Patient: Khong Fay Fay

Patient Name: Khong Fay Fay
Sex: Female
Age: 26 years old

Urinary tract infections
The urinary tract is divided into:
Lower portion - urinary bladder and the urethra.
Upper portion - kidneys, renal pelves, and ureters
Upper urinary tract infections (UTIs) are most commonly ascending; they originate in the urinary bladder and ascend through the ureters to the kidneys.

The symptoms of upper UTIs are fever (often with chills) and flank pain. Frequency, urgency, and dysuria are more suggestive of infections of the urinary bladder and urethra (Lower urinary tract).

Community acquired UTI: Cystitis
Cystitis is caused bladder mucosal invasion, most often by enteric coliform bacteria (eg, Escherichia coli) that inhabit the periurethral vaginal introitus and ascend into the bladder via the urethra. Sexual intercourse may promote this migration, and cystitis is common in otherwise healthy young women.

http://www.emedicine.com/EMERG/topic626.htm

Community acquired UTI: Acute Pyelonephritis
Pyelonephritis is an ascending urinary tract infection that has reached the pyelum (pelvis) of the kidney. The causes are lower UTIs, mainly cystitis and prostatitis (but in this case, a woman does not have a prostate gland)

Williams DH, Schaeffer AJ (2004). "Current concepts in urinary tract infections". Minerva Urol Nefrol 56 (1): 15-31.


Discussion
The symptoms of upper and lower UTIs are relatively similar. Absence of catherter insertion inidcates that the UTI was not acquired in hospital. Thus the area of focus will be on community acquired UTIs. With consideration of the patient’s age and sex (26 years old female), it is highly probable that she is suffering from cystitis or acute pyelonephritis. In addition to the female urethra being shorter and nearer to the anus (anatomy), the fact that young women who are sexually active (26years old) will be more prone to cystitis (or communtiy acquired UTIs)

Small list of the common microbes related to UTI:
Escherichia coli – Common in young women, causes 80% of community-acquired UIT and 90% of the urinary tract infections (UTI) in anatomically-normal, unobstructed urinary tracts.

Staphylococcus saprophyticus - In young women, S. saprophyticus is, after Escherichia coli, the second-most-frequent causative agent of acute UTI

Proteus mirabilis - with functional or structural abnormalities or with long-term catheterization, forms bladder and kidney stones as a consequence of urease-mediated urea hydrolysis.

Pseudomonas aeruginosa - usually hospital-acquired and related to urinary tract catheterization, instrumentation or surgery


http://textbookofbacteriology.net/e.coli.html
http://iai.asm.org/cgi/content/abstract/72/5/2922
http://textbookofbacteriology.net/pseudomonas.html
Hovelius B, Mardh PA. (1984) “Staphylococcus saprophyticus as a common cause of urinary tract infections”. Rev Infect Dis. May-Jun; 6 (3): 328-37

Highly suspected microbes: Escherichia coli and Staphylococcus saprophyticus.


Tests
Dipstick tests
Dipstick tests are rapid and inexpensive, but need to be interpreted with caution. The two commonly used tests are the:

Leukocyte esterase test
Indicates pyuria by detecting esterases released from white blood cells. However, pyuria is not a specific indicator of infection.

Nitrate reduction test
Detects nitrites produced from nitrates by bacteria (mainly Gram-negative bacteria).
Dipstick tests are of most use as a negative screen

Urine cultures (subjected to overnight incubation at 37 degrees Celsius)

MacConkey Agar - mainly used in identification of lactose fermenting, Gram-negative enteric pathogens and for inhibiting growth of Gram-positive organisms. Bacterial colonies that can ferment lactose turn the medium red. This red color is due to the pH indicators response to the acidic environment created by fermenting lactose. Organisms that do not ferment lactose do not cause a color change.

Catalase test - The catalase test involves adding hydrogen peroxide to a culture sample or agar slant. If the bacteria in question produce catalase, they will convert the hydrogen peroxide and oxygen gas will be evolved. The evolution of gas causes bubbles to form and is indicative of a positive test.

Coagulase test - for differienting between pathogenic and non-pathogenic strains of Staphylococcus. A positive test is denoted by a clot formation in the test tube after the allotted time.





Indole test - When tryptophan is broken down, the presence of indole can be detected through the use of Kovacs' reagent. Kovac's reagent, which is yellow, reacts with indole and produces a red color on the surface of the test tube.





Oxidase test - If the bacteria oxidize the disk (remove electrons) the disk will turn purple, indicating a positive test. No color change indicates a negative test

http://medic.med.uth.tmc.edu >path >tests

Flow chart to direct the identification of serveral bacterial. (Main focus is on E. Coli)

A flow chart for the identification of Gram-Positive bacteria. (Staphylococcus saprophyticus not shown) Staphylococcus saprophyticus has the same characteristics as S. epdermidis, but Staphylococcus saprophyticus is resistant to novobiocin.

Use of Novobiocin-containing medium (sensitivity disks with 5 micro grams of novobiocin)

By demonstrating the resistance to the anti-microbial agent novobiocin, staphylococcus saprophyticus can be identified amongst the coagulase-negative staphylococcus.

http://web.indstate.edu/thcme/micro/staph/sld003.htm

Robert H. Latham, Grada A. Grootes-Reuvecamp, Dolores Zeleznik, and Walter E. Stamm. (1983). "Use of a Novobiocin-Containing Medium for Isolation of Staphylococcus saprophyticus from Urine." J Clin Microbiol. June; 17(6): 1161–1162.

-Willie-

Urinary tract infection

Patient 3
Name: Maisy Wong
Sex: Female
Age: 66 yrs
Complaints: Fever, chills, bladder distension, on indwelling catheter
Diagnosis: Urinary tract infection
Antibiotic treatment: Nil

Maisy Wong is on indwelling catheter. An indwelling urinary catheter is a tube that drains urine from the bladder into a bag. The tube is placed into the urethra (the part of the body that drains the bladder) and up into the bladder. Catheter-associated urinary tract infections are caused by a variety of pathogens, including Escherichia coli, Klebsiella, Proteus, enterococcus, Pseudomonas, Enterobacter, Serratia, and Candida. Many of these microorganisms are part of the patient's endogenous bowel flora, but they can also be acquired by cross-contamination from other patients or hospital personnel or by exposure to contaminated solutions or non-sterile equipment. Catheter-associated urinary tract infections are generally assumed to be benign. Such infection in otherwise healthy patients is often asymptomatic and is likely to resolve spontaneously with the removal of the catheter.

Microbiological Media Used
Blood Plate Agar (BAP)
Contains blood from a mammal (usually sheep), and respires to typical transperent nature, typically at a concentration of 5–10%. BAP are an enriched, differential media used to isolate fastidious organisms and detect hemolytic activity. β-hemolytic activity will show complete lysis of red blood cells surrounding colony, while α-hemolysis will only partially lyse hemoglobin and will appear green. γ-hemolysis is the term referring to a lack of hemolytic activity.


Cysteine Lactose Electrolyte Deficient Agar (CLED)
Is a valuable non-inhibitory growth medium used in the isolation and differentiation of urinary organisms. Being electrolyte deficient, it prevents the swarming of Proteus species. Lactose fermenters produce yellow colonies on CLED agar; non-lactose fermenters appear blue.

Most probable microorganisms:
Proteus mirabilis
Pseudomonas aeruginosa
E.coli
http://www.cdc.gov
http://www3.umdnj.edu

Posted by Xiu hui

Microorganisms Suspected
Patient 2: Kwan Siew Lan

1) Salmonella typhi

Description
- Facultative anaerobes
- Gram-negative rods
- Non-lactose fermentors
- Produce H2S
- Causes infection in the lining of the small intestine

Picture of Salmonella typhi taken from (http://www.nlm.nih.gov/ >

Medline > Medical Encycopedia >S-Sh > Samonella Enterocolitis)

Causes and Risk Factors
- Ingestion of contaminated food or water
- Ingestion of improperly prepared or stored food (especially undercooked turkey or chicken, unrefrigerated turkey dressing, undercooked eggs)
- Family members with recent salmonella infection
- Recent family illness with gastroenteritis
- Institutionalization
- Recent poultry ingestion
- Owning a pet iguana or other lizards, turtles, or snakes (reptiles are carriers of salmonella)
- Old or young age
- Patients with impaired immune systems
(http://www.nlm.nih.gov/ > Medline > Medical Encycopedia > S-Sh > Samonella Enterocolitis)

Transmission
- Transmitted mainly via fecal-oral rout and food prepared by chronic carriers

Signs and Symptoms
- Abdominal pain or cramping or tenderness
- Mild to severe diarrhea
- Nausea
- Vomiting
- Fever
- Chills
- Muscle pain
(http://www.nlm.nih.gov/ > Medline > Medical Encycopedia > S-Sh > Samonella Enterocolitis)


2) Campylobacter jejuni

Description
- Gram-negative “S” or “gull wing” shaped
- Motile with a single polar flagellum
- Micro-aerophillic (5%O2 with 10%O2)

Picture of Campylobacter jejuni taken from (http://www.nlm.nih.gov/ >

Medline > Medical Encycopedia > C-Cg > Campylobacter Enteritis)

Causes and Risk Factors
- Eating or drinking contaminated food or water, often raw poultry, fresh produce, or unpasteurized milk
- Close contact with infected people or animals
- Recent travel in an area of poor hygiene or sanitation
(http://www.nlm.nih.gov/ > Medline > Medical Encycopedia > C-Cg > Campylobacter Enteritis)

Transmission
- Via Faecal-oral route, contaminated food and water with animal faeces

Signs and Symptoms
- Cramping abdominal pain
- Watery diarrhea, sometimes bloody
- Fever
(http://www.nlm.nih.gov/ > Medline > Medical Encycopedia > C-Cg > Campylobacter Enteritis)

3) Vibrio parahaemolyticus

Description
- Curved, comma-shaped gram-negative rods
- Highly motile with polar flagella
- Grow well at alkaline pH (8.5-9.5)
- Halophillic bacteria that grow well in high NaCl concentration

Picture of Vibrio parahaemolyticus taken from

( http://www-iut-bv.univ-fcomte.fr/HSEPrjFo/LAURENT/mi...)

Causes and Risk Factors
- Eating raw or undercooked shellfish, particularly oysters
- Infection in the skin when an open wound is exposed to warm seawater
- Persons with weakened immune systems
(http://www.cdc.gov > Diseases and Conditions > V > Vibrio parahaemolyticus Infection)

Signs and Symptoms
- watery diarrhea with abdominal cramping
- nausea
- vomiting
- fever
- chills
(http://www.cdc.gov > Diseases and Conditions > V > Vibrio parahaemolyticus Infection)


REASONS
Samonella typhi, Campylobacter jejuni and Vibrio parahaemolyticus commonly cause enterocolitis or some form of infection in the intestine with the symptom of diarrhea of varying degrees.

Posted by Melva

The microbe that I highly suspected are listed below:
Bacteria


















Virus
















www.aggie-horticulture.html
Plates used
· Blood plate agar (BAP): Blood Plate agar contains blood from a mammal (usually sheep), and respires to typical transperent nature, typically at a concentration of 5–10%. BAP are an enriched, differential media used to isolate fastidious organisms and detect hemolytic activity. β-hemolytic activity will show complete lysis of red blood cells surrounding colony, while α-hemolysis will only partially lyse hemoglobin and will appear green. γ-hemolysis is the term referring to a lack of hemolytic activity.

· Salmonella-Shigella Agar modified (SS): Beef Extract, Enzymatic Digest of Casein, and Enzymatic Digest of Animal Tissue found in SS plate provide sources of nitrogen, carbon, and vitamins required for organism growth. Lactose is the carbohydrate present in Salmonella Shigella Agar. Bile Salts, Sodium Citrate and Brilliant Green inhibit Gram-positive bacteria, most coliform bacteria, and inhibit swarming Proteus spp., while allowing Salmonella spp. to grow. Sodium Thiosulfate and Ferric Citrate permit detection of hydrogen sulfide by the production of colonies with black centers. Neutral Red is the pH indicator.

· Campylobacter Selective medium: A blood free medium, which will support the growth of enteric Campylobacter species. The selective supplements cefaperazone and amphotericin make the medium selective for Campylobacter jejuni and Campylobacter laridis when incubated at 37°C. Incubation at 42°C is no longer necessary and higher recovery rates have been reported at 37°C. Blood is replaced in the medium with charcoal, ferrous sulphate and sodium pyruvate, which enhance the growth and aerotolerance of Campylobacter species.

· MacConkey Agar (MAC): MacConkey agar is a differential plating medium recommended for use in the isolation and differentiation of lactose-fermenting organisms from nonfermenting Gram-negative enteric bacteria. It is selective by the presence of specific inhibitors.

· Thiosulphate-citrate bile sucrose agar (TCBS): A selective isolation medium for pathogenic Vibrio species. Most Enterobacteriaceae other than Vibrio species are suppressed for at least 24h. Bile salts inhibit Gram-positive organisms. Sodium thiosulphate serves as a source of sulphur, which, in combination with ferric citrate, detects hydrogen sulphide production. When sucrose is fermented it produces acid changing the pH. This is indicated by bromothymol blue and thymol blue. The medium is also alkaline which enhances the recovery of Vibrio cholerae.

· Selenite broth: Selenite Broth contains enzymatic digest of casein and enzymatic digest of animal tissue that provides nitrogen and vitamin sources. The main carbohydrate that is present in the broth is lactose. Lactose is the fermentable carbohydrate. Sodium Phosphate in the broth acts as a buffer. A rise in pH decreases selective activity of Selenite. The acid produced by lactose fermentation helps to maintain a neutral pH. Sodium Selenite inhibits the growth of Gram-positive bacteria and many Gram-negative bacteria.

· Alkaline peptone water (APW): Alkaline Peptone Water is an enrichment medium used for the cultivation of Vibrio species from feces and other infected materials. Clinical materials containing small numbers of Vibrio should be inoculated into an enrichment medium prior to plating onto a selective medium, such as TCBS Agar. Alkaline Peptone Water is a suitable enrichment broth for this purpose. The relatively high pH of the medium (approximately 8.4) provides a favorable environment for the growth of vibrios.

· Cefsulodin-Irgasan-Novobiocin (CIN) agar for Yersinia enterocolitica: Cefsulodin-Irgasan-Novobiocin (CIN) agar is a differential and selective medium for the isolation of Yersinia enterocolitica. Fermentation of mannitol in the presence of neutral red produces characteristic "bull's-eye" colonies. These are colourless with a red centre. A zone of precipitated bile may also be present. Crystal violet, sodium desoxycholate, cefsulodin, Irgasan (triclosan) and novobiocin are inhibitory agents.

· Sorbitol MAC for enterohaemorrhagic E.coli: Sorbitol MacConkey Agar medium contains sorbitol instead of lactose and it is recommended for the detection of enteropathogenic strains of E. coli, which ferments lactose, but does not ferment sorbitol and hence produce colorless colonies. Sorbitol fermenting strains of E. coli 0157:H7 produce pink-red colonies. The red colour is due to production of acid from sorbitol, absorption of neutral red and a subsequent colour change of the dye when pH of the medium falls below 6.8.

· Loeffler’s methylene blue: This solution is a solution that can be used alone as a simple stain, positive stain or as the counterstain in the acid fast stain procedure (Ziehl-Nielsen). It can also be used in the staining procedure that detects metachromatic granules (volutin).

· Enterococcosel Agar with 6 microgram / ml of vancomycin (VRE): Enterococcosel Agar Enterococcosel Agar incorporates Bile Esculin Azide Agar to yield rapid, selective detection and enumeration of enterococci. The surveillance for Vancomycin-Resistant Enterococci (VRE) can be accomplished by plating stool cultures onto Enterococcosel Agar with Vancomycin (6 µg/mL).


Microscopy
A wet preparation is examined for the presence of leucocytes and erythrocytes. Their presence may indicate invasive disease. This test is only done on request as its usefulness is limited.

1. Place a drop of liquid faeces or saline suspension of the faecal specimen on a microscope slide. Any mucous or flecks of pus or blood that may be present should be included in the suspension as these are likely to harbour disease causing organisms
2. Mix 1 drop of Loeffler’s methylene blue stain with the faeces specimen. Note that there must be an equal volume of faeces to stain.
3. Place a cover slip over it.
4. Wait 2 – 3 minutes for the nuclei to stain and then read the preparation under high power on (40x)
5. Observe for predominating numbers of white blood cells (WBCs), which indicate an invasive pathogen.

Culture
Inoculated places are O2 incubated unless otherwise indicated in the table.

All faeces are inoculated onto the following media: BAP, MAC, SS, Selenite broth and Campylobacter selective agar for the isolation of salmonella, Shigella and Campylobacter spp.

In addition to the above:
· Bloody faeces are also inoculated onto Sorbitol MAC plate.
· Watery faeces are plated on TCBS and inoculated onto APW to culture for Vibrio spp.


After culturing, gram staining is performed to differentiate gram positive (purple) and negative (pink). Gram negative bacteria includes gram negative cocci, bacilli and coccibacilli while positive includes gram positive cocci and bacilli.


posted by huiling

Patient 5

Patient 5
Name: Wong Wei Hong
Sex: Male
Age: 67 years
Complaints: Fever, chills, bladder distension; on indwelling catheter
Diagnosis: Urinary Tract Infection
Antibiotic treatment: Nil
Specimen: Urine

Definition
Urinary Tract Infection, or known as UTI, is an infection affecting one or more components of the urinary tract, which consists of two kidneys, two ureters, a bladder and a urethra.

Cause of Infection
A possible way for this patient to be infected with UTI is through the insertion of the indwelling catheter into his bladder. The purpose of inserting the indwelling catheter is to allow the drainage of urine out of the bladder. This would indicate to us that the patient might be suffering from a kidney disorder, as he cannot empty his bladder.

However, the use of a catheter may physically disturb the protective lining of the bladder wall, thus allowing bacteria to invade the exposed epithelium In addition to this, when the catheter is not thoroughly sterile, this could cause microorganisms to be present on the surface of the catheter upon insertion into the bladder. This would allow the bacteria to proliferate inside the bladder and thus resulting in the patient to develop a UTI infection.

Investigation Required
Urinalysis
It involves a physical and chemical examination of urine. In addition, the urine is spun in a centrifuge to allow sediments containing blood cells, bacteria, and other particles to collect. This sediment is then examined under a microscope. A urinalysis offers a number of valuable clues for an accurate diagnosis by,

• Observing the colour of the urine and presence of cloudiness (if any)
• Measuring the acidity of the urine
• Counting the number of leukocytes, which is indicative of UTI



Urine Culture
The procedure to detect for any bacterial growth in the urine is called a urine culture. This method involves the inoculation of the urine specimen onto agar mediums. The mediums required are Blood Agar, MacConkey Agar and Cysteine Lactose Electrolyte Deficient (CLED) Agar. The inoculated specimen is then streaked on the respective plates.

Blood Agar contains general nutrients and 5% sheep blood and it is useful for cultivating fastidious organisms and for determining the hemolytic capabilities of an organism.

MacConkey Agar is a differential medium used to isolate and distinguish lactose-fermenting organisms from non-fermenting Gram-negative enteric bacteria.

CLED Agar is a selective medium and inhibits swarming of Proteus species. In addition to this, they promote the growth of Candida and prevent the growth of pseudomonal.

All the 3 agar mediums will then be placed in an O2 incubator and left overnight before they are read the following day. If the Blood Agar shows a ‘swarming’ effect, this would probably indicate that the microorganism is Proteus mirabilis.

Gram Staining
After a urine culture has been performed, a Gram stain would be done using the isolated colonies from any of the agar mediums. This would help to identify if the microorganism is a Gram-positive cocci (GPC) or a Gram-Negative bacilli (GNB). Under microscopy, a GPC would appear bluish or purplish in colour and the cells would be circular. On the other hand, a GNB would turn out reddish or pinkish in colour while the cells would appear rod-shaped.

Biochemical Tests
After Gram staining has been, a few biochemical tests would be done to determine the suspected microorganism. A GNB would normally be an Escherichia Coli (E. coli) and to prove this, an oxidase test is done. E. coli would turn out to be oxidase negative. A GPC would most likely turn out to be a staphylococcus species, and a microorganism under this species would be Staphylococcus aureus. And to determine if the microorganism is likely to be Staphylococcus aureus, a latex test is done. This micro organism would be latex positive.

Antibiotic Susceptibility Test
After the microorganism has been classified, an antibiotic susceptibility test would be carried out to determine the antibiotics that the microorganism is sensitive to. This would allow the physician to prescribe the necessary antibiotics to the patient. In the event that the microorganism is resistant to majority of the antibiotics, stronger types of antibiotics would be given.

Suspected Organisms
Some of the suspected organisms that could lead to a UTI infection are listed as follows.

1) Escherichia coli
2) Proteus mirabilis
3) Pseudomonas aeruginosa
4) Staphylococcus aureus



References

http://www.reutershealth.com/
http://calder.med.miami.edu/
http://dentistry.ouhsc.edu/
http://en.wikipedia.org


Posted by Farhan