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Sheehan's syndrome

From Wikipedia, the free encyclopedia

Sheehan's syndrome
Other namesSimmond's syndrome, postpartum hypopituitarism, postpartum pituitary gland necrosis
Anatomy of normal pituitary gland and surrounding structures
Empty sella turcica on MRI as seen in severe cases of Sheehan's syndrome
SpecialtyEndocrinology, obstetrics and gynaecology Edit this on Wikidata

Sheehan's syndrome, also known as postpartum pituitary gland necrosis, occurs when the pituitary gland is damaged due to significant blood loss and hypovolemic shock (ischemic necrosis) usually during or after childbirth leading to decreased functioning of the pituitary gland (hypopituitarism).[1] The pituitary gland is an endocrine organ, meaning it produces certain hormones and is involved in the regulation of various other hormones.[2] This gland is located in the brain and sits in a pocket of the sphenoid bone known as the sella turcica.[3] The pituitary gland works in conjunction with the hypothalamus, and other endocrine organs to modulate numerous bodily functions including growth, metabolism, menstruation, lactation, and even the "fight-or-flight" response.[2] These endocrine organs release hormones in very specific pathways, known as hormonal axes. For example, the release of a hormone in the hypothalamus will target the pituitary to trigger the release of a subsequent hormone, and the pituitary's released hormone will target the next organ in the pathway.[2] Hence, damage to the pituitary gland can have downstream effects on any of the aforementioned bodily functions.

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Transcription

- You know, when most of us think of pregnancy, we focus down here at what's going on at the level of the uterus, but a healthy pregnancy has a lot to do with a properly functioning pituitary gland up here in the brain. The pituitary gland makes the hormones that are essential for life, and in pregnancy it grows. And not just by a little but by close to 150%. A lot of that growth is due to cells call lactotrophs. These cells in the pituitary gland called lactotrophs increasing in number. Lactotrophs are these cells that make a hormone called prolactin. They make this hormone called prolactin. Prolactin stimulates breast growth and milk production, so as you can imagine, it's really important during pregnancy. That's all good but the problem is that while the pituitary gland grows substantially during pregnancy, the blood supply to the pituitary doesn't increase by as much. That kind of looks like this where if this is a normal pituitary gland, this is what a normal pituitary gland looks like, and this is its blood supply. In pregnancy, this gland is way bigger, is way bigger. But, its blood supply isn't that much greater. Throughout the pregnancy, I guess you can say that the pituitary gland is in a really fragile state. It's only receiving as much blood as it needs. No more than that. It's really pretty susceptible to being in a situation where its blood supply doesn't meet its requirements, which can lead to ischemia, or a lack of oxygen supply. Eventually it can lead to death of the cells of the pituitary gland. That death of the cells in the pituitary gland is referred to as Sheehan Syndrome. The topic of this video. When do we have to worry about all of that? We have to worry about it in any case of excessive blood loss. Any sort of trauma resulting in blood loss or in the case of postpartum hemorrhage, which refers to when you have an excessive blood loss during delivery. In those cases the pituitary gland isn't able to withstand that loss in blood supply. In addition to that, remember that whenever you have a loss of blood volume, whenever you have a loss of blood volume, the blood pressure in the body drops. The body responds to that dip in blood pressure by clamping down on all of the blood vessels, which is referred to as vasoconstriction. The body repsonds to the dip in blood pressure by vasoconstricting to increase the blood pressure. That clamping down on the blood vessels of the pituitary further reduces the amount of blood that's going into the pituitary gland. In situations of acute blood loss, again such as in trauma or a postpartum hemorrhage, you can have death of the pituitary cells. What does that mean? Why is that significant if you have death of the pituitary cells? Firstly, keep in mind that this isn't an all or none type of picture. You can have death of a few, many, or all of the cells. Usually it's just the lactotrophs that die. In which case you end up with a prolactin deficiency. Because of that, if you have a prolactin deficiency, the breasts will reduce in size and the mom isn't able to breastfeed after delivery. Usually, this is actually how this syndrome is discovered. The mom isn't able to breastfeed after delivery and that warrants investigation into the cause of why that's happening. You can have the death of the lactotrophs. You can also have death of the cells that make hormones involved in the reproductive axis. That could lead to a lack of menstruation or an inability to regrow shaved pubic hair or axillary or underarm hair. Or less commonly but still possible, you can have loss of all of the cells of the pituitary gland and that could lead to symptoms of low thyroid hormone such as, weight gain, cold intolerant, and you can also have symptoms of cortisol deficiency which could lead to fatigue or feeling tired, or even life threatening low blood pressure. The main treatment for Sheehan Syndrome is replacing these hormones that you've lost at the levels that the body would normally make them. We're getting better and better at preventing this disease from occurring all together. Nowadays, we take simple measures to make sure that if the mom suffers, any form of acute blood loss, we replace that blood volume as quickly as we can. That's a little bit of information on Sheehan Syndrome.

Signs and symptoms

The various signs and symptoms in Sheehan's syndrome are caused by damage to the pituitary, thereby causing a decrease in one or more of the hormones it normally secretes. Since the pituitary controls many glands in the endocrine system, partial or complete loss of a variety of functions may result.[4] Many of the signs and symptoms of Sheehan's are considered "nonspecific" in the medical community; in other words these signs and symptoms are seen in a number of different disease processes, and are not specific to a singular disease or syndrome.[5]

In some cases, a woman with Sheehan syndrome may be relatively asymptomatic initially; therefore, the diagnosis would not be made until years later when features of hypopituitarism become evident.[6] In rare instances this syndrome can present acutely with unstable vital signs, dangerously low blood glucose levels, heart failure, or even psychosis.[7][8] Hypopituitarism can lead to an interruption in any of the following hormone pathways: thyroid disorder (secondary hypothyroidism), adrenal gland (adrenal insufficiency due to glucocorticoid deficiency), sex hormone (gonadotropin deficiency), prolactin (a hormone responsible for lactation), growth hormone, or rarely anti-diuretic hormone deficiency (central diabetes insipidus).[2] Since damage to the pituitary can cause a deficiency in more than one of these hormone pathways simultaneously, it is possible to have a mix of any of the signs or symptoms listed below.[8]

Sheehan's syndrome's most common initial symptoms are difficulties with or total absence of lactation (agalactorrhea).[6] Another common sign is infrequent menstrual cycles (oligomenorrhea) or absent menstrual cycles (amenorrhea) following delivery.[8] In addition to menstrual irregularities other signs of sex hormone deficiency are hot flashes, decreased libido, and breast involution.[5] Symptoms and signs of thyroid disorder are tiredness, intolerance to cold, constipation, weight gain, hair loss, slowed thinking, as well as a slowed heart rate and low blood pressure.[9] Adrenal gland malfunction can present acutely or chronically. In a more chronic case, it is similar to Addison's disease with symptoms including fatigue, weight loss, hypoglycemia (low blood sugar levels), low hemoglobin levels (anemia) and hyponatremia (low sodium levels) that develop over several months or years.[10] Acute adrenal insufficiency is referred to as an adrenal crisis, which can be life-threatening, and occurs very shortly after the inciting event i.e. significant blood loss post-partum in the context of Sheehan's syndrome.[11] Adrenal crisis signs and symptoms include hypoglycemia, hypotension, weakness, fatigue, and seizures from severe hyponatremia.[11]

Growth hormone deficiency is one of the most common hormone deficiencies of hypopituitarism seen in Sheehan's syndrome.[9] Low levels of growth hormone may present with low energy, body aches, or subtle wrinkling of the skin around the eyes or mouth.[5][7] The symptoms of anti-diuretic hormone deficiency are increased thirst, excessive urination, headache, and fatigue.[12] Hematological changes might be seen as well such as anemia or low platelets (thrombocytopenia).[9] Hyponatremia is seen in many cases of Sheehan's syndrome because it can result from multiple etiologies. Drops in thyroid hormones and glucocorticoid/adrenal hormones can indirectly lead to hyponatremia through water retention, while blood loss can trigger hyponatremia through ADH secretion.[7] The development of Syndrome of Inappropriate Anti-Diuretic Hormone in patients with Sheehan's syndrome has been documented in the literature, although the mechanism is not well understood.[7]

Causes

As stated, Sheehan's syndrome is caused by damage to the pituitary, thereby causing a decrease in one or more of the hormones it normally secretes. Sheehan's syndrome typically occurs because of excessive blood loss after delivery (post-partum hemorrhage), although there are several risk factors that may contribute to its development.[8] This syndrome does not appear to be exclusively linked to childbirth, as Sheehan's syndrome has been reported in pregnant patients that experienced massive hemorrhage from non-obstetrical causes.[8] The pituitary gland grows and has a higher metabolic demand during pregnancy because the pituitary needs to rev up the production of certain hormones associated with pregnancy.[8][4] This higher metabolic demand, in turn, leads to higher demand for blood flow.[4]

Thus, if the body enters a state of shock from excessive blood loss in post-partum delivery, the pituitary gland is more susceptible to injury.[4] Although the vast majority of cases of Sheehan's syndrome occur in the setting of massive blood loss, cases have been documented of acute Sheehan's syndrome occurring with blood loss volumes that are not considered "massive".[13][4] Some possible predisposing factors to Sheehan's syndrome may include: disseminated blood coagulation (DIC), hypotension, small sella turcica size, and blood clots from a pre-existing hypercoagulable disorder.[8] Atony of the uterus is a leading cause of post-partum hemorrhage, therefore uterine atony could induce Sheehan's syndrome.[14]

Pathophysiology

This syndrome seems to arise when certain factors compound each other to cause pituitary injury. The physiologic enlargement of the pituitary gland in conjunction with an interference in its blood supply ultimately result in pituitary ischemia and necrosis.[8] One cause of pituitary growth associated with the risk of Sheehan's syndrome is the hyperplasia of lactotrophs which produce prolactin, the hormone responsible for milk production.[4] Other hormone-secreting cells of the pituitary undergo rapid growth in pregnant women as well, which contribute to the gland's enlargement.[9]

The anterior pituitary is supplied by a low pressure portal venous system.[14] The anterior pituitary is more commonly affected in Sheehan's syndrome because of the structure of the portal venous system. Posterior pituitary involvement leading to central diabetes insipidus is much rarer, and typically reflects more extensive damage to the organ and more severe disease.[12] It has been suggested that the arrangement of the pituitary's blood supply contribute to its susceptibility for injury. "The highly vascularized pituitary tissue involves one of the most rapid blood flow in the human body and probably, therefore, has a tendency to infarction because even small degrees of change in the pituitary intravascular pressure cause an arrest of blood flow".[8] Ischemia may occur as a result of vasospasm from shock, hypotension, thrombosis, or direct vascular compression of the hypophyseal artery from the enlarged pituitary gland itself.[8][4][14] The presence of disseminated intravascular coagulation (i.e., in amniotic fluid embolism or HELLP syndrome) also appears to be a factor in its development.[8]

Diagnosis

Typically an important clue that leads to a diagnosis of Sheehan's syndrome is identifying a deficiency in one or more of the hormones produced directly, or indirectly, by the pituitary gland. The extent of hormone deficiency, and which hormones are affected depends on the extent of the damage to the pituitary. Hormonal assays measure the levels of these hormones which include but are not limited to T4, TSH, estrogen, gonadotropin, cortisol, and ACTH.[7] It might be difficult to detect damage to these hormone pathways if hormone levels are at the borderline of the abnormal range. In this case, stimulation tests will be done to determine if the pituitary is responsive to hypothalamic hormones.[14]

MRI is useful in diagnosing Sheehan's syndrome since it examines the structure of the pituitary and may identify any anatomical damage.[4] MRI findings will vary based on how early or late in the disease process the test is being conducted. If an MRI is conducted early enough in the disease process the pituitary may appear larger than normal, and show changes that are consistent with damage from lack of blood supply.[15] Later in the disease process of this syndrome the damage imposed on the pituitary gland will cause it to shrink, and leave a partially empty or totally empty sella turcica on MRI.[7]

Treatment

The mainstay of treatment is hormone replacement therapy for the hormones that are missing.[16] Treatment plans and dosages should be individualized by an endocrinologist. Glucocorticoids may be administered to address or prevent an adrenal crisis, a potential serious complication of Sheehan's syndrome.[4] Hormone replacement is vital in reducing the morbidity and mortality of this syndrome.[4]

Epidemiology

The exact prevalence of this syndrome is difficult to define because the incidence varies so much from country to country. Sheehan syndrome is more prevalent in developing countries than developed countries.[14] In a study from the United Kingdom in 2001 only 1.4% of patients with hypopituitarism were diagnosed with Sheehan's syndrome.[5] Just a few years earlier in 1996 the World Health Organization estimated that 3 million women were effected by Sheehan's syndrome.[8] In a study of 1,034 symptomatic adults, Sheehan's syndrome was found to be the sixth-most frequent etiology of growth hormone deficiency, being responsible for 3.1% of cases (versus 53.9% due to a pituitary tumor).[7] Additionally, it was found that the majority of women who experienced Sheehan syndrome gave birth at home rather than in a hospital.[14]

History

The specific association with postpartum shock or hemorrhage was described in 1937 by the British pathologist Harold Leeming Sheehan (1900–1988).[17] The initial distinction was made in the research article "Post-Partum Necrosis of the Anterior Pituitary".[18] In his research, Dr. Sheehan reviewed (through autopsy) the effects of pituitary necrosis on 12 cases of patients that experienced postpartum necrosis.[18] He observed cases where lesions and death occurred during or after pregnancy, as well as cases where death occurred in the late stage of necrosis (years later). This started the initial distinction of Sheehan's syndrome from Simmonds' disease (also known as hypopituitarism). Sheehan noted that significant feature of these patients' cases was hemorrhaging, which in his experience was most commonly caused by either: placenta Previa (low placenta), uterine rupture, cervical or uterine tears, post-partum atony, or retained placenta. Simmonds' disease, however, occurs in either sex due to causes unrelated to pregnancy.[14]

However, in his 1939 publication, "Simmonds' Disease due to Post-partum Necrosis of the Anterior Pituitary", Sheehan displays post-partum necrosis as a cause of Simmonds' disease, thus establishing the relationship between the two conditions.[19] According to Sheehan in 1939 approximately 41% of survivors of severe postpartum hemorrhage (PPH) and/or hypovolemic shock experienced severe or partial hypopituitarism.[14]

Society and culture

In the developed world Sheehan's Syndrome is a rare complication of pregnancy; although this syndrome is more prevalent in developing countries it continues to effect women around the world.[8] A retrospective study in Turkey found that the prevalence of Sheehan's syndrome was directly proportional to the amount of at-home deliveries each decade.[7] This may be due to previously limited obstetric techniques present in a home environment. Blood loss associated with episiotomy and forceps exacerbating blood loss when the placenta separates from the wall of the uterus, particularly in mothers with low blood pressure, even in obstetric setting, namely hospital, caused a more subtle Sheehan's syndrome of Growth Hormone, Anti-Duretic Hormone, ACTH deficiency, which may be life threatening if missed; PubMed.gov Sheehan's in modern times:a nationwide retrospective study Iceland 2011, where every mother gives birth in hospital, with full obstetric care available.

Research

At present, the part that autoimmunity plays in the development of Sheehan's syndrome is uncertain. Several case reports have identified anti-pituitary antibodies in patients diagnosed with Sheehan's.[4] Some patients also tested positive for anti-hypothalamus antibodies.[20] Given that many patients that have developed Sheehan's syndrome do not have detectable levels of these antibodies, it is unclear whether these antibodies cause this syndrome or result from it.[8]

References

  1. ^ Kaufman MS, Stead LG (2011). First aid for the obstetrics & gynecology clerkship. McGraw-Hill Professional. ISBN 9780071634199. OCLC 768527672.
  2. ^ a b c d Hammer G, McPhee S (2019). "Disorders of the Hypothalamus & Pituitary Gland". Pathophysiology of Disease: An Introduction to Clinical Medicine (8th ed.). New York, NY: McGraw-Hill Education. ISBN 978-1-260-02650-4.
  3. ^ Chapman PR, Singhal A, Gaddamanugu S, Prattipati V (November 2020). "Neuroimaging of the Pituitary Gland: Practical Anatomy and Pathology". Radiologic Clinics of North America. 58 (6): 1115–1133. doi:10.1016/j.rcl.2020.07.009. PMID 33040852. S2CID 222299889.
  4. ^ a b c d e f g h i j k Keleştimur F (December 2003). "Sheehan's syndrome". Pituitary. 6 (4): 181–188. doi:10.1023/B:PITU.0000023425.20854.8e. PMID 15237929. S2CID 25547320.
  5. ^ a b c d Laway BA, Baba MS (April 2021). "Sheehan syndrome". JPMA. The Journal of the Pakistan Medical Association. 71 (4): 1282–12568. PMID 34125791.
  6. ^ a b Schrager S, Sabo L (September 2001). "Sheehan syndrome: a rare complication of postpartum hemorrhage". The Journal of the American Board of Family Practice. 14 (5): 389–391. PMID 11572546.
  7. ^ a b c d e f g h Shivaprasad C (September 2011). "Sheehan's syndrome: Newer advances". Indian Journal of Endocrinology and Metabolism. 15 (Suppl 3): S203–S207. doi:10.4103/2230-8210.84869. PMC 3183525. PMID 22029025.
  8. ^ a b c d e f g h i j k l m n Halit D, Karaca Z, Tanriverdi F, Unluhizarci K, Kelestimur F (January 2016). "Sheehan's syndrome: new insights into an old disease". Endocrine. 51 (1): 22–31. doi:10.1007/s12020-015-0726-3. PMID 26323346. S2CID 6560041.
  9. ^ a b c d Schury MP, Adigun R (2022). "Sheehan Syndrome". StatPearls. Treasure Island (FL): StatPearls Publishing. PMID 29083621. Retrieved 2023-01-25.
  10. ^ "Addison's disease - Symptoms and causes". Mayo Clinic. Retrieved 2019-04-29.
  11. ^ a b Elshimy G, Chippa V, Jeong JM (2022). Adrenal Crisis. Treasure Island (FL): StatPearls Publishing. PMID 29763143. Retrieved 2023-01-25. {{cite book}}: |work= ignored (help)
  12. ^ a b Olmes GL, Solomayer EF, Radosa JC, Sklavounos P, Agne P, Schunk SJ, Haj Hamoud B (September 2022). "Acute Sheehan's syndrome manifesting initially with diabetes insipidus postpartum: a case report and systematic literature review". Archives of Gynecology and Obstetrics. 306 (3): 699–706. doi:10.1007/s00404-021-06294-2. PMC 9411080. PMID 34779875.
  13. ^ Matsuzaki S, Endo M, Ueda Y, Mimura K, Kakigano A, Egawa-Takata T, et al. (June 2017). "A case of acute Sheehan's syndrome and literature review: a rare but life-threatening complication of postpartum hemorrhage". BMC Pregnancy and Childbirth. 17 (1): 188. doi:10.1186/s12884-017-1380-y. PMC 5471854. PMID 28615049.
  14. ^ a b c d e f g h Karaca Z, Laway BA, Dokmetas HS, Atmaca H, Kelestimur F (December 2016). "Sheehan syndrome". Nature Reviews. Disease Primers. 2: 16092. doi:10.1038/nrdp.2016.92. PMID 28004764. S2CID 36776064.
  15. ^ Morani A, Parmar H, Ibrahim M (January 2012). "Teaching neuroimages: sequential MRI of the pituitary in Sheehan syndrome". Neurology. 78 (1): e3. doi:10.1212/WNL.0b013e31823ed07d. PMID 22201118. S2CID 32669801.
  16. ^ Errarhay S, Kamaoui I, Bouchikhi C, Châara H, Bouguern H, Tizniti S, et al. (June 2009). "Sheehan's Syndrome A Case Report and Literature Review". The Libyan Journal of Medicine. 4 (2): 81–82. doi:10.4176/081201. PMC 3066722. PMID 21483515.
  17. ^ Sheehan HL (January 1965). "The Repair of Post-Partum Necrosis of the Anterior Lobe of the Pituitary Gland". Acta Endocrinologica. 48 (1): 40–60. doi:10.1530/acta.0.0480040. PMID 14254773.
  18. ^ a b Sheehan HL (1937). "Post-partum necrosis of the anterior pituitary". The Journal of Pathology and Bacteriology. 45 (1): 189–214. doi:10.1002/path.1700450118. ISSN 0368-3494.
  19. ^ Cooke RT (October 1945). "Simmonds's Disease due to Post-partum Necrosis of Anterior Pituitary". British Medical Journal. 2 (4423): 493–494. doi:10.1093/oxfordjournals.qjmed.a069138. PMC 2059949. PMID 20786336.
  20. ^ De Bellis A, Kelestimur F, Sinisi AA, Ruocco G, Tirelli G, Battaglia M, et al. (February 2008). "Anti-hypothalamus and anti-pituitary antibodies may contribute to perpetuate the hypopituitarism in patients with Sheehan's syndrome". European Journal of Endocrinology. 158 (2): 147–152. doi:10.1530/EJE-07-0647. PMID 18230820. S2CID 24922671.

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This page was last edited on 30 November 2023, at 10:50
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