
are made using long non-disposable
used for several reasons. guarantees
paper, is the possible
and the morphology
the use of disposable
similar comparisons
experiments
in the present
recovery
is indicated
for the when a
a higher risk for the COC to of blastocysts,
17%
vacua for both needle types are cultured to blastocysts
8 d post aspiration. As stated before complex pathway disposable needles
(2), one of the possible
disadvantages
of a disposable
system is the more
the oocyte has to follow from the follicle to the collecting tube. Using implicates the use of a connecting piece and longer tubings. Therefore, we
tried to isolate the net effect of the aspiration procedure on the recovery rate and morphology of a fixed number of previously scored CCOCs. These CCOCs were obtained after slicing
Theriogenology
1234
slaughterhouse ovaries instead of puncturing, because this first aspiration by needle and syringe would select already the CCOCs in which the cumulus investment is very strongly attached to the oocyte. CCOCs retrieved after slicing are not submitted to any kind of stress before the actual aspiration by the system and therefore mimic the in vivo situation in a better way. Our results show that on the average nearly 80% of the previously fixed number (50) of aspirated CCOCs in each group are re-retrieved after the aspiration procedure. This indicates a possible loss of oocytes in the system of 1 out of 5. Although comparable experiments have not been carried out with long, non-disposable needles, our results suggest that the use of disposables is highly effective for oocyte retrieval. Starting with COCs, previously scored as compact cumulus oocyte complexes (CCOC), the net effect of the aspiration procedure using different disposable needles at different aspiration vacua can be determined by re-scoring the CCOCs after being submitted to the aspiration procedure. In this sense, changes in morphology of the CCOCs are a measure for damage caused by aspiration. Using a low aspiration vacuum, 82% of the recovered oocytes were still surrounded by a compact cumulus investment after being aspirated. This percentage is even higher (86-90%) when using thinner needles and decreases proportionally for all needle types when aspiration vacuum increases, which confirms earlier observations (4). In other words, on the average 1 out of 5 to 1 out of 10 COCs of initial good quality (compact cumulus) is microscopically damaged by the aspiration procedure in a way that the cumulus cells are totally or partially ripped off, which seriously impairs the in vitro developmental potential of the oocyte (26). There were no significant differences between the two 20-g needles with different bevels. Although these results suggest once again that thinner needles cause less stress to the COC in terms of cumulus cell damage, it is much more difficult to observe these differences in the final outcome of blastocysts. One of the reasons for this is that the embryos are cultured for 7 d in the IVF system and are influenced undoubtedly by an innumerable amount of factors. Expressed relative to the recovered oocytes, the prevalence of blastocysts decreases with higher aspiration pressure, confirming previous results (4). In conclusion, our results show that the length of the needle bevel can have a significant effect on oocyte recovery, the long bevelled needle resulting in a higher oocyte recovery rate. As soon as higher aspiration vacua are used, the number of CCOCs decreases but less prominent for the short bevelled needle (20s) compared to the long bevelled one (20L). The final outcome in terms of blastocysts is similar for both needle types. Starting with a fixed number previously scored compact cumulus oocyte complexes, the disposable needle system suggests to be highly effective for oocyte retrieval, since nearly 80% of the aspirated CCOCs could be retrieved. Using a low aspiration vacuum and thin needles, up to 90% of these CCOCs withstand the aspiration procedure undamaged. Increasing the aspiration vacuum results in a decrease of the number of CCOCs,
which is less pronounced
when using thinner needles.
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