LA QUINTA #901, 3500 Park Ave W, Denver, CO - Restaurant inspection findings and violations
Business Info
Address: 3500 Park Ave W, Denver, CO
Total inspections: 8
Last inspection: Feb 10, 2012
(the higher the better)
100
Inspection findings |
Inspection Date |
Inspection Score |
|---|---|---|
| No violation noted during this evaluation. | Jan 31, 2007 | 100 |
| No violation noted during this evaluation. | Dec 31, 2007 | 100 |
|
Jan 22, 2009 | 92 |
|
Feb 14, 2010 | 99 |
|
Jan 21, 2011 | 56 |
| No violation noted during this evaluation. | Feb 3, 2011 | 100 |
|
Feb 6, 2012 | 95 |
| No violation noted during this evaluation. | Feb 10, 2012 | 100 |
Violation descriptions and comments
Jan 22, 2009PERSONNEL
2f Training needed
PUBLIC HEALTH SIGNIFICANCE
Food workers must have a basic understanding of food safety as it relates to the job or task they are doing. Dishwashers must know how the dishmachine they operate sanitizes and when they should be washing their hands. Cooks that reheat foods must know the temperature requirements for reheating. Employees who are required to cool foods must know what the temperature requirements are for cooling. The more knowledgeable the food handler is, the safer the food handling practices in the establishment should be.
FOOD LABELING AND PROTECTION
9b Food unprotected from contamination
PUBLIC HEALTH SIGNIFICANCE
Freezing prevents microbial growth in foods, but usually does not destroy all microorganisms. Improper thawing provides an opportunity for surviving bacteria to grow to harmful numbers. If the food is then refrozen, significant numbers of bacteria may be preserved in the food.
Disease-causing organisms can contaminate and/or grow in food that is not stored properly. Drips from condensation and drafts of unfiltered air can be sources of microbial contamination for stored foods. Shoes carry contamination onto the floors of food preparation and storage areas. Raw meats and poultry can contaminate cooked and ready to eat foods if stored above these ready to eat items. Even trace amounts of refuse or wastes present in toilet rooms, rooms used for dressing, storing garbage or tools, or rooms housing machinery can become sources of food contamination.
IMPROPER CLEANING OF EQUIPMENT AND UTENSILS
12c Dishwashing operations
PUBLIC HEALTH SIGNIFICANCE
Prior to washing and sanitizing heavy food residue left on equipment and utensils must be removed. This pre-scraping or flushing of equipment and utensils helps keep wash and rinse water clean and improves the results of washing and sanitizing
Warewashing water temperatures are a critical factor effecting how well dishwashing detergents work to remove organic matter from equipment and utensils. If wash water temperatures are too low, dish detergents can not effectively dissolve and remove oils and animal fats from dirty equipment and utensils. Wash and rinse water must be kept clean. Equipment and utensils washed and rinsed in heavily soiled water results in soiled and inadequately sanitized surfaces.
After washing and saintizing, clean equipment and utensils must be allowed to drain and air-dry before they are stacked and put away. Wet surfaces of equipment and utensils provide an environment that may allow for the growth of microorganisms. Drying equipment and utensils by hand is prohibited. Hand drying of wet equipment and utensils transfers microorganisms from food workers to utensil surfaces. Clean equipment and utensils must be stored off the floor. Pots, pans, glasses must be stored inverted to help protect them from contamination.
UTENSILS - SINGLE SERVICE ARTICLES
13a Utensils not provided; used/stored improperly
PUBLIC HEALTH SIGNIFICANCE
To help prevent contamination of food by workers, utensils must be provided and used to dispense food. Utensils must also be provided for use in all customer self service areas such as salad bars, buffets and for bulk food dispensing.
Utensils that are provided to dispense and serve foods must be stored and handled in a manner that protects the utensil and the food from contamination. Contaminated utensils will contaminate the foods that are being dispensed and served. To prevent possible contamination of food by utensils during pauses in preparation and dispensing , utensils must be stored:
a) in the food with the handle up out of the food,
b) in a running water dipper well,
c) in ice
water or in hot water that is above 140oF,
d) on a clean dry surface if the utensil is cleaned and sanitized once every four hours.
FOOD LABELING AND PROTECTION
9b Food unprotected from contamination
PUBLIC HEALTH SIGNIFICANCE
Freezing prevents microbial growth in foods, but usually does not destroy all microorganisms. Improper thawing provides an opportunity for surviving bacteria to grow to harmful numbers. If the food is then refrozen, significant numbers of bacteria may be preserved in the food.
Disease-causing organisms can contaminate and/or grow in food that is not stored properly. Drips from condensation and drafts of unfiltered air can be sources of microbial contamination for stored foods. Shoes carry contamination onto the floors of food preparation and storage areas. Raw meats and poultry can contaminate cooked and ready to eat foods if stored above these ready to eat items. Even trace amounts of refuse or wastes present in toilet rooms, rooms used for dressing, storing garbage or tools, or rooms housing machinery can become sources of food contamination.
FOOD TEMPERATURE CONTROL
3e Hold cold at 41 °F or less
PUBLIC HEALTH SIGNIFICANCE
Most food poisonings are associated with foods held at temperatures between 41oF and 140oF for extended periods of time. Health Department inspections stress temperature control of potentially hazardous food.
The rate of bacterial growth and possible toxin production by some bacteria, can be greatly reduced when foods are held at temperatures of less than 41oF. This cold holding temperature does not generally kill the bacteria that may be present in food, but will slow or inhibit their growth.
Bacterial growth and possible toxin production by some bacteria, will occur in potentially hazardous foods that remain at temperatures between 41oF and 140oF for extended periods of time. If a food is held “off” temperature (between 41oF and 140oF) for only a short time, no significant bacterial growth or toxin production should occur. When time is used to control bacterial growth, potentially hazardous foods can be held off temperature for only four hours or less. After this time any food product that has not been served must be discarded. Operations that use time as a control must develop a plan that outlines food handling procedures, identifies when a food item is removed from temperature control and when it is to be disposed of. This plan must be approved by the health department.
FOOD TEMPERATURE CONTROL
3f Food thermometer not available
PUBLIC HEALTH SIGNIFICANCE
Most food poisonings are associated with foods held at temperatures between 41oF and 140oF for extended periods of time. Health Department inspections stress temperature control of potentially hazardous food.
Because food temperature control is so critical in assuring food safety all foods establishment must have and must use an accurate thermometer to check food temperatures. Food product thermometers are to be scaled 0—220oF. They must be accurate to +/-2oF. Food workers need to verify that foods are being properly cooled, that they are reheated to 165oF, that they are cooked to the required temperatures, that they are held hot above 140oF, etc. by using a thermometer.
SANITATION RINSE
4a Manual
PUBLIC HEALTH SIGNIFICANCE
All equipment, utensils and food contact surfaces must be properly washed and then sanitized to minimize food contamination. Washing is the removal of food residue or soil from surfaces. Sanitization is the application of heat or chemicals on cleaned surfaces that results in a 99.999% reduction of disease-causing microorganisms. There are many different types of sanitizers that can be used in food establishments. The most common include: hot water between 165oF and 180oF, chlorine mixed at a concentration of 50 ppm, quaternary ammonia mixed at a concentration of 200 ppm, and iodine mixed at a concentration of 12.5 ppm.
When equipment and utensils are washed and sanitized by hand a three basin sink is required. The first basin is filled with hot soapy water. The second is filled with clean rinse water and the third is filled with water containing sanitizer. Equipment and utensils are washed in the first basin to remove all food residue. They are then rinsed free of detergents in the second compartment and are then placed in the third compartment where they are sanitized. The equipment and utensils must remain in the sanitizing solution for at least one minute to allow the sanitizer enough contact time to effectively kill any disease-causing microorganisms that may be left on the surfaces after washing and rinsing.
SANITATION RINSE
4c In place
PUBLIC HEALTH SIGNIFICANCE
All equipment, utensils and food contact surfaces must be properly washed and then sanitized to minimize food contamination. Washing is the removal of food residue or soil from surfaces. Sanitization is the application of heat or chemicals on cleaned surfaces that results in a 99.999% reduction of disease-causing microorganisms. There are many different types of sanitizers that can be used in food establishments. The most common include: hot water between 165oF and 180oF, chlorine mixed at a concentration of 50 ppm, quaternary ammonia mixed at a concentration of 200 ppm, and iodine mixed at a concentration of 12.5 ppm.
Establishments will often have equipment that needs to be washed and sanitized, but is too large to fit into warewashing sinks or dishmachines, or is not designed to be submerged in water. This equipment must be washed and sanitized “in place”. Surfaces must be washed with a detergent solution to remove food residue, then rinsed free of detergents with clean water and then sanitized with an approved sanitizer.
WATER * SEWAGE * PLUMBING SYSTEMS
5c Unprotected backflow, back siphonage
PUBLIC HEALTH SIGNIFICANCE
Plumbing connections between potable or drinking water plumbing systems and non-potable water systems are called cross connections. Cross connections can occur in many different ways in a food establishment. The simplest may be a hose attached to a faucet that is dropped into a container or sink filled with non-potable, contaminated water. In this example there is a direct connection between the building’s potable water system and the contaminated or non-potable water in the container or sink. To prevent the “backflow” of contaminated water back into the building’s water system caused by siphonage, a proper backflow protection device must be installed on the faucet where the hose is attached. Backflow devices must be correctly installed to assure their proper operation and maintenance. Backflow devices must be installed on all faucets or hose bibs where a hose can be attached, on soap and other chemical dispensing systems that are plumbed to the buildings water systems, on water lines to dish machines and in soft drink carbonator systems. To prevent the possibility of sewage contacting food or backing up into fixtures such as food preparation sinks, warewashing sinks, ice bins, refrigerators or dishmachines, the drainage systems from these fixtures must drain through an “air break” before entering the sewer. This physical gap in the drain line does not allow waste water to back up into fixtures if a sewage back up should occur.
HAND WASHING & TOILET FACILITIES
6a Inadequate in number, location, and design
PUBLIC HEALTH SIGNIFICANCE
Because handwashing is such an important factor in the prevention of foodborne illness, sufficient handwashing sinks must be available to make handwashing not only possible, but likely.
HAND WASHING & TOILET FACILITIES
6b Inaccessible
PUBLIC HEALTH SIGNIFICANCE
Food workers may be unlikely to wash their hands unless properly equipped handwashing sinks are accessible in the immediate work area. Handwashing sinks which are improperly located may be blocked by portable equipment or stacked full of soiled utensils and other items, rendering the sink unavailable for use. Nothing must block the approach to a handwashing sink thereby discouraging its use.
TOXIC ITEMS
8c Improperly used
PUBLIC HEALTH SIGNIFICANCE
Failure to use cleaners, sanitizers, and other chemicals properly can be very dangerous. Directions listed on container labels must be followed correctly. Failure to follow stated instructions could result in injury to workers or customers. Sanitizers must be used at the proper concentrations: Chlorine 50 ppm, Quaternary Ammonia 200 ppm, and Iodine 12.5 ppm. High levels of sanitizers or soaps can leave harmful residues.
FOOD LABELING AND PROTECTION
9b Food unprotected from contamination
PUBLIC HEALTH SIGNIFICANCE
Freezing prevents microbial growth in foods, but usually does not destroy all microorganisms. Improper thawing provides an opportunity for surviving bacteria to grow to harmful numbers. If the food is then refrozen, significant numbers of bacteria may be preserved in the food.
Disease-causing organisms can contaminate and/or grow in food that is not stored properly. Drips from condensation and drafts of unfiltered air can be sources of microbial contamination for stored foods. Shoes carry contamination onto the floors of food preparation and storage areas. Raw meats and poultry can contaminate cooked and ready to eat foods if stored above these ready to eat items. Even trace amounts of refuse or wastes present in toilet rooms, rooms used for dressing, storing garbage or tools, or rooms housing machinery can become sources of food contamination.
IMPROPER EQUIPMENT DESIGN AND CONSTRUCTION
10b Non-food contact surfaces
PUBLIC HEALTH SIGNIFICANCE
Non-food contact surfaces of equipment routinely exposed to splash or food debris must be constructed to be smooth, durable, nonabsorbent and easily cleanable. Equipment that does not meet these criteria becomes difficult to clean, allowing soil, moisture, debris and disease-causing bacteria to accumulate.
TESTING DEVICES
11a Refrigeration units not provided with accurate, conspicuous thermometer
PUBLIC HEALTH SIGNIFICANCE
Conspicuous thermometers are required in all refrigeration units and hot food holding cabinets where potentially hazardous foods are stored. Maintaining foods at safe temperatures is critical in controlling the growth of disease-causing bacteria. Should the temperature of a refrigerator exceed 41oF or a hot holding cabinet be less than 140oF, bacterial growth can occur. In order to facilitate the routine monitoring of equipment temperatures, clearly visible thermometers must be provided in all refrigerations and hot holding cabinets and must be routinely checked by food establishment personnel.
IMPROPER CLEANING OF EQUIPMENT AND UTENSILS
12b Non-food contact surfaces
PUBLIC HEALTH SIGNIFICANCE
The surfaces of cabinets, utensil drawers, shelves, the outsides surfaces of refrigerators, hot holding equipment and other nonfood contact surfaces must be cleaned to keep them free of accumulation of food spills, dirt and grease. The presence of food debris or dirt on nonfood contact surfaces may provide a suitable environment for the growth of bacteria. Workers may inadvertently transfer this contamination to food. Accumulation of food spills and food residue on nonfood contact surfaces may also be a source of food and harborage of insects, rodents, and other pest.
FOOD TEMPERATURE CONTROL
3e Hold cold at 41 °F or less
PUBLIC HEALTH SIGNIFICANCE
Most food poisonings are associated with foods held at temperatures between 41oF and 140oF for extended periods of time. Health Department inspections stress temperature control of potentially hazardous food.
The rate of bacterial growth and possible toxin production by some bacteria, can be greatly reduced when foods are held at temperatures of less than 41oF. This cold holding temperature does not generally kill the bacteria that may be present in food, but will slow or inhibit their growth.
Bacterial growth and possible toxin production by some bacteria, will occur in potentially hazardous foods that remain at temperatures between 41oF and 140oF for extended periods of time. If a food is held “off” temperature (between 41oF and 140oF) for only a short time, no significant bacterial growth or toxin production should occur. When time is used to control bacterial growth, potentially hazardous foods can be held off temperature for only four hours or less. After this time any food product that has not been served must be discarded. Operations that use time as a control must develop a plan that outlines food handling procedures, identifies when a food item is removed from temperature control and when it is to be disposed of. This plan must be approved by the health department.
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