I think it is OK. However, she should have a confrontational US.

Good look!

Geoff Sher

Please call our office in New York for details. Ask for Jessica Ortiz.

THE ROLE OF GENDER SELECTION: THE PRO’S & CON’S

Geoffrey Sher

Couples have for centuries sought to influence the gender of their offspring. More than seven centuries ago the ancient Chinese developed a birth calendar said to be able to predict gender on the basis of when conception occurred. Later, the ancient Greeks suggested that by lying on her right side during intercourse, a woman could improve the likelihood of having a male child. And 300 years ago, the French suggested that placing a ligature around the right testicle would improve the chance of having a male child.

More recently in the U.S., methods such as timing intercourse, assuming different positions during sex, and (relatively recently) employing rapid sperm centrifugation in an attempt to separate male chromosome-bearing sperm from female sperm prior to artificial insemination were proposed. The fact is that none of these (as well as many other) such anecdotal assertions have been shown to have any real validity.

Currently, in spite of several well described medical approaches, the indisputable fact has emerged that it is only by way of IVF that reliable sex selection can be achieved. This allows for embryos to be screened for gender through preimplantation genetic diagnosis prior to transferring the embryo(s) of the desired gender to the uterus.

Nevertheless, it is an inescapable reality that the very idea of medical sex selection challenges moral and ethical beliefs at their very foundation. Many hold that the growing popularity of gender selection solely for the convenience of altering a family’s gender balance represents an unwanted example of how assisted reproductive technology is subject to abuse…and thus it should be outlawed. They also see it as an example of a disturbing trend towards “designer babies” where genetic engineering could be used to manipulate the intellect, body configuration, build, height, and the talents of future offspring. This assertion is commonly followed by the tantalizing question as to where all this would end and whether we as a society “would really want to live in such a world.”

There is, however, one clear exception to the apparent across-the-board opposition to sex selection that is well worthy of mention. This applies in cases where sex selection is used to avoid the occurrence of a serious medical disorder that selectively affects one gender or the other (e.g., Hemophilia, a life threatening bleeding disorder that selectively affects male offspring).

EVALUATING CURRENTLY USED METHODS FOR SEX SELECTION

SPERM GRADIENT METODOLOGY (discredited because of a lack of reliability)

This is one of the simplest methods that still (unfortunately) remains in widespread use. Here sperm is rapidly spun down (centrifuged) in the hope of separating the male sperm (those with Y-chromosomes) from the female sperm (those with X-chromosomes). It relies on the assumption that the X chromosome makes sperm heavier, allowing for separation of male from female chromosome-bearing sperm. Though this method is often touted as a low cost method for sex selection, the truth is that it simply does not work!

LOW CYTOMETRIC TESTING BY THE MICROSORT METHOD (discredited because of a lack of reliability)

This method which is now somewhat discredited by the FDA  employedthe use of a fluorescent dye that adheres to genetic material within the sperm. It was based on the premise that because X-bearing sperm contain more genetic material, these sperm were supposed to pick up more dye than Y-bearing sperm. Thereupon, X and Y bearing sperm are then separated into two groups and used for intrauterine insemination (IUI) or IVF. This method was touted as yielding a 60% to 70% accuracy rate with IUI. This has not been adequately confirmed and in my personal experience its reliability in the IVF setting has been questionable to say the least. The Microsort technique is to my knowledge not presently being offered in the United States.

IVF using PREIMPLANTATION GENETIC DIAGNOSIS (PGD)

Preimplantation Genetic Diagnosis (PGD) involves the removal of one or more cells from an embryo, for chromosomal or genetic analysis.  The most widely used and he most reliable PGD method for gender selection is fluorescence in-situ-hybridization (FISH). However, this technique does not identify all 23 pairs of chromosomes in the embryo’s cells. At best it can well identify 12. Thus, while FISH provides an excellent method for gender selection and for identification of structural chromosomal aberrations, it is not a reliable method for diagnosing embryo aneuploidy (“competency”).  Conversely, another PGD method, next generation gene sequencing (NGS) which does assess all the embryo’s chromosomes can be used for both detecting all the embryo’s chromosomes and thus can determine embryo “competency” reliably. It also reliably identifies gender. However, while NGS is very bit as reliable as FISH for gender selection, FISH can be done in fresh cycles (i.e. the ET is done in the same cycle as that in which the ER is done), while NGS requires time for testing that requires Staggered IVF (St-IVF) in which the embryos are biopsied on day 3 or day 5-6 (post-fertilization) and  the blastocysts are ultrarapidly frozen (vitrified) and allowed to proceed in culture to blastocysts whereupon they are ultra-rapidly frozen (vitrified) and are then held for transfer in a subsequent cycle. 

Upon completion of FISH, which takes about 24-36 hours, the couple can select which embryo(s) they will transfer to the uterus. If pregnancy results, there is almost a 100% chance it will result in the desired gender. If NGS is used, the degree of accuracy in diagnosing gender, is as reliable as is FISH but in addition, NGS provides information on the entire karyotype (all 23 pairs of chromosomes) which is extremely beneficial because it assesses embryo “competency, while FISH does not.

A PERSONAL OPINION:

Sex selection done purely for  family balancing is somewhat  controversial, raising concern that if  widely accessible and freely available, such practice could distort the natural sex ratio, leading to a population gender imbalance. However, for this to happen, there would have to be a significant population preference for sex selection. In reality, the contrary seems to apply, since studies conducted in western societies discount these concerns. In fact, the relatively high cost of IVF with the added cost of gender selection in the United States makes it unlikely that the demand would ever become large enough to impact overall population gender balance. In addition, several studies done in Western countries have shown that the majority of people do not seem to be concerned about the gender of their offspring, and that with a few notable exceptions, gender preference does not appear to be slanted in the direction of either male or female. Thus, from a practical standpoint, such concerns are overstated.

Given that in the United States most couples do not care about the gender of their offspring, and only a minority are interested in selecting the sex of their children there is currently  no risk that IVF sex-selection will impact the population gender balance. Thus, in  my opinion by and large,  freedom of choice should prevail and a service for sex selection should be freely available

 So, in my personal practice, I absolutely do offer gender selection in the following circumstances.

• Medical Indications for Gender Selection:
  • For cases associated with
    • sex-linked genetic disorders or,
    • serious genetic disorders that are more likely to occur in one gender or the other.
  • Non-Medical Family balancing
    • For couples who have at least one child of the opposite gender to that which they choose for their IVF embryo transfer and,
    • For those women who do not have any children at all but prefer to have a child of one or the other gender.

I am not at all concerned about your husband’s sperm quality. The lowish testosterone is another issue altogether. I would caution against him taking testosterone supplements as this would likely worsen his sperm parameters.

Geoff Sher

You have posted on my board. I suggest you re-post on that of Dr Tortoriello!

Geoff Sher

You need to give it more time. If no pregnancy in 6 months from now, then you can start the evaluation process!

Geoff Sher

In my opinion, your husband’s semen analysis is quite adequate.

Geoff Sher

When women with infertility due to endometriosis seek treatment, they are all too often advised to first try ovarian stimulation (ovulation Induction) with intrauterine insemination (IUI) ………as if to say that this would be just as likely to result in a baby as would in vitro fertilization (IVF). Nothing could be further from reality It is time to set the record straight. And hence this communication!

Bear in mind that the cost of treatment comprises both financial and emotional components and that it is the cost of having a baby rather than cost of a procedure. Then consider the fact that regardless of her age or the severity of the condition, women with infertility due to endometriosis are several fold more likely to have a baby per treatment cycle of IVF than with IUI. It follows that there is a distinct advantage in doing IVF first, rather than as a last resort.

So then, why is it that ovulation induction with or without IUI is routinely offered proposed preferentially to women with mild to moderately severe endometriosis? Could it in part be due to the fact that most practicing doctors do not provide IVF services but are indeed remunerated for ovarian stimulation and IUI services and are thus economically incentivized to offer IUI as a first line approach? Or is because of the often erroneous belief that the use of fertility drugs will in all cases induce the release (ovulation) of multiple eggs at a time and thereby increase the chance of a pregnancy. The truth however is that while normally ovulating women (the majority of women who have mild to moderately severe endometriosis) respond to ovarian stimulation with fertility drugs by forming multiple follicles, they rarely ovulate > 1 (or at most 2) egg at a time. This is because such women usually only develop a single dominant follicle which upon ovulating leaves the others intact. This is the reason why normally ovulating women who undergo ovulation induction usually will not experience improved pregnancy potential, nor will they have a marked increase in multiple pregnancies. Conversely, non-ovulating women (as well as those with dysfunctional ovulation) who undergo ovulation induction, almost always develop multiple large follicles that tend to ovulate in unison. This increases the potential to conceive along with an increased risk multiple pregnancies.

So let me take a stab at explaining why IVF is more successful than IUI or surgical correction in the treatment of endometriosis-related infertility:

1. The toxic pelvic factor: Endometriosis is a condition where the lining of the uterus (the endometrium) grows outside the uterus. While this process begins early in the reproductive life of a woman, with notable exceptions, it only becomes manifest in the 2ndhalf of her reproductive life. After some time, these deposits bleed and when the blood absorbs it leaves a visible pigment that can be identified upon surgical exposure of the pelvis. Such endometriotic deposits invariably produce and release toxins” into the pelvic secretions that coat the surface of the membrane (the peritoneum) that envelops all abdominal and pelvic organs, including the uterus, tubes and ovaries. These toxins are referred to as “the peritoneal factor”. Following ovulation, the egg(s) must pass from the ovary (ies), through these toxic secretions to reach the sperm lying in wait in the outer part the fallopian tube (s) tube(s) where, the sperm lie in waiting. In the process of going from the ovary(ies) to the Fallopian tube(s) these eggs become exposed to the “peritoneal toxins” which alter s the envelopment of the egg (i.e. zona pellucida) making it much less receptive to being fertilized by sperm. As a consequence, if they are chromosomally normal such eggs are rendered much less likely to be successfully fertilized. Since almost all women with endometriosis have this problem, it is not difficult to understand why they are far less likely to conceive following ovulation (whether natural or induced through ovulation induction). This “toxic peritoneal factor impacts on eggs that are ovulated whether spontaneously (as in natural cycles) or following the use of fertility drugs and serves to explain why the chance of pregnancy is so significantly reduced in normally ovulating women with endometriosis.
2. The Immunologic Factor: About one third of women who have endometriosis will also have an immunologic implantation dysfunction (IID) linked to activation of uterine natural killer cells (NKa).  This will require selective immunotherapy with Intralipid infusions, and/or heparinoids (e.g. Clexane/Lovenox) that is much more effectively implemented in combination with IVF.
3. Surgical treatment of mild to moderate endometriosis does not usually improve pregnancy potential:. The reason is that endometriosis can be considered to be a “work in progress”. New lesions are constantly developing. So it is that for every endometriotic seen there are usually many non-pigmented deposits that are in the process of evolving but are not yet visible to the naked eye and such evolving (non-visible) lesions can also release the same “toxins that compromise fertilization. Accordingly, even after surgical removal of all visible lesions the invisible ones continue to release “toxins” and retain the ability to compromise natural fertilization. It also explains why surgery to remove endometriotic deposits in women with mild to moderate endometriosis usually will fail to significantly improve pregnancy generating potential. In contrast, IVF, by removing eggs from the ovaries prior to ovulation, fertilizing these outside of the body and then transferring the resulting embryo(s) to the uterus, bypasses the toxic pelvic environment and is therefore is the treatment of choice in cases of endometriosis-related infertility.
4. Ovarian Endometriomas: Women, who have advanced endometriosis, often have endometriotic ovarian cysts, known as endometriomas. These cysts contain decomposed menstrual blood that looks like melted chocolate…hence the name “chocolate cysts”. These space occupying lesions can activate ovarian connective tissue (stroma or theca) resulting in an overproduction of male hormones (especially testosterone). An excess of ovarian testosterone can severely compromise follicle and egg development in the affected ovary. Thus there are two reasons for treating endometriomas. The first is to alleviate symptoms and the second is to optimize egg and embryo quality. Conventional treatment of endometriomas involves surgical drainage of the cyst contents with subsequent removal of the cyst wall (usually by laparoscopy), increasing the risk of surgical complications. We recently reported on a new, effective and safe outpatient approach to treating endometriomas in women planning to undergo IVF. We termed the treatment ovarian Sclerotherapy.  The process involves; needle aspiration of the “chocolate colored liquid content of the endometriotic cyst, followed by the injection of 5% tetracycline hydrochloride into the cyst cavity. Such treatment will, more than 75% of the time result in disappearance of the lesion within 6-8 weeks. Ovarian sclerotherapy can be performed under local anesthesia or under conscious sedation. It is a safe and effective alternative to surgery for definitive treatment of recurrent ovarian endometriomas in a select group of patients planning to undergo IVF

 I am not suggesting that all women with infertility-related endometriosis should automatically resort to IVF. Quite to the contrary…. In spite of having reduced fertility potential, many women with mild to moderate endometriosis can and do go on to conceive on their own (without treatment). It is just that the chance of this happening is so is much lower than normal.

IN SUMMARY: For young ovulating women (< 35 years of age ) with endometriosis, who have normal reproductive anatomy and have fertile male partners, expectant treatment is often preferable to IUI or IVF. However, for older women, women who (regardless of their age) have any additional factor (e.g. pelvic adhesions, ovarian endometriomas, male infertility, IID or diminished ovarian reserve-DOR) IVF should be the primary treatment of choice.

I strongly recommend that you visit www.DrGeoffreySherIVF.com. Then go to my Blog and access the “search bar”. Type in the titles of any/all of the articles listed below, one by one. “Click” and you will immediately be taken to those you select.  Please also take the time to post any questions or comments with the full expectation that I will (as always) respond promptly.

• The IVF Journey: The importance of “Planning the Trip” Before Taking the Ride”
• Controlled Ovarian Stimulation (COS) for IVF: Selecting the ideal protocol
• IVF: Factors Affecting Egg/Embryo “competency” during Controlled Ovarian Stimulation (COS)
• The Fundamental Requirements For Achieving Optimal IVF Success
• Use of GnRH Antagonists (Ganirelix/Cetrotide/Orgalutron) in IVF-Ovarian Stimulation Protocols.
• Anti Mullerian Hormone (AMH) Measurement to Assess Ovarian Reserve and Design the Optimal Protocol for Controlled Ovarian Stimulation (COS) in IVF:
• The Role of Immunologic Implantation Dysfunction (IID) & Infertility (IID): PART 1-Background
• Immunologic Implantation Dysfunction (IID) & Infertility (IID): PART 2- Making a Diagnosis
• Immunologic Dysfunction (IID) & Infertility (IID): PART 3-Treatment
• Thyroid autoantibodies and Immunologic Implantation Dysfunction (IID)
• Immunologic Implantation Dysfunction: Importance of Meticulous Evaluation and Strategic Management: (Case Report)
• Intralipid and IVIG therapy: Understanding the Basis for its use in the Treatment of Immunologic Implantation Dysfunction (IID)
• Intralipid (IL) Administration in IVF: It’s Composition; how it Works; Administration; Side-effects; Reactions and Precautions
• Natural Killer Cell Activation (NKa) and Immunologic Implantation Dysfunction in IVF: The Controversy!
• Treating Out-of-State and Out-of-Country Patients at Sher-IVF in Las Vegas
• Should IVF Treatment Cycles be provided uninterrupted or be Conducted in 7-12 Pre-scheduled “Batches” per Year
• A personalized, stepwise approach to IVF
• How Many Embryos should be transferred: A Critical Decision in IVF?
• Endometriosis and Immunologic Implantation Dysfunction (IID) and IVF
• Endometriosis and Infertility: Why IVF Rather than IUI or Surgery Should be the Treatment of Choice.
• Endometriosis and Infertility: The Influence of Age and Severity on Treatment Options
• Early -Endometriosis-related Infertility: Ovulation Induction (with or without Intrauterine Insemination) and Reproductive Surgery Versus IVF
• Treating Ovarian Endometriomas with Sclerotherapy.
• Effect of Advanced Endometriosis with Endometriotic cysts (Endometriomas) on IVF Outcome & Treatment Options.
• Deciding Between Intrauterine Insemination (IUI) and In Vitro Fertilization (IVF).
• Intrauterine Insemination (IUI): Who Needs it & who Does Not: Pro’s &
• Induction of Ovulation with Clomiphene Citrate: Mode of Action, Indications, Benefits, Limitations and Contraindications for its use
• Clomiphene Induction of Ovulation: Its Use and Misuse!

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ADDENDUM: PLEASE READ!!

INTRODUCING SHER FERTILITY SOLUTIONS (SFS)

Founded in April 2019, Sher Fertility Solutions (SFS) offers online (Skype/FaceTime) consultations to patients from > 40 different countries. All consultations are followed by a detailed written report presenting my personal recommendations for treatment of what often constitute complex Reproductive Issues.

If you wish to schedule an online consultation with me, please contact my assistant (Patti Converse) by phone (800-780-7437/702-533-2691), email (concierge@SherIVF.com) or,  enroll online on then home-page of my website (www.SherIVF.com). 

PLEASE SPREAD THE WORD ABOUT SFS!

Geoff Sher

I have done this > once. The daughter needs to be >18y and preferably over 21y.

Geoff Sher

This is strongly positive!

Geoff Sher

The blastocyst and the endometrium are in a constant state of cross-talk. In order for successful implantation to take place, the blastocyst must be at the appropriate stage of development, and needs to signal a well synchronized endometrium to ‘accept it”. This dialogue between embryo and endometrium involves growth factors, cytokines, immunologic accommodations, cell adhesion molecules, and transcription factors. These are all mostly genetically driven but are also heavily influenced by numerous physiologic, pathophysiologic, hormonal and molecular mechanisms capable of profoundly affecting the receptivity of the secretory endometrium to the overtures made by the embryo, to implant.

Embryo implantation takes place 6-9 days after ovulation. This period is commonly referred to as the “window of implantation (WOI)”. In the past it was believed that as long as the embryo reached the uterus in this 4 day time frame, its chance of implanting would not be affected.

In 2013, after evaluating 238 genes in the secretory endometrium and applying bioformatics, Ruiz-Alonzo, et all introduced the Endometrial Receptivity Array (ERA) . Using this test, they categorized mid-secretory endometria into 4 categories: “a) proliferative, b) pre-receptive, c) receptive or d) post-receptive”. They claimed that women with pre-receptive or post-receptive endometria were more likely to experience failed implantation post-embryo transfer (ET).

It was in large part this research which suggested that the concept of a relatively “wide” (4day) WOI, was flawed, that an optimal WOI is likely much narrower and could be a critical factor in determining the success or failure of implantation post-ET. Ruiz-Alonzo also  reported that about 25% of women with recurrent IVF failure (RIF), have pre, or post-receptive endometria. They presented data suggesting that  viable IVF pregnancy rates could be enhanced,

by deferring FET by about 24 hours in women who had pre-receptive endometria and bringing ET forward by the same amount of time, in women with post-receptive endometria,

There is no doubt that ERA testing has opened the door to an intriguing arena for research. Presently however, available data is inconclusive. Here, following  recent studies are 2 dissenting opinions regarding  the value for ERA:

• Basil and Casper (2018) state: “Performing the ERA test in a mock cycle prior to a FET does not seem to improve the ongoing pregnancy rate in good prognosis patients. Further large prospective studies are needed to elucidate the role of ERA testing in both good prognosis patients and in patients with recurrent implantation failure”
• Churchill and Comstock (2017)  conclude:” In our preliminary observations, the non-receptive ERA group had similar live birth rates compared to the receptive ERA group. It appears the majority of the pregnancies conceived in the non-receptive group occurred during ovulatory cycles and thus a non-receptive ERA in a medicated cycle likely does not have prognostic value for ovulatory cycles. Larger studies are needed to assess the prognostic value of ERA testing in the gen-eral infertility population.”

There are additional negatives that relate to the considerable emotional and financial cost of doing ERA testing:

1. First, the process costs $600-$1000 to undertake
2. , Second, it requires that the patient undergo egg retrieval, vitrify (cryobank) all blastocysts, res for 1 or more cycles to allow their hormonal equilibrium to restore, do an ERA biopsy to determine the synchronicity of the endometrium, wait a few weeks for the results of the test and thereupon engage in undertaking an additional natural or hormonal preparation cycle for timed FET. This represents a significant time lapse, emotional cost and additional expense.

Presently, ERA testing is only advocated for women who have experienced several IVF failures. However, some authorities are beginning to advocate that it become routine for women undergoing all IVF.

The  additional financial cost inherent in the performance of the ERA test ($600-$1000), the considerable time delay in getting results, the fact that awaiting results of testing and preparing the patient for FET, of necessity extends the completion of the IVF/ET process by at least a few months, all serve to increase the emotional and financial hardship confronting patients undergoing ERA. Such considerations, coupled with the current absence of conclusive data that confirm efficacy, are arguments against the widespread use of ERA . In my opinion, ERA testing should presently be considered as being  one additional diagnostic and be confined to women with “unexplained” RIF.

Gold standard statistical analyses require that all confounding variables be controlled while examining the effect of altering the one under assessment. There is an obvious interplay of numerous, ever changing variables involved in outcome following ET,  e.g. embryo competency, anatomical configuration of the uterus and the contour of the endometrial cavity, endometrial thickness, immunologic and molecular factors as well as the very important  effect of technical skill/expertise in performing the  ET procedure …(to mention but a few). It follows that it is virtually impossible to draw reliable conclusions from IVF-related randomized controlled studies that use outcome as the end-point. This applies equally to results reported following “ gold standard”  testing on the efficacy of ERA and, is one of the main reasons why I question the reliability of reported data (positive or negative).

The fact is that IVF (and related technologies) constitute neither a “pure science” nor a “pure art”. Rather they represent an “art-science blend”, where scientific principles applied to longitudinal experience and technical expertise coalesce to produce a biomedical product that will invariably differ (to a greater or lesser degree) from one set of clinical circumstances to another.

Since, the ultimate goal of applied Assisted Reproductive Medicine is to safely achieve the birth of a viable and healthy baby, the tools we apply, that are aimed at achieving this end-point, are honed through the adaptation of scientific principles and concepts, experience and expertise, examined and tested longitudinally over time. Needless to say, the entire IVF/ET process is of necessity subject to change and adaptation as new scientific and technical developments emerge.

This absolutely applies to the ERA as well!

Of course all the factors you mention and many more are part of the screening process. Also, I advocate that you meet with the surrogate.

IVF surrogacy involves the transfer of one or more embryos into the uterus of a surrogate, who provides a host womb and carries the baby to term, but does not contribute genetically to the baby. Typically, the intended mother provides the eggs and her partner (the intended father) provides the sperm. However, at times eggs and/or sperm may be derived from gamete donors. While ethical, moral, and medico‑legal issues still apply, IVF surrogacy appears to have gained social acceptance. We offer IVF surrogacy as an option at Sher Fertility Solutions (SFS().

Candidates for IVF surrogacy can be divided into two groups: (1) women who are not capable of carrying a pregnancy to full term due to: their uterus having been surgically removed (hysterectomy), disease, or developmental absence of the uterus (from birth) and (2) women who have been advised against undertaking a pregnancy because of systemic illnesses such as diabetes, heart disease, hypertension, etc.

As in preparation for other assisted reproductive techniques, the biological/intended parents, the surrogate and/or donors undergo a thorough clinical, psychological, and laboratory assessment prior to embarking on the process. The purpose is to exclude sexually transmitted diseases that might damage eggs, sperm and embryos, or be carried to the surrogate with embryo transfer. They are also counseled on issues faced by all IVF participants such as the possibility of multiple gestation, miscarriage and ectopic pregnancy.

All legal issues pertaining to custody and the rights of the biological parents and the surrogate should be discussed in detail and the appropriate consent forms completed following full disclosure. We recommend that the surrogate and biological/intended parents get separate legal counsel to avoid any conflict of interest that could arise were one attorney to counsel both parties.

Selecting a Surrogate

Couples with the necessary financial resources will usually retain a surrogacy agency to find a suitable IVF surrogacy candidate. We direct our patients to reputable surrogacy agencies who have access to quality surrogates. Because the surrogate gives birth, it is rarely possible or even realistic for her to remain anonymous.

Since recruiting a gestational surrogate from an agency can be very expensive, many infertile couples who qualify for IVF surrogate parenting solicit the assistance of empathic friends or family members to act as surrogates.

Other couples independently seek surrogates by advertising in the media.

Screening the Surrogate

Once the surrogate has been selected, she will undergo thorough medical and psychological evaluations, including:

1. Cervical cultures and/or blood tests to screen for infection with sexually transmitted bacteria such chlamydia, ureaplasma, gonococcus and syphilis or viruses such as cytomegalic virus, HIV, HTLV, and hepatitis.
2. A variety of blood‑hormone tests, such as the measurement of plasma prolactin and thyroid‑stimulating hormone (TSH) and tests to ensure that the surrogate is immune to the development of rubella (German measles).
3. Physical evaluation
4. Psychological assessment

When friends or family members serve as IVF surrogates they should be be carefully assessed to ascertain whether they might have been coerced to participate. This is especially important when a young family member is being recruited.

The surrogate should also be counseled on issues such as risks and consequences of multiple pregnancies. Such discussions should include agreement on the number of embryos to be transferred and the delicate issue of selective pregnancy reduction , in the event of a high order multiple pregnancy (triplets or greater).

The surrogate should visit with her designated IVF physician who should take her medical history and perform a thorough physical examination. Thereupon she should have a full consultation with the nurse coordinator charged with oversight of her treatment. The coordinator will outline the exact IVF-surrogacy process step by step, will make certain that the surrogate understands that she has full right of access to the clinic staff and that her concerns will be addressed promptly at all times. The surrogate should also be informed that if pregnancy occurs, she will be referred to a qualified obstetrician or perinatologist for prenatal care and delivery.

Once a viable pregnancy is confirmed by ultrasound recognition of a fetal heartbeat (at the 6th-7th week), there is a better than 85% chance that the pregnancy will proceed normally to term. Once the pregnancy has progressed beyond the 12th week, the chance of a healthy baby being born is upward of 95%.

At Sher Fertility Solutions (SFS), depending on the age of the egg provider (under 39 years) and her having normal ovarian reserve, we would anticipate approximately a 40%-50% birthrate every time good quality advanced embryos (expanded blastocysts) are transferred. The birthrate falls with further advancement in the age of the egg provider and with diminishing ovarian reserve. It is important to note that there is no convincing evidence to suggest an increase in the incidence of spontaneous miscarriage or birth defects as a direct result of IVF surrogacy.

If the surrogate’s blood pregnancy tests are negative, treatment with estrogen, progesterone and corticosteroids is discontinued, and she can expect to menstruate within four to 10 days. In the event that the pregnancy test is positive, estrogen, progesterone and steroid therapy are continued till the 10th week of pregnancy.

After the evaluation and counseling of both the couple and the surrogate has been completed, the three parties should meet. And, once all the evaluations have been completed, the intended parents will select a date to begin treatment.

Synchronizing the Cycles of Surrogate and Aspiring Mother

Both the surrogate and the egg provider are placed on monophasic birth control pills (BCP) for 10-25 days. The objective ist to insure that they both start menstruating around the same date so as to launch their cycle of treatment together. Thus the duration that each would remain on the BCP will depend on the desired timing of the start of the IVF treatment cycle. At some point while taking the BCP, both parties will overlapped the BCP with a GnRH agonist (GnRHa) such as Lupron for a period of approximately 2-3 days, whereupon the BCP will be stopped and the Lupron continued. Menstruation will follow (in both) within a few days.

At this point the egg provider begins controlled ovarian stimulation (COS) with gonadotropins while the IVF surrogate commences corticosteroid (dexamethasone or prednisone) therapy and either, twice weekly injections of estradiol valerate (Delestrogen) or daily estradiol skin patches. Blood estradiol measurements are taken twice weekly and the dosage of administered estradiol is adjusted so as to attain a blood estradiol level of between 500 and 1,000pg/ml. Then, as soon as the egg provider (based on hormonal testing and ultrasound follicle assessment) receives the hCG “trigger shot” the surrogate starts receiving daily intramuscular progesterone injections ( while continuing estradiol therapy). In the case of day 3 embryo transfers, this continues for 4 days prior to the embryo transfer and in the case of blastocyst transfers, for 6 days.

Preimplantation Genetic Sampling (PGS) Selection-the Ideal Approach for Gestational Surrogacy

PGS of embryos via next generation gene sequencing (NGS) requires that the woman’s IVF cycle be broken into two parts – the first involving stimulation, egg retrieval, fertilization, and removal of a cell from the embryo for testing. Because CGH testing requires 4-5 weeks to obtain results, the embryos are frozen while the testing is performed on the removed cell. The woman then returns at a later date for her embryo transfer. We call this process “Staggered IVF “. The same approach to ET can be used with gestational surrogacy and the same 60+% birth rate can be anticipated when CGH-normal embryos are transferred. In fact, Staggered IVF lends itself to Gestational Surrogacy because it is possible in this way to completely segregate the ovarian stimulation process from the ET. This allows couples seeking gestational surrogacy to delay identifying and recruiting a surrogate until they are assured of having “competent” embryos available for transfer.

Management and Follow‑up after the Embryo Transfer

Following embryo transfer, the surrogate will be given daily progesterone injections and bi-weekly estradiol valerate injections and/or suppositories in order to sustain an optimal environment for implantation. Approximately 10 days after the embryo transfer, she will undergo a pregnancy test. A positive test indicates that implantation is taking place. In such an event, the hormone injections will be continued for an additional four to six weeks. In the interim, an ultrasound examination will be performed to definitively diagnose a clinical pregnancy. If the test is negative, all hormonal treatment is discontinued, and menstruation will ensue within three to 10 days. If the surrogate does not conceive, the aspiring mother may have her remaining embryos frozen, to be thawed and transferred to the uterus of the surrogate at a later date. If, in spite of both the initial attempt and subsequent transfer of thawed embryos the surrogate does not conceive, the infertile couple may schedule a new cycle of treatment.

Toward the Bioethics of IVF Surrogacy

The determination of ethical guidelines has not kept pace with the exploding growth and development in IVF. However, some leaders in the field are working together, sharing experiences and advice, in an attempt to formulate a code of ethics.

The genetic combination of the male and the female provide two of the essential elements which, along with gestation, are necessary to produce a human being. The two‑out‑of‑three rule basically looks at these three elements: the egg, the sperm, and the gestational component. If at all possible, I recommend that at least two of these three components be contributed by the intended parents. If they can only contribute one, it is important to make every effort not to have the other two contributed by the same person (i.e., the egg provider should not also be the surrogate) as this can cause a variety of problems.

 PH: 702-533-2691 for online consultation with me.

Perhaps we should talk!

702-533-2691

I would not advise using this embryo!

Human embryo development occurs through a process that encompasses reprogramming, sequential cleavage divisions and mitotic chromosome segregation and embryonic genome activation. Chromosomal abnormalities may arise during germ cell and/or preimplantation embryo development and represents a major cause of early pregnancy loss. More than 15 years ago, we were the first to introduce full embryo karyotyping (identification of all 46 chromosomes) through preimplantation genetic sampling (PGS) as  a method by which to selectively transfer only euploid embryos (i.e. those that have a full component of chromosomes) to the uterus. We subsequently reported on a 2-3-fold improvement in implantation and birth rates as well as a significant reduction in early pregnancy loss, following IVF. Since then PGS has grown dramatically in popularity such that it is now widely used throughout the world.

Many IVF programs that offer PGS/PGT-A services, require that all participating patients consent to all their aneuploid embryos (i.e. those with an irregular quota of chromosomes) be disposed of. However, a  growing  body of evidence  suggests  that following embryo transfer, some aneuploid embryos will in the process of ongoing development,  convert to the euploid state (i.e. “autocorrect”) and then go on to develop into chromosomally normal offspring. In fact, I am personally aware of several such cases having occurred in my own practice. So clearly, summarily discarding all aneuploid embryos as a matter of routine we are sometimes destroying some embryos that might otherwise have “autocorrected” and gone on to develop into normal offspring. Thus, by discarding aneuploid embryos the possibility exists that we could be denying some women the opportunity of having a baby. This creates a major ethical and moral dilemma for those of us that provide the option of PGS/PGT-A to our patients. On the one hand, we strive “to avoid knowingly doing harm” (the Hippocratic Oath) and as such would prefer to avoid or minimize the risk of miscarriage and/or chromosomal birth defects and on the other hand we would not wish to deny patients with aneuploid embryos, the opportunity to have a baby.

The basis for such embryo “autocorrection” lies in the fact that some embryos found through PGS/PGT-A-karyotyping to harbor one or more aneuploid cells (blastomeres) will often also harbor chromosomally normal (euploid) cells (blastomeres). The coexistence of both aneuploid and euploid cells coexisting in the same embryo is referred to as “mosaicism.”

It is against this background, that an ever-increasing number of IVF practitioners, rather than summarily discard PGS-identified aneuploid embryos are now choosing to cryobanking (freeze-store) certain of them, to leave open the possibility of ultimately transferring them to the uterus. In order to best understand the complexity of the factors involved in such decision making, it is essential to understand the causes of embryo aneuploidy of which there are two varieties:

1. Meiotic aneuploidy” results from aberrations in chromosomal numerical configuration that originate in either the egg (most commonly) and/or in sperm, during preconceptual maturational division (meiosis). Since meiosis occurs in the pre-fertilized egg or in and sperm, it follows that when aneuploidy occurs due to defective meiosis, all subsequent cells in the developing embryo/blastocyst/conceptus inevitably will be aneuploid, precluding subsequent “autocorrection”. Meiotic aneuploidy will thus invariably be perpetuated in all the cells of the embryo as they replicate. It is a permanent phenomenon and is irreversible. All embryos so affected are thus fatally damaged. Most will fail to implant and those that do implant will either be lost in early pregnancy or develop into chromosomally defective offspring (e.g. Down syndrome, Edward syndrome, Turner syndrome).
2. Mitotic aneuploidy (“Mosaicism”) occurs when following fertilization and subsequent cell replication (cleavage), some cells (blastomeres) of a meiotically normal (euploid) early embryo mutate and become aneuploid. This is referred to as “mosaicism”. Thereupon, with continued subsequent cell replication (mitosis) the chromosomal make-up (karyotype) of the embryo might either comprise of predominantly aneuploid cells or euploid cells. The subsequent viability or competency of the conceptus will thereupon depend on whether euploid or aneuploid cells predominate. If in such mosaic embryos aneuploid cells predominate, the embryo will be “incompetent”). If (as is frequently the case) euploid cells prevail, the mosaic embryo will likely be “competent” and capable of propagating a normal conceptus.

Since some mitotically aneuploid (“mosaic”) embryos can, and indeed do “autocorrect’ while meiotically aneuploid embryos cannot, it follows that an ability to reliably differentiate between these two varieties of aneuploidy would potentially be of considerable clinical value. The recent introduction of a variety of preimplantation genetic screening (PGS) known as next generation gene sequencing (NGS) has vastly improved the ability to reliably and accurately karyotype embryos and thus to diagnose embryo “mosaicism”.

Most complex aneuploidies are meiotic in origin and will thus almost invariably fail to propagate viable pregnancies. The ability of mosaic embryos to autocorrect is influenced by stage of embryo development in which the diagnosis is made, which chromosomes are affected, whether the aneuploidy involves a single chromosome (simple) or involves 3 or more chromosomes (complex), and the percentage of cells that are aneuploid. Many embryos diagnosed as being mosaic prior to their development into blastocysts (in the cleaved state), subsequently undergo autocorrection to the euploid state (normal numerical chromosomal configuration) as they develop to blastocysts in the Petri dish. This is one reason why “mosaicism” is more commonly detected in early embryos than in blastocysts. Embryos with segmental mosaic aneuploidies, i.e. the addition (duplication) or subtraction (deletion), are also more likely to autocorrect.  Finally, the lower the percentage of mitotically aneuploid (mosaic) cells in the blastocyst the greater the propensity for autocorrection and propagation of chromosomally normal (euploid) offspring. A blastocyst with <30% mosaicism could yield a 30% likelihood of a healthy baby rate with 10-15% miscarriage rate, while with >50% mosaicism the baby rate is roughly halved and the miscarriage rate double.

As stated, the transfer of embryos with autosomal meiotic trisomy, will invariably result in failed implantation, early miscarriage or the birth of a defective child. Those with autosomal mitotic (“mosaic”) trisomies, while having the ability to autocorrect in-utero and result in the birth of a healthy baby can, depending on the percentage of mosaic (mitotically aneuploid) cells present, the number of aneuploid chromosomes and the type of mosaicism (single or segmental) either autocorrect and propagate a normal baby, result in failed implantation, miscarry or cause a birth defect (especially with trisomies 13, 18 or 21). This is why when it comes to giving consideration to transferring trisomic embryos, suspected of being “mosaic”, I advise patients to undergo prenatal genetic testing once pregnant and to be willing to undergo termination of pregnancy in the event of the baby being affected. Conversely, when it comes to meiotic autosomal monosomy, there is almost no chance of a viable pregnancy. in most cases implantation will fail to occur and if it does, the pregnancy will with rare exceptions, miscarry. “Mosaic” (mitotically aneuploid) autosomally monosomic embryos where a chromosome is missing), can and often will “autocorrect” in-utero and propagate a viable pregnancy. It is for this reason that I readily recommend the transfer of such embryos, while still (for safety’s sake) advising prenatal genetic testing in the event that a pregnancy results.

What should be done with “mosaic embryos? While the ability to identify “mosaicism” through karyotyping of embryos has vastly improved, it is far from being absolutely reliable. In fact, I personally have witnessed a number of healthy/normal babies born after the transfer of aneuploid embryos, previously reported on as revealing no evidence of “mosaicism”.  However, the question arises as to which “mosaic” embryos are capable of autocorrecting in-utero and propagating viable pregnancies. Research suggests that that embryos with autosomal monosomy very rarely will propagate viable pregnancies. Thus, it is in my opinion virtually risk-free to transfer embryos with monosomies involving up to two (2) autosomes. The same applies to the transfer of trisomic embryos where up to 2 autosomes are involved. Only here, there is a risk of birth defects (e.g. trisomy 21/18, etc.) and any resulting pregnancies need to be carefully assessed and if needed/desired, be ended. Regardless, it is essential to make full disclosure to the patient (s), and to ensure the completion of a detailed informed consent agreement which would include a commitment by the patient (s) to undergo prenatal genetic testing (amniocentesis/CVS) aimed at excluding a chromosomal defect in the developing baby and/or a willingness to terminate the pregnancy should a serious birth defect be diagnosed. Blastocysts with aneuploidies involving > 2 autosomes  are complex abnormal and should in my opinion, be discarded.

I strongly recommend that you visit www.SherIVF.com. Then go to my Blog and access the “search bar”. Type in the titles of any/all of the articles listed below, one by one. “Click” and you will immediately be taken to those you select.  Please also take the time to post any questions or comments with the full expectation that I will (as always) respond promptly.

• A Fresh Look at the Indications for IVF
• The IVF Journey: The importance of “Planning the Trip” Before Taking the Ride”
• Controlled Ovarian Stimulation (COS) for IVF: Selecting the ideal protocol
• IVF: Factors Affecting Egg/Embryo “competency” during Controlled Ovarian Stimulation(COS)
• The Fundamental Requirements For Achieving Optimal IVF Success
• Use of GnRH Antagonists (Ganirelix/Cetrotide/Orgalutron) in IVF-Ovarian Stimulation Protocols.
• Anti Mullerian Hormone (AMH) Measurement to Assess Ovarian Reserve and Design the Optimal Protocol for Controlled Ovarian Stimulation (COS) in IVF.
• Controlled Ovarian Stimulation (COS) in Older women and Women who have Diminished Ovarian Reserve (DOR): A Rational Basis for Selecting a Stimulation Protocol
• Optimizing Response to Ovarian Stimulation in Women with Compromised Ovarian Response to Ovarian Stimulation: A Personal Approach.
• Hereditary Clotting Defects (Thrombophilia)
• Blastocyst Embryo Transfers done 5-6 Days Following Fertilization are Fast Replacing Earlier day 2-3 Transfers of Cleaved Embryos.
• Embryo Transfer Procedure: The “Holy Grail in IVF.
• Timing of ET: Transferring Blastocysts on Day 5-6 Post-Fertilization, Rather Than on Day 2-3 as Cleaved Embryos.
• IVF: Approach to Selecting the Best Embryos for Transfer to the Uterus.
• Fresh versus Frozen Embryo Transfers (FET) Enhance IVF Outcome
• Frozen Embryo Transfer (FET): A Rational Approach to Hormonal Preparation and How new Methodology is Impacting IVF.
• Staggered IVF
• Staggered IVF with PGS- Selection of “Competent” Embryos Greatly Enhances the Utility & Efficiency of IVF.
• Staggered IVF: An Excellent Option When. Advancing Age and Diminished Ovarian Reserve (DOR) Reduces IVF Success Rate
• Embryo Banking/Stockpiling: Slows the “Biological Clock” and offers a Selective Alternative to IVF-Egg Donation
• Preimplantation Genetic Testing (PGS) in IVF: It should be Used Selectively and NOT be Routine.
• IVF: Selecting the Best Quality Embryos to Transfer
• Preimplantation Genetic Sampling (PGS) Using: Next Generation Gene Sequencing (NGS): Method of Choice.
• PGS and Assessment of Egg/Embryo “competency”: How Method, Timing and Methodology Could Affect Reliability
• IVF outcome: How Does Advancing Age and Diminished Ovarian Reserve (DOR) Affect Egg/Embryo “Competency” and How Should the Problem be addressed.

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ADDENDUM: PLEASE READ!!

INTRODUCING SHER FERTILITY SOLUTIONS (SFS)

Founded in April 2019, Sher Fertility Solutions (SFS) offers online (Skype/FaceTime) consultations to patients from > 40 different countries. All consultations are followed by a detailed written report presenting my personal recommendations for treatment of what often constitute complex Reproductive Issues.

If you wish to schedule an online consultation with me, please contact my assistant (Patti Converse) by phone (800-780-7437/702-533-2691), email (concierge@SherIVF.com) or,  enroll online on then home-page of my website (www.SherIVF.com). 

PLEASE SPREAD THE WORD ABOUT SFS!

Geoff Sher

THERE WOULD IN MY OPINION BE NO PROBLEM!

It is primarily the egg (rather than the sperm) that determines the chromosomal integrity (karyotype) of the embryo, the most important determinant of egg/embryo competency”. A “competent” egg is therefore one that has a normal karyotype and has the best potential to propagate a “competent” embryo. In turn, a “competent embryo is one that possesses the highest potential to implant and develop into a normal, healthy, baby.

When it comes to reproductive performance, humans are the least efficient of all mammals. Even in young women under 35y, at best only 2 out of 3 eggs are chromosomally numerically normal (euploid). The remainder will have an irregular number of chromosomes (aneuploid) and are thus “incompetent”. The incidence of egg aneuploidy increases with age such by age 39 years, 3 in 4 are “competent”, and by the mid-forties, at best one in 10 are likely to be aneuploid. The fertilization of an aneuploid egg will inevitably lead to embryo aneuploidy (“incompetence”). As previously stated,   an aneuploid embryo cannot propagate a normal pregnancy

Within 38-42 hours of the initiation of the spontaneous pre-ovulatory luteinizing hormone (LH) surge (and also following administration of the human chorionic gonadotropin (hCG) “trigger” shot, given to induce egg maturation after ovarian stimulation with fertility drugs), the egg embarks on a rapid maturational process that involves halving of its 46 chromosomes to 23. During this process, (known as meiosis) 23 chromosomes are retained within the nucleus of the egg while the remaining 23 chromosomes are expelled in a membrane envelopment, from the egg nucleus. This small structure known as the polar body, comes to lie immediately below the “shell” of the egg (the zona pellucida) and is known as the 1st polar body or PB-1. The sperm, in the process of its maturation also undergoes meiosis divides into two separate functional gametes, each containing 23 chromosomes (half its original number of 46 chromosomes).  With subsequent fertilization, the 23 chromosomes of the egg now fuse with the 23 chromosomes of the mature sperm resulting in the development of an embryo with  46 chromosomes (the normal human genome) comprising a combination of the genetic material from both partners. For the embryo to have exactly 46 chromosomes (the euploid number), both the mature egg and mature spermatozoon must contain exactly 23 chromosomes. Only such euploid embryos are “competent” (capable of developing into healthy babies). Those with an irregular number of chromosomes (aneuploid embryos) are “incompetent” and are incapable of propagating healthy babies. While embryo “incompetence” can result from either egg or sperm aneuploidy, it usually stems from egg aneuploidy. However, in cases of moderate or severe male factor infertility, the sperm’s contribution to aneuploidy of the embryo can be significantly greater.

While embryo ploidy (numerical chromosomal integrity) is not the only determinant of its “competency, it is by far the most important and in fact is a rate-limiting factor in human reproduction. It is causal in the vast majority of cases of “failed nidation which in turn is responsible for most cases of a failed pregnancy (natural or assisted) and causes most sporadic early pregnancy losses (both chemical gestations and miscarriages) as well as  many chromosomal birth defects such as Turner syndrome (X-monosomy ) Down syndrome (trisomy 21) and Edward syndrome (trisomy 18) .

In most cases, embryos that develop too slowly as well as those that grow too fast (i.e. ones that by day 3 post-fertilization comprise fewer than 6 cells or more than 9 cells) and/or embryos that contain cell debris or “fragments” are usually aneuploid and are thus unable to propagate a healthy pregnancy (“incompetent”). Additionally, embryos that fail to survive in culture to the blastocyst stage are also almost always aneuploid/”incompetent”.

At a certain point in the later stage of a woman’s reproductive career, the number of remaining eggs in her ovaries falls below a certain threshold, upon which she is unable to respond optimally to fertility drugs. Often times this is signaled by a rising day 3 basal blood follicle stimulating hormone (FSH) level (>9.0MIU/ml) and a falling blood anti-Mullerian hormone (AMH) level (<2.0ng/ml or <15nmol/L). Such women who have  diminished ovarian reserve (DOR) produce fewer eggs in response to ovarian stimulation. While DOR is most commonly encountered in women over 40 years of age it can and indeed also can occur in much younger women.

A few important (but often overlooked concepts should be considered in this regard:

• Age: It is advancing chronologic age and NOT declining ovarian reserve (as evidenced by abnormal blood AMH or FSH that results in an increased incidence of egg/embryo “incompetence” due to aneuploidy
• The ovaries and developing eggs of women with DOR (regardless of age) are highly susceptible to the adverse effect of excessive Luteinizing Hormone (LH)-induced, ovarian overproduction of male hormones (e,g. testosterone and androstenedione). While a little testosterone produced by the ovary promotes normal follicle growth and orderly egg development excessive testosterone has a converse effect. That is why in older women and those who regardless of their age have DOR (and thus excessive LH bioavailability and increased ovarian testosterone production), the use of ovarian stimulation protocols that fail to down-regulate LH activity prior to initiating ovarian stimulation with gonadotropins, often prejudices egg/embryo quality and IVF outcome.
• Simply stated, while age is certainly the most important factor in determining the incidence of egg/embryo aneuploidy, women with DOR (regardless of their age), are less likely to propagate euploid (competent) eggs/embryos. While virtually nothing can be done to lower the incidence of age related aneuploidy, it is indeed possible to avoid a further decrease in egg/embryo “competency”  by individualizing the protocols of ovarian stimulation used.
• My preferred protocols for women who have relatively normal ovarian reserve:
• The conventional long pituitary down regulation protocol: BCP are commenced early in the cycle and continued for at least 10 days. Starting 3 days before the BCP is to be discontinued, it is overlapped with an agonist such as Lupron 10U daily for three (3) days and continued until menstruation begins (which should ensue within 5-7 days of stopping the BCP). At that point an US examination is done along with a baseline measurement of blood estradiol to exclude a functional ovarian cyst. Daily Lupron (10U) is continued and an FSH-dominant gonadotropin such as Follistim, Puregon or Gonal-f daily is administered daily falong with 37.5U of Menopur (an FSH/LH combination) for 2 days. On the 3^rd day the gonadotropin dosage is reduced by about one half and the dosage of Menopur is increased to 75U daily. Daily ultrasound and blood estradiol measurements are conducted starting on the 7^th or 8^th day of gonadotropin administration and continued until daily ultrasound follicle assessments indicate that most follicles have fully developed. At this point egg maturation is “triggered” using an intramuscular injection of a recombinant hCGr (Ovidrel) 500mcg or urinary derived hCGu (Pregnyl/Profasi/Novarel) 10,000U. And an egg retrieval is scheduled for 36h later.
• The agonist/antagonist conversion protocol (A/ACP): This is essentially the same as the conventional long down regulation protocol (see “a”-as above), except that with the onset of post-BCP menstruation, the agonist is supplanted by daily administration of a GnRH antagonist (e.g. Ganirelix, Cetrotide or Orgalutron) at a dosage of 125-250mcg daily until the day of the “trigger”. When it comes to women who have DOR I favor the use of the A/ACP, adding supplementary human growth hormone (HGH). In cases where the DOR is regarded as severe (AMH=<0.2), I often augment  the AACP protocol by using estrogen priming for 7-9 days prior to or with the commencement of gonadotropin therapy; For this I prescribe E2 skin patches  or intramuscular  estradiol valerate (Delestrogen), prior to or sometimes concurrent with, the  commencement of the GnRH antagonist administration.
• The following Ovarian stimulation protocols are in my opinion best avoided in stimulating olderf women and /or thosed who regardless of age , have  DOR :

1. Microdose agonist (e.g. Lupron) “flare” protocols which result in an out-pouring of pituitary-LH at the critical time that ovarian follicles and eggs start developing/growing.
2. High dosages of LH -containing fertility drugs (e.g. Menopur).
3. Supplementation with preparations that are testosterone-based
4. Supplementation with DHEA (which is converted to testosterone in the ovaries.
5. Clomiphene citrate or Letrozole which cause increased release of LH and thus increase ovarian male hormone (testosterone and androstenedione output.
6. “Triggering” egg maturation using too low a dosage of hCG (e.g. 5,000U rather than 10,000U) or Ovidrel (e.g. 250mcg of Ovidrel rather than 500mcg)
7. “Triggering” women who have DOR, with an agonist (alone)such as Lupron Superfact/ Buserelin/Aminopeptidyl/Decapeptyl.

• Preimplantation Genetic Screening (PGS):

The introduction of preimplantation genetic testing/screening (PGT/PGS) for e permits identification of all the chromosomes in the egg and embryo (full karyotyping) allowing for the  identification of the most “competent” (euploid) embryos for selective transfer to the uterus. This vastly improves the efficiency and success of the IVF process and renders us fare better equipped us to manage older women and those who regardless of their age, have DOR.

I published on this 25y ago.

Sher G, Maassarani G, Zouves C, Feinman M, Sohn S, Matzner W, Chong P, Ching W. “The use of Combined Heparin/Aspirin and Immunoglobulin G. Therapy in the Treatment of IVF Patients with Antithyroid Antibodies” Am J Repr Immunol, 1998; 39:223-5.

often advised to first try ovarian stimulation (ovulation Induction) with intrauterine insemination (IUI) ………as if to say that this would be just as likely to result in a baby as would in vitro fertilization (IVF). Nothing could be further from reality It is time to set the record straight. And hence this communication!

Bear in mind that the cost of treatment comprises both financial and emotional components and that it is the cost of having a baby rather than cost of a procedure. Then consider the fact that regardless of her age or the severity of the condition, women with infertility due to endometriosis are several fold more likely to have a baby per treatment cycle of IVF than with IUI. It follows that there is a distinct advantage in doing IVF first, rather than as a last resort.

So then, why is it that ovulation induction with or without IUI is routinely offered proposed preferentially to women with mild to moderately severe endometriosis? Could it in part be due to the fact that most practicing doctors do not provide IVF services but are indeed remunerated for ovarian stimulation and IUI services and are thus economically incentivized to offer IUI as a first line approach? Or is because of the often erroneous belief that the use of fertility drugs will in all cases induce the release (ovulation) of multiple eggs at a time and thereby increase the chance of a pregnancy. The truth however is that while normally ovulating women (the majority of women who have mild to moderately severe endometriosis) respond to ovarian stimulation with fertility drugs by forming multiple follicles, they rarely ovulate > 1 (or at most 2) egg at a time. This is because such women usually only develop a single dominant follicle which upon ovulating leaves the others intact. This is the reason why normally ovulating women who undergo ovulation induction usually will not experience improved pregnancy potential, nor will they have a marked increase in multiple pregnancies. Conversely, non-ovulating women (as well as those with dysfunctional ovulation) who undergo ovulation induction, almost always develop multiple large follicles that tend to ovulate in unison. This increases the potential to conceive along with an increased risk multiple pregnancies.

So let me take a stab at explaining why IVF is more successful than IUI or surgical correction in the treatment of endometriosis-related infertility:

1. The toxic pelvic factor: Endometriosis is a condition where the lining of the uterus (the endometrium) grows outside the uterus. While this process begins early in the reproductive life of a woman, with notable exceptions, it only becomes manifest in the 2ndhalf of her reproductive life. After some time, these deposits bleed and when the blood absorbs it leaves a visible pigment that can be identified upon surgical exposure of the pelvis. Such endometriotic deposits invariably produce and release toxins” into the pelvic secretions that coat the surface of the membrane (the peritoneum) that envelops all abdominal and pelvic organs, including the uterus, tubes and ovaries. These toxins are referred to as “the peritoneal factor”. Following ovulation, the egg(s) must pass from the ovary (ies), through these toxic secretions to reach the sperm lying in wait in the outer part the fallopian tube (s) tube(s) where, the sperm lie in waiting. In the process of going from the ovary(ies) to the Fallopian tube(s) these eggs become exposed to the “peritoneal toxins” which alter s the envelopment of the egg (i.e. zona pellucida) making it much less receptive to being fertilized by sperm. As a consequence, if they are chromosomally normal such eggs are rendered much less likely to be successfully fertilized. Since almost all women with endometriosis have this problem, it is not difficult to understand why they are far less likely to conceive following ovulation (whether natural or induced through ovulation induction). This “toxic peritoneal factor impacts on eggs that are ovulated whether spontaneously (as in natural cycles) or following the use of fertility drugs and serves to explain why the chance of pregnancy is so significantly reduced in normally ovulating women with endometriosis.
2. The Immunologic Factor: About one third of women who have endometriosis will also have an immunologic implantation dysfunction (IID) linked to activation of uterine natural killer cells (NKa).  This will require selective immunotherapy with Intralipid infusions, and/or heparinoids (e.g. Clexane/Lovenox) that is much more effectively implemented in combination with IVF.
3. Surgical treatment of mild to moderate endometriosis does not usually improve pregnancy potential:. The reason is that endometriosis can be considered to be a “work in progress”. New lesions are constantly developing. So it is that for every endometriotic seen there are usually many non-pigmented deposits that are in the process of evolving but are not yet visible to the naked eye and such evolving (non-visible) lesions can also release the same “toxins that compromise fertilization. Accordingly, even after surgical removal of all visible lesions the invisible ones continue to release “toxins” and retain the ability to compromise natural fertilization. It also explains why surgery to remove endometriotic deposits in women with mild to moderate endometriosis usually will fail to significantly improve pregnancy generating potential. In contrast, IVF, by removing eggs from the ovaries prior to ovulation, fertilizing these outside of the body and then transferring the resulting embryo(s) to the uterus, bypasses the toxic pelvic environment and is therefore is the treatment of choice in cases of endometriosis-related infertility.
4. Ovarian Endometriomas: Women, who have advanced endometriosis, often have endometriotic ovarian cysts, known as endometriomas. These cysts contain decomposed menstrual blood that looks like melted chocolate…hence the name “chocolate cysts”. These space occupying lesions can activate ovarian connective tissue (stroma or theca) resulting in an overproduction of male hormones (especially testosterone). An excess of ovarian testosterone can severely compromise follicle and egg development in the affected ovary. Thus there are two reasons for treating endometriomas. The first is to alleviate symptoms and the second is to optimize egg and embryo quality. Conventional treatment of endometriomas involves surgical drainage of the cyst contents with subsequent removal of the cyst wall (usually by laparoscopy), increasing the risk of surgical complications. We recently reported on a new, effective and safe outpatient approach to treating endometriomas in women planning to undergo IVF. We termed the treatment ovarian Sclerotherapy.  The process involves; needle aspiration of the “chocolate colored liquid content of the endometriotic cyst, followed by the injection of 5% tetracycline hydrochloride into the cyst cavity. Such treatment will, more than 75% of the time result in disappearance of the lesion within 6-8 weeks. Ovarian sclerotherapy can be performed under local anesthesia or under conscious sedation. It is a safe and effective alternative to surgery for definitive treatment of recurrent ovarian endometriomas in a select group of patients planning to undergo IVF

 I am not suggesting that all women with infertility-related endometriosis should automatically resort to IVF. Quite to the contrary…. In spite of having reduced fertility potential, many women with mild to moderate endometriosis can and do go on to conceive on their own (without treatment). It is just that the chance of this happening is so is much lower than normal.

IN SUMMARY: For young ovulating women (< 35 years of age ) with endometriosis, who have normal reproductive anatomy and have fertile male partners, expectant treatment is often preferable to IUI or IVF. However, for older women, women who (regardless of their age) have any additional factor (e.g. pelvic adhesions, ovarian endometriomas, male infertility, IID or diminished ovarian reserve-DOR) IVF should be the primary treatment of choice.

I strongly recommend that you visit www.DrGeoffreySherIVF.com. Then go to my Blog and access the “search bar”. Type in the titles of any/all of the articles listed below, one by one. “Click” and you will immediately be taken to those you select.  Please also take the time to post any questions or comments with the full expectation that I will (as always) respond promptly.

• The IVF Journey: The importance of “Planning the Trip” Before Taking the Ride”
• Controlled Ovarian Stimulation (COS) for IVF: Selecting the ideal protocol
• IVF: Factors Affecting Egg/Embryo “competency” during Controlled Ovarian Stimulation (COS)
• The Fundamental Requirements For Achieving Optimal IVF Success
• Use of GnRH Antagonists (Ganirelix/Cetrotide/Orgalutron) in IVF-Ovarian Stimulation Protocols.
• Anti Mullerian Hormone (AMH) Measurement to Assess Ovarian Reserve and Design the Optimal Protocol for Controlled Ovarian Stimulation (COS) in IVF:
• The Role of Immunologic Implantation Dysfunction (IID) & Infertility (IID): PART 1-Background
• Immunologic Implantation Dysfunction (IID) & Infertility (IID): PART 2- Making a Diagnosis
• Immunologic Dysfunction (IID) & Infertility (IID): PART 3-Treatment
• Thyroid autoantibodies and Immunologic Implantation Dysfunction (IID)
• Immunologic Implantation Dysfunction: Importance of Meticulous Evaluation and Strategic Management: (Case Report)
• Intralipid and IVIG therapy: Understanding the Basis for its use in the Treatment of Immunologic Implantation Dysfunction (IID)
• Intralipid (IL) Administration in IVF: It’s Composition; how it Works; Administration; Side-effects; Reactions and Precautions
• Natural Killer Cell Activation (NKa) and Immunologic Implantation Dysfunction in IVF: The Controversy!
• Treating Out-of-State and Out-of-Country Patients at Sher-IVF in Las Vegas
• Should IVF Treatment Cycles be provided uninterrupted or be Conducted in 7-12 Pre-scheduled “Batches” per Year
• A personalized, stepwise approach to IVF
• How Many Embryos should be transferred: A Critical Decision in IVF?
• Endometriosis and Immunologic Implantation Dysfunction (IID) and IVF
• Endometriosis and Infertility: Why IVF Rather than IUI or Surgery Should be the Treatment of Choice.
• Endometriosis and Infertility: The Influence of Age and Severity on Treatment Options
• Early -Endometriosis-related Infertility: Ovulation Induction (with or without Intrauterine Insemination) and Reproductive Surgery Versus IVF
• Treating Ovarian Endometriomas with Sclerotherapy.
• Effect of Advanced Endometriosis with Endometriotic cysts (Endometriomas) on IVF Outcome & Treatment Options.
• Deciding Between Intrauterine Insemination (IUI) and In Vitro Fertilization (IVF).
• Intrauterine Insemination (IUI): Who Needs it & who Does Not: Pro’s &
• Induction of Ovulation with Clomiphene Citrate: Mode of Action, Indications, Benefits, Limitations and Contraindications for its use
• Clomiphene Induction of Ovulation: Its Use and Misuse!

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ADDENDUM: PLEASE READ!!

INTRODUCING SHER FERTILITY SOLUTIONS (SFS)

Founded in April 2019, Sher Fertility Solutions (SFS) offers online (Skype/FaceTime) consultations to patients from > 40 different countries. All consultations are followed by a detailed written report presenting my personal recommendations for treatment of what often constitute complex Reproductive Issues.

If you wish to schedule an online consultation with me, please contact my assistant (Patti Converse) by phone (800-780-7437/702-533-2691), email (concierge@SherIVF.com) or,  enroll online on then home-page of my website (www.SherIVF.com). 

PLEASE SPREAD THE WORD ABOUT SFS!

Geoff Sher

Yes! It is likely to cause the functional cyst to absorb by the next period!

An ovarian cyst is any collection of fluid, surrounded by a very thin wall, within an ovary. An ovarian follicle that is larger than 22mm is termed a functional follicular cyst. They are non-malignant (benign) and harmless and in most cases, don’t even cause symptoms, however, in some cases, rapid distention of the cyst , or rupture with bleeding , can lead to sudden and severe pain and in some cases, a disruption in hormone balance leads to vaginal bleeding.

There are 2 varieties of “functional ovarian cysts:

1. Follicle Cysts: In menstruating women, a follicle containing the unfertilized egg will rupture during ovulation. If this does not occur, a follicular cyst of more than 2.5 cm diameter may result. These cysts develop in response to stimulation with follicle stimulating hormone that is either self-produced (by the woman’s own pituitary gland (endogenous) or is induced by agonists (e.g. Lupron/Decapeptyl/Buserelin) that sometimes propagate increased and sustained pituitary FSH release.
2. Corpus luteum cysts: These appear after ovulation or egg retrieval. The corpus luteum is the remnant of the follicle after the ovum has moved to the fallopian tubes. It usually degrades within 5-9 days. A corpus luteum of > 3 cm is regarded as being cystic.

A:Follicular cysts: These lesions have special relevance in women about to undergo controlled ovarian stimulation (COS) with gonadotropins for IVF where they can literally, “throw a spanner in the works”, causing a delay, postponement and sometimes even cancellation of the cycle of treatment.

Functional Ovarian cysts must be distinguished from “non-functional or cystic ovarian tumors”. By definition, “tumors are capable of independent growth.  Thus “cystic ovarian tumors do not develop as a result of exposure to gonadotropin stimulation and it is this feature that distinguishes them from “functional” ovarian cysts.

Aside from sometimes causing pain and dysfunctional uterine bleeding, unruptured follicular cysts are usually relatively non-problematic. As stated above, in some cases, functional “cysts” undergo rapid distention (often as a result of a minor degree of bleeding inside the cyst itself). In such cases the woman will often experience a sharp or aching pain on one or other side of her lower abdomen and/or deep seated pain during intercourse. The cysts may even rupture, causing sudden lower abdominal pain that exacerbates and may even simulate an attack of acute appendicitis or a ruptured ectopic (tubular) pregnancy. While very unpleasant, a ruptured “functional cyst” seldom produces a degree of internal bleeding that warrants surgical intervention. The pain, typically is made worse by movement. It stabilizes within a number of days but subsides progressively to disappear within about four to seven days.

Whenever an ovarian cyst is detected (usually by ultrasound examination), the first consideration should be to determine whether it is a “functional cyst or a “cystic ovarian tumor”. The reason for this is that tumors are subject to a variety of complications such as twisting (torsion), hemorrhage, infection and even malignant change, all of which usually will require surgical intervention.

Gonadotropin releasing hormone agonists (GnRHa) such as Lupron, Buserelin, Nafarelin and Synarel, administered daily, starting a few days prior to menstruation, all elicit an initial and rapid, out-pouring (“surge”) in pituitary LH and FSH release. This “surge” lasts for a day or two. Then as the pituitary reservoir of FSH and LH becomes depleted, the blood FSH and LH levels fall rapidly reaching near undetectable blood levels within a day or two. At the same time, the declining FSH result in a drop in blood E2 concentration leading to a withdrawal bleed (menstruation). The progressive exhaustion of Pituitary FSH/LH along with the decline in blood E2, is referred to as ” down-regulation” The continued daily administration of GnRHa or its replacement (supplanting)  with a GnRH antagonist (e.g. Ganirelix, Cetrotide or Orgalutron) results in blood LH concentrations being sustained at a very low level throughout the ensuing cycle of controlled ovarian hyperstimulation (COH) with gonadotropins, thereby optimizing follicular maturation and promoting E2 induced endometrial proliferation.

Functional follicular cysts resulting from controlled ovarian stimulation (COS), can occur regardless of whether down regulation with GnRHa (Lupron/Buserelin/Decapeptyl) is initiated in cases where the cycle of stimulation is launched with the woman coming off  a BCP or when the agonist is initiated on day 20-23  (the mid luteal phase) of a natural cycle. When this happens it is due to the initial agonist-induced FSH “surge” sometimes so accelerating follicular growth that it leads to the development of one or more “functional follicular cysts”. These cysts release E2 and cause the blood E2 often to remain elevated (>70pg/ml). Depending on the extent of this effect, it sometimes leads to a delay in the onset of menstruation and thus also to deferment in the initiation of COS.

Failure of menstruation to commence within 4-7 days of initiating treatment with GnRHa suggestive of an underlying “functional ovarian cyst” and calls for an ultrasound examination to make the diagnosis. Once diagnosed, depending upon the number and size of cysts detected. There are two therapeutic options:

• Wait for the cyst to absorb spontaneously and for menstruation to ensue: While it at first might seem that this approach of continuing GnRHa therapy in order to cause absorption of the cyst(s) within a week or two might be a good approach , it often has unintended consequences. First there is the real possibility that prolonged uninterrupted GnRHa therapy might blunt subsequent ovarian follicular response to gonadotropin therapy and second, if menstruation does not follow within 10-14 days, the cycle will usually need to be cancelled.
• Immediate needle aspiration of the cyst(s) under local anesthesia. I personally favor needle aspiration, sooner rather than later in such cases. Menstruation will usually follow a successful aspiration within 2-4 days. Upon menstruation a blood E2 level is measured and as soon as it drops below 70pg/ml COS can be initiated.

1. Corpus Luteum cysts: As with follicular cysts, so at times do Corpus Luteum cysts also bleed, distend and cause fain. They often delay onset of spontaneous menstruation by a week or longer (Halban syndrome”.). In isolated cases, internal bleeding within the cyst substance causes pain, rapid enlargement of the lesion and by ultrasound examination reveals local areas of absorption causing it to appear as a “complex” cystic lesion that simulates a tumor, prompting surgical intervention. Sadly, there are countless cases where women have had an entire ovary removed due to this happening.

“Functional ovarian cysts” rarely present as a serious health hazard. In the vast majority of cases they spontaneously resolve within 2-4 weeks while “cystic tumors” will not. Accordingly, the persistence of any ovarian cyst that persists for longer than 4 weeks should raise suspicion of it being a tumor rather than with a “functional cyst”. Since ovarian tumors can be (or become) malignant, all ovarian cysts that persist for longer than 6 weeks (whether occurring in non-pregnant or pregnant women), should be considered for surgical removal and this should be followed by pathological analysis.

Good luck!

Geoff Sher

Please call 646-792–7476 and ask for Bushra Sudal RN. She will be glad to assist you.

I prescribe twice weekly injections of estradiol valerate (Delestrogen). Using this approach, I aim for peak E2 values ranging between 500 and 1000pg/ml!

Good luck!