How to memorize the interleukins

I know a bunch of you are studying for boards, or are thinking about studying for boards. Any little memory aid that could help with a question or two is probably most welcome at this point. (more…)

Conjugated vs. unconjugated bilirubinemia

Liver

Here’s a little question to see if you remember the different causes of conjugated and unconjugated bilirubinemia

While examining the gums of a 25 year old patient, a yellowish discoloration of the oral mucosa and sclera is noted. Laboratory tests show a significant increase in unconjugated bilirubin. Which of the following disorders is most likely the cause of this patient’s abnormalities?

A. A stone in the bile duct
B. Carcinoma of the head of the pancreas
C. Pancreatic pseudocyst
D. Sickle cell disease
E. Hepatocellular carcinoma

Let’s review a little before we get to the question.

Bilirubin is a breakdown product of heme (which, in turn is part of the hemoglobin molecule that is in red blood cells). It is a yellow pigment that is responsible for the yellow color of bruises, and the yellowish discoloration of jaundice.

When old red cells pass through the spleen, macrophages eat them up and break down the heme into unconjugated bilirubin (which is not water soluble). The unconjugated bilirubin is then sent to the liver, which conjugates the bilirubin with glucuronic acid, making it soluble in water. Most of this conjugated bilirubin goes into the bile and out into the small intestine. (An interesting aside: some of the conjugated bilirubin remains in the large intestine and is metabolized into urobilinogen, then sterobilinogen, which gives the feces its brown color! Now you know.)

So: if you have an increase in serum bilirubin, it could be either because you’re making too much bilirubin (usually due to an increase in red cell breakdown) or because you are having a hard time properly removing bilirubin from the system (either your bile ducts are blocked, or there is a liver problem, like cirrhosis, hepatitis, or an inherited problem with bilirubin processing).

The lab reports the total bilirubin, and also the percent that is conjugated vs. unconjugated. If you have a lot of bilirubin around and it is mostly unconjugated, that means that it hasn’t been through the liver yet – so either you’ve got a situation where you’e got a ton of heme being broken down (and it’s exceeding the pace of liver conjugation), or there’s something wrong with the conjugating capacity of the liver (like a congenital disorder where you’re missing an enzyme necessary for conjugation – for example, Gilbert syndrome).

If you’ve got a lot of bilirubin around and it’s mostly conjugated, that means it’s been through the conjugation process in the liver – so there’s something preventing the secretion of bilirubin into the bile (like hepatitis, or biliary obstruction), and the bilirubin is backing up into the blood.

Back to our question. Let’s go through each answer and see what kind of hyperbilirubinemia these disorders would cause.

A. A stone in the bile duct. If big enough, a stone here could block the excretion of bilirubin into the bile. The bilirubin would already be conjugated, so this would be a conjugated bilirubinemia.

B. Carcinoma of the head of pancreas. This could also cause biliary obstruction, similar to A. (An important aside: it’s nice when pancreatic carcinomas announce themselves this way, because it may allow for earlier detection of the tumor. Unfortunately, this is uncommon. Pancreatic adenocarcinoma is usually silent until the tumor is very large and possibly metastatic.)

C. Pancreatic pseudocyst. Same idea as A and B.

D. Sickle cell disease. Sickle cell anemia is a type of hemolytic anemia. It could be a cause of unconjugated bilirubinemia, if the hemolysis is massive enough. If it’s just a low level of hemolysis, the liver could probably keep up, and you’d get a conjugated hyperbilirubinemia.

E. Hepatocellular carcinoma. This would fall into the category of blocking excretion of bilirubin. The bilirubin would already be conjugated – so this would be a conjugated hyperbilirubinemia.

So: since A, B, C and E produce only conjugated hyperbilirubinemia, the answer is D, sickle cell disease.

What causes nephrotic and nephritic syndrome?

coke

Okay, we talked about how to remember the components of nephrotic syndrome and nephritic syndrome. But what causes these syndromes?

Let’s boil it down to the top causes.

Nephrotic syndrome can be caused by renal diseases or systemic diseases (like diabetes). We’ll just discuss the renal diseases here. All of these diseases are characterized by a loss of foot processes (look it up in a physiology textbook if you’ve forgotten what these are). The three main renal diseases are:

1. Minimal change disease. This is the number one cause of nephrotic syndrome in children. The pathogenesis is unknown. It’s called minimal change (or sometimes “nil”) disease because under light microscopy, the glomeruli look pretty normal! Prognosis is good.

2. Focal segmental glomerulosclerosis. This disorder can be primary, or it may be associated with other conditions (like HIV, or heroin use). It’s called focal segmental glomerulosclerosis because if you look at a kidney biopsy, some (“focal”) glomeruli show partial (“segmental”) hyalinization. The pathogenesis is unknown, and unlike minimal change disease, the prognosis is generally poor.

3. Membranous glomerulonephritis. This type of glomerular disease is really an autoimmune reaction against some unknown renal antigen. Immune complexes are formed and are deposited along the glomerular basement membrane, which appears thickened on light microscopy. If you look at an electron micrograph, you’ll see subepithelial deposits, or “spikes.”

There are two main causes of nephritic syndrome. Both are immunologically mediated, and are characterized by proliferative changes and inflammation in the glomeruli. These causes are:

1. Postinfectious glomerulonephritis. This used to be called post-Streptococcal glomerulonephritis, because it most commonly occurs in children following a case of Strep throat. There’s a rather crude, but useful, mnemonic for this disease: sore throat (Strep infection), face bloat (edema), pee coke (patients often have brown-colored urine). Immune complexes are formed (the antigen is unknown, but probably is some type of Streptococcal protein) and deposited in the glomerular basement membrane (you can see the deposits on electron microscopy; they look like subepithelial humps). On light microscopy, the glomeruli look big and hypercellular, with lots of inflammatory cells. Recovery occurs in most children.

2. IgA nephropathy. This is also called Berger disease. It’s the most common glomerular disease worldwide, and it’s one of the most common causes of recurrent hematuria. It usually occurs in children or young adults, and it presents as hematuria following an upper respiratory infection. Patients with this disease produce abnormally high IgA levels; following an infection, you can see this IgA in the mesangium of the glomerulus (using immunofluorescent stains for IgA). Once IgA gets trapped there, complement is activated, and we all know what that does (bad stuff). The prognosis is variable.

There are, of course, other causes of nephrotic and nephritic syndrome (nothing is ever that easy!). But if you remember the main causes listed above, that should serve you very well.

Note: the photo of coca-cola bottles was taken by DeusXFlorida and can be found at http://www.flickr.com/photos/8363028@N08/3029152878/.