Yes!

Good luck!

Geoff Sher

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Going through IVF is a major investment, emotionally, physically, and financially, for every patient or couple. One of the most crucial moments is receiving the result of the blood test for human chorionic gonadotropin (hCG) pregnancy. It’s a big deal! The days after the embryo transfer, waiting for this result, can be extremely stressful. That’s why it’s crucial for the IVF doctor and staff to handle this information with care and professionalism. They should be accessible to the patient/couple and provide results promptly and sensitively.

Testing urine or blood to check for human chorionic gonadotropin (hCG) is the best way to confirm pregnancy. Urine tests are cheaper and more commonly used. They are also more convenient because they can be done anywhere. However, blood tests are more reliable and sensitive than urine tests. They can detect pregnancy earlier and at lower hCG levels. Blood tests are also more accurate and can track changes in hCG levels over time. Urine tests can detect hCG when blood levels are above 20IU, which is about 16-18 days after ovulation or 2-3 days after a missed period. Blood tests can measure any concentration of hCG about 12-13 days after ovulation.

Detecting hCG in the blood early on and tracking its increase is especially useful for women undergoing fertility treatments like controlled ovarian stimulation or in vitro fertilization. The sooner hCG is detected and measured, the more information can be gathered about the success of implantation and the health of the developing embryo.

Typically, two beta hCG blood tests are done, spaced 2-4 days apart. It’s best to wait for the results of the second test before reporting on the pregnancy. This is because an initial result can change, even from equivocal or negative to positive. Sometimes a normal embryo takes longer to implant, and the hCG level can be initially low or undetectable. Regardless of the initial level, the test should be repeated after two days to check for a significant rise in hCG. A significant rise usually indicates that an embryo is implanting, which suggests a possible pregnancy. Waiting for the second test result helps avoid conveying false hope or disappointment.

It’s important to note that beta hCG levels don’t double every two days throughout pregnancy. Once the levels rise above 4,000U, they tend to increase more slowly. Except in specific cases like IVF using an egg donor or transfer of genetically tested embryos, the birth rate following IVF in younger women is around 40% per embryo transfer. Patients need to have realistic expectations and should be informed about how and when they will receive the news, as well as counseling in case of a negative outcome.

When an embryo starts to implant, it releases the pregnancy hormone hCG into the woman’s bloodstream. Around 12 days after egg retrieval, 9 days after a day 3 embryo transfer, or 7 days after a blastocyst transfer, a woman should have a quantitative beta hCG blood pregnancy test performed. By that time, most of the hCG injected to prepare the eggs for retrieval should have cleared from the bloodstream. So, if the test detects more than 10 IU of hCG per ml of blood, it indicates that the embryo has attempted to implant. In third-party IVF (e.g., ovum donation, gestational surrogacy, embryo adoption, or frozen embryo transfers), no hCG trigger is administered, so any amount of hCG detected in the blood is considered significant.

Sometimes, there is a slow initial rise in hCG between the first and second tests (failure to double every 48 hours). In such cases, a third and sometimes a fourth hCG test should be done at two-day intervals. A failure to double on the third and/or fourth test is a poor sign and could indicate a failed or dysfunctional implantation. In some cases, a progressively slow rising hCG level might indicate an ectopic pregnancy, which requires additional testing and follow-up.

In certain situations, the first beta hCG level starts high, drops with the second test, and then starts doubling again. This could suggest that initially, multiple embryos started to implant but only one survived to continue a healthy implantation.

It’s customary for the IVF clinic staff to inform the patient/couple and the referring physician about the hCG pregnancy test results. Often, the IVF physician or nurse-coordinator coordinates with the referring physician to arrange all necessary pregnancy tests. If the patient/couple prefer to make their own arrangements, the program should provide detailed instructions.

In some cases, when the two blood pregnancy tests show that one or more embryos are implanting, certain programs recommend daily injections of progesterone or the use of vaginal hormone suppositories for several weeks to support the implantation process. Others give hCG injections three times a week until the pregnancy can be confirmed by ultrasound examination. Some IVF programs don’t prescribe any hormones after the embryo transfer.

Patients with appropriate doubling of hCG levels within two days after frozen embryo transfer (FET) or third-party IVF procedures such as surrogacy or egg donation may receive estradiol and progesterone injections, often along with vaginal hormone suppositories, for 10 weeks after the implantation is diagnosed by blood pregnancy testing.

A positive Beta hCG blood pregnancy test indicates the possibility of conception, but ultrasound confirmation is needed to confirm the pregnancy. Until then, it is referred to as a “chemical pregnancy.” Only when ultrasound examination confirms the presence of a gestational sac, clinical examination establishes a viable pregnancy, or after abortion when products of conception are detected, is it called a clinical intrauterine pregnancy.

A significantly elevated  hCG blood level without concomitant detection of an gestational sac inside the uterus by ultrasound after 5 weeks gestation raises the suspicion of an ectopic (tubal) pregnancy.

The risk of miscarriage gradually decreases once a viable clinical pregnancy is diagnosed (a conceptus with a regular heartbeat of 110-180 beats per minute). From this point onward, the risk of miscarriage is usually 10- 15% for women under 40 years old and around 35% for women in their early forties.

Dealing with successful IVF cases is relatively easy as everyone feels happy and validated. The real challenge lies in handling unsuccessful cases. Setting rational expectations from the beginning is crucial. In some cases (fortunately rare), emotional pressure may overwhelm the patient/couple, leading to a need for counseling or psychiatric therapy. I always advise my patients that receiving optimal care doesn’t always guarantee the desired outcome. There are many variables beyond our control, especially the unpredictable nature of fate. With around 36 years of experience in this field, I strongly believe that when it comes to IVF, the saying “man proposes while God disposes” always holds.

There are a few important things to consider when interpreting blood hCG levels. Levels can vary widely, ranging from 5mIU/ml to over 400mIU/ml, 10 days after ovulation or egg retrieval. The levels double every 48-72 hours until the 6th week of pregnancy, after which the doubling rate slows down to about 96 hours. By the end of the 1st trimester, hCG levels reach 13,000-290,000 IU and then slowly decline to around 26,000-300,000 IU at full term. Here are the average hCG levels during the first trimester:

• 3 weeks after the last menstrual period (LMP): 5-50 IU
• 4 weeks LMP: 5-426 IU
• 5 weeks LMP: 18-7,340 IU
• 6 weeks LMP: 1,080-56,500 IU
• 7-8 weeks LMP: 7,650-229,000 IU
• 9-12 weeks LMP: 25,700-288,000 IU

Most doctors wait until around the 7th week to perform an ultrasound to confirm pregnancy. By that time, the heartbeat should be clearly visible, providing a more reliable assessment of the pregnancy’s viability.

In some cases, blood hCG levels can be unusually high or increase faster than normal. This could indicate multiple pregnancies or a molar pregnancy. Rarely, conditions unrelated to pregnancy, such as certain ovarian tumors or cancers, can cause detectable hCG levels in both blood and urine.

To summarize, testing urine or blood for hCG is the most reliable way to confirm pregnancy. Urine tests are more common and convenient, while blood tests are more accurate and can detect pregnancy earlier. Tracking hCG levels in the blood is especially important for women undergoing fertility treatments. It’s essential to wait for the results of a second blood test before confirming pregnancy to avoid false hope or disappointment. Interpreting hCG levels requires considering various factors, and doctors usually perform an ultrasound around the 7th week for a more accurate assessment. Unusually high hCG levels may indicate multiple pregnancies or other conditions unrelated to pregnancy. Providing sensitive and timely communication of results is crucial for IVF clinics to support patients through the emotional journey.

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ADDITIONAL INFORMATION:

I am attaching online links to two E-books which I recently  co-authored with  my partner at SFS-NY  (Drew Tortoriello MD)……. for your reading pleasure:

1.From In Vitro Fertilization to Family: A Journey with Sher Fertility Solutions (SFS) “

https://sherfertilitysolutions.com/sher-fertility-solutions-ebook.pdf

1. “Recurrent Pregnancy Loss and Unexplained IVF Failure: The Immunologic Link

https://drive.google.com/file/d/1iYKz-EkAjMqwMa1ZcufIloRdxnAfDH8L/view

If you are interested in having an online consultation with me, please contact my assistant, Patti Converse at 702-533-2691 or email her at concierge@sherivf.com

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Understanding the impact of age and ovarian reserve on the success of in vitro fertilization (IVF) is crucial when it comes to reproductive health. This article aims to simplify and clarify these concepts, emphasizing their significance in the selection of ovarian stimulation protocols for IVF. By providing you with this information, we hope to shed light on the importance of considering these factors and making informed decisions regarding fertility treatments.

1. The Role of Eggs in Chromosomal Integrity: In the process of creating a healthy embryo, it is primarily the egg that determines the chromosomal integrity, which is crucial for the embryo’s competency. A competent egg possesses a normal karyotype, increasing the chances of developing into a healthy baby. It’s important to note that not all eggs are competent, and the incidence of irregular chromosome numbers (aneuploidy) increases with age.
2. Meiosis and Fertilization: Following the initiation of the LH surge or the hCG trigger shot, the egg undergoes a process called meiosis, halving its chromosomes to 23. During this process, a structure called the polar body is expelled from the egg, while the remaining chromosomes are retained. The mature sperm, also undergoing meiosis, contributes 23 chromosomes. Fertilization occurs when these chromosomes combine, resulting in a euploid embryo with 46 chromosomes. Only euploid embryos are competent and capable of developing into healthy babies.
3. The Significance of Embryo Ploidy: Embryo ploidy, referring to the numerical chromosomal integrity, is a critical factor in determining embryo competency. Aneuploid embryos, which have an irregular number of chromosomes, are often incompetent and unable to propagate healthy pregnancies. Failed nidation, miscarriages, and chromosomal birth defects can be linked to embryo ploidy issues. Both egg and sperm aneuploidy can contribute, but egg aneuploidy is usually the primary cause.
4. Embryo Development and Competency: Embryos that develop too slowly or too quickly, have abnormal cell counts, contain debris or fragments, or fail to reach the blastocyst stage are often aneuploid and incompetent. Monitoring these developmental aspects can provide valuable insights into embryo competency.
5. Diminished Ovarian Reserve (DOR): As women advance in their reproductive age, the number of remaining eggs in the ovaries decreases. Diminished ovarian reserve (DOR) occurs when the egg count falls below a certain threshold, making it more challenging to respond to fertility drugs effectively. This condition is often indicated by specific hormone levels, such as elevated FSH and decreased AMH. DOR can affect women over 40, but it can also occur in younger

Why IVF should be regarded as treatment of choice for older women an those who have diminished ovarian reserve ( DOR):

Understanding the following factors will go a long way in helping you to make an informed decision and thereby improve the chances of a successful IVF outcome.

1. Age and Ovarian Reserve: Chronological age plays a vital role in determining the quality of eggs and embryos. As women age, there is an increased risk of aneuploidy (abnormal chromosome numbers) in eggs and embryos, leading to reduced competency. Additionally, women with declining ovarian reserve (DOR), regardless of their age, are more likely to have aneuploid eggs/embryos. Therefore, it is crucial to address age-related factors and ovarian reserve to enhance IVF success.
2. Excessive Luteinizing Hormone (LH) and Testosterone Effects: In women with DOR, their ovaries and developing eggs are susceptible to the adverse effects of excessive LH, which stimulates the overproduction of male hormones like testosterone. While some testosterone promotes healthy follicle growth and egg development, an excess of testosterone has a negative impact. Therefore, in older women or those with DOR, ovarian stimulation protocols that down-regulate LH activity before starting gonadotropins are necessary to improve egg/embryo quality and IVF outcomes.
3. Individualized Ovarian Stimulation Protocols: Although age is a significant factor in aneuploidy, it is possible to prevent further decline in egg/embryo competency by tailoring ovarian stimulation protocols. Here are my preferred protocols for women with relatively normal ovarian reserve:

1. Conventional Long Pituitary Down Regulation Protocol:

• Begin birth control pills (BCP) early in the cycle for at least 10 days.
• Three days before stopping BCP, overlap with an agonist like Lupron for three days.
• Continue daily Lupron until menstruation begins.
• Conduct ultrasound and blood estradiol measurements to assess ovarian status.
• Administer FSH-dominant gonadotropin along with Menopur for stimulation.
• Monitor follicle development through ultrasound and blood estradiol measurements.
• Trigger egg maturation using hCG injection, followed by egg retrieval.

1. Agonist/Antagonist Conversion Protocol (A/ACP):

• Similar to the conventional long down regulation protocol but replace the agonist with a GnRH antagonist from the onset of post-BCP menstruation until the trigger day.
• Consider adding supplementary human growth hormone (HGH) for women with DOR.
• Consider using “priming” with estrogen prior to gonadotropin administration

1. Protocols to Avoid for Older Women or Those with DOR: Certain ovarian stimulation protocols may not be suitable for older women or those with declining ovarian reserve:

• Microdose agonist “flare” protocols
• High dosages of LH-containing fertility drugs such as Menopur
• Testosterone-based supplementation
• DHEA supplementation
• Clomiphene citrate or Letrozole
• Low-dosage hCG triggering or agonist triggering for women with DOR

Preimplantation Genetic Screening/Testing(PGS/T): PGS/T is a valuable tool for identifying chromosomal abnormalities in eggs and embryos. By selecting the most competent (euploid) embryos, PGS/T significantly improves the success of IVF, especially in older women or those with DOR.

Understanding the impact of advancing age and declining ovarian reserve on IVF outcomes is essential when making decisions about fertility treatments. Age-related factors can affect egg quality and increase the likelihood of aneuploid embryos with resultant IVF failure. Diminished ovarian reserve (DOR) further complicates the process. By considering these factors, you can make informed choices and work closely with fertility specialists to optimize your chances of success. Remember, knowledge is power, and being aware of these aspects empowers you to take control of your reproductive journey.

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ADDITIONAL INFORMATION:

I am attaching online links to two E-books which I recently  co-authored with  my partner at SFS-NY  (Drew Tortoriello MD)……. for your reading pleasure:

1.From In Vitro Fertilization to Family: A Journey with Sher Fertility Solutions (SFS) “

https://sherfertilitysolutions.com/sher-fertility-solutions-ebook.pdf

1. “Recurrent Pregnancy Loss and Unexplained IVF Failure: The Immunologic Link

https://drive.google.com/file/d/1iYKz-EkAjMqwMa1ZcufIloRdxnAfDH8L/view

If you are interested in having an online consultation with me, please contact my assistant, Patti Converse at 702-533-2691 or email her at concierge@sherivf.com

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I doubt it, but the stress of going through this might be playing a role.

GS

Hard to say, unless there is some molar degeneration in the trophoblast. I doubt it though!

Geoff Sher

Perhaps we should talk first.

I am attaching online links to two E-books which I recently  co-authored with  my partner at SFS-NY  (Drew Tortoriello MD)……. for your reading pleasure:

1.From In Vitro Fertilization to Family: A Journey with Sher Fertility Solutions (SFS) “

https://sherfertilitysolutions.com/sher-fertility-solutions-ebook.pdf

1. “Recurrent Pregnancy Loss and Unexplained IVF Failure: The Immunologic Link

https://drive.google.com/file/d/1iYKz-EkAjMqwMa1ZcufIloRdxnAfDH8L/view

If you are interested in having an online consultation with me, please contact my assistant, Patti Converse at 702-533-2691 or email her at concierge@sherivf.com

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Clomiphene citrate (Clomid, Serophene) is the most popular agent used for inducing ovulation and in the 1980’s was also the most widely used method for COH in preparation for In Vitro Fertilization (IVF). Clomiphene citrate is a synthetic hormone that deceives the hypothalamus into thinking that the body’s estrogen level is too low. In response, the hypothalamus releases GnRH (gonadotropin-releasing hormone), which in turn prompts the pituitary gland to release an exaggerated amount of FSH (follicle-stimulating hormone). As happens in nature, the increased secretion of FSH stimulates development of the follicles, ultimately resulting in ovulation. The growing follicles secrete estrogen into the bloodstream, thus closing the feedback circle that the hypothalamus initiated in response to the anti-estrogen properties of Clomiphene.

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ADDITIONAL INFORMATION:

I am attaching online links to two E-books which I recently  co-authored with  my partner at SFS-NY  (Drew Tortoriello MD)……. for your reading pleasure:

1.From In Vitro Fertilization to Family: A Journey with Sher Fertility Solutions (SFS) “

https://sherfertilitysolutions.com/sher-fertility-solutions-ebook.pdf

1. “Recurrent Pregnancy Loss and Unexplained IVF Failure: The Immunologic Link

https://drive.google.com/file/d/1iYKz-EkAjMqwMa1ZcufIloRdxnAfDH8L/view

If you are interested in having an online consultation with me, please contact my assistant, Patti Converse at 702-533-2691 or email her at concierge@sherivf.com

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Administration of Clomiphene citrate enhances the normal cyclical pattern of follicular development and ovulation. If initiated as early as day 2 or day 3 of the menstrual cycle, it usually induces ovulation on day 13 or 14 of a regular 28-day cycle. If administered later, such as on day 5, ovulation could occur as late as day 16 or 17, and the length of the cycle may be extended. If the woman does not stimulate appropriately on the original dosage of Clomiphene, the dosage may be increased to achieve optimal stimulation. We sometimes administer hCG to the patient once ultrasound examinations and hormonal evaluations confirm optimal follicular development. In such cases ovulation will usually occur about 38 hours later.

Two major advantages of Clomiphene are its relatively low cost and the fact that it can be taken orally instead of by injection. A distinct disadvantage is that when administered alone it does not stimulate the growth and maturation of as many follicles as do alternative therapies such as gonadotropins alone ore in combination with Clomiphene; accordingly, fewer eggs can be retrieved

Safety and Side Effects of Clomiphene: The side effects associated with Clomiphene are related to the follicular development the drug has stimulated. When administered alone, a luteal-phase defect (deficiency in progesterone production following ovulation) may result if the follicles do not develop properly. This would hinder implantation by preventing the endometrium (uterine lining) from responding optimally to the progesterone produced by the corpus luteum. Clomiphene may also interfere with the nurturing effect estrogen must have on the developing endometrium. In addition, traces of Clomiphene that might linger in the woman’s circulatory system for many weeks may inhibit the normal function of enzymes produced by the developing follicular cells.

Too high a dose of Clomiphene may cause follicles to grow too rapidly, producing large fluid-filled collections known as cysts. This may lead to tenderness and swelling of the ovaries, visual disturbances, and hot flashes similar to those at menopause.

The progressive build-up of Clomiphene in the body over a period of three (3) or more consecutive months of treatment compounds its anti-estrogenic properties and effects and leads to: a) a reduction in the quality of the cervical mucus, with negative implications for the capacitation and transportation of the sperm and b) a profound thinning of the uterine lining (endometrium), which seriously compromises embryo implantation. These two effects probably explain why prolonged usage of Clomiphene ( i.e.; for three (3) or more back-to-back cycles of  treatment) without allowing for at least one month’s break before re-initiating therapy, seriously with compromises  fertility, and results in a significant increase  in the risk of early spontaneous abortion. Unless allowance is made for such a break in therapy, each additional, consecutive Clomiphene treatment cycle will inevitably result in a progressive decline in pregnancy potential and/ or reproductive performance. In fact if administered for more than six (6) consecutive back-to back cycles (without allowing for at least one (1) resting cycle), a progressive escalation in Clomiphene anti-estrogenic effects will convert this fertility agent into a “relative contraceptive”. Fortunately, the cessation of Clomiphene treatment for only one (1) month is sufficient to completely reverse such highly undesirable side-effects.

It has been observed that few women over 40 years respond well to Clomiphene. In spite of the fact that they appear to ovulate on Clomiphene treatment, they frequently develop poor mucus and a poor endometrial lining from the inception of Clomiphene administration. We accordingly believe that Clomiphene treatment is relatively contraindicated in women over the age of 40.

Some studies have suggested that Clomiphene citrate has caused birth defects or a higher miscarriage rate in laboratory animals and could, therefore, potentially threaten human offspring. We, however, believe that when Clomiphene is taken under proper supervision these risks should not be of major significance.

The fear that Clomiphene might cause birth defects arises from the fact that its inner structure, or nucleus, is very similar to that of the hormone DES, which is known to have caused so many birth defects when administered to pregnant women. Although it is theoretically possible that Clomiphene might cause such defects; birth statistics do not indicate an increased birth-defect rate after stimulation with the drug. The laboratory studies mentioned above should not be ignored, however, but should be heeded as a guide to safe, prudent administration of fertility drugs. We caution that Clomiphene citrate should be taken only when it is absolutely certain that the woman is not pregnant. (The appearance of a menstrual period does not provide adequate certainty because more than 10% of women might bleed during early pregnancy. Assessment by a physician, or even a home pregnancy test, provides greater assurance that a pregnancy does not exist.)

The administration of Clomiphene as a fertility agent over a series of months might also promote ovulatory problems. It has been observed that in one out of five cases where Clomiphene is administered, the egg remains trapped in the follicle after ovulation. Therefore, the practice of physicians saying to patients, “Here’s some Clomiphene-take some each month and call me if you miss your period” should be deplored.

Finally, recent reports suggest that women who take Clomiphene uninterrupted for more than one (1) year might be at increased risk of developing ovarian cancer in later life.

But if Clomiphene citrate is taken under proper supervision and the woman has previously determined that she is not pregnant, its safety is beyond question. This has prompted many IVF programs to continue using Clomiphene. Those that do so, however, invariably report a lower pregnancy rate than that which can be achieved by other methods of controlled ovarian hyperstimulation.

________________________________________________________________________

ADDITIONAL INFORMATION:

I am attaching online links to two E-books which I recently  co-authored with  my partner at SFS-NY  (Drew Tortoriello MD)……. for your reading pleasure:

1.From In Vitro Fertilization to Family: A Journey with Sher Fertility Solutions (SFS) “

https://sherfertilitysolutions.com/sher-fertility-solutions-ebook.pdf

1. “Recurrent Pregnancy Loss and Unexplained IVF Failure: The Immunologic Link

https://drive.google.com/file/d/1iYKz-EkAjMqwMa1ZcufIloRdxnAfDH8L/view

If you are interested in having an online consultation with me, please contact my assistant, Patti Converse at 702-533-2691 or email her at concierge@sherivf.com

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