“Immune thrombocytopenia-ITP is rare. Each year, about 4 in 100,000 children and 3 in 100,000 adults in the United States learn they have this condition.

Types of immune thrombocytopenia

The two ITP types are:

• Primary ITP: This is when your immune system attacks your platelets. About 80% of all cases are primary ITP. Healthcare providers may call immune thrombocytopenia an autoimmune disorder.
• Secondary ITP: This may happen if you have underlying conditions like chronic infections, blood cancers or autoimmune disorders that affect your platelet levels.”

Cleveland Clinic (Immune Thrombocytopenia (ITP): Symptoms, Diagnosis & Treatment)

What is ITP?

ITP means idiopathic thrombocytopenic purpura which is an autoimmune disease. The immune system is mistakenly attacking and destroying good platelets.  In autoimmune diseases, the body mounts an immune attack toward one or more seemingly normal organ systems. In ITP, platelets are the target. They are marked as foreign by the immune system and eliminated in the spleen, the liver, and by other means. In addition to increased platelet destruction, some people with ITP also have impaired platelet production.

A normal platelet count is between 150,000 and 400,000/microliter of blood. If someone has a platelet count lower than 100,000/microliter of blood with no other reason for low platelets, that person is considered to have ITP.1 There is no accurate, definitive test to diagnose ITP.

SYMPTOMS: 

Simple to understand. Platelets are for clotting our blood; if the platelet count is high we clot too much if low, in ITP, we bleed easy to hemorrage.

With few platelets, people with ITP often have bleeding symptoms such as spontaneous bruising, petechiae (pe-TEEK-ee-ay), tiny red dots on the skin, Bleeding from the gums or nose, and for women, possibly heavy menses. More severe bleeding symptoms include blood blisters on the inside of the mouth, blood in the urine or stool, or bleeding in the brain.

Idiopathic thrombocytopenic purpura or immune thrombocytopenia affects children and adults. Children often develop ITP after a viral infection and usually recover fully without treatment. In adults, the disorder is often long term.

Treatments for the disease vary depending on the platelet count, severity of symptoms, age, lifestyle, personal preferences, and any other associated diseases. Some people may choose to not treat their disease and live with low platelets.

While it may seem like ITP is a simple disease, there are nuances to the diagnosis, differences in the disease between children and adults, and variations in how the disease responds to treatments.

TYPES OF ITP:

Newly diagnosed ITP: within 3 months from diagnosis
Persistent ITP: 3 to 12 months from diagnosis. During this phase, patients have not reached spontaneous remission or maintained a complete response off therapy
Chronic ITP: lasting for more than 12 months
Severe ITP: presence of bleeding symptoms that need treatment or need an increase from prior treatment
Refractory ITP: does not respond or is resistant to attempted forms of treatment

RISK FACTORS:

-Your sex. Women are two to three times more likely to develop ITP than men are.

-Recent viral infection. Many children with ITP develop the disorder after a viral illness, such as mumps, measles or a respiratory infection.

COMPLICATIONS:

-A rare complication of ITP, bleeding into the brain, which can be fatal.

-Pregnancy

In pregnant women with ITP, the condition doesn’t usually affect the baby. But the baby’s platelet count should be tested soon after birth.

If you’re pregnant and your platelet count is very low or you have bleeding, you have a greater risk of heavy bleeding during delivery.

DIAGNOSIS:

1.  M.D. will exclude other possible causes of bleeding and a low platelet count, such as an underlying illness or medications being the cause of low platelet count, not ITP.

2. Take a history of the child or adult, including their family.

3. Complete blood count (CBC).  Looks at red blood, white blood and platelet cells counts.

4 Blood smear. This test is often used to confirm the number of platelets observed in a complete blood count.

5.Bone marrow exam. This test may be used to help identify the cause of a low platelet count, though the American Society of Hematology doesn’t recommend this test for children with ITP.  All cells (platelets) are produced in the bone marrow.  Bone marrow will be normal because a low platelet count is caused by the destruction of platelets in the bloodstream and spleen — not by a problem with the bone marrow.

TREATMENT:

People with mild idiopathic thrombocytopenic purpura may need nothing more than regular monitoring and platelet checks. Children usually improve without treatment. Most ITP adults will eventually need treatment as it gets worse or becomes chronic.

1-The M.D will stop any meds that inhibit platelet production=Anti-platelet Meds (Ex. aspirin, ibuprofen (Advil, Motrin IB, others), ginkgo biloba and warfarin, also known as Coumadin)

2-Drugs that suppress your immune system.  M.D. might start you on oral corticosteroid, such as prednisone and when platelet count is normal gradually decrease the dosing till no longer on it.  The problem is that many adults experience a relapse after stopping corticosteroids. A new course of corticosteroids may be pursued, but long-term use of these medications is unusual, due to its long term side effects. These include cataracts, high blood sugar, increased risk of infections and thinning of bones (osteoporosis).

3-Injections to increase your blood count (Ex. immune globulin (IVIG). This drug may also be used if you have critical bleeding or need to quickly increase your blood count before surgery. The effect usually wears off in a couple of weeks.

4-Drugs that boost platelet production.  Examples romiplostim (Nplate) and eltrombopag (Promacta) — help your bone marrow produce more platelets.

5-Other immune-suppressing drugs. Rituximab (Rituxan) helps reduce the immune system response that’s damaging platelets, thus raising the platelet count.

6-Removal of your spleen.

7-Other drugs. Azathioprine (Imuran, Azasan) has been used to treat ITP. But it can cause significant side effects.

Review all treatments with your personal doctor.

“Did you know that our special month for raising awareness about bleeding disorders has been around for almost 40 years? It all started back in 1986 when President Reagan set aside March as National Hemophilia Awareness Month. This happened during a really tough time when many in our hemophilia family were affected by contaminated blood products.

For about 30 years, the focus was mainly on hemophilia. But in 2016, something important changed – the month was officially renamed to “Bleeding Disorders Awareness Month.” This new name recognized that our community includes people with many different conditions – not just hemophilia, but also von Willebrand disease, rare factor deficiencies, and platelet disorders.

According to the U.S. Centers for Disease Control, there are about 3 million people nationwide who are affected by bleeding disorders.”

National Bleeding Disorders Foundation (Bleeding Disorders Awareness Month | National Bleeding Disorders Foundation)

It arises from a deficiency in the quality or quantity of von Willebrand factor (vWF), a multimeric protein that is required for platelet adhesion.

“The brain sends and receives chemical and electrical signals throughout the body. Different signals control different processes, and your brain interprets each. Some make you feel tired, for example, while others make you feel pain.

Some messages are kept within the brain, while others are relayed through the spine and across the body’s vast network of nerves to distant extremities. To do this, the central nervous system relies on billions of neurons (nerve cells).”

John Hopkins Medicine (Brain Anatomy and How the Brain Works | Johns Hopkins Medicine)

IIlustration body part,human brain left and right functions

The brain is like a committee of experts. All the parts of the brain work together, but each part has its own special properties. The brain can be divided into three basic units: 1 the forebrain, 2 the midbrain, and 3 the hindbrain.

1-THE CEREBRUM (The Forebrain) AND ITS FUNCTIONS:  Knowing what part of the cerebrum, if the brain injury is their, can explain the reasons for the symptoms the individual is having.

1-The forebrain is the largest and most highly developed part of the human brain: it consists primarily of the cerebrum and the structures hidden beneath it, which is the inner brain.

THE REGIONS (The 4 LOBES) THAT MAKE UP THE CEREBRUM:

The cerebrum, the large, outer part of the brain, controls reading, thinking, learning, speech, emotions and planned muscle movements like walking. It also controls vision, hearing and other senses. The cerebrum is divided two cerebral hemispheres (halves): left and right. The right half controls the left side of the body. The left half controls the right side of the body.

Each hemisphere has four sections, called lobes: frontal, parietal, temporal and occipital.  A lobe simply means a part of an organ (earlobe for example).  Each lobe controls specific functions. For example, the frontal lobe controls personality, decision-making and reasoning, while the temporal lobe controls, memory, speech, and sense of smell.

–The frontal lobe is the largest lobe of the brain.  The frontal lobe are the last parts of the brain develop as a person ages and the part of the human brain that is most different from other mammals and primates.  The last part to mature is the prefrontal lobe. This happens during adolescence. Many things affect brain development including genetics, individual and environmental factors.  We learn to become adults in our frontal lobes.   You choose between good and bad actions; override and suppress socially unacceptable responses; and determine similarities and differences between objects or situations. The frontal lobe is considered to be the moral center of the brain because it is responsible for advanced decision making processes. It also plays an important role in retaining emotional memories derived from the limbic system, and modifying those emotions to fit socially accepted norms.  The frontal lobes are considered our emotional control center and home to our personality. There is no other part of the brain where lesions can cause such a wide variety of symptoms (Kolb & Wishaw, 1990). The frontal lobes are involved in motor function, problem solving, spontaneity, memory, language, initiation, judgment, impulse control, and social and sexual behavior. Frontal lobe damage effects one or more of these areas depending on the severity of the damage.  The frontal lobes are extremely vulnerable to injury due to their location at the front of the cranium, proximity to the sphenoid wing and their large size. MRI studies have shown that the frontal area is the most common region of injury following mild to moderate traumatic brain injury.

–The parietal lobes can be divided into two functional regions. One involves sensation and perception and the other is concerned with integrating sensory input, primarily with the visual system. The first function integrates sensory information to form a single perception (cognition).  The parietal lobes have an important role in integrating our senses. In most people the left side parietal lobe is thought of as dominant because of the way it structures information to allow us to read & write, make calculations, perceive objects normally and produce language. Damage to the dominant parietal lobe can lead to Gerstmann’s syndrome (e.g. can’t tell left from right, can’t point to named fingers), apraxia and sensory impairment (e.g. touch, pain). Damage to the non-dominant lobe, usually the right side of the brain, will result in different problems. This non-dominant lobe receives information from the occipital lobe and helps provide us with a ‘picture’ of the world around us. Damage may result in an inability to recognize faces, surroundings or objects (visual agnosia). So, someone may recognize your voice, but not your appearance (you sound like my daughter, but you’re not her). Damage to the parietal lobe depends on severity and location of the area. Because this lobe also has a role in helping us locate objects in our personal space, any damage can lead to problems in skilled movements (constructional apraxia) leading to difficulties in drawing or picking objects up.

–The temporal lobes they are in the section of the brain located on the sides of the head behind the temples and cheekbones.   It’s responsible for processing auditory information from the ears (hearing).   The temporal lobes play an important role in organizing sensory input, auditory perception, language and speech production, as well as short term memory association and formation. The Temporal Lobe mainly revolves around hearing and selective listening. It receives sensory information such as sounds and speech from the ears. It is also the key to being able to comprehend, or understand meaningful speech. In fact, we would not be able to understand someone talking to us, if it wasn’t for the temporal lobe. This lobe is special because it makes sense of the all the different sounds and pitches (different types of sound) being transmitted from the sensory receptors of the ears. Temporal Lobes Kolb & Wishaw (1990) have identified eight principle symptoms of temporal lobe damage: 1) disturbance of auditory sensation and perception, 2) disturbance of selective attention of auditory and visual input, 3) disorders of visual perception, 4) impaired organization and categorization of verbal material, 5) disturbance of language comprehension, 6) impaired long-term memory, 7) altered personality and affective behavior, 8) altered sexual behavior. These can be due to tumors on the right or left side of the temporal lobe, due to seizures in the temporal lobe and if seizures regularly happen to this individual in the temporal region, which causes lack of oxygen to that area of that area of the brain it will effect one or more of the functions of that lobe which we discussed earlier, listed above.

-The last region or lobe that makes up the cerebrum is the occipital lobe. The occipital lobe is important to being able to correctly understand what our eyes are seeing. These lobes have to be very fast to process the rapid information that our eyes are sending. This is similar to how the temporal lobe makes sense of auditory information, the occipital lobe makes sense of visual information so that we are able to understand it. If our occipital lobe was impaired or injured we would not be able to correctly process visual signals, thus visual confusion would result.

2-Midbrain – The uppermost part of the brainstem is the midbrain, which controls some reflex actions and is part of the circuit involved in the control of eye movements and other voluntary movements.

3-The hindbrain includes the upper part of the spinal cord, the brain stem, and a wrinkled ball of tissue called the cerebellum. The hindbrain controls the body’s vital functions such as respiration and heart rate. The cerebellum coordinates movement and is involved in learned rote movements. Rote means “mechanical or habitual repetition of something to be learned.”. Rote learning is flashcards, times tables, any kind of memorization-based learning. Rote movement applies to activities we do in a mechanical, repetitive way. Running, for example.  When you play the piano or hit a tennis ball you are activating the cerebellum= balance/coordination.

“Chronic kidney disease (CKD) is when the kidneys have become damaged over time (for at least 3 months) and have a hard time doing all their important jobs. CKD also increases the risk of other health problems like heart disease and stroke. Developing CKD is usually a very slow process with very few symptoms at first. So, CKD is divided into 5 stages to help guide treatment decisions.”

National Kidney Foundation

(Chronic kidney disease (CKD) – Symptoms, causes, treatment | National Kidney Foundation)

Chronic kidney disease occurs when a disease or condition impairs kidney function, causing kidney damage to worsen over several months or years.

Diseases and conditions that cause chronic kidney disease include:

• Type 1 or type 2 diabetes
• High blood pressure
• Glomerulonephritis (gloe-mer-u-low-nuh-FRY-tis), an inflammation of the kidney’s filtering units (glomeruli)
• Interstitial nephritis (in-tur-STISH-ul nuh-FRY-tis), an inflammation of the kidney’s tubules and surrounding structures
• Polycystic kidney disease
• Prolonged obstruction of the urinary tract, from conditions such as enlarged prostate, kidney stones and some cancers
• Vesicoureteral (ves-ih-koe-yoo-REE-tur-ul) reflux, a condition that causes urine to back up into your kidneys
• Recurrent kidney infection, also called pyelonephritis (pie-uh-low-nuh-FRY-tis)

“Acute kidney injury happens when the kidneys suddenly can’t filter waste products from the blood. When the kidneys can’t filter wastes, harmful levels of wastes may build up. The blood’s chemical makeup may get out of balance.

Acute kidney injury used to be called acute kidney failure. Acute kidney injury is most common in people who are in the hospital, mostly in people who need intensive care.

Acute kidney injury ranges from mild to severe. If severe, ongoing and not treated, it can be fatal. But it also can be reversed. People in otherwise good health may get back typical or nearly typical use of their kidneys.”

MAYO CLINIC (Acute kidney injury – Symptoms and causes – Mayo Clinic)

Acute Renal (Kidney) Failure:

Kidney failure occurs when the kidneys lose their ability to function. To treat kidney failure effectively, it is important to know whether kidney disease has developed suddenly (acute) or over the long term (chronic). Many conditions, diseases, and medicines can create situations that lead to acute and chronic kidney disease. Acute kidney injury, also called acute renal failure, is more commonly reversible than chronic kidney failure since the chronic condition has lasted longer in the body affecting systems for several months to years (some decades). Acute Renal Failure is new to the body as opposed to chronic; making it higher odds this can be treated and cured.

When acute kidney injury (ARF) occurs, the kidneys are unable to remove waste products and excess fluids, which then build up in the body and upset the body’s normal chemical balance.*

The most common causes of acute kidney injury are:

-dehydration

-blood loss from major surgery or injury

-medicines such as nonsteroidal anti-inflammatory drugs (NSAIDs), antibiotics, or the dyes (contrast agents) used in X-ray tests.

Symptoms depend on the cause of acute renal failure and can include:

• • -Little or no urine output.
  • -Dizziness upon standing.
  • -Swelling, especially of the legs and feet.
  • -Loss of appetite, nausea, and vomiting.
  • -Feeling confused, anxious and restless, or sleepy.
  • -Pain in the flank, which is felt just below the rib cage and above the waist on one or both sides of the back.*

If your signs and symptoms suggest that you have acute kidney failure, your doctor may recommend certain tests and procedures to verify your diagnosis. These may include:

• Urine output measurements. The amount of urine you excrete in a day may help your doctor determine the cause of your kidney failure.
• Urine tests. Analyzing a sample of your urine, a procedure called urinalysis, may reveal abnormalities that suggest kidney failure.
• Blood tests. A sample of your blood may reveal rapidly rising levels of urea and creatinine — two substances used to measure kidney function.  Most cases of acute kidney injury occur in people who are already in the hospital for other reasons. In these people, acute kidney injury is usually diagnosed when routine tests show a sudden increase in creatinine and blood urea nitrogen (BUN) levels.   **A buildup of these waste products in the blood points to a loss of kidney function!**
• With a patient just coming in the first time to an MD with no history of renal disease but has factors or symptoms indicating possible kidney failure involvement don’t be surprised if the doctor orders glomerular filtration rate (GFR); which is a test used to check how well the kidneys are working. Specifically, it estimates how much blood passes through the glomeruli each minute. Glomeruli are tiny filters in the kidneys that filter waste from the blood.
• Imaging tests. Imaging tests such as ultrasound and computerized tomography may be used to help your doctor see your kidneys.  Also commonly done is an ultrasound of the kidneys which may help determine whether kidney problems are acute or chronic. Normal-sized kidneys may be present in either condition, but when both kidneys are smaller than normal, chronic kidney disease is usually the problem.  This helps rule out acute from chronic.–correcting the cause and supporting the kidneys with dialysis until proper functioning is restored.
• Removing a sample of kidney tissue for testing. In some situations, your doctor may recommend a kidney biopsy to remove a small sample of kidney tissue for lab testing. Your doctor inserts a needle through your skin and into your kidney to remove the sample.

TREATMENT FOR ARF (reversible in most cases):

Treatment for acute kidney failure typically requires a hospital stay. Most people with acute kidney failure are already hospitalized. How long you’ll stay in the hospital depends on the reason for your acute kidney failure and how quickly your kidneys recover.

In some cases, you may be able to recover at home.

Treating the underlying cause of your AKF:

Treatment for acute kidney failure (AKF) involves identifying the illness or injury that originally damaged your kidneys. Your treatment options depend on what’s causing your kidney failure.

Learn tomorrow Chronic Kidney Failure (CKF).