Glomerulonephritis Information and Courses from MediaLab, Inc.

Proteinuria related to kidney impairment may be due to glomerular membrane damage caused by toxic agents, immune complexes found in lupus erythematosus, or streptococcal glomerulonephritis. The amount of protein present in urine samples from patients with glomerular damage usually ranges from 10-40 mg/dl. If the urinary protein is due to a disorder that affects tubular reabsorption, the urine protein quantities will be much greater. In patients with multiple myeloma, proteinuria is due to the excretion of the Bence Jones protein. This low molecular weight protein produced by a malignant clone of plasma cells circulates in the blood and is filtered in the kidneys in quantities exceeding the tubular capacity. This excess protein is excreted in the urine.

No blood is found in the urine of healthy individuals although samples from menstruating females, frequently, but not always, test positive for blood. Hematuria is associated with renal or genital urinary disorders in which the bleeding is the result of irritation to the involved organs or trauma. Examples include renal calculi, pyelonephritis, glomerulonephritis, tumors, trauma or exposure to toxic chemicals or drugs and/or strenuous exercise. Hemoglobinuria may be due to the lysis of red cells within the urinary tract. If it is caused by intravascular hemolysis, the hemoglobin is then filtered through the glomeruli. In the normal individual, the hemoglobin molecule attaches to haptoglobin and in this way bypasses the kidney filtration system. When the hemoglobin/haptoglobin system is overwhelmed, as in cases of hemolytic anemia, severe burns, transfusion reaction, infection or strenuous exercise, hemoglobin passes into the urine.

Severe proteinuria (greater than 3.5 g/day) is characteristically seen in patients with glomerulonephritis, lupus nephritis, lipoid nephrosis, and severe venous congestion of the kidney. Moderate proteinuria (0.5-3.5g/day) is seen in nephrosclerosis, multiple myeloma, diabetes nephropathy, malignant hypertension, and pyelonephritis with hypertension. Mild proteinuria (less than 0.5 g/day) may be seen with polycystic kidneys, chronic pyelonephritis, benign orthostatic proteinuria, and some renal tubular diseases. Transient proteinuria can also be due to physiologic conditions such as stress, exercise, cold exposure, and fever, in the absence of renal disease.

Spencer RC.: Invasive streptococcEuropean Journal of Clinical Microbiology & Infectious Diseases. 14 Suppl. 1:S26-32, 1995.Before the introduction of antibiotics, serious infections caused by Streptococcus pyogenes (Lancefield Group A streptococci) were common. Before World War II, this bacterium was responsible for as many as 50% of postpartum deaths and was the major cause of death in patients with burns. Also common were the sequelae of streptococcal infections-rheumatic fever and post-streptococcal glomerulonephritis.With the use of penicillin, however, Streptococcus pyogenes was believed to be virtually eliminated as a pathogen. The organism was consigned to the history books, but not for long.In the mid-1980s, focal resurgences of rheumatic fever began to be reported from different areas in the USA, such as Salt Lake City, Utah. In such communities, where increases in cases of rheumatic fever had been reported, the serotypes M-1, 3, 5, 6 and 18 were isolated which, on culture, produced characteristic mucoid colonies. At the same time, reports of increases in invasive streptococcal disease began to surface in both the USA and Europe.Two syndromes were described; invasive streptococcal infection, occurring in previously healthy children and adults, commonly associated with septicaemia resulting from a deep focus of infection such as bone or lung; and streptococcal toxic shock syndrome, involving a cutaneous focus, accompanied by necrotizing or bullous soft tissue changes. Septicaemia is rare in streptococcal toxic shock syndrome, but the most characteristic feature is one of rapidly progressing multi-organ failure. A high proportion of the strains of Streptococcus pyogenes associated with this condition are serotype M-1, and fatality rates approaching 50% have been reported.

Another example of a keratocyte (helmet cell) is seen in the center of this field. Examples of conditions in which keratocytes can be seen include intravascular coagulation, microangiopathic hemolytic anemia, glomerulonephritis, and rejection of renal transplants. The diagnosis of these disorders is not based on the presence of keratocytes.

Increased numbers of cuboidal cells are found in renal transplant rejection, acute tubular necrosis (diuretic phase), injuries that interrupt blood flow to the kidney, and acute glomerulonephritis accompanied by tubular damage. Ingestion of various drugs and chemicals may cause significant tubular shedding of these epithelial cells. Cuboidal cells are easily seen in urine in cases of salicylate intoxication.