When a fetus is in transverse lie, it means that its longitudinal axis is perpendicular to the long axis of the uterus. If an ECV has been attempted to change this position and has been unsuccessful, it is advisable to schedule an elective Caesarean section. This is because attempting a natural delivery would be pointless as the baby cannot fit through the pelvis in this position, which could result in a cord prolapse, hypoxia, and ultimately, death.

Transverse lie is an abnormal foetal presentation where the foetal longitudinal axis is perpendicular to the long axis of the uterus. It occurs in less than 0.3% of foetuses at term and is more common in women who have had previous pregnancies, have fibroids or other pelvic tumours, are pregnant with twins or triplets, have prematurity, polyhydramnios, or foetal abnormalities. Diagnosis is made during routine antenatal appointments through abdominal examination and ultrasound scan. Complications include pre-term rupture membranes and cord-prolapse. Management options include active management through external cephalic version or elective caesarian section. The decision to perform caesarian section over ECV will depend on various factors.

Spermatogonia are male germ cells that are not yet differentiated and undergo spermatogenesis in the seminiferous tubules of the testes. Leydig cells are interstitial cells found in the testes that secrete testosterone in response to LH secretion. Sertoli cells are part of the seminiferous tubule of the testes and are activated by FSH. They nourish developing sperm cells. Myoid cells are contractile cells that generate peristaltic waves. They surround the basement membrane of the testes.

Anatomy of the Scrotum and Testes

The scrotum is composed of skin and dartos fascia, with an arterial supply from the anterior and posterior scrotal arteries. It is also the site of lymphatic drainage to the inguinal lymph nodes. The testes are surrounded by the tunica vaginalis, a closed peritoneal sac, with the parietal layer adjacent to the internal spermatic fascia. The testicular arteries arise from the aorta, just below the renal arteries, and the pampiniform plexus drains into the testicular veins. The left testicular vein drains into the left renal vein, while the right testicular vein drains into the inferior vena cava. Lymphatic drainage occurs to the para-aortic nodes.

The spermatic cord is formed by the vas deferens and is covered by the internal spermatic fascia, cremasteric fascia, and external spermatic fascia. The cord contains the vas deferens, testicular artery, artery of vas deferens, cremasteric artery, pampiniform plexus, sympathetic nerve fibers, genital branch of the genitofemoral nerve, and lymphatic vessels. The vas deferens transmits sperm and accessory gland secretions, while the testicular artery supplies the testis and epididymis. The cremasteric artery arises from the inferior epigastric artery, and the pampiniform plexus is a venous plexus that drains into the right or left testicular vein. The sympathetic nerve fibers lie on the arteries, while the parasympathetic fibers lie on the vas. The genital branch of the genitofemoral nerve supplies the cremaster. Lymphatic vessels drain to lumbar and para-aortic nodes.

The cause of prepubertal atrophic vaginitis is a deficiency of vaginal estrogen, making any response suggesting otherwise incorrect. This leads to an environment that is prone to infection due to its alkalinity, as estrogen boosts lactobacilli levels, which aid in the conversion of glucose to lactic acid. It is critical to consider this diagnosis when a prepubertal female patient complains of vaginal itching and discharge.

Understanding Atrophic Vaginitis

Atrophic vaginitis is a condition that commonly affects women who have gone through menopause. Its symptoms include vaginal dryness, painful intercourse, and occasional spotting. Upon examination, the vagina may appear dry and pale. The condition can be treated with vaginal lubricants and moisturizers. However, if these remedies do not provide relief, a topical estrogen cream may be prescribed.

Shoulder dystocia, a complication of obstructed labor, is more likely to occur in cases of gestational diabetes and macrosomia. This is because a larger fetal shoulder can obstruct the maternal pubic symphysis. Low birth weight babies are at a higher risk of umbilical cord prolapse, while uterine rupture is typically associated with previous Caesarean section or myomectomy. Although disseminated intravascular coagulation and amniotic fluid embolism are serious obstetric emergencies, there is no indication in the patient’s history of an increased risk for these conditions.

Shoulder dystocia is a complication that can occur during vaginal delivery when the body of the fetus cannot be delivered after the head has already been delivered. This is usually due to the anterior shoulder of the fetus becoming stuck on the mother’s pubic bone. Shoulder dystocia can cause harm to both the mother and the baby.

There are several risk factors that increase the likelihood of shoulder dystocia, including fetal macrosomia (large baby), high maternal body mass index, diabetes mellitus, and prolonged labor.

If shoulder dystocia is identified, it is important to call for senior medical assistance immediately. The McRoberts’ maneuver is often used to help deliver the baby. This involves flexing and abducting the mother’s hips to increase the angle of the pelvis and facilitate delivery. An episiotomy may be performed to provide better access for internal maneuvers, but it will not relieve the bony obstruction. Symphysiotomy and the Zavanelli maneuver are not recommended as they can cause significant harm to the mother. Oxytocin administration is not effective in treating shoulder dystocia.

Complications of shoulder dystocia can include postpartum hemorrhage and perineal tears for the mother, and brachial plexus injury or neonatal death for the baby. It is important to manage shoulder dystocia promptly and effectively to minimize these risks.

The layers that will be encountered in the given scenario are as follows, in sequential order:

1. The skin layer
2. The dartos fascia and muscle layer
3. The external spermatic fascia layer
4. The cremasteric muscle and fascia layer
5. (Unknown or unspecified layer)

Anatomy of the Scrotum and Testes

The scrotum is composed of skin and dartos fascia, with an arterial supply from the anterior and posterior scrotal arteries. It is also the site of lymphatic drainage to the inguinal lymph nodes. The testes are surrounded by the tunica vaginalis, a closed peritoneal sac, with the parietal layer adjacent to the internal spermatic fascia. The testicular arteries arise from the aorta, just below the renal arteries, and the pampiniform plexus drains into the testicular veins. The left testicular vein drains into the left renal vein, while the right testicular vein drains into the inferior vena cava. Lymphatic drainage occurs to the para-aortic nodes.

The spermatic cord is formed by the vas deferens and is covered by the internal spermatic fascia, cremasteric fascia, and external spermatic fascia. The cord contains the vas deferens, testicular artery, artery of vas deferens, cremasteric artery, pampiniform plexus, sympathetic nerve fibers, genital branch of the genitofemoral nerve, and lymphatic vessels. The vas deferens transmits sperm and accessory gland secretions, while the testicular artery supplies the testis and epididymis. The cremasteric artery arises from the inferior epigastric artery, and the pampiniform plexus is a venous plexus that drains into the right or left testicular vein. The sympathetic nerve fibers lie on the arteries, while the parasympathetic fibers lie on the vas. The genital branch of the genitofemoral nerve supplies the cremaster. Lymphatic vessels drain to lumbar and para-aortic nodes.

The cardinal ligament is responsible for connecting the cervix to the lateral pelvic wall. When this ligament, along with the uterosacral ligament, becomes weak, it can lead to uterine prolapse. It is important not to confuse the ovarian ligament, which connects the ovaries and uterus but does not contain blood vessels, with the suspensory ligament that contains the ovary’s neurovascular supply and connects the ovary, uterus, and pelvic wall. The pubocervical ligament, which connects the cervix to the posterior aspect of the pubic bone, can also weaken and cause vaginal prolapse. Finally, the round ligament connects the uterine fundus and the labia majora.

Pelvic Ligaments and their Connections

Pelvic ligaments are structures that connect various organs within the female reproductive system to the pelvic wall. These ligaments play a crucial role in maintaining the position and stability of these organs. There are several types of pelvic ligaments, each with its own unique function and connection.

The broad ligament connects the uterus, fallopian tubes, and ovaries to the pelvic wall, specifically the ovaries. The round ligament connects the uterine fundus to the labia majora, but does not connect to any other structures. The cardinal ligament connects the cervix to the lateral pelvic wall and is responsible for supporting the uterine vessels. The suspensory ligament of the ovaries connects the ovaries to the lateral pelvic wall and supports the ovarian vessels. The ovarian ligament connects the ovaries to the uterus, but does not connect to any other structures. Finally, the uterosacral ligament connects the cervix and posterior vaginal dome to the sacrum, but does not connect to any other structures.

Overall, pelvic ligaments are essential for maintaining the proper position and function of the female reproductive organs. Understanding the connections between these ligaments and the structures they support is crucial for diagnosing and treating any issues that may arise.

Gestational diabetes is the correct answer as it can result in foetal macrosomia, which is caused by insulin resistance promoting fat storage, and polyhydramnios, which is caused by foetal polyuria.

While maternal obesity may cause macrosomia, it does not necessarily lead to polyhydramnios.

Foetal gut atresia is a condition where part of the intestine is narrowed or absent, which can make it difficult for the foetus to ingest substances like amniotic fluid. This can result in excess amniotic fluid and polyhydramnios, but not macrosomia.

Hydrops fetalis may cause polyhydramnios, but it does not necessarily lead to macrosomia. However, it can cause hepatosplenomegaly.

Maternal hypercalcaemia may cause polyhydramnios, but it does not necessarily lead to macrosomia.

Gestational diabetes is a common medical disorder that affects around 4% of pregnancies. It can develop during pregnancy or be a pre-existing condition. According to NICE, 87.5% of cases are gestational diabetes, 7.5% are type 1 diabetes, and 5% are type 2 diabetes. Risk factors for gestational diabetes include a BMI of > 30 kg/m², previous gestational diabetes, a family history of diabetes, and family origin with a high prevalence of diabetes. Screening for gestational diabetes involves an oral glucose tolerance test (OGTT), which should be performed as soon as possible after booking and at 24-28 weeks if the first test is normal.

To diagnose gestational diabetes, NICE recommends using the following thresholds: fasting glucose is >= 5.6 mmol/L or 2-hour glucose is >= 7.8 mmol/L. Newly diagnosed women should be seen in a joint diabetes and antenatal clinic within a week and taught about self-monitoring of blood glucose. Advice about diet and exercise should be given, and if glucose targets are not met within 1-2 weeks of altering diet/exercise, metformin should be started. If glucose targets are still not met, insulin should be added to the treatment plan.

For women with pre-existing diabetes, weight loss is recommended for those with a BMI of > 27 kg/m^2. Oral hypoglycaemic agents, apart from metformin, should be stopped, and insulin should be commenced. Folic acid 5 mg/day should be taken from pre-conception to 12 weeks gestation, and a detailed anomaly scan at 20 weeks, including four-chamber view of the heart and outflow tracts, should be performed. Tight glycaemic control reduces complication rates, and retinopathy should be treated as it can worsen during pregnancy.

Targets for self-monitoring of pregnant women with diabetes include a fasting glucose level of 5.3 mmol/l and a 1-hour or 2-hour glucose level after meals of 7.8 mmol/l or 6.4 mmol/l, respectively. It is important to manage gestational diabetes and pre-existing diabetes during pregnancy to reduce the risk of complications for both the mother and baby.

The development of haemolytic disease of the newborn is caused by the production of IgG antibodies by the mother against the red blood cells of the fetus, which then cross the placenta and attack the fetal red blood cells. This condition is not caused by antibodies to platelets or the bone marrow, and it is the maternal antibodies that are the problem, not the fetal antibodies.

Rhesus negative mothers can develop anti-D IgG antibodies if they deliver a Rh +ve child, which can cause haemolysis in future pregnancies. Prevention involves testing for D antibodies and giving anti-D prophylaxis at 28 and 34 weeks. Anti-D should also be given in various situations, such as delivery of a Rh +ve infant or amniocentesis. Tests include cord blood FBC, blood group, direct Coombs test, and Kleihauer test. Affected fetuses may experience oedema, jaundice, anaemia, hepatosplenomegaly, heart failure, and kernicterus, and may require transfusions and UV phototherapy.

During pregnancy, a woman’s body undergoes various physiological changes. The cardiovascular system experiences an increase in stroke volume, heart rate, and cardiac output, while systolic blood pressure remains unchanged and diastolic blood pressure decreases in the first and second trimesters before returning to normal levels by term. The enlarged uterus may cause issues with venous return, leading to ankle swelling, supine hypotension, and varicose veins.

The respiratory system sees an increase in pulmonary ventilation and tidal volume, with oxygen requirements only increasing by 20%. This can lead to a sense of dyspnea due to over-breathing and a fall in pCO2. The basal metabolic rate also increases, potentially due to increased thyroxine and adrenocortical hormones.

Maternal blood volume increases by 30%, with red blood cells increasing by 20% and plasma increasing by 50%, leading to a decrease in hemoglobin levels. Coagulant activity increases slightly, while fibrinolytic activity decreases. Platelet count falls, and white blood cell count and erythrocyte sedimentation rate rise.

The urinary system experiences an increase in blood flow and glomerular filtration rate, with elevated sex steroid levels leading to increased salt and water reabsorption and urinary protein losses. Trace glycosuria may also occur.

Calcium requirements increase during pregnancy, with gut absorption increasing substantially due to increased 1,25 dihydroxy vitamin D. Serum levels of calcium and phosphate may fall, but ionized calcium levels remain stable. The liver experiences an increase in alkaline phosphatase and a decrease in albumin levels.

The uterus undergoes significant changes, increasing in weight from 100g to 1100g and transitioning from hyperplasia to hypertrophy. Cervical ectropion and discharge may increase, and Braxton-Hicks contractions may occur in late pregnancy. Retroversion may lead to retention in the first trimester but usually self-corrects.

Ulipristal is classified as a selective progesterone receptor modulator, which is utilized for emergency contraception. It is recommended to be taken within 120 hours of unprotected intercourse, and its primary mode of action is believed to be the inhibition of ovulation.

Selective estrogen receptor modulators are employed in the treatment of breast cancer, osteoporosis, and postmenopausal symptoms.

Progesterone analogs activate receptors in a manner that closely resembles progesterone itself, and are typically included in hormonal contraceptive preparations.

Similarly, estrogen analogs imitate natural estrogen and are commonly found in hormonal contraceptives.

The mechanism of action for levonorgestrel, another frequently used emergency contraceptive, is currently unknown.

Emergency contraception is available in the UK through two methods: emergency hormonal contraception and intrauterine device (IUD). Emergency hormonal contraception includes two types of pills: levonorgestrel and ulipristal. Levonorgestrel works by stopping ovulation and inhibiting implantation, and should be taken as soon as possible after unprotected sexual intercourse (UPSI) for maximum efficacy. The single dose of levonorgestrel is 1.5 mg, but should be doubled for those with a BMI over 26 or weight over 70kg. It is safe and well-tolerated, but may cause vomiting in around 1% of women. Ulipristal, on the other hand, is a selective progesterone receptor modulator that inhibits ovulation. It should be taken within 120 hours after intercourse, and may reduce the effectiveness of hormonal contraception. The most effective method of emergency contraception is the copper IUD, which may inhibit fertilization or implantation. It must be inserted within 5 days of UPSI, or up to 5 days after the likely ovulation date. Prophylactic antibiotics may be given if the patient is at high-risk of sexually transmitted infection. The IUD is 99% effective regardless of where it is used in the cycle, and may be left in-situ for long-term contraception.

Placental abruption, placenta praevia, and ectopic pregnancy can cause vaginal bleeding, but they do not typically result in a non-tender, large-for-dates uterus. Gestational diabetes is not associated with vaginal bleeding or hyperemesis.

Molar pregnancy is a type of gestational trophoblastic disease that occurs when there is an abnormal fertilization of an empty ovum. There are two types of molar pregnancies: complete and partial. Complete hydatidiform moles have a karyotype of 46 XX or 46 XY, with all genetic material coming from the father. Partial hydatidiform moles have a karyotype of 69 XXX or 69 XXY and contain both maternal and paternal chromosomes. Neither type of molar pregnancy can result in a viable fetus.

The most common symptom of a molar pregnancy is vaginal bleeding, which can range from light to heavy. In about 25% of complete molar pregnancies, the uterus may be larger than expected for the gestational age. Complete hydatidiform moles produce high levels of beta hCG due to the large amounts of abnormal chorionic villi, which can lead to hyperemesis, hyperthyroidism, and other symptoms. Women who are under 20 years old or over 35 years old are at a higher risk of having a molar pregnancy.

Gestational trophoblastic disorders refer to a range of conditions that originate from the placental trophoblast. These disorders include complete hydatidiform mole, partial hydatidiform mole, and choriocarcinoma. Complete hydatidiform mole is a benign tumor of trophoblastic material that occurs when an empty egg is fertilized by a single sperm that duplicates its own DNA, resulting in all 46 chromosomes being of paternal origin. Symptoms of this disorder include bleeding in the first or early second trimester, exaggerated pregnancy symptoms, a large uterus for dates, and high levels of human chorionic gonadotropin (hCG) in the blood. Hypertension and hyperthyroidism may also be present. Urgent referral to a specialist center is necessary, and evacuation of the uterus is performed. Effective contraception is recommended to avoid pregnancy in the next 12 months. About 2-3% of cases may progress to choriocarcinoma. In partial mole, a normal haploid egg may be fertilized by two sperms or one sperm with duplication of paternal chromosomes, resulting in DNA that is both maternal and paternal in origin. Fetal parts may be visible, and the condition is usually triploid.

Schiller-Duval bodies seen on histology are a characteristic feature of yolk sac tumor, making it a pathognomonic finding.

1. Incorrect. Yolk sac tumor would not present with diffuse sheets, nests, and cords of large uniform tumor cells like testicular seminoma.

2. Incorrect. Call-Exner bodies are not present in yolk sac tumor.

3. Incorrect. Yolk sac tumor is not a metastasis from a diffuse-type gastric adenocarcinoma, which would have a signet cell histology appearance.

4. Incorrect. Yolk sac tumor contains tissues from all three germ layers, including ectodermal, mesodermal, and endodermal tissues.

5. Correct. Schiller-Duval bodies are a unique feature of yolk sac tumor, and it also secretes AFP.

Types of Ovarian Tumours

There are four main types of ovarian tumours, including surface derived tumours, germ cell tumours, sex cord-stromal tumours, and metastasis. Surface derived tumours are the most common, accounting for around 65% of ovarian tumours, and include the greatest number of malignant tumours. These tumours can be either benign or malignant and include serous cystadenoma, serous cystadenocarcinoma, mucinous cystadenoma, mucinous cystadenocarcinoma, and Brenner tumour. Germ cell tumours are more common in adolescent girls and account for 15-20% of tumours. These tumours are similar to cancer types seen in the testicle and can be either benign or malignant. Examples include teratoma, dysgerminoma, yolk sac tumour, and choriocarcinoma. Sex cord-stromal tumours represent around 3-5% of ovarian tumours and often produce hormones. Examples include granulosa cell tumour, Sertoli-Leydig cell tumour, and fibroma. Metastatic tumours account for around 5% of tumours and include Krukenberg tumour, which is a mucin-secreting signet-ring cell adenocarcinoma resulting from metastases from a gastrointestinal tumour.

If a woman experiences postmenopausal bleeding, it is important for medical professionals to consider the possibility of endometrial cancer. According to NICE guidelines from 2015, women aged 55 or older with postmenopausal bleeding should be urgently referred for further evaluation.

One common method of evaluation is a transvaginal ultrasound, which can measure the thickness of the endometrial lining. A 3-mm cut-off is often used and has been found to be highly effective in detecting endometrial cancer. This method can also identify women who are unlikely to have endometrial cancer, which can help avoid more invasive procedures such as endometrial biopsy. However, some medical centers may use a cut-off of 4 mm or even 5 mm for endometrial biopsy.

In the case of a woman with an endometrial thickness of 6mm, the next step would be to perform an endometrial biopsy.

Endometrial cancer is a type of cancer that is commonly found in women who have gone through menopause, but it can also occur in around 25% of cases before menopause. The prognosis for this type of cancer is usually good due to early detection. There are several risk factors associated with endometrial cancer, including obesity, nulliparity, early menarche, late menopause, unopposed estrogen, diabetes mellitus, tamoxifen, polycystic ovarian syndrome, and hereditary non-polyposis colorectal carcinoma. Symptoms of endometrial cancer include postmenopausal bleeding, which is usually slight and intermittent at first before becoming heavier, and changes in intermenstrual bleeding for premenopausal women. Pain is not common and typically signifies extensive disease, while vaginal discharge is unusual.

When investigating endometrial cancer, women who are 55 years or older and present with postmenopausal bleeding should be referred using the suspected cancer pathway. The first-line investigation is trans-vaginal ultrasound, which has a high negative predictive value for a normal endometrial thickness of less than 4 mm. Hysteroscopy with endometrial biopsy is also commonly used for diagnosis. Treatment for localized disease typically involves total abdominal hysterectomy with bilateral salpingo-oophorectomy, while patients with high-risk disease may require postoperative radiotherapy. Progestogen therapy may be used in frail elderly women who are not considered suitable for surgery. It is important to note that the combined oral contraceptive pill and smoking are protective against endometrial cancer.

The ampulla of the fallopian tube is where fertilisation typically takes place.

Following its release from the ovary, the egg travels through the fimbria and into the ampulla. Once ovulation has occurred, the egg can only survive for approximately 24 hours.

Fertilisation predominantly occurs in the ampulla of the fallopian tube. After fertilisation, the resulting embryo remains in the fallopian tube for roughly 72 hours before reaching the end of the tube and being ready for implantation in the uterus.

If implantation happens outside of the uterus, it is referred to as an ectopic pregnancy.

Anatomy of the Uterus

The uterus is a female reproductive organ that is located within the pelvis and is covered by the peritoneum. It is supplied with blood by the uterine artery, which runs alongside the uterus and anastomoses with the ovarian artery. The uterus is supported by various ligaments, including the central perineal tendon, lateral cervical, round, and uterosacral ligaments. The ureter is located close to the uterus, and injuries to the ureter can occur when there is pathology in the area.

The uterus is typically anteverted and anteflexed in most women. Its topography can be visualized through imaging techniques such as ultrasound or MRI. Understanding the anatomy of the uterus is important for diagnosing and treating various gynecological conditions.

To obtain fluid from the rectouterine pouch, a needle is inserted through the posterior fornix of the vagina.

The vagina has four fornices, including the anterior, posterior, and two lateral fornices. The anterior fornix of the vagina is closely associated with the vesicouterine pouch.

Culdocentesis is a procedure that involves using a needle to extract fluid from the rectouterine pouch (also known as the pouch of Douglas) through the posterior fornix of the vagina.

Culdocentesis is now mostly replaced by ultrasound examination and minimally invasive surgery, such as in cases of ectopic pregnancy.

Anatomy of the Uterus

The uterus is a female reproductive organ that is located within the pelvis and is covered by the peritoneum. It is supplied with blood by the uterine artery, which runs alongside the uterus and anastomoses with the ovarian artery. The uterus is supported by various ligaments, including the central perineal tendon, lateral cervical, round, and uterosacral ligaments. The ureter is located close to the uterus, and injuries to the ureter can occur when there is pathology in the area.

The uterus is typically anteverted and anteflexed in most women. Its topography can be visualized through imaging techniques such as ultrasound or MRI. Understanding the anatomy of the uterus is important for diagnosing and treating various gynecological conditions.

If Chlamydia trachomatis is not treated, PID may develop in a significant number of patients. This can lead to serious consequences such as infertility, chronic pain, and ectopic pregnancy caused by scarring.

Pelvic inflammatory disease (PID) is a condition where the female pelvic organs, including the uterus, fallopian tubes, ovaries, and surrounding peritoneum, become infected and inflamed. It is typically caused by an infection that spreads from the endocervix. The most common causative organism is Chlamydia trachomatis, followed by Neisseria gonorrhoeae, Mycoplasma genitalium, and Mycoplasma hominis. Symptoms of PID include lower abdominal pain, fever, dyspareunia, dysuria, menstrual irregularities, vaginal or cervical discharge, and cervical excitation.

To diagnose PID, a pregnancy test should be done to rule out an ectopic pregnancy, and a high vaginal swab should be taken to screen for Chlamydia and gonorrhoeae. However, these tests may often be negative, so consensus guidelines recommend having a low threshold for treatment due to the potential complications of untreated PID. Management typically involves oral ofloxacin and oral metronidazole or intramuscular ceftriaxone, oral doxycycline, and oral metronidazole. In mild cases of PID, intrauterine contraceptive devices may be left in, but the evidence is limited, and removal of the IUD may be associated with better short-term clinical outcomes according to recent guidelines.

Complications of PID include perihepatitis (Fitz-Hugh Curtis Syndrome), which occurs in around 10% of cases and is characterized by right upper quadrant pain that may be confused with cholecystitis, infertility (with a risk as high as 10-20% after a single episode), chronic pelvic pain, and ectopic pregnancy.

Call-Exner bodies are a characteristic feature of ovarian granulosa cell tumors, consisting of disorganized granulosa cells surrounding small fluid-filled spaces. Patients with ovarian malignancies often present with nonspecific symptoms such as abdominal discomfort and weight loss, leading to delayed diagnosis. The most common type of malignant stromal tumor of the ovary is granulosa cell tumor, which may be identified by the presence of Call-Exner bodies on histopathology. Other types of ovarian neoplasms include mucinous cystadenocarcinoma, serous cystadenoma, and serous cystadenocarcinoma, each with their own distinct features on histopathology.

Types of Ovarian Tumours

There are four main types of ovarian tumours, including surface derived tumours, germ cell tumours, sex cord-stromal tumours, and metastasis. Surface derived tumours are the most common, accounting for around 65% of ovarian tumours, and include the greatest number of malignant tumours. These tumours can be either benign or malignant and include serous cystadenoma, serous cystadenocarcinoma, mucinous cystadenoma, mucinous cystadenocarcinoma, and Brenner tumour. Germ cell tumours are more common in adolescent girls and account for 15-20% of tumours. These tumours are similar to cancer types seen in the testicle and can be either benign or malignant. Examples include teratoma, dysgerminoma, yolk sac tumour, and choriocarcinoma. Sex cord-stromal tumours represent around 3-5% of ovarian tumours and often produce hormones. Examples include granulosa cell tumour, Sertoli-Leydig cell tumour, and fibroma. Metastatic tumours account for around 5% of tumours and include Krukenberg tumour, which is a mucin-secreting signet-ring cell adenocarcinoma resulting from metastases from a gastrointestinal tumour.

During pregnancy, a woman’s body undergoes various physiological changes. The cardiovascular system experiences an increase in stroke volume, heart rate, and cardiac output, while systolic blood pressure remains unchanged and diastolic blood pressure decreases in the first and second trimesters before returning to normal levels by term. The enlarged uterus may cause issues with venous return, leading to ankle swelling, supine hypotension, and varicose veins.

The respiratory system sees an increase in pulmonary ventilation and tidal volume, with oxygen requirements only increasing by 20%. This can lead to a sense of dyspnea due to over-breathing and a fall in pCO2. The basal metabolic rate also increases, potentially due to increased thyroxine and adrenocortical hormones.

Maternal blood volume increases by 30%, with red blood cells increasing by 20% and plasma increasing by 50%, leading to a decrease in hemoglobin levels. Coagulant activity increases slightly, while fibrinolytic activity decreases. Platelet count falls, and white blood cell count and erythrocyte sedimentation rate rise.

The urinary system experiences an increase in blood flow and glomerular filtration rate, with elevated sex steroid levels leading to increased salt and water reabsorption and urinary protein losses. Trace glycosuria may also occur.

Calcium requirements increase during pregnancy, with gut absorption increasing substantially due to increased 1,25 dihydroxy vitamin D. Serum levels of calcium and phosphate may fall, but ionized calcium levels remain stable. The liver experiences an increase in alkaline phosphatase and a decrease in albumin levels.

The uterus undergoes significant changes, increasing in weight from 100g to 1100g and transitioning from hyperplasia to hypertrophy. Cervical ectropion and discharge may increase, and Braxton-Hicks contractions may occur in late pregnancy. Retroversion may lead to retention in the first trimester but usually self-corrects.

Vitamin K levels in breast milk are insufficient, but lactoferrin levels are adequate and promote iron uptake and have antibacterial properties. Breastfeeding is also linked to lower rates of breast and ovarian cancer, ear infections, and type 1 diabetes mellitus.

Advantages and Disadvantages of Breastfeeding

Breastfeeding has numerous advantages for both the mother and the baby. For the mother, it promotes bonding with the baby and helps with the involution of the uterus. It also provides protection against breast and ovarian cancer and is a cheap alternative to formula feeding as there is no need to sterilize bottles. However, it should not be relied upon as a contraceptive method as it is unreliable.

Breast milk contains immunological components such as IgA, lysozyme, and lactoferrin that protect mucosal surfaces, have bacteriolytic properties, and ensure rapid absorption of iron so it is not available to bacteria. This reduces the incidence of ear, chest, and gastrointestinal infections, as well as eczema, asthma, and type 1 diabetes mellitus. Breastfeeding also reduces the incidence of sudden infant death syndrome.

One of the advantages of breastfeeding is that the baby is in control of how much milk it takes. However, there are also disadvantages such as the transmission of drugs and infections such as HIV. Prolonged breastfeeding may also lead to nutrient inadequacies such as vitamin D and vitamin K deficiencies, as well as breast milk jaundice.

In conclusion, while breastfeeding has numerous advantages, it is important to be aware of the potential disadvantages and to consult with a healthcare professional to ensure that both the mother and the baby are receiving adequate nutrition and care.

The patient is experiencing secondary amenorrhoea, which is indicative of hypothalamic amenorrhoea due to low-level gonadotrophins. This could be caused by the patient’s intensive training for marathons, as well as other risk factors such as stress and anorexia nervosa. Hyperthyroidism is unlikely as the patient does not exhibit any symptoms or abnormal thyroid function test results. Polycystic ovarian syndrome (PCOS) can be ruled out as the patient does not have hirsutism, a high BMI, or elevated LH and FSH levels. Pregnancy is also not a possibility as the patient’s test was negative and she does not exhibit any signs of pregnancy.

Understanding Amenorrhoea: Causes, Investigations, and Management

Amenorrhoea is a condition characterized by the absence of menstrual periods. It can be classified into two types: primary and secondary. Primary amenorrhoea occurs when menstruation fails to start by the age of 15 in girls with normal secondary sexual characteristics or by the age of 13 in girls with no secondary sexual characteristics. On the other hand, secondary amenorrhoea is the cessation of menstruation for 3-6 months in women with previously normal and regular menses or 6-12 months in women with previous oligomenorrhoea.

The causes of amenorrhoea vary depending on the type. Primary amenorrhoea may be caused by gonadal dysgenesis, testicular feminization, congenital malformations of the genital tract, functional hypothalamic amenorrhoea, congenital adrenal hyperplasia, imperforate hymen, hypothalamic amenorrhoea, polycystic ovarian syndrome, hyperprolactinemia, premature ovarian failure, and thyrotoxicosis. Meanwhile, secondary amenorrhoea may be caused by stress, excessive exercise, PCOS, Sheehan’s syndrome, Asherman’s syndrome, and other underlying medical conditions.

To diagnose amenorrhoea, initial investigations may include pregnancy tests, full blood count, urea & electrolytes, coeliac screen, thyroid function tests, gonadotrophins, prolactin, and androgen levels. Management of amenorrhoea involves treating the underlying cause. For primary amenorrhoea, it is important to investigate and treat any underlying cause. For secondary amenorrhoea, it is important to exclude pregnancy, lactation, and menopause and treat the underlying cause accordingly. Women with primary ovarian insufficiency due to gonadal dysgenesis may benefit from hormone replacement therapy to prevent osteoporosis and other complications.

In conclusion, amenorrhoea is a condition that requires proper diagnosis and management. Understanding the causes and appropriate investigations can help in providing the necessary treatment and care for women experiencing this condition.