PH 152 Medical and Public Health Microbiology Post Lab Notes PDF

Summary

These supplementary notes cover the post-lab discussion for Exercise 7 in a Medical and Public Health Microbiology course. The topics include introduction to medical mycology, various types of fungi and their spores (e.g., molds, yeasts, sporangiospores, conidia, zygospores, ascospores, basidiospores), as well as a simplified summary of mycotic diseases and causative agents.

Full Transcript

PH152
MEDICAL AND PUBLIC HEALTH MICROBIOLOGY
POST LAB
EXERCISES 7: FUNGAL CULTURE AND MICROSCOPIC OBSERVATION
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

INTRODUCTION

Medical Mycology
- study and identification of the pathogenic yeasts and molds, collectively called fungi.

Mycoses = fungal infections
- Most pathogenic fungi are exogenous, their natural habitats being water, soil, and
organic debris.

- The mycoses with the highest incidence—candidiasis and dermatophytosis—are
caused by fungi that are part of the normal human microbiota and highly adapted to
survival on the human host.
PH 152 POST LABORATORY DISCUSSION
EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Molds
- multicellular, threadlike fungus.
- filamentous colonies
- the branching cylindric tubules is called hyphae.
- the mass of intertwined hyphae that accumulates during
active growth is a mycelium.

Yeast
- unicellular, budding fungus.
- spherical to ellipsoid in shape

- some species produce buds that characteristically fail to detach
and become elongated; continuation of the budding process then
produces a chain of elongated yeast cells called pseudohyphae.
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EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Asexual spores in molds:

1. Sporangiospores
- spores that form within a sac called a sporangium. The sporangia are attached
to stalks called sporangiophores.

2. Conidia
- spores that form on specialized hyphae called conidiophores
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Asexual spores in molds:

Conidia
- spores that form on specialized hyphae called conidiophores
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EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Sexual spores in molds:
1. Zygospores
- formed by the union of nuclear material from the hyphae of two different strains

2. Ascospores
- produced in enclosures, which may be oval sacs or elongated tubes

3. Basidiospores
- produced on club-shaped bodies
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EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Spores in yeast:

Hyphae
- Unlike molds, yeasts do not have true hyphae.
Instead they form multicellular structures called
pseudohyphae.

Asexual Spores
- The only asexual spore produced by yeasts is called
a blastospore, or bud. These spores form as an
outpouching of a cell by a budding process. If
successive buds remain attached in the budding
process, the result is the formation of a
pseudohypha.
PH 152 POST LABORATORY DISCUSSION
EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Microscopic appearance of some of
the more common molds
PH 152 POST LABORATORY DISCUSSION
EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Mycotic Diseases and Causative Agents
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Mycotic Diseases and Causative Agents
1. Superficial Mycoses
- pathogenic fungi that cause infections of skin, hair, or nails are often referred to collectively as dermatophytes
- 3 major genera:
a. Trichophyton
= which may infect hair, skin, nails, body, or feet.
= “ringworm” infection
= this genus is characterized by a develop cylindric, smooth-walled macroconidia
b. Microsporum
= distinctive multicellular macroconidia with echinulate walls. Both types of conidia are borne singly in
these genera
= ringworm infections of the hair and scalp, and also of the body.
c. Epidermophyton
= produces only macroconidia, which are smooth-walled, clavate, two- to four-celled, and formed in
small clusters
= ringworm of the body, including “athlete’s foot.” It does not affect hair or nails
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EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Mycotic Diseases and Causative Agents
1. Superficial Mycoses
- These superficial fungal infections are called ringworms because the lesions are often circular in form.
- The medical term for ringworm is tinea, followed by a word indicating the involved area, for example, tinea
capitis (scalp), tinea corporis (body), or tinea pedis (feet).
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EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Mycotic Diseases and Causative Agents
2. Subcutaneous Mycoses
- usually acquired when minor cuts or scratches introduce soil or plant debris (eg, splinters, thorns) containing the
pathogenic fungus.
- these mycoses are usually confined to the subcutaneous tissues, but in rare cases they become systemic and
produce life-threatening disease.
- Causative agents are either yeasts or display both a yeast and a mold phase (they are said to be dimorphic
because of this).

a. Sporotrichosis = Sporothrix schenckii (dimorphic fungus that lives on vegetation. It is associated with a variety
of plants—grasses, trees, sphagnum moss, rose bushes, and other horticultural plants)
b. Chromoblastomycosis = Phialophora verrucosa, Fonsecaea pedrosoi, Fonsecaea compacta, Rhinocladiella
aquaspersa, and Cladophialophora carrionii (dematiaceous fungi which reside in soil and vegetation)
c. Phaeohyphomycosis = Exophiala jeanselmei, Phialophora richardsiae, Bipolaris spicifera, and Wangiella
dermatitidis. These species and others (eg, Exserohilum rostratum, Alternaria species, and Curvularia species)
(exogenous molds that normally exist in nature)
d. Mycetoma = several saprophytic species of fungi or actinomycetous bacteria that are normally found in soil.
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EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Mycotic Diseases and Causative Agents
3. Endemic/Systemic Mycoses
- four primary systemic mycoses—coccidioidomycosis, histoplasmosis, blastomycosis, and paracoccidioidomycosis—
is geographically restricted to specific areas of endemicity.
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EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION

Mycotic Diseases and Causative Agents
4. Opportunistic Mycoses
- when the host’s immune defense mechanisms are decreased by illness (leukemias, lymphomas, acquired
immunodeficiency syndrome) or by drugs (steroids, cancer chemotherapeutics, transplantation drugs), fungi (as
well as other microorganisms) find the opportunity to invade and establish disease.

a. Candidiasis = genus Candida = C albicans, C parapsilosis, C glabrata, C tropicalis, C guilliermondii, and C
dubliniensis; most prevalent systemic mycosis
b. Cryptococcosis = Cryptococcus neoformans and Cryptococcus gattii are environmental, basidiomycetous yeasts;
Cryptococcus neoformans occurs in immunocompetent persons but more often in patients with HIV/AIDS,
hematogenous malignancies, and other immunosuppressive conditions.
c. Aspergillosis = A. fumigatus is the most common human pathogen, but many others, including A. flavus, A.
niger, A. terreus, and A. lentulus may cause disease. These fungi produces abundant small conidia that are
easily aerosolized.
d. Mucormycosis (zygomycosis) = genera Rhizopus, Rhizomucor, Lichtheimia, Cunninghamella. Most prevalent
species is Rhizopus oryzae. These fungi are ubiquitous thermotolerant saprobes.
e. Penicillosis = Penicillium marneffei; this species has emerged as an endemic, opportunistic pathogen
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EXERCISE 7: FUNGAL CULTURE and MICROSCOPIC OBSERVATION
PH152
MEDICAL AND PUBLIC HEALTH MICROBIOLOGY
POST LAB | EXERCISE 8: ENTEROBACTERIACEAE
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

INTRODUCTION

Gut/Intestinal Microflora
Mostly anaerobic, few are facultative
anaerobes
Occur both in the lumen and attached to the
mucosa, but do not normally penetrate the
bowel wall
Crucial component of the enterohepatic
circulation.
Koboziev, I., Reinoso Webb, C., Furr, K. L., & Grisham, M. B. (2014). Role of the enteric microbiota in intestinal homeostasis and
inflammation. Free Radical Biology and Medicine, 68, 122–133.
PH 152 POST LABORATORY DISCUSSION
EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

Functions of Gut/Intestinal Microflora

Immune system regulation
Protection against exogenous pathogens
Digestion and nutrient metabolism
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

Enteric Pathogens

Exogenous Pathogens Endogenous Pathogens

Acquired pathogens that Opportunistic Pathogens
developed strategies to are microbes that can only
compete with the intestinal cause infection when the
community leading to host’s normal defenses are
infection and/chronic not fully intact.
disease.
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS
Characteristics Salmonella typhi
Common Enteric Pathogens Capsule Negative (-ve)
Catalase Positive (+ve)
Citrate Negative (-ve)
Salmonella species Flagella Positive (+ve)
Gas Negative (-ve)
Gelatin Hydrolysis Negative (-ve)

- Gram-negative, flagellated facultatively anaerobic bacilli Gram Staining Negative (-ve)
Growth in KCN Negative (-ve)
characterized by O, H, and Vi antigens. H2S Positive (+ve)
- Salmonellosis ranges clinically from the common Indole Negative (-ve)
Motility Motile
Salmonella gastroenteritis (diarrhea, abdominal cramps, and MR (Methyl Red) Positive (+ve)
fever) to enteric fevers (including typhoid fever) MUG Test Negative (-ve)
Nitrate Reduction Positive (+ve)
Oxidase Negative (-ve)
Pigment Negative (-ve)
Shape Rod
Spore Negative (-ve)
TSIA (Triple Sugar
Alkali/Acid
Iron Agar)
Urease Negative (-ve)
VP (Voges
Negative (-ve)
Proskauer)
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

Shigella species
-Gram-negative, nonmotile, facultatively anaerobic, non-spore-forming rods, non-lactose
fermenters.
-utilize glucose and other carbohydrates, producing acid but not gas.
- comprise four species and many serotypes
- Causes shigellosis (watery diarrhea and dysentery)
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS
Characteristics Klebsiella pneumoniae
Capsule +ve
Catalase +ve
Klebsiella pneumoniae Citrate +ve
- commonly associated with UTIs, wounds and respiratory Flagella -ve
infections Gas +ve

-gram-negative, encapsulate, and non-motile bacterium. Gelatin Hydrolysis -ve

-colonizes human mucosal surfaces of the oropharynx and Gram Staining -ve
Growth in KCN +ve
gastrointestinal (GI) tract. H2S -ve
Indole -ve
Motility -ve
MR (Methyl Red) -ve
MUG Test +ve
Nitrate Reduction +ve
OF (Oxidative-
Fermentative
Fermentative)
Oxidase -ve
Pigment -ve
Shape Rod
Spore -ve
TSIA (Triple Sugar Iron
A/A
Agar)
https://www.ncbi.nlm.nih.gov/books/NBK519004/ Urease +ve
VP (Voges Proskauer) +ve
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

Proteus species
- An opportunistic pathogen
- one of the common causes of urinary tract infections (UTIs) and are associated
with infection-induced renal stones.
- have pili (fimbriae) which are associated with adhesive properties and correlated
with virulence.
* Infections causes: pyogenic lesions, infections of the ear, respiratory tract infections, and
nosocomial infections

Proteus mirabilis in blood agar
and MacConkey agar
 PH 152 POST LABORATORY DISCUSSION Characteristics E.coli
EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS Catalase test Positive
Oxidase test Negative

E. coli Nitrate reduction test
Methyl-Red (MR) test
Positive
Positive
- Disease-producing E. coli known to be a common Voges-Proskauer (VP) test Negative
Citrate utilization test Negative
cause of “traveler’s diarrhea” (“turista”) and a variety of other Acetate utilization test Positive
gastrointestinal diseases Indole test Positive
Pyrrolidonyl-β-naphthylamide
- Enterotoxigenic Escherichia coli (ETEC), (PYR) test
Negative
enterohemorrhagic Escherichia coli (EHEC), which is also known as H2S production test No
Urease test Negative
Shiga toxin-producing Escherichia coli (STEC), enteroinvasive
Oxidative-fermentative (OF) test Fermentative
Escherichia coli (EIEC), enteropathogenic Escherichia coli (EPEC), MUG test Positive
and enteroaggregative Escherichia coli (EAEC) TSI reactions Acid/Acid, Gas,
SIM No H2S, Indole +ve, motile
Motility Motile
Phenyl Pyruvic acid (PPA) test Negative
Lysine decarboxylation test +

Arginine decarboxylation test -/+ (strain variability)

Ornithine decarboxylation test +/- (strain variability)
ONPG +
Sugar fermentation test
Glucose Yes
Sucrose No
Lactose Yes
Mannitol Yes
https://www.ncbi.nlm.nih.gov/books/NBK564298/
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

Other bacterial pathogens associated with intestinal diseases:

Campylobacter jejuni

Vibrio cholerae and Vibrio parahaemolyticus

Yersinia

Pseudomonas aeruginosa
PH 152 POST LABORATORY DISCUSSION
EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

Table 1. Summary of enteric pathogens and methods of estimating incidence of infection.

Kirk MD, Pires SM, Black RE, Caipo M, Crump JA, Devleesschauwer B, et al. (2015) World Health Organization Estimates of the Global and Regional Disease Burden of 22 Foodborne
Bacterial, Protozoal, and Viral Diseases, 2010: A Data Synthesis. PLoS Med 12(12): e1001921. doi:10.1371/ journal.pmed.1001921
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

https://www.cdc.gov/ncezid/dfwed/edeb/index.html

Food and water borne diseases/intoxication
Animal contact disease outbreak
Antibiotics-associated diarrhea
Antimicrobial resistance pathogens
Cases with immunocompromised individuals
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

Isolation and Identification

1. Isolation on Selective and Differential Media

EMB (Eosin Methylene Blue) Agar
- selective to Gram negative bacteria
- Inhibitory to Gram +
- differentiate lactose fermenters
* metallic sheen/ blue black colonies
= lactose fermenters
* Dark purple = slow fermenters
* pink colonies = non lactose
fermenters https://laboratoryinfo.com/emb-agar-eosin-methylene-blue-agar/
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

MacConkey Agar
- Gram negative bacteria
- selective = bile salts and crystal
violets
- differentiate lactose fermenters
* pink colonies = lactose
fermenters
* colorless colonies = non
lactose fermenters

https://laboratoryinfo.com/macconkey-agar/
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

Salmonella-Shigella Agar
- Salmonella and Shigella
- selective = bile salts, sodium
citrate, and bright green.
- differentiate lactose fermenters
* Red colonies = lactose
fermenters
* colorless colonies = non
lactose fermenters

Colonies of Salmonella https://www.labtestsguide.com/salmonella-shigella-agar

spp. may appear with or without black
centers (depending on the species
isolated).
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

Cetrimide Agar
- Pseudomonas aeruginosa
- selective = magnesium chloride and
potassium sulphate
- yellow-green to blue color colonies
which indicates the production of pyocyanin
of P. aeruginosa
https://microbiologyinfo.com/cetrimide-agar-composition-principle-uses-preparation-and-colony-morphology/

Limitations:
1. Occasionally some enterics will exhibit a slight yellowing of the medium; however, this coloration is easily distinguished from
fluorescein production because this yellowing does not fluoresce.
2. Some non-fermenters and some aerobic spores formers may exhibit a water-soluble tan to brown pigmentation on this
medium. Serratia strains may exhibit a pink pigmentation.
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

2. Biochemical Testing
- IMVIC
* Indole = enzyme tryptophanase,
which can cleave tryptophan to produce
indole, pyruvic acid, and ammonia.
* MR Test = produce mixed acids
from glucose fermentation. https://microbenotes.com/imvic-tests/

* VP Test = presence of acetoin,
suggesting the bacterium follows the 2,3-
* Citrate Test = use citrate as the only carbon source
butanediol fermentation pathway.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

- TSI = Fermentation of sugars; Gas
Production; Hydrogen Sulfide (H2S)
Production

- Urea = enzyme urease and is
capable of hydrolyzing urea into https://www.onlinebiologynotes.com/tsi-triple-sugar-iron-test-objective-principle-procedure-and-result/

ammonia and carbon dioxide

3. Serological Testing – Detection of
antigen
https://microbiologyinfo.com/urease-test-principle-media-procedure-and-result/
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

Coliform
-gram-negative, facultative anaerobic bacteria found in the intestines of
warm-blooded animals, including humans. They can ferment lactose to produce acid
and gas. Used as indicators of fecal contamination in water and food. Examples
include Escherichia coli, Klebsiella spp., and Enterobacter spp.

Non-Coliform
- gram-negative, but they do not ferment lactose to produce gas. Examples
include Salmonella, Shigella, and Yersinia. These organisms are often pathogenic and
can cause gastrointestinal diseases.
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EXERCISE 8: ENTEROBACTERIACEAE AND GRAM NEGATIVE INTESTINAL PATHOGENS

Dichotomous Key of Identifying Enterobacteriaceae

Source: Chapter 80 Gram-Negative Intestinal Pathogens of Benson
Microbiological Applications Lab Manual
PH152
MEDICAL AND PUBLIC HEALTH MICROBIOLOGY
POST LAB
EXERCISES 9: Urine Culture Techniques and Urinary Tract Pathogens
PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

INTRODUCTION

Urine is a sterile waste product
composed of water-soluble nitrogen
products that is formed in the
kidneys, stored in the urinary bladder,
and is excreted from the body
through the urethra.

Three main steps:
1. Filtration
2. Reabsorption
3. Secretion.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Urine Composition

Approximately 91-96% water, with the
remaining 4-9% consisting of inorganic
salts, urea, organic compounds, and
organic ammonium salts.

The percentage composition vary depending on factors
such as hydration status, diet, medications, and underlying
medical conditions.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Urinalysis
The routine urine examination.

- Most useful tool for the clinicians as an
indicator or health or disease.
- Particularly, used in renal metabolic disorders.
- Often done for patients admitted to the
hospital.

- The routine urine analysis is divided into four
main groups:

1. Physico-chemical properties.
2. Chemical examination.
3. Microscopic examination.
4. Bacterial screening
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Urine Collection
Urine must be collected in a sterile bottle.
- The routine urine examination must be conducted
within 30 min.
- In case of delay, urine must be refrigerated.

Delay in sample examination will result in:

Decreased pH by the utilization of glucose by bacteria.
Increased pH by the conversion of urea to ammonia by bacteria.
In increased pH, the tendency of phosphates to precipitate will increase.
Oxidation of urobilinogen to urobilin. It may give false negative result for jaundice.
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties
Color of normal urine

Normal urine is clear and the color ranges from pale yellow to deep
amber.
it is the result of a pigment called urochrome.
the higher the concentration of urine, the deeper is the color.
the concentration of urine is highest in the morning specimen (overnight
urine) and is lowest in a specimen passed an hour after much fluid has
been taken.

colored urines occur in certain diseases or metabolic disorders, and after
the administration of many drugs.
- B vitamins turn urine an eyepopping neon yellow BUT may also indicate liver disease.
- Porphyria, a disease that affects your skin and nervous system, turns urine the color
of port wine.
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

Color of normal urine

Most changes in urine color are harmless and temporary and may be due to:
– Certain foods = beets may turn urine red
– Dyes in foods/drinks
– Supplements = vitamins
– Prescription drugs

Unusual urine color can indicate an infection or serious illness.
PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties
Color of normal urine
Different colors of urine
pale yellow (straw)
light yellow
yellow
green-yellow (olive)
red-yellow
red
red-brown
brown-black
black
milky
PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties
Turbidity
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties
Turbidity
Substances that cause cloudiness but that are not considered unhealthy include:
– mucous,
– sperm and prostatic fluid,
– cells from the skin,
– normal urine crystals, and
– contaminants (like body lotions and powders).

Other substances that can make urine cloudy (such as red blood cells, white blood
cells, yeast or bacteria) indicate a condition that requires attention.
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties
Odor
Normally urine smells aromatic due to the presence of volatile organic acids.

In some cases, an unusual or strong urine odor may be due to benign conditions that
are not harmful, such as eating certain foods or taking certain medications and
volatile acids.

The urine of patients with diabetes mellitus may have a fruity (acetone) odor because
of ketosis.

Urine which is infected with Gram-negative organisms often has a distinctive
unpleasant smell.
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties
Specific Gravity

SG is a measure of the density of the dissolved chemicals in the
specimen.
There are direct relationship between concentration of substance in
urine (concentration of urine) and SG.
The normal specific gravity (correctly called relative density) of a
pooled 24 hour urine sample is between 1.025 and 1.010.
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

pH
On a normal mixed diet the urine is usually acid, generally varying
in pH between 5.5 and 8.0, with a mean of 6 in 24 hours.

Acidic Urine :
Diabetic ketosis, fevers.

Alkaline Urine:
- A vegetarian diet which causes a tendency to alkalosis.
-It may also be grossly increased by bacterial infection of the
urinary tract.
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

Chemical Examination

Reagent strips are used only once and discarded.
Testing
– Perform within 1 hour after collection
– Allow refrigerated specimens to return to room
temperature.
– Dip strip in fresh urine and compare color of pads
to the color chart after appropriate time period.
– Instruments are available which detect color
changes electronically
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties
Reagent Strips
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

Glucose
Presence of glucose (glycosuria) indicates that the
blood glucose level has exceeded the renal threshold.

Useful to screen for diabetes.
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

Bilirubin
Bilirubin is a byproduct of the breakdown of hemoglobin.
Normally contains no bilirubin.
Presence may be an indication of liver disease, bile duct obstruction or
hepatitis.
Since the bilirubin in samples is sensitive to light, exposure of the urine
samples to light for a long period of time may result in a false negative test
result.
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

Ketones

Ketones are excreted when the body metabolizes
fats incompletely (ketonuria)
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

Blood
Presence of blood may indicate infection, trauma to the
urinary tract or bleeding in the kidneys.

False positive readings most often due to contamination
with menstrual blood.
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

Protein
Presence of protein (proteinuria) is an important indicator
of renal disease.

False negatives can occur in alkaline or dilute urine or
when primary protein is not albumin.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

Urobilinogen
Urobilinogen is a degradation product of bilirubin formed
by intestinal bacteria.

It may be increased in hepatic disease or hemolytic
disease
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

Nitrite
Nitrite formed by gram negative bacteria converting
urinary nitrate to nitrite
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

Leukocytes
Leukocytes (white blood cells) usually indicate infection.

Leucocyte esterase activity is due to presence of WBCs in
urine while nitrites strongly suggest bacteriuria.
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties

Normal Values

Negative results for glucose, ketones, bilirubin, nitrites, leukocyte esterase and
blood.

Protein negative or trace.

pH 5.5-8.0

Urobilinogen 0.2-1.0 Ehrlich units
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EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Physico-chemical Properties
Parameter Normal Abnormal
Color Yellow straw, amber, Dark amber – concentrated urine insufficient of fluid intake
transparent Cloudy - infectious process
Dark orange – drug, eg: pyridium
Red or dark brow - disease process causing blood in urine
Consistency Clear Mucus plug, viscid, thick - infectious process
Odor Faint aromatic Offensive – infectious process
Sterility No microorganisms present Microorganisms present = UTI
pH 4.5-8.0 Over than 8.0 - UTI
Under 4.5 - uncontrolled diabetes, starvation, dehydration
Specific gravity 1.010-1.025 Over 1.025 – diabetes mellitus, under hydration
Under 1.01 – diabetes insipidus, kidney disease, over
hydration
Urine glucose Not present Present – diabetes mellitus
Urine ketones bodies Not present Present – diabetic coma, starvation, prolonged vomiting
Urine blood Not present Occult – kidney disease
Bright red – hemorrhage
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Microscopic Examination

White blood cells

Pyuria refers to the presence of elevated number of leukocytes (granulocytes):
– Upper or lower UT infection
– Glomerulonephrotis
– Vaginal & cervical infections
– External urethral meatus (men & women)

Normal range:
0-2/HPF (5+ indicates an infection and 10+ indicates more severe conditions).
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Microscopic Examination
Epithelial cells

Normal urine – not present/unquantified

Renal tubular epithelial cells, usually larger than granulocytes, contain a
large round or oval nucleus are normally slough into the urine in small
amounts.

Positive – nephrotic syndrome, condition leading to tubular
degeneration.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Microscopic Examination
Urinary Crystals

Normal urine – present but unquantified.
Type of crystals:
– Calcium oxalate
– Triple phosphate
– Amorphous phosphates
– Uric acids
Uric acid crystals (hyperuricemia)
– Cyctine
– Tyrosine
– Leusine
Elevated numbers of crystal may indicate:
– Hypercalcemia
– Cystine crystal –cystinuria
May due to renal failure or other renal disease.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Microscopic Examination

Casts

Formed at the distal convoluted tubule or the
collecting duct (distal nephron).
Protein based cylindrical molds of the renal tubule
Result of damage to the renal tubule
Can contain cells and other material
Dehydration and acidic urine especially predisposes to
cast formation.

Types of casts
- Protein
- RBC
- WBC
- Other
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Urinary Bacteria
Abundant normal microbial flora of the vagina or external urethral meatus.

Ability to rapidly multiply in urine standing room temperature.

However, it should be interpreted in view of clinical symptoms.

Bacterial culture must be done in case of bacteriuria
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Urinary Yeast

Yeast cells may be contaminants or represent a true yeast infection.

Often difficult to distinguish from red cells and amorphous crystals but can be
distinguished by their tendency to bud.

Most often they are Candida, which may colonize bladder, urethra or vagina.
PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Microscopic Examination
PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Microscopic Examination
PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Microscopic Examination
PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Microscopic Examination
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Urinary Tract Infection

Urinary tract infections (UTIs) are caused by a wide
range of pathogens, including Gram-negative and
Gram-positive bacteria, as well as fungi.

Urinary tract infections (UTI’s) are one of the most
common infections treated by primary care
physicians (PCP) in the world to date.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Urinary Tract Infection
The urinary tract is divided into upper and lower tracts.
Cystitis is an infection within the bladder and is the most common type of lower UTI.
Urethritis is an infection with the ureters.
Pyelonephritis is an infection within the kidneys.
Pyelonephritis is more serious than urethritis or cystitis, but less common.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Types of Urinary Tract Infection

1. Uncomplicated UTIs
- affect individuals who are otherwise healthy and have no structural or
neurological urinary tract abnormalities
- typically affect women, children and elderly patients who are otherwise healthy.

2. Complicated UTIs
- UTIs associated with factors that compromise the urinary tract or host defense.
- usually associated with indwelling catheters, urinary tract abnormalities,
immunosuppression or exposure to antibiotics.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Types of Urinary Tract Infection

3. Recurrent UTI’s are described as at least 2 - 3 uncomplicated or complicated
infections in a 6 month time period or 3 UTIs within a year.

4. Relapse UTI’s are infections which reoccur within the first two weeks of
completing the initial antibiotic drug therapy for the first UTI.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Types of Urinary Tract Infection
5. Catheter-associated UTI’s (CAUTI’s) occur when a person has an
indwelling urinary or supra-pubic catheter and or has recently
been catheterized in the past 48 hours.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Risk Factors of UTI
UTI’s are more common in women and girls than in men because their urethra is shorter than
males.
A female urethra is approximately 4 inches in length, and closer to the rectum, where more
bacteria exists and can easy travel into the urinary tract.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Risk Factors of UTI

Previous UTI’s.
Family-related risk (a mother, sister, aunt, or grandmother with history of
UTI’s).
Changes in a female’s bacterial growth caused by medication used for vaginal
infections, or during menopause.
Age 65 years or older, with urinary incontinence, urinary retention, numerous
hospitalizations and or institutionalizations.
Diabetes (impaired insulin processing within the body).
Neuropathy (incomplete emptying of the bladder due to diabetic related nerve
damage).
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Risk Factors of UTI

Men with an enlarged prostate or incomplete emptying of the bladder related
to narrowing of the urethra.
Young children being toilet trained, if not taught proper hygiene of wiping
from front to back after bowel movements.
Prolonged use of an indwelling urinary or suprapubic catheter and or having
recently experienced urinary catheterization in the hospital or medical
environment.
PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Causes of UTI
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Causes of UTI

- The most common causative agent for both uncomplicated and complicated UTIs is
Uropathogenic Escherichia coli (UPEC).

- Uncomplicated UTIs, UPEC is followed in prevalence by Klebsiella pneumoniae,
Staphylococcus saprophyticus, Enterococcus faecalis, group B Streptococcus (GBS), Proteus
mirabilis, Pseudomonas aeruginosa, Staphylococcus aureus and Candida spp.

- Complicated UTIs, the order of prevalence for causative agents, following UPEC as most
common, is Enterococcus spp., K. pneumoniae, Candida spp., S. aureus, P. mirabilis, P.
aeruginosa and GBS.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Causes of UTI

AipA, adhesion and invasion mediated by the Proteus autotransporter; CNF1, cytotoxic necrotizing factor 1; Ebp, endocarditis- and biofilm-associated; Epa, enterococcal polysaccharide antigen; Esp, enterococcal surface protein; ExoS, exoenzyme S; F1C pili, type 1-like immunological group
C pili; HlyA, α-haemolysin; HpmA, haemolysin; MR/P, mannose-resistant Proteus-like; Msr, methionine sulfoxide reductase; NAF, non-agglutinating fimbria; ND, not determined; PMF, P. mirabilis-like fimbria; P pili, pyelonephritis-associated pili; Pta, Proteus toxic agglutinin; TaaP, trimeric
autoagglutinin autotransporter of Proteus; UPEC, uropathogenic Escherichia coli.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Causes of UTI
Feces from the rectum find their way into the urethra, which can occur when a female wipes her
perianal area from the back to the front of the body.
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Causes of UTI
Urine that is left sitting in the bladder after urination is referred to as stagnant urine residual
which provides an environment for bacterial growth.
Stagnant urine residual happens when the bladder is not emptied completely during urination,
leaving a small amount of left over urine.
Treatment for stagnant urine residual is an in-out (straight) catheterization.
− Catheterization is considered a sterile procedure requiring a nurse to perform under a physician’s
order
 PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens

Diagnosis of UTI
If UTI is suspected an individual should be seen by a physician right away, either by the
primary care physician (PCP) or in the hospital emergency room, based on the increased risk
of the infection developing into sepsis.

− Urinary tract infections are the second leading cause of sepsis, which if not treated
immediately can quickly lead to death.

Verification of UTI is based on the presence of bacteria and white blood cells in the urinary
tract with the presents of physical symptoms.

A person can have increased bacteria in their urine without having any physical symptoms.
− This is referred to as Asymptomatic Bacteriuria (ASB), which is at times confused with UTI.
PH 152 POST LABORATORY DISCUSSION
EXERCISE 9: Urine Culture Techniques and Urinary Tract Pathogens