Friday, July 26, 2013

How to preforme a Caesarean Section fron start to end (video)

Caesarean Section




A caesarean section is an operation to deliver a baby. It involves making a cut in the front wall of a woman’s abdomen (tummy) and womb.
The operation can be:
  • planned (elective) procedure, when a medical need for the operation becomes apparent during pregnancy
  • an emergency procedure, when circumstances during labour call for urgent delivery of the baby
A caesarean section is carried out under regional anaesthetic, where the lower part of your body is numbed. It usually takes 30–45 minutes.

When a caesarean might be needed

A caesarean section is usually carried out when a normal vaginal birth could put you or your unborn baby at risk, for example because:
  • your labour doesn't progress naturally
  • you go into premature labour
  • you have placenta praevia (where the placenta is low lying in the womb and covering part of the womb entrance)
  • you have a viral infection, such as a first attack of genital herpes
  • your baby is in the breech (feet first) position


Source: www.nhs.uk

Monday, June 10, 2013

Chickenpox

Chickenpox is a mild and common childhood illness that most children catch at some point.
It causes a rash of red, itchy spots that turn into fluid-filled blisters. They then crust over to form scabs, which eventually drop off.
Some children have only a few spots, but in others they can cover the entire body. The spots are most likely to appear on the face, ears and scalp, under the arms, on the chest and belly and on the arms and legs
.
Read more about the symptoms of chickenpox and watch a slideshow of common childhood conditions to help you recognise if your child has it.
Chickenpox (medically known as varicella) is caused by a virus called the varicella-zoster virus. It's spread quickly and easily through the coughs and sneezes of someone who is infected.
Read more about the causes of chickenpox.
Chickenpox is most common in children under 10. In fact, chickenpox is so common in childhood that 90% of adults are immune to the condition because they've had it before.
Children usually catch chickenpox in winter and spring, particularly between March and May.

What to do

To prevent spreading the infection, keep children off nursery or school until all the spots have crusted over.
Chickenpox is most infectious from one to two days before the rash starts, until all the blisters have crusted over (usually five to six days after the start of the rash).
If your child has chickenpox, try to keep them away from public areas to avoid contact with people who have not had it, especially people who are at risk of serious problems, such as newborn babies, pregnant women and anyone with a weakened immune system (for example, people having cancer treatment or taking steroid tablets).
Read more about what you need to do to stop chickenpox spreading.

Chickenpox treatment

Chickenpox in children is considered a mild illness, but expect your child to feel pretty miserable and irritable while they have it.
Your child is likely to have a fever at least for the first few days of the illness. The spots can be incredibly itchy.
There is no specific treatment for chickenpox, but there are pharmacy remedies which can alleviate symptoms, such as paracetamol to relieve fever and calamine lotion and cooling gels to ease itching.
In most children, the blisters crust up and fall off naturally within one to two weeks.
Read more about chickenpox treatments.

When to see a doctor

For most children, chickenpox is a mild illness that gets better on its own.
But some children can become more seriously ill with chickenpox. They need to see a doctor.
Contact your GP straight away if your child develops any abnormal symptoms, for example:
  • if the blisters on their skin become infected 
  • if your child has a pain in their chest or has difficulty breathing

Chickenpox in adults

Chickenpox may be a childhood illness, but adults can get it too. Chickenpox tends to be more severe in adults than children, and adults have a higher risk of developing complications.
As with children, adults with chickenpox should stay off work until all the spots have crusted over. They should seek medical advice if they develop any abnormal symptoms, such as infected blisters.
Adults with chickenpox may benefit from taking antiviral medicine if treatment is started early in the course of the illness. Read more about antivirals in the treatment of chickenpox.

Who's at special risk?

Some children and adults are at special risk of serious problems if they catch chickenpox. They include:
  • pregnant women
  • newborn babies
  • people with a weakened immune system
These people should seek medical advice as soon as they are exposed to the chickenpox virus or they develop chickenpox symptoms.
They may need a blood test to check if they are immune (protected from) chickenpox.
Read more about immunity testing and the diagnosis of chickenpox in people at special risk.

Chickenpox in pregnancy

Chickenpox occurs in approximately three in every 1,000 pregnancies. It can cause serious complications for both the pregnant woman and her baby. See Chickenpox - complications for further information on what to do if you are exposed to chickenpox during pregnancy.

Chickenpox and shingles

One you have had chickenpox, you usually develop antibodies to the infection and become immune to catching it again. However, the virus that causes chickenpox, the varicella virus, remains dormant (inactive) in your body's nerve tissues and can return later in life as an illness called shingles.
It is possible to catch chickenpox from someone with shingles, but not the other way around.
Read more about shingles.

Is there a vaccine against chickenpox?

There is a chickenpox vaccine but it is not part of the routine childhood vaccination schedule. The vaccine is only offered to children and adults who are particularly vulnerable to chickenpox complications.

Saturday, June 8, 2013

Hyperthyroidism

Hyperthyroidism

Hyperthyroidism Disorder
Hyperthyroidism is a condition in which the thyroid gland makes too much thyroid hormone. The condition is often referred to as an "overactive thyroid."

Causes

The thyroid gland is an important organ of the endocrine system. It is located in the front of the neck just below the voice box. The gland produces the hormones thyroxine (T4) and triiodothyronine (T3), which control the way every cell in the body uses energy. This process is called metabolism.
Hyperthyroidism occurs when the thyroid releases too much of its hormones over a short (acute) or long (chronic) period of time. Many diseases and conditions can cause this problem, including:
  • Getting too much iodine
  • Graves disease (accounts for most cases of hyperthyroidism)
  • Inflammation (thyroiditis) of the thyroid due to viral infections or other causes
  • Noncancerous growths of the thyroid gland or pituitary gland
  • Some tumors of the testes or ovaries
  • Taking large amounts of thyroid hormone
Related topics:

Symptoms

Other symptoms that can occur with this disease:

Exams and Tests

Physical examination may reveal:
A doctor performing an ultrasound scan of a patient with hyperthyroidism.
  • High systolic blood pressure (the first number in a blood pressure reading)
  • Hyperactive reflexes
  • Increased heart rate
  • Thyroid enlargement
  • Tremor
Subclinical hyperthyroidism is a mild form of hyperthyroidism that is diagnosed by abnormal blood levels of thyroid hormones, often without any symptoms.
Blood tests are also done to measure levels of thyroid hormones.
  • TSH (thyroid stimulating hormone) level is usually low
  • T3 and free T4 levels are usually high
This disease may also affect the results of the following tests:

Treatment

Treatment depends on the cause and the severity of symptoms. Hyperthyroidism is usually treated with one or more of the following:
  • Antithyroid medications
  • Radioactive iodine (which destroys the thyroid gland and stops the excess production of hormones)
  • Surgery to remove the thyroid
If the thyroid must be removed with surgery or destroyed with radiation, you must take thyroid hormone replacement pills for the rest of your life.
Beta-blockers such as propranolol are used to treat some of the symptoms, including rapid heart rate, sweating, and anxiety until the hyperthyroidism can be controlled.

Outlook (Prognosis)

Hyperthyroidism is generally treatable and only rarely is life threatening. Some of its causes may go away without treatment.
Hyperthyroidism caused by Graves disease usually gets worse over time. It has many complications, some of which are severe and affect quality of life.

Possible Complications

Thyroid crisis (storm), also called thyrotoxicosis, is a sudden worsening of hyperthyroidism symptoms that may occur with infection or stress. Fever, decreased mental alertness, and abdominal pain may occur. Immediate hospitalization is needed.
Other complications of hyperthyroidism include:
  • Heart-related complications including:
  • Increased risk for osteoporosis, if hyperthyroidism is present for a long time
  • Surgery-related complications, including:
    • Scarring of the neck
    • Hoarseness due to nerve damage to the voice box
    • Low calcium level due to damage to the parathyroid glands (located near the thyroid gland)
  • Treatments for hypothyroidism, such as radioactive iodine, surgery, and medications to replace thyroid hormones can have side effects.

When to Contact a Medical Professional

Call your health care provider if you have symptoms that could be caused by too much thyroid hormone production. Go to an emergency room or call the local emergency number (such as 911), if you have:
  • Change in consciousness
  • Dizziness
  • Rapid, irregular heartbeat
Call your health care provider if you are being treated for hyperthyroidism and you develop symptoms of underactive thyroid, including:
  • Depression
  • Mental and physical sluggishness
  • Weight gain


Wednesday, June 5, 2013

Hypothyroidism - All about it.


An illustration of the pituitary gland and parathyroid glands.

What is hypothyroidism?

Hypothyroidism is a condition characterized by abnormally low thyroid hormone production. There are many disorders that result in hypothyroidism. These disorders may directly or indirectly involve the thyroid gland. Because thyroid hormone affects growth, development, and many cellular processes, inadequate thyroid hormone has widespread consequences for the body.
What are thyroid hormones?
Thyroid hormones are produced by the thyroid gland. This gland is located in the lower part of the neck, below the Adam's apple. The gland wraps around the windpipe (trachea) and has a shape that is similar to a butterfly - formed by two wings (lobes) and attached by a middle part (isthmus).
The thyroid gland uses iodine (mostly available from the diet in foods such as seafood, bread, and salt) to produce thyroid hormones. The two most important thyroid hormones are thyroxine (T4) and triiodothyronine (T3), which account for 99% and 1% of thyroid hormones present in the blood respectively. However, the hormone with the most biological activity is T3. Once released from the thyroid gland into the blood, a large amount of T4 is converted into T3 - the active hormone that affects the metabolism of cells.

What causes hypothyroidism?

Hypothyroidism is a very common condition. It is estimated that 3% to 5% of the population has some form of hypothyroidism. The condition is more common in women than in men, and its incidence increases with age.
 Below is a list of some of the common causes of hypothyroidism in adults followed by a discussion of these conditions.
  • Hashimoto's thyroiditis
  • Lymphocytic thyroiditis (which may occur after hyperthyroidism)
  • Thyroid destruction (from radioactive iodine or surgery)
  • Pituitary or hypothalamic disease
  • Medications
  • Severe iodine deficiency
Hashimoto's Thyroiditis
The most common cause of hypothyroidism in the United States is an inherited condition called Hashimoto's thyroiditis. This condition is named after Dr. Hakaru Hashimoto who first described it in 1912. In this condition, the thyroid gland is usually enlarged (goiter) and has a decreased ability to make thyroid hormones. Hashimoto's is an autoimmune disease in which the body's immune system inappropriately attacks the thyroid tissue. In part, this condition is believed to have a genetic basis. This means that the tendency toward developing Hashimoto's thyroiditis can run in families. Hashimoto's is 5 to 10 times more common in women than in men. Blood samples drawn from patients with this disease reveal an increased number of antibodies to the enzyme, thyroid peroxidase (anti-TPO antibodies). Since the basis for autoimmune diseases may have a common origin, it is not unusual to find that a patient with Hashimoto's thyroiditis has one or more other autoimmune diseases such as diabetes or pernicious anemia ( B12 deficiency). Hashimoto's can be identified by detecting anti-TPO antibodies in the blood and/or by performing a thyroid scan.
Lymphocytic thyroiditis following hyperthyroidism
Thyroiditis refers to inflammation of the thyroid gland. When the inflammation is caused by a particular type of white blood cell known as a lymphocyte, the condition is referred to as lymphocytic thyroiditis. This condition is particularly common after pregnancy and can actually affect up to 8% of women after they deliver. In these cases, there is usually ahyperthyroid phase (in which excessive amounts of thyroid hormone leak out of the inflamed gland), which is followed by a hypothyroid phase that can last for up to six months. The majority of affected women eventually return to a state of normal thyroid function, although there is a possibility of remaining hypothyroid.
Thyroid destruction secondary to radioactive iodine or surgery
Patients who have been treated for a hyperthyroid condition (such asGraves' disease) and received radioactive iodine may be left with little or no functioning thyroid tissue after treatment. The likelihood of this depends on a number of factors including the dose of iodine given, along with the size and the activity of the thyroid gland. If there is no significant activity of the thyroid gland six months after the radioactive iodine treatment, it is usually assumed that the thyroid will no longer function adequately. The result is hypothyroidism. Similarly, removal of the thyroid gland during surgery will be followed by hypothyroidism.
Pituitary or Hypothalamic disease
If for some reason the pituitary gland or the hypothalamus are unable to signal the thyroid and instruct it to produce thyroid hormones, a decreased level of circulating T4 and T3 may result, even if the thyroid gland itself is normal. If this defect is caused by pituitary disease, the condition is called "secondary hypothyroidism." If the defect is due to hypothalamic disease, it is called "tertiary hypothyroidism."
Pituitary injury
pituitary injury may result after brain surgery or if there has been a decrease of blood supply to the area. In these cases of pituitary injury, the TSH that is produced by the pituitary gland is deficient and blood levels of TSH are low. Hypothyroidism results because the thyroid gland is no longer stimulated by the pituitary TSH. This form of hypothyroidism can, therefore, be distinguished from hypothyroidism that is caused by thyroid gland disease, in which the TSH level becomes elevated as the pituitary gland attempts to encourage thyroid hormone production by stimulating the thyroid gland with more TSH. Usually, hypothyroidism from pituitary gland injury occurs in conjunction with other hormone deficiencies, since the pituitary regulates other processes such as growth, reproduction, and adrenal function. Medications
Medications that are used to treat an over-active thyroid (hyperthyroidism) may actually cause hypothyroidism. These drugs include methimazole(Tapazole) and propylthiouracil (PTU). The psychiatric medication, lithium(Eskalith, Lithobid), is also known to alter thyroid function and cause hypothyroidism. Interestingly, drugs containing a large amount of iodine such as amiodarone (Cordarone), potassium iodide (SSKI, Pima), and Lugol's solution can cause changes in thyroid function, which may result in low blood levels of thyroid hormone.
Severe iodine deficiency:
In areas of the world where there is an iodine deficiency in the diet, severe hypothyroidism can be seen in 5% to 15% of the population. Examples of these areas include Zaire, Ecuador, India, and Chile. Severe iodine deficiency is also seen in remote mountain areas such as the Andes and the Himalayas. Since the addition of iodine to table salt and to bread, iodine deficiency is rarely seen in the United States.

What are the symptoms of hypothyroidism?



The symptoms of hypothyroidism are often subtle. They are not specific (which means they can mimic the symptoms of many other conditions) and are often attributed to aging. Patients with mild hypothyroidism may have no signs or symptoms. The symptoms generally become more obvious as the condition worsens and the majority of these complaints are related to a metabolic slowing of the body. Common symptoms are listed below:
As the disease becomes more severe, there may be puffiness around the eyes, a slowing of the heart rate, a drop in body temperature, and heart failure. In its most profound form, severe hypothyroidism may lead to a life-threatening coma (myxedema coma). In a severely hypothyroid individual, amyxedema coma tends to be triggered by severe illness, surgery, stress, or traumatic injury. This condition requires hospitalization and immediate treatment with thyroid hormones given by injection.
Properly diagnosed, hypothyroidism can be easily and completely treated with thyroid hormone replacement. On the other hand, untreated hypothyroidism can lead to an enlarged heart (cardiomyopathy), worsening heart failure, and an accumulation of fluid around the lungs (pleural effusion).

How is hypothyroidism diagnosed?


A diagnosis of hypothyroidism can be suspected in patients with fatigue, cold intolerance, constipation, and dry, flaky skin. A blood test is needed to confirm the diagnosis.
When hypothyroidism is present, the blood levels of thyroid hormones can be measured directly and are usually decreased. However, in early hypothyroidism, the level of thyroid hormones (T3 and T4) may be normal. Therefore, the main tool for the detection of hyperthyroidism is the measurement of the TSH, the thyroid stimulating hormone. As mentioned earlier, TSH is secreted by the pituitary gland. If a decrease of thyroid hormone occurs, the pituitary gland reacts by producing more TSH and the blood TSH level increases in an attempt to encourage thyroid hormone production. This increase in TSH can actually precede the fall in thyroid hormones by months or years (see the section on Subclinical Hypothyroidism below). Thus, the measurement of TSH should be elevated in cases of hypothyroidism.
However, there is one exception. If the decrease in thyroid hormone is actually due to a defect of the pituitary or hypothalamus, then the levels of TSH are abnormally low. As noted above, this kind of thyroid disease is known as "secondary" or "tertiary" hypothyroidism. A special test, known as the TRH test, can help distinguish if the disease is caused by a defect in the pituitary or the hypothalamus. This test requires an injection of the TRH hormone and is performed by an endocrinologist (hormone specialist).
The blood work mentioned above confirms the diagnosis of hypothyroidism, but does not point to an underlying cause. A combination of the patient's clinical history, antibody screening (as mentioned above), and a thyroid scan can help diagnose the precise underlying thyroid problem more clearly. If a pituitary or hypothalamic cause is suspected, an MRI of the brain and other studies may be warranted. These investigations should be made on a case by case basis.

How is hypothyroidism treated?



With the exception of certain conditions, the treatment of hypothyroidism requires life-long therapy. Before synthetic levothyroxine (T4) was available, desiccated thyroid tablets were used. Desiccated thyroid was obtained from animal thyroid glands, which lacked consistency of potency from batch to batch. Presently, a pure, synthetic T4 is widely available. Therefore, there is no reason to use desiccated thyroid extract.
As described above, the most active thyroid hormone is actually T3. So why do physicians choose to treat patients with the T4 form of thyroid? T3 [liothyronine sodium(Cytomel)] is available and there are certain indications for its use. However, for the majority of patients, a form of T4 [levothyroxine sodium (Levoxyl, Synthroid)] is the preferred treatment. This is a more stable form of thyroid hormone and requires once a day dosing, whereas T3 is much shorter-acting and needs to be taken multiple times a day. In the overwhelming majority of patients, synthetic T4 is readily and steadily converted to T3 naturally in the bloodstream, and this conversion is appropriately regulated by the body's tissues.
  • The average dose of T4 replacement in adults is approximately 1.6 micrograms per kilogram per day. This translates into approximately 100 to 150 micrograms per day.
  • Children require larger doses.
  • In young, healthy patients, the full amount of T4 replacement hormone may be started initially.
  • In patients with preexisting heart disease, this method of thyroid replacement may aggravate the underlying heart condition in about 20% of cases.
  • In older patients without known heart disease, starting with a full dose of thyroid replacement may result in uncovering heart disease, resulting in chest pain or a heart attack. For this reason, patients with a history of heart disease or those suspected of being at high risk are started with 25 micrograms or less of replacement hormone, with a gradual increase in the dose at 6 week intervals.
Ideally, synthetic T4 replacement should be taken in the morning, 30 minutes before eating. Other medications containing iron or antacids should be avoided, because they interfere with absorption.
Therapy for hypothyroidism is monitored at approximately six week intervals until stable. During these visits, a blood sample is checked for TSH to determine if the appropriate amount of thyroid replacement is being given. The goal is to maintain the TSH within normal limits. Depending on the lab used, the absolute values may vary, but in general, a normal TSH range is between 0.5 to 5.0uIU/ml. Once stable, the TSH can be checked yearly. Over-treating hypothyroidism with excessive thyroid medication is potentially harmful and can cause problems with heart palpitations and blood pressure control and can also contribute to osteoporosis. Every effort should be made to keep the TSH within the normal range.

Friday, May 31, 2013

Hashimoto's Disease- How it affects the thyroid gland!

Hashimoto's Disease Overview

Hashimoto's thyroiditis, or Hashimoto's disease, is a disorder that affects the thyroid gland. Hashimoto's thyroiditis is also known as chronic autoimmune thyroiditis and chronic lymphocytic thyroiditis.
The name Hashimoto's thyroiditis comes from the pathologist who in 1912 first described the microscopic features of the disease. Hashimoto's disease is the most common cause of hypothyroidism in iodine-sufficient areas throughout the world such as the United States. In general, there is a gradual loss of thyroid function, often accompanied by enlargement of the thyroid gland, also known as a goiter. Hashimoto's disease is most common in middle-aged women and tends to run in families.
As a brief background, the thyroid is responsible for producing hormones that exert control over and participate in a number of metabolic functions such as temperature and heart rate regulation, and metabolism.

Picture of the Thyroid Gland

Hashimoto's Disease Causes

The cause of Hashimoto's is thought to be a combination of a genetic predisposition along with an environmental trigger that starts the process of autoimmune destruction. What the trigger actually is remains unknown. Additional factors, including heredity, gender, and age, also play a role in developing this disorder.
Normally, the immune system acts to protect against viruses, bacteria, and foreign substances (antigens) that invade the body. In conditions of autoimmune disease, the immune system mistakenly attacks parts of the body itself. In the case of Hashimoto's disease, the immune system attacks the thyroid gland. Theautoimmune process causes inflammation of the thyroid gland (thyroiditis), resulting in an impaired ability of the thyroid gland to produce hormones, leading to hypothyroidism. The pituitary gland responds by increasing TSH and attempting to stimulate the thyroid gland to produce more thyroid hormones. This can cause growth of the gland, or a goiter.

Hashimoto's Disease Symptoms and Signs

The signs and symptoms of Hashimoto's disease are the same as those of hypothyroidism. The disease is slow to progress, and it may take years for true hypothyroidism to develop.
The signs and symptoms of hypothyroidism vary widely, depending on the severity of hormone deficiency. Some of the complaints experienced by those with hypothyroidism include:
These signs and symptoms can increase in severity as the condition worsens.
Complications of Hashimoto's disease
The complications of Hashimoto's disease are the same as those of an underactive thyroid gland. The complications may be local and related to the structural changes in the gland or systemic (body-wide) and related to the decrease in hormone production.
Local complications
Goiter: As described above, the pituitary will try to stimulate production of thyroid hormone in an underactive thyroid gland affected by Hashimoto's disease. This may cause the gland to become enlarged. Unlike a thyroid nodule, in which only a part of the gland is enlarged, in this case the entire gland enlarges- a condition called goiter. Goiterous glands are usually no more than a cosmetic nuisance. However, in extreme cases, growth of the gland may cause impingement on the esophagus or the trachea, impairing swallowing and breathing, respectively.
Systemic complications
Cardiac: Prolonged hypothyroidism that may result from untreated Hashimoto's disease also may be associated with an increased risk of heart disease. The heart disease may be directly related to hypothyroid effects on the heart, causing changes in contraction and rhythm that may lead to subsequent heart failure. There may also be indirect influences, such as hypercholesterolemia (an increase in "bad" cholesterol is often seen with hypothyroidism).
Psychiatric: Depression may occur early in Hashimoto's disease and if underlying depression exists, the addition of Hashimoto's may worsen the condition. Patients may complain of mental fogginess or slowing of reaction times, and a decrease in sexual desire is often observed.
In its severest form, hypothyroidism may result in a rare life-threatening condition called myxedema or myxedema coma. There is mental slowing, profound lethargy, and ultimately coma. This is a life-threatening emergency.
It is important to remember that during states of hypothyroidism, the metabolism of drugs slows down. Thus, a very small dose of a sedative may have profound results. Unintentional overdosing becomes a very real possibility.

Hashimoto's Disease and Pregnancy

Babies born to women who have uncontrolled hypothyroidism during their pregnancy may have a greater risk of birth defects than babies born to mothers with normal thyroid function. There may be a direct link with congenital defects such as cleft palate and certain brain and kidney anomalies. Data suggests that over the long term, these children may also have a higher likelihood of intellectual and developmental problems. Intervening early in pregnancy with thyroid hormone replacement may have significant benefits. Interestingly, there is also recent data to suggest that the presence of thyroid autoantibodies, such as those seen in Hashimoto's disease, may reduce the chance of conception.

Hashimoto's Disease Diagnosis

Most people are diagnosed with Hashimoto's disease after presenting to their physician with typical symptoms of hypothyroidism noted above. Some patients are diagnosed without symptoms on a routine screen, and others are diagnosed after a family member is found to have the disease and concern is raised.
The diagnosis is made based on the results of blood tests that measure levels of thyroid hormone and thyroid-stimulating hormone (TSH). These blood tests confirm hypothyroidism, but the addition of positive autoantibody tests further points to Hashimoto's disease as the underlying cause. Antibodies can be measured in the blood, and the presence of antibodies against thyroid peroxidase (TPO) is usually seen in Hashimoto's thyroiditis.

Hashimoto's Disease Treatment

If there is no evidence of hormone deficiency and only antibodies tests are positive, the use of medications is one that must be discussed in detail by the patient and doctor. Other medical conditions, patient preference, and the presence of symptoms are all taken into consideration.

Saturday, May 25, 2013

Bleeding in Pregnancy ? Is it dangerous?


Bleeding During Pregnancy – Causes of Bleeding During Pregnancy

Bleeding during pregnancy can be a very scary time for a pregnant woman, however its important to know that blood loss doesn’t always mean you could be experiencing a miscarriage.
Bleeding during pregnancy is more common than you might think. Approximately 20-25% of women experience bleeding during pregnancy – thats 1 in 4 or 5 women. Around half of those women will continue on to have a healthy baby and the other half will miscarry. The most likely time bleeding occurs is in the first trimester of pregnancy.
Some women may have a once-off bleed, others may bleed throughout their whole pregnancy. This may be in the form of spotting, streaking, period-like blood loss or more.

If I am Bleeding During Pregnancy Do I Need To Tell My Doctor Or Midwife?

All bleeding should be reported to your doctor or midwife. Any passage of blood from the vagina of a pregnant women before 24 weeks will be termed a ‘threatened miscarriage’.  After 24 weeks its termed an ‘ante-partum haemorrhage’.
You especially need to see a doctor or midwife within 72 hours of any bleeding if you have a rhesus negative blood group (e.g. O-, A-), to see if there has been a possible mixing of yours and your baby’s blood. This results in the rhesus negative body producing antibodies against positive blood (which is the more dominant, likely blood group that your baby will inherit – but of course it’s unknown until birth). It doesn’t have any bearing on your first pregnancy, but in subsequent pregnancies, antibodies will attack what it thinks is foreign matter. See our article, Rhesus Negative Blood Groups In Pregnancy for more information.
Below is an explanation of some of the more common reasons for bleeding during pregnancy, and as you will read, its not always sinister. If the bleeding is accompanied by strong cramping, speak to your doctor or midwife asap. Some mild cramping/stretching sensations can be experienced in a healthy pregnancy though.

Bleeding During Pregnancy – Possible Cause #1: Implantation Bleeding or Streaking

When a fertilised egg attaches to the uterine lining, this can result in light spotting or streaking (streaks of blood). Usually this only lasts a day or two and occurs during the time between implantation no longer than when your period was due (some women mistakenly think they have just had a light period). Implantation bleeding is usually bright fresh blood like that which you would expect to see if you cut your finger. It can also be in the form of a pink mucus stain. However do mention it to your carer for safe measure.

Bleeding During Pregnancy – Possible Cause #2: Breakthrough Bleeding

Some women experience what is known as ‘breakthrough bleeding’ at the times when your period would have normally been due. So this would be at 4, 8 and 12 weeks of pregnancy. It is often accompanied by the feeling that you would normally associate with your period being imminent i.e. back ache, cramps, a heavy sensation in your pelvis, feeling bloated and ‘off’. Of course the period doesn’t arrive (even though you feel like it will) because you are actually pregnant! During pregnancy, hormones prevent your period from occurring. Sometimes the hormone levels are not yet high enough to stop your period and therefore you have this breakthrough bleeding. It can last for around three months – after this time the placenta begins to take over hormone production from your ovaries. Some women may experience breakthrough bleeding throughout the whole pregnancy and have healthy babies, under the close watch of their carer.

Bleeding During Pregnancy – Possible Cause #3: Threatened or Actual Miscarriage

Studies indicate that around one third of pregnancies end in miscarriage (the medical term is spontaneous abortion) but don’t despair – these figures refer to the first 12 weeks of pregnancy, including very early miscarriages that occur before you even realise that you are pregnant. Often this is a result of a damaged or imperfect fetus – your body may reject a pregnancy that it knows will not be normal.
Once you have reached the 14-16 week mark you can be fairly sure that your pregnancy is safe. It’s probably not such a bad idea to refrain from telling the world you are pregnant until you get to the 12 week mark for this reason. Although you might be busting to share your wonderful news, it can be very distressing to have to tell the world again if you lose the pregnancy. Sometimes sympathy is comforting but sometimes it can be overwhelming when you are grieving for lost dreams.
Common signs of miscarriage include bleeding (being most common), cramping, backache and stomach pains. Women commonly say that they no longer ‘feel pregnant’ when they have miscarried and are bleeding. The signs of pregnancy disappear, no more nausea, sore breasts of bloated tummy. If you are bleeding and feel like this then chances are that you have lost the fetus. If you are bleeding but still feel pregnant then the chances are very good that the bleeding is just a scare and the little one is hanging on in there. An ultrasound will usually be reassuringly normal.
It is possible to miscarry without any bleeding, which is known as a ‘missed abortion’. The fetus dies but is retained by your body. The signs of pregnancy would definitely have disappeared if this happens but the absence of a heartbeat would only be detected on ultrasound. You may need a curette to clear out the uterus.

Bleeding During Pregnancy – Possible Cause #4: Bleeding After Sex

Bleeding after intercourse/sex is one of the most common causes of vaginal blood loss. This is completely harmless and is caused by increased blood supply and softening of the cervix. Although this form of bleeding is not serious, you should always report this to your carer. Be prepared when you phone the maternity ward for the very personal question, “Have you recently had sex?” It’s a bit embarrassing but a common reason for bleeding, so it’s the first question midwives ask women who phone with vaginal bleeding. You do not need to cease love-making but you may need to reassure your partner that he’s not hurt the baby, who is safely protected in your uterus, well above the vagina.

Bleeding During Pregnancy – Possible Cause #5: Ectopic Pregnancy

An ectopic pregnancy occurs when your fertilised egg implants itself outside of the uterus, usually in a fallopian tube. You may experience severe pain down one side of your abdomen, or generalised pain which doubles you over, you may feel faint and nauseous. The pain may suddenly disappear if the tube ruptures but it will return within hours/days and you will feel really unwell.
This is an emergency situation as an ectopic pregnancy can rupture the fallopian tube causing internal bleeding, damage to the tube and maternal collapse. Your fallopian tube may need to be removed along with the pregnancy but this does not mean you will have trouble conceiving in future provided your other ovary and fallopian tube are healthy.

The next question you will be asked if you phone to report a ‘bleed’ is “Have you had a scan, and was the placenta situated nomally?”

Bleeding During Pregnancy – Possible Cause #6: Bleeding From The Placenta

Painless vaginal bleeding can be from an abnormally placed placenta. Sometimes the placenta implants itself very low down on the uterine wall, occasionally right over the cervical canal. This is called placenta praevia and it occurs in about two percent of women. Placenta praevia will inevitably result in a bleed at some point in your pregnancy, usually after the 20 week period. There are differing degrees of severity of this condition but all will require repeat ultrasounds to accurately diagnose it. This condition may require bed rest, an induction or a Caesarean if it remains over the cervix in the remaining weeks of pregnancy to prevent your baby being put at risk.
Another cause of bleeding later in pregnancy is placental abruption (which occurs in approximately one in 200 pregnancies) where the placenta partially or completely separates from the wall of the uterus. Symptoms can include generalised severe pain and heavy bleeding. The blood may be seen by you or concealed in the uterus which will be tense, tight, hard to touch and very painful. If you smoke, have high blood pressure, kidney problems or pre-eclampsia, you are more at risk. It requires urgent admission to hospital and depending on the severity of the bleeding, you may either be put on bed rest, be induced or have a Caesarean. 

What Should I Do If I Experience Bleeding In Pregnancy?

If you are over 20 weeks of pregnancy, seek medical advice immediately.
Do not use tampons if you are bleeding or anytime during pregnancy, always use pads. If the bleeding is light and you have no pain, in the first instance, contact your midwife or obstetrician to discuss the next step.
Once you’ve had it checked out by a medical professional, you could also seek out an experienced acupuncturist who is a specialist in fertility/pre-natal care, as there are some points they can work on to help you with bleeding and energy in that area. Acupuncturists work with patients who have had recurrent or threatened miscarriage – so might be worth a try – it is a safe, natural and healthy option.
If the bleeding is heavy (i.e. running out and you are passing clots) and the bleeding is accompanied with stomach cramps, backache and period type pains, contact your hospital immediately. While this is understandably an upsetting time, try to remain as calm as you can – remind yourself that bleeding can occur in pregnancy. Know that it is your blood, not the babies blood that you are seeing and that it is quite possible to continue on with a healthy pregnancy.
Don’t be surprised if the advice you receive for early bleeding (before 12 weeks) is to just watch and wait. Unfortunately, nothing will prevent a miscarriage from occurring. Whilst it is very disappointing and upsetting, there is nothing you can do to prevent it happening.
You are not responsible for a miscarriage happening, you would not have done anything to cause it. These things will make you feel better but cannot prevent a miscarriage from happening:
  • Bedrest
  • Panadol/Panadiene/Naprogesic for the cramps
  • Hot water bottle for your tummy
  • Tea and support from your partner
You may pass the developing fetus and tissue whereby the bleeding will then cease. Should you continue to bleed you will need an anaesthetic and a curette to ‘clean out’ your uterus.
However, remember that the majority of bleeding in early pregnancy settles spontaneously and the pregnancy continues unharmed.
Source: bellebelly.com