- MSL973004A - Perform aseptic techniques
Unit of Competency Mapping – Information for Teachers/Assessors – Information for Learners
MSL973004A Mapping and Delivery Guide
Perform aseptic techniques
Version 1.0
Issue Date: June 2024
Qualification | - |
Unit of Competency | MSL973004A - Perform aseptic techniques |
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Description | This unit of competency covers the ability to perform aseptic techniques to maintain the integrity of both the sample source and the sample. It applies to sampling techniques in tissue culture and to generic microbiological procedures. | ||
Employability Skills | This unit contains employability skills. | ||
Learning Outcomes and Application | This unit of competency is applicable to laboratory assistants and technicians working in the field or laboratory in the biomedical, biological, food processing and environmental industry sectors.Industry representatives have provided case studies to illustrate the practical application of this unit of competency and to show its relevance in a workplace setting. These are found at the end of this unit of competency under the section 'This competency in practice'. | ||
Duration and Setting | X weeks, nominally xx hours, delivered in a classroom/online/blended learning setting. |
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Prerequisites/co-requisites | |||
Competency Field |
Development and validation strategy and guide for assessors and learners | Student Learning Resources | Handouts Activities |
Slides PPT |
Assessment 1 | Assessment 2 | Assessment 3 | Assessment 4 | |
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Elements of Competency | Performance Criteria | |||||||
Element: Prepare for aseptic sampling or transfer |
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Element: Transfer materials aseptically |
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Element: Maintain work area and equipment to prevent cross-infection and contamination |
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Evidence Required
List the assessment methods to be used and the context and resources required for assessment. Copy and paste the relevant sections from the evidence guide below and then re-write these in plain English.
The Evidence Guide provides advice on assessment and must be read in conjunction with the performance criteria, required skills and knowledge, range statement and the Assessment Guidelines for the Training Package. | |
Overview of assessment | |
Critical aspects for assessment and evidence required to demonstrate competency in this unit | In particular, assessors should look to see that the candidate: follows established laboratory procedures, including recording of samples, operation of equipment and cleaning/decontamination prevents cross-contamination of sample source and sample manipulates equipment to prevent contamination of culture medium during transfer sterilises equipment as required to prevent cross-contamination of work area, personnel and environment. |
Context of and specific resources for assessment | This unit of competency is to be assessed in the workplace or simulated workplace environment. This unit of competency may be assessed with: MSL943002A Participate in laboratory/field workplace safety MSL973003A Prepare culture media. Resources may include: standard laboratory with appropriate equipment and materials enterprise procedures and standard methods MSDS. |
Method of assessment | The following assessment methods are suggested: review of quality assurance results and examination of samples transferred by the candidate observation of the candidate successfully transferring a range of samples written and/or oral questioning to assess underpinning knowledge. In all cases, practical assessment should be supported by questions to assess underpinning knowledge and those aspects of competency which are difficult to assess directly. Where applicable, reasonable adjustment must be made to work environments and training situations to accommodate ethnicity, age, gender, demographics and disability. Access must be provided to appropriate learning and/or assessment support when required. The language, literacy and numeracy demands of assessment should not be greater than those required to undertake the unit of competency in a work like environment. |
This competency in practice | Industry representatives have provided the case studies below to illustrate the practical application of this unit of competency and show its relevance in a workplace setting. Food processing As part of the quality assurance program at an ice-cream manufacturer, six ice-creams were removed from the production line, placed in sterile bags and then stored in a freezer in the microbiology laboratory. Later in the morning, the laboratory assistant removed the samples from the freezer, registered the samples with the date received and test code and signed the register book. She/he then placed the samples in a water bath set at 42(C. While the samples were melting, the laboratory assistant labelled the respective agar plates with the registered codes. Using aseptic techniques she/he carefully transferred 1ml of ice-cream mix into the total plate count agar. The plates were then placed in the incubator. The final results were noted and recorded. Biomedical In preparation for antibiotic sensitivity testing and biochemical identification of presumed pathogenic bacteria, a technical assistant was asked to prepare a sterile peptone suspension of a lactose fermenting colony. The colony had been previously identified by the supervisor on a MacConkey's agar plate. The assistant labelled a 5mL tube of peptone broth with the sample number and a code for the identified colony and then donned a pair of disposable gloves. Bringing the labelled tube and the MacConkey's plate near to the Bunsen, she/he took an inoculating loop and sterilised it in the incandescent flame. She/he carefully cooled the loop in a sterile area of the agar and gently scraped off half the colony. With the other hand, and in the vicinity of the heated air of the Bunsen, she/he removed the cover of the peptone tube in her/his crooked finger. In a continuous and coordinated way she/he flamed the lip of the tube and emulsified the colony in the broth. She/he then flamed the lip of the tube and replaced its cover. Finally, the technical assistant re-sterilised the inoculating loop by introducing and holding it in the Bunsen flame to minimise the generation of bacterial aerosols. |
Submission Requirements
List each assessment task's title, type (eg project, observation/demonstration, essay, assignment, checklist) and due date here
Assessment task 1: [title] Due date:
(add new lines for each of the assessment tasks)
Assessment Tasks
Copy and paste from the following data to produce each assessment task. Write these in plain English and spell out how, when and where the task is to be carried out, under what conditions, and what resources are needed. Include guidelines about how well the candidate has to perform a task for it to be judged satisfactory.
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Required skills |
Required skills include: sterilising equipment such as flasks, loops and pipettes handling of laboratory equipment and glassware to prevent contamination streak plating of inoculations sampling transfers labelling and storing culture media according to enterprise procedures recording data accurately reporting non-compliance, anomalies or outofspecification results sorting, collecting, treating, recycling or disposing of waste following enterprise procedures consistently using appropriate personal protective equipment |
Required knowledge |
Required knowledge includes: the relationship between sterile practices, hygiene procedures and the ability to obtain growth free of contamination cleaning and sanitising requirements of equipment and work areaand effects of physical and chemical agents on microbial growth and death principles of infection control related to occupational health and safety (OHS), sampling and transfer of materials in microbiological investigations disinfection and sterilisation procedures used in the collection, processing and safe disposal of samples and materials importance of pure culture techniques and aseptic transfer to the successful microbiological investigation and correct interpretation of laboratory results growth requirements of micro-organisms (bacteria, fungi, protozoans, viruses and multi-cellular parasites) in terms of their laboratory culture relevant health, safety and environment requirements Specific industry Additional knowledge requirements may apply for different industry sectors. For example: Food processing: food spoilage symptoms food safety principles beneficial/detrimental organisms relevant to specific food industry sector |
The range statement relates to the unit of competency as a whole. It allows for different work environments and situations that may affect performance. Bold italicised wording, if used in the performance criteria, is detailed below. Essential operating conditions that may be present with training and assessment (depending on the work situation, needs of the candidate, accessibility of the item, and local industry and regional contexts) may also be included. | |
Codes of practice | Where reference is made to industry codes of practice, and/or Australian/international standards, it is expected the latest version will be used |
Standards, codes, procedures and/or enterprise requirements | Standards, codes, procedures and/or enterprise requirements may include: Australian and international standards, such as: AS/NZS 2243 Set:2006 Safety in laboratories set AS/NZS 2982.1:1997 Laboratory design and construction - General requirements AS/NZS 4187:2003 Cleaning, disinfecting and sterilising reusable medical and surgical instruments and equipment and maintenance of associated environments in health care facilities AS/NZS ISO 14000 Set:2005 Environmental management standards set HB 9-1994 Occupational personal protection Australia New Zealand Food Standards (ANZFS) Code Australian code of good manufacturing practice for medicinal products (GMP) Australian Dangerous Goods Code client and product specifications manufacturer's instructions or verbal direction from laboratory manager, supervisor or senior technician material safety data sheets (MSDS) National Code of Practice for the labelling of workplace substances [NOHSC:2012 (1994)] National Health and Medical Research Council (NHMRC) Guidelines OHS national standards and codes of practice operation and maintenance manuals for automated media preparation equipment principles of good laboratory practice (GLP) production schedules and instructions standard operating procedures (SOPs) |
Personal protective equipment | Personal protective equipment may include: gloves, safety glasses, goggles, face guards, coveralls, gowns, body suits and respirators biohazard containers and laminar flow cabinets |
Sample pot and transfer media and the subculturing and/or passaging of culture | Sample pot and transfer media and the subculturing and/or passaging of culture to: sterile broth media for isolation of colony tissue culture media media for continuous culture systems |
Samples | Samples may include: body fluids and liquids water and soil sterile pharmaceuticals yeasts and moulds milk and yoghurt swabs and smears propagation tissue plant material fermented foods and beverages |
Equipment | Equipment may include: transfer equipment, such as inoculating loops, pipettes (quantitative and qualitative), flasks, tubes and spatulas Bunsen burners and bench incinerators anaerobic jars incubators, water baths, refrigerators, freezers and possibly dry ice and liquid nitrogen cylinders laminar flow units and biohazard cabinets autoclave or pressure cooker swabs continuous culture systems |
The range of material | The range of material may involve: solid and/or liquid media supplied media, such as media manufactured in the enterprise or raw material supplies for media disinfecting and sterilising agents and materials, such as methylated spirits, ethanol and ether disposable equipment and clothing tissue culture media growth media in broths, plates, deeps or slopes receptacles for safe disposal of wastes and for processing of reusable materials bar coding material and labels |
Sterilisation techniques | Sterilisation techniques may include: autoclaving flaming steam and membrane filtration boiling microwaving radiation high temperature high pressure steam gas and chemical treatments |
Quality control checks | Quality control checks may include: streaking out of cultures to a single colony lawn cultures |
Hazards | Hazards may include: accessing the sample from difficult or dangerous areas dry ice and liquid nitrogen vapour ultraviolet (UV) light sources heat from Bunsen burners molten agar sharps hazardous substances and/or infectious agents |
Workplace information | Workplace information may include: SOPs specifications for safe waste disposal of bio-hazardous materials production schedules and instructions work notes MSDS manufacturer's instructions verbal instructions from laboratory manager, supervisor or senior technician guidelines for small scale genetic manipulation work |
Occupational health and safety (OHS) and environmental management requirements | OHS and environmental management requirements: all operations must comply with enterprise OHS and environmental management requirements, which may be imposed through state/territory or federal legislation - these requirements must not be compromised at any time all operations assume the potentially hazardous nature of samples and require standard precautions to be applied where relevant, users should access and apply current industry understanding of infection control issued by the National Health and Medical Research Council (NHMRC) and State and Territory Departments of Health |
Copy and paste from the following performance criteria to create an observation checklist for each task. When you have finished writing your assessment tool every one of these must have been addressed, preferably several times in a variety of contexts. To ensure this occurs download the assessment matrix for the unit; enter each assessment task as a column header and place check marks against each performance criteria that task addresses.
Observation Checklist
Tasks to be observed according to workplace/college/TAFE policy and procedures, relevant legislation and Codes of Practice | Yes | No | Comments/feedback |
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Ensure that any sampling procedure conforms with the requirements of the sampling plan | |||
Use specified personal protective clothing and equipment | |||
Prepare the work area for safe and effective sample transfer | |||
Select equipment and materials specified by the procedure | |||
Organise equipment to minimise contamination during manipulations | |||
Label containers for clear identification | |||
Record details in relevant log or database | |||
Protect the integrity of the sample source by sterilising the sampling site and the mouth of transport or culture vessel | |||
Sterilise inoculating loops and/or pipette where used to prevent contamination | |||
Perform transfer while minimising opportunities for contamination and cross-infection | |||
After transfer, and before sealing the transport or culture vessel, flame the vessel mouth to maintain sterility | |||
Re-sterilise inoculating loops, minimising the generation of aerosols | |||
Perform quality control checks, if required | |||
Label transport or culture vessels for clear identification | |||
Place disposable and reusable items into relevant receptacles | |||
Clean and disinfect work area and equipment after use | |||
Transport disposable and reusable contaminated materials to relevant areas for disinfection, sterilisation and cleaning or disposal |
Forms
Assessment Cover Sheet
MSL973004A - Perform aseptic techniques
Assessment task 1: [title]
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Assessment Record Sheet
MSL973004A - Perform aseptic techniques
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Overall assessment result: Competent Not yet competent
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